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Home My WebLink AboutDAQ-2024-011086 DAQE-AN161600001-24 {{$d1 }} Grant Ensign Geneva Rock Products, Inc. 730 North 1500 West Orem, UT 84057 gensign@clydeinc.com Dear Mr. Ensign: Re: Approval Order: New Mona Aggregate Production Facility, Concrete Batch Plant, and Hot Mix Asphalt Plant Project Number: N161600001 The attached Approval Order (AO) is issued pursuant to the Notice of Intent (NOI) received on July 13, 2023. Geneva Rock Products, Inc. must comply with the requirements of this AO, all applicable state requirements (R307), and Federal Standards. The project engineer for this action is Mr. Tim DeJulis, who can be contacted at (385) 306-6523 or tdejulis@utah.gov. Future correspondence on this AO should include the engineer's name as well as the DAQE number shown on the upper right-hand corner of this letter. No public comments were received on this action. Sincerely, {{$s }} Bryce C. Bird Director BCB:TD:jg cc: Central Utah Health Department 195 North 1950 West • Salt Lake City, UT Mailing Address: P.O. Box 144820 • Salt Lake City, UT 84114-4820 Telephone (801) 536-4000 • Fax (801) 536-4099 • T.D.D. (801) 536-4414 www.deq.utah.gov Printed on 100% recycled paper State of Utah SPENCER J. COX Governor DEIDRE HENDERSON Lieutenant Governor Department of Environmental Quality Kimberly D. Shelley Executive Director DIVISION OF AIR QUALITY Bryce C. Bird Director September 27, 2024 STATE OF UTAH Department of Environmental Quality Division of Air Quality {{#s=Sig_es_:signer1:signature}} {{#d1=date1_es_:signer1:date:format(date, "mmmm d, yyyy")}} {{#d2=date1_es_:signer1:date:format(date, "mmmm d, yyyy"):align(center)}} APPROVAL ORDER DAQE-AN161600001-24 New Mona Aggregate Production Facility, Concrete Batch Plant, and Hot Mix Asphalt Plant Prepared By Mr. Tim DeJulis, Engineer (385) 306-6523 tdejulis@utah.gov Issued to Geneva Rock Products, Inc. - Mona Asphalt, Concrete, and Aggregate Pit Issued On {{$d2 }} Issued By {{$s }} Bryce C. Bird Director Division of Air Quality September 27, 2024 TABLE OF CONTENTS TITLE/SIGNATURE PAGE ....................................................................................................... 1 GENERAL INFORMATION ...................................................................................................... 3 CONTACT/LOCATION INFORMATION ............................................................................... 3 SOURCE INFORMATION ........................................................................................................ 3 General Description ................................................................................................................ 3 NSR Classification .................................................................................................................. 3 Source Classification .............................................................................................................. 3 Applicable Federal Standards ................................................................................................. 3 Project Description.................................................................................................................. 4 SUMMARY OF EMISSIONS .................................................................................................... 4 SECTION I: GENERAL PROVISIONS .................................................................................... 4 SECTION II: PERMITTED EQUIPMENT .............................................................................. 5 SECTION II: SPECIAL PROVISIONS ..................................................................................... 7 PERMIT HISTORY ................................................................................................................... 14 ACRONYMS ............................................................................................................................... 15 DAQE-AN161600001-24 Page 3 GENERAL INFORMATION CONTACT/LOCATION INFORMATION Owner Name Source Name Geneva Rock Products, Inc. Geneva Rock Products, Inc. - Mona Asphalt, Concrete, and Aggregate Pit Mailing Address Physical Address 730 North 1500 West 1.5 Miles Northeast of Mona Orem, UT 84057 Mona, UT Source Contact UTM Coordinates Name: Grant Ensign 429,887 m Easting Phone: (801) 802-6954 4,408,585 m Northing Email: gensign@clydeinc.com Datum NAD83 UTM Zone 12 SIC code 1442 (Construction Sand & Gravel) SOURCE INFORMATION General Description Geneva Rock Products, Inc. (GRP) operates an aggregate processing plant, concrete batch plant (CBP), and hot mix asphalt (HMA) plant located in Mona, Juab County. Aggregate is processed for sale and for use in the concrete and asphalt plants. Equipment in use at the site includes: crushers, screens, conveyors, conveyor transfers, aggregate feeder bins, wash plant, feeding bins, staging bins, truck mix concrete batch plant, drum-mix dryer, a baghouse, a lime pugmill, lime silo, storage tanks, and a diesel-fired heater. The Mona plant produces up to 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt. NSR Classification New Minor Source Source Classification Located in Attainment Area Juab County Airs Source Size: B Applicable Federal Standards NSPS (Part 60), A: General Provisions NSPS (Part 60), I: Standards of Performance for HMA Facilities NSPS (Part 60), OOO: Standards of Performance for Nonmetallic Mineral Processing Plants DAQE-AN161600001-24 Page 4 Project Description GRP has requested a new AO to mine aggregate for sale and also for use in the CBP and HMA plant in the property boundaries. GRP will produce 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt product. GRP will use six (6) crushers, six (6) triple deck screens, 15 conveyor transfers, four (4) aggregate feeder bins, and one (1) wash plant in the aggregate production facility. The active aggregate mining area will be 25 acres. Stockpiles will be a maximum of 15 acres. Four (4) diesel fuel storage tanks with a 12,000 gallon capacity each will supply the front-end loaders, bulldozers, and haul trucks with a total throughput of 288,000 gallons each. The onsite roads will consist of paved and unpaved haul roads. The CBP has four (4) staging bins containing fly ash, cement, sand, and aggregate; feeders to the central mix area; and a water heater. The asphalt plant has feeding bins, transfer conveyors, a scalping screen, a drum-mix dryer, a baghouse, a lime pugmill, a lime silo with an attached dust collector, liquid asphalt storage tanks, and a diesel-fired heater. SUMMARY OF EMISSIONS The emissions listed below are an estimate of the total potential emissions from the source. Some rounding of emissions is possible. Criteria Pollutant Change (TPY) Total (TPY) CO2 Equivalent 10433.00 Carbon Monoxide 35.49 Nitrogen Oxides 23.07 Particulate Matter - PM10 38.77 Particulate Matter - PM2.5 5.64 Sulfur Dioxide 14.60 Volatile Organic Compounds 12.74 Hazardous Air Pollutant Change (lbs/yr) Total (lbs/yr) Acetaldehyde (CAS #75070) 650 Formaldehyde (CAS #50000) 1600 Generic HAPs (CAS #GHAPS) 1160 Hexane (CAS #110543) 460 Naphthalene (CAS #91203) 436 Toluene (CAS #108883) 1464 Change (TPY) Total (TPY) Total HAPs 2.89 SECTION I: GENERAL PROVISIONS I.1 All definitions, terms, abbreviations, and references used in this AO conform to those used in the UAC R307 and 40 CFR. Unless noted otherwise, references cited in these AO conditions refer to those rules. [R307-101] DAQE-AN161600001-24 Page 5 I.2 The limits set forth in this AO shall not be exceeded without prior approval. [R307-401] I.3 Modifications to the equipment or processes approved by this AO that could affect the emissions covered by this AO must be reviewed and approved. [R307-401-1] I.4 All records referenced in this AO or in other applicable rules, which are required to be kept by the owner/operator, shall be made available to the Director or Director's representative upon request, and the records shall include the two-year period prior to the date of the request. Unless otherwise specified in this AO or in other applicable state and federal rules, records shall be kept for a minimum of two (2) years. [R307-401-8] I.5 At all times, including periods of startup, shutdown, and malfunction, owners and operators shall, to the extent practicable, maintain and operate any equipment approved under this AO, including associated air pollution control equipment, in a manner consistent with good air pollution control practice for minimizing emissions. Determination of whether acceptable operating and maintenance procedures are being used will be based on information available to the Director which may include, but is not limited to, monitoring results, opacity observations, review of operating and maintenance procedures, and inspection of the source. All maintenance performed on equipment authorized by this AO shall be recorded. [R307-401-4] I.6 The owner/operator shall comply with UAC R307-107. General Requirements: Breakdowns. [R307-107] I.7 The owner/operator shall comply with UAC R307-150 Series. Emission Inventories. [R307-150] I.8 The owner/operator shall submit documentation of the status of construction or modification to the Director within 18 months from the date of this AO. This AO may become invalid if construction is not commenced within 18 months from the date of this AO or if construction is discontinued for 18 months or more. To ensure proper credit when notifying the Director, send the documentation to the Director, attn.: NSR Section. [R307-401-18] SECTION II: PERMITTED EQUIPMENT II.A THE APPROVED EQUIPMENT II.A.1 Geneva Rock Mona HMA, Concrete, and Aggregate Site II.A.2 Crushers Two (2) Jaw, Cone, VSI, or HSI Crushers 1000 tons/hr each NSPS Subpart OOO Four (4) Jaw, Cone, VSI, or HSI Crushers 600 tons/hr each NSPS Subpart OOO II.A.3 Screens Six (6) Triple-Deck Screens 20' x 30' each NSPS Subpart OOO DAQE-AN161600001-24 Page 6 II.A.4 Various Conveyors NSPS Subpart OOO One (1) Aggregate Wash Plant Conveyor Listed for informational purposes only. II.A.5 Aggregate Feeder Bins Four (4) Aggregate Feeder Bins NSPS Subpart OOO II.A.6 Concrete Batch Plant One (1) CBP with the following equipment: One (1) sand storage silo One (1) aggregate storage silo One (1) 60-ton flyash storage silo with a dust collector Two (2) 80-ton cement storage silos with a dust collector each One (1) weigh hopper One (1) 9.9 MMBtu/hr water heater (see below item in this equipment list) Assorted conveyors II.A.7 Concrete Batch Plant Boiler One (1) CBP Boiler Capacity: 9.9 MMBtu/hr Fuel: diesel, propane, or natural gas II.A.8 Hot Mix Asphalt Plant One (1) HMA Plant with the following equipment included: One (1) drum mix dryer with a heating unit (see below item in this equipment list) One (1) mixing drum One (1) lime pugmill system One (1) lime silo with a dust collector One (1) fabric filter (see below item in this equipment list) One (1) 5.0 MMBtu/hr boiler (see below item in this equipment list) Six (6) asphalt oil storage tanks (see below item in this equipment list) NSPS Subpart I II.A.9 Asphalt Plant Boiler One (1) Asphalt Plant Boiler Capacity: 5.0 MMBtu/hr Fuel: Natural Gas, Propane, Diesel Fuel, or On-Specification Used Oil NSPS Subpart I II.A.10 Asphalt Drum Mixer One (1) Asphalt Drum Mixer with Heater Capacity: 425 tons/hr Rating: 150 MMBtu/hr Fuel: Natural Gas, Propane, Diesel Fuel, or On-Specification Used Oil NSPS Subpart I II.A.11 Asphalt Drum Mixer Baghouse One (1) Baghouse Flowrate: 86,217 dscfm DAQE-AN161600001-24 Page 7 II.A.12 Storage Tanks Twelve (12) Storage Tanks Capacities: Tank 1 - 4 12,000 gallons (diesel fuel) each Tank 5 4,000 gallons (asphalt cement) Tank 6 25,000 gallons (asphalt cement) Tank 7 30,000 gallons (asphalt cement) Tank 8 35,000 gallons (asphalt cement) Tank 9 - 10 60,000 gallons (asphalt cement) each Tank 11 60,000 gallons (RFO) Tank 12 250,000 gallons (asphalt cement) SECTION II: SPECIAL PROVISIONS II.B REQUIREMENTS AND LIMITATIONS II.B.1 Plantwide Requirements II.B.1.a The owner/operator shall not produce more than the following: A. 1,000,000 tons of aggregate per rolling 12-month period. B. 300,000 cubic yards of concrete per rolling 12-month period. C. 500,000 tons of finished asphalt per rolling 12-month period. [R307-401-8] II.B.1.a.1 The owner/operator shall: A. Determine production with a scale or a cubic yard measurement device. B. Record production on a daily basis. C. Use the production data to calculate a new rolling 12-month total by the 20th day of each month using data from the previous 12 months. D. Keep the production records for all periods the plant is in operation. [R307-401-8] II.B.2 HMA Plant Requirements II.B.2.a The owner/operator shall not allow visible emissions from the HMA plant baghouse or storage silo fabric filters on site to exceed 10% opacity. [R307-401-8] II.B.2.a.1 Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] DAQE-AN161600001-24 Page 8 II.B.2.b The owner/operator shall not emit more than the following rates and concentrations from the HMA plant baghouse: Pollutant lb/hr grains/dscf Filterable PM10 9.80 0.024 Filterable PM2.5 1.20 0.024 [R307-401-8] II.B.2.b.1 Compliance Demonstration To demonstrate compliance with the emission limitations above, the owner/operator shall perform stack testing on the emissions unit according to the stack testing conditions contained in this AO. [R307-165-2, R307-401-8] II.B.2.b.2 Initial Test The owner/operator shall conduct an initial stack test on the emission unit within 180 days after startup of the emission unit. [R307-165-2] II.B.2.b.3 Test Frequency The owner/operator shall conduct a stack test on the emission unit within five years after the date of the most recent stack test of the emission unit. The Director may require the owner/operator to perform a stack test at any time. [R307-165-2, R307-401-8] II.B.3 Stack Testing Requirements II.B.3.a The owner/operator shall conduct any stack testing required by this AO according to the following conditions. [R307-401-8] II.B.3.a.1 Notification At least 30 days prior to conducting a stack test, the owner/operator shall submit a source test protocol to the Director. The source test protocol shall include the items contained in R307-165-3. If directed by the Director, the owner/operator shall attend a pretest conference. [R307-165-3, R307-401-8] II.B.3.a.2 Testing & Test Conditions The owner/operator shall conduct testing according to the approved source test protocol and according to the test conditions contained in R307-165-4. [R307-165-4, R307-401-8] II.B.3.a.3 Access The owner/operator shall provide Occupational Safety and Health Administration (OSHA)- or Mine Safety and Health Administration (MSHA)-approved access to the test location. [R307-401-8] II.B.3.a.4 Reporting No later than 60 days after completing a stack test, the owner/operator shall submit a written report of the results from the stack testing to the Director. The report shall include validated results and supporting information. [R307-165-5, R307-401-8] II.B.3.a.5 Possible Rejection of Test Results The Director may reject stack testing results if the test did not follow the approved source test protocol or for a reason specified in R307-165-6. [R307-165-6, R307-401-8] II.B.3.b Test Methods When performing stack testing, the owner/operator shall use the appropriate EPA-approved test methods as acceptable to the Director. Acceptable test methods for pollutants are listed below. [R307-401-8] DAQE-AN161600001-24 Page 9 II.B.3.b.1 Standard Conditions A. Temperature - 68 degrees Fahrenheit (293 K). B. Pressure - 29.92 in Hg (101.3 kPa). C. Averaging Time - As specified in the applicable test method. [40 CFR 60 Subpart A, 40 CFR 63 Subpart A, R307-401-8] II.B.3.b.2 Filterable PM10 40 CFR 60, Appendix A, Method 5; 40 CFR 51, Appendix M, Method 201; Method 201A; or other EPA-approved testing method as acceptable to the Director. If other approved testing methods are used which cannot measure the PM10 fraction of the filterable particulate emissions, all of the filterable particulate emissions shall be considered PM10. [R307-401-8] II.B.3.b.3 Filterable PM2.5 40 CFR 60, Appendix A, Method 5; 40 CFR 51, Appendix M, Method 201A or other EPA-approved testing method as acceptable to the Director. If other approved testing methods are used which cannot measure the PM2.5 fraction of the filterable particulate emissions, all of the filterable particulate emissions shall be considered PM2.5. [R307-401-8] II.B.3.c The owner/operator shall use natural gas, propane, diesel fuel (e.g., fuel oil #1 or #2), on-specification used oil as defined in R315-15, or any combination thereof as fuel in the HMA plant. [R307-401-8] II.B.3.d The owner/operator shall only combust diesel fuel that meets the definition of ultra-low sulfur diesel (ULSD), which has a sulfur content of 15 ppm or less. [R307-401-8] II.B.3.d.1 To demonstrate compliance with the ULSD fuel requirement, the owner/operator shall maintain records of diesel fuel purchase invoices or obtain certification of sulfur content from the diesel fuel supplier. The diesel fuel purchase invoices shall indicate that the diesel fuel meets the ULSD requirements. [R307-401-8] II.B.4 Baghouse Requirements II.B.4.a The owner/operator shall use a baghouse to control particulate emissions from the HMA plant dryer and mixer drums on site. [R307-401-8] II.B.4.b The owner/operator shall install a manometer or magnehelic pressure gauge to measure the static pressure drop across the HMA plant baghouse. [R307-401-8] II.B.4.b.1 The pressure gauge shall be located such that an inspector/operator can safely read the indicator at any time. [R307-401-8] II.B.4.b.2 The pressure gauge shall measure the pressure drop in 1-inch water column increments or less. [R307-401-8] II.B.4.c At least once every 12 months, the owner/operator shall calibrate the pressure gauges in accordance with the manufacturer's instructions or replace the gauges. [R307-401-8] II.B.4.c.1 The owner/operator shall maintain records of the pressure gauge calibrations and replacements. [R307-401-8] II.B.4.d The owner/operator shall maintain the static pressure drop across the HMA plant baghouse during operation between 1.5 and 8 inches of water column. [R307-401-8] II.B.4.d.1 The owner/operator shall record the pressure drop at least once per operating day. [R307-401-8] DAQE-AN161600001-24 Page 10 II.B.4.d.2 The owner/operator shall maintain records of the pressure drop readings. [R307-401-8] II.B.4.e The owner/operator shall install a fabric filter on each lime storage silo associated with the HMA plant to control particulate emissions generated during the filling of the lime silos. Displaced air from each lime silo shall pass through a fabric filter before being vented to the atmosphere. [R307-401-8] II.B.5 Concrete Batch Plant Requirements II.B.5.a The owner/operator shall use a baghouse to control emissions from the weigh hopper loading of the concrete batch plant. [R307-401-8] II.B.5.b The owner/operator shall install a manometer or magnehelic pressure gauge to measure the static pressure drop across the CBP baghouse. [R307-401-8] II.B.5.b.1 The pressure gauge shall be located such that an inspector/operator can safely read the indicator at any time. [R307-401-8] II.B.5.b.2 The pressure gauge shall measure the pressure drop in 1-inch water column increments or less. [R307-401-8] II.B.5.c At least once every 12 months, the owner/operator shall calibrate the pressure gauges in accordance with the manufacturer's instructions or replace the gauges. [R307-401-8] II.B.5.c.1 The owner/operator shall maintain records of the pressure gauge calibrations and replacements. [R307-401-8] II.B.5.d The owner/operator shall maintain the static pressure drop across the CBP baghouse during operation between 1.5 and 8 inches of water column. [R307-401-8] II.B.5.d.1 The owner/operator shall record the pressure drop at least once per operating day. [R307-401-8] II.B.5.d.2 The owner/operator shall maintain records of the pressure drop readings. [R307-401-8] II.B.5.e The owner/operator shall install a fabric filter on each material storage silo associated with the CBP to control particulate emissions generated during the filling of the silos. Displaced air from each silo shall pass through a fabric filter before being vented to the atmosphere. [R307-401-8] II.B.5.f The owner/operator shall not allow visible emissions from the CBP baghouse or storage silo fabric filters on site to exceed 7% opacity. [R307-401-8] II.B.5.f.1 Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.6 Aggregate Processing Requirements II.B.6.a The owner/operator shall install water sprays on each crusher, screen, conveyor transfer point, and conveyor drop point on site to control emissions. Water sprays shall operate as necessary to prevent visible emissions from exceeding the opacity limits listed in this AO. [R307-401-8] II.B.6.b The owner/operator shall perform monthly periodic inspections to check that water is flowing to water sprays associated with each crusher, screen, and conveyor. If the owner/operator finds that water is not flowing properly during an inspection of the water sprays, the owner/operator shall initiate corrective action within 24 hours and complete corrective action as expediently as practical. [40 CFR 60 Subpart OOO, R307-401-8] DAQE-AN161600001-24 Page 11 II.B.6.b.1 Records of the water spray inspections shall be maintained in a logbook for all periods when the plant is in operation. The records shall include the following items: A. Date the inspections were made. B. Any corrective actions taken. C. Control mechanism used if sprays are not operating. [40 CFR 60 Subpart OOO, R307-401-8] II.B.6.c The owner/operator shall not exceed the following opacity limits for indicated the emission units. A. Crushers - 12% Opacity. B. Screens - 7% Opacity. C. Conveyor Transfer Points - 7% Opacity. D. Conveyor Drop Points - 7% Opacity. E. All Other Points - 20% Opacity. [40 CFR 60 Subpart OOO, R307-401-8] II.B.6.c.1 Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.6.d The owner/operator shall not operate the aggregate production and hauling for 17 hours per day, before 6 a.m. and after 11 p.m., after December 1st to before March 1st. The owner/operator may operate the aggregate production and hauling 24-hours per day the rest of the year. [R307-401-8] II.B.6.d.1 The owner/operator shall keep and maintain the following records of operation for all periods of aggregate production and hauling: A. Time operations begin each day. B. Time operations end each day. [R307-401-8] II.B.7 Crushers, Screens, and Conveyors Subject to NSPS Subpart OOO: II.B.7.a The owner/operator shall conduct an initial performance test for each crusher, screen, and conveyor transfer point on site. Performance tests shall demonstrate compliance with the limitations specified in Table 3 to Subpart OOO. [40 CFR 60 Subpart OOO] II.B.7.a.1 Initial performance tests for fugitive emissions limits shall be conducted according to 40 CFR 60.675(c). The owner or operator may use methods and procedures specified in 40 CFR 60.675(e) as alternatives to the reference methods and procedures specified in 40 CFR 60.675(c). [40 CFR 60 Subpart OOO] II.B.7.a.2 The owner/operator shall keep and maintain records of the initial performance test for each crusher, screen, and conveyor for the life of the equipment. [40 CFR 60 Subpart OOO, R307-401-8] DAQE-AN161600001-24 Page 12 II.B.8 Haul Roads and Fugitive Dust Requirements II.B.8.a The owner/operator shall not allow visible emissions from haul roads and fugitive dust sources to exceed 20% opacity on site. [R307-205-4, R307-401-8] II.B.8.a.1 Visible emission determinations for fugitive dust from haul roads and operational areas shall use procedures similar to Method 9. The normal requirement for observations to be made at 15-second intervals over a six-minute period, however, shall not apply. Visible emissions shall be measured at the densest point of the plume but at a point not less than one-half vehicle length behind the vehicle and not less than one-half the height of the vehicle. [R307-205-4, R307-401-8] II.B.8.b The owner/operator shall pave the haul road from the site entrance to the HMA plant. [R307-401-8] II.B.8.c The haul roads shall comply with the following lengths: A. Paved haul roads shall not be less than 550 feet. B. Unpaved hot-mix asphalt haul road shall not exceed 3,221 feet. C. Unpaved concrete haul road shall not exceed 2,535 feet. D. Unpaved wash plant haul road shall not exceed 2,693 feet. E. Unpaved aggregate haul road shall not exceed 5,544 feet. F. Loader main operating area shall not exceed 264 feet. [R307-401-8] II.B.8.c.1 Compliance shall be determined through Global Positioning System (GPS) measurements or aerial photographs. [R307-401-8] II.B.8.c.2 The owner/operator shall measure the six (6) roadways once per year each. The owner/operator shall keep these measurements in a log book. [R307-401-8] II.B.8.d The owner/operator shall cover all unpaved haul roads and wheeled-vehicle operational areas with road base and chemical suppressants to maintain the opacity limits in this AO. An operational water truck shall be available during each operating day. [R307-401-8] II.B.8.d.1 The owner/operator shall keep the following records for water and/or chemical dust suppressant application: A. The material used. B. The date of application. C. The quantity used. [R307-401-8] II.B.8.d.2 The owner/operator shall use water application to maintain the opacity limits listed in this AO. [R307-401-8] II.B.8.d.3 If the temperature is below freezing, the owner/operator may stop applying water to the unpaved haul roads or wheeled-vehicle operational areas. [R307-401-8] DAQE-AN161600001-24 Page 13 II.B.8.e The owner/operator shall vacuum sweep and flush with water all the paved roads on site to maintain the opacity limits in this AO. An operational vacuum sweeper and water truck shall be available each operating day. [R307-401-8] II.B.8.e.1 If the temperature is below freezing, the owner/operator shall continue to sweep the paved haul road but may stop flushing the roads with water. If the paved haul roads are covered with snow or ice, the owner/operator may stop vacuum sweeping. [R307-401-8] II.B.8.e.2 The owner/operator shall not exceed a combined area of 15 acres of all storage piles. [R307-401-8] II.B.8.e.3 To determine compliance with the total acres of the storage piles, the owner/operator shall measure the total area of the storage piles at least once every six months and shall maintain a record of the total acres of the storage piles. Compliance shall be determined through GPS measurements or aerial photographs. The area of each storage pile shall be added together to obtain the total area of all the storage piles on site. Records of the total acres of the storage piles shall contain the following: A. Date of measurement. B. Size of each storage pile on site. C. Total acres of all storage piles combined. [R307-401-8] II.B.8.f The owner/operator shall not exceed a combined disturbed mining area of 25 acres. [R307-401-8] II.B.8.f.1 Compliance shall be determined through GPS measurements or aerial photographs. [R307-401-8] II.B.8.f.2 The owner/operator shall measure the disturbed mining area once per year. The owner/operator shall keep the measurement in a log book. [R307-401-8] II.B.8.g The owner/operator shall apply water to fugitive dust sources to prevent visible emissions from exceeding the opacity limits listed in this AO. The owner/operator may stop applying water to fugitive dust sources when the temperature is below freezing, but shall apply other controls as necessary to prevent visible emissions from exceeding the opacity limits listed in this AO. [R307-205-4, R307-401-8] II.B.8.g.1 The owner/operator shall keep records of water application and fugitive dust control for all periods when the plant is in operation. The records shall include the following items: A. Date and time treatments were made. B. Number of treatments made and quantity of water applied. C. Rainfall amount received, if any. D. Records of temperature, if the temperature is below freezing. E. Records of any other controls used to reduce fugitive dust. [R307-205-4, R307-401-8] DAQE-AN161600001-24 Page 14 PERMIT HISTORY This Approval Order shall supersede (if a modification) or will be based on the following documents: Is Derived From NOI dated July 13, 2023 Incorporates Additional information dated October 30, 2023 Incorporates Modeling completed dated November 21, 2023 Incorporates Additional information dated May 22, 2024 DAQE-AN161600001-24 Page 15 ACRONYMS The following lists commonly used acronyms and associated translations as they apply to this document: 40 CFR Title 40 of the Code of Federal Regulations AO Approval Order BACT Best Available Control Technology CAA Clean Air Act CAAA Clean Air Act Amendments CDS Classification Data System (used by Environmental Protection Agency to classify sources by size/type) CEM Continuous emissions monitor CEMS Continuous emissions monitoring system CFR Code of Federal Regulations CMS Continuous monitoring system CO Carbon monoxide CO2 Carbon Dioxide CO2e Carbon Dioxide Equivalent - Title 40 of the Code of Federal Regulations Part 98, Subpart A, Table A-1 COM Continuous opacity monitor DAQ/UDAQ Division of Air Quality DAQE This is a document tracking code for internal Division of Air Quality use EPA Environmental Protection Agency FDCP Fugitive dust control plan GHG Greenhouse Gas(es) - Title 40 of the Code of Federal Regulations 52.21 (b)(49)(i) GWP Global Warming Potential - Title 40 of the Code of Federal Regulations Part 86.1818- 12(a) HAP or HAPs Hazardous air pollutant(s) ITA Intent to Approve LB/YR Pounds per year MACT Maximum Achievable Control Technology MMBTU Million British Thermal Units NAA Nonattainment Area NAAQS National Ambient Air Quality Standards NESHAP National Emission Standards for Hazardous Air Pollutants NOI Notice of Intent NOx Oxides of nitrogen NSPS New Source Performance Standard NSR New Source Review PM10 Particulate matter less than 10 microns in size PM2.5 Particulate matter less than 2.5 microns in size PSD Prevention of Significant Deterioration PTE Potential to Emit R307 Rules Series 307 R307-401 Rules Series 307 - Section 401 SO2 Sulfur dioxide Title IV Title IV of the Clean Air Act Title V Title V of the Clean Air Act TPY Tons per year UAC Utah Administrative Code VOC Volatile organic compounds DAQE-IN161600001-24 August 15, 2024 Grant Ensign Geneva Rock Products, Inc. 730 North 1500 West Orem, UT 84057 gensign@clydeinc.com Dear Mr. Ensign: Re: Intent to Approve: New Mona Aggregate Production Facility, Concrete Batch Plant, and Hot Mix Asphalt Plant Project Number: N161600001 The attached document is the Intent to Approve (ITA) for the above-referenced project. The ITA is subject to public review. Any comments received shall be considered before an Approval Order (AO) is issued. The Division of Air Quality is authorized to charge a fee for reimbursement of the actual costs incurred in the issuance of an AO. An invoice will follow upon issuance of the final AO. Future correspondence on this ITA should include the engineer's name, Mr. Tim DeJulis, as well as the DAQE number as shown on the upper right-hand corner of this letter. Mr. Tim DeJulis, can be reached at (385) 306-6523 or tdejulis@utah.gov, if you have any questions. Sincerely, {{$s }} Alan D. Humpherys, Manager New Source Review Section ADH:TD:jg cc: Central Utah Health Department 195 North 1950 West • Salt Lake City, UT Mailing Address: P.O. Box 144820 • Salt Lake City, UT 84114-4820 Telephone (801) 536-4000 • Fax (801) 536-4099 • T.D.D. (801) 536-4414 www.deq.utah.gov Printed on 100% recycled paper State of Utah SPENCER J. COX Governor DEIDRE HENDERSON Lieutenant Governor Department of Environmental Quality Kimberly D. Shelley Executive Director DIVISION OF AIR QUALITY Bryce C. Bird Director STATE OF UTAH Department of Environmental Quality Division of Air Quality INTENT TO APPROVE DAQE-IN161600001-24 New Mona Aggregate Production Facility, Concrete Batch Plant, and Hot Mix Asphalt Plant Prepared By Mr. Tim DeJulis, Engineer (385) 306-6523 tdejulis@utah.gov Issued to Geneva Rock Products - Mona Asphalt, Concrete, and Aggregate Pit Issued On August 15, 2024 {{$s }} New Source Review Section Manager Alan D. Humpherys {{#s=Sig_es_:signer1:signature}} TABLE OF CONTENTS TITLE/SIGNATURE PAGE ....................................................................................................... 1 GENERAL INFORMATION ...................................................................................................... 3 CONTACT/LOCATION INFORMATION ............................................................................... 3 SOURCE INFORMATION ........................................................................................................ 3 General Description ................................................................................................................ 3 NSR Classification .................................................................................................................. 3 Source Classification .............................................................................................................. 3 Applicable Federal Standards ................................................................................................. 3 Project Description.................................................................................................................. 4 SUMMARY OF EMISSIONS .................................................................................................... 4 PUBLIC NOTICE STATEMENT............................................................................................... 4 SECTION I: GENERAL PROVISIONS .................................................................................... 5 SECTION II: PERMITTED EQUIPMENT .............................................................................. 6 SECTION II: SPECIAL PROVISIONS ..................................................................................... 8 PERMIT HISTORY ................................................................................................................... 14 ACRONYMS ............................................................................................................................... 15 DAQE-IN161600001-24 Page 3 GENERAL INFORMATION CONTACT/LOCATION INFORMATION Owner Name Source Name Geneva Rock Products, Inc. Geneva Rock Products - Mona Asphalt, Concrete, and Aggregate Pit Mailing Address Physical Address 730 North 1500 West 1.5 Miles Northeast of Mona Orem, UT 84057 Mona, UT Source Contact UTM Coordinates Name: Grant Ensign 429,887 m Easting Phone: (801) 802-6954 4,408,585 m Northing Email: gensign@clydeinc.com Datum NAD83 UTM Zone 12 SIC code 1442 (Construction Sand & Gravel) SOURCE INFORMATION General Description Geneva Rock Products (GRP) operates an aggregate processing plant, a concrete batch plant, and a hot mix asphalt (HMA) plant located in Mona, Juab County. Aggregate is processed for sale and for use in the concrete and asphalt plants. Equipment in use at the site includes crushers, screens, conveyors, conveyor transfers, aggregate feeder bins, a wash plant, feeding bins, staging bins, a truck mix concrete batch plant (CBP), a drum-mix dryer, a baghouse, a lime pugmill, a lime silo, storage tanks, and a diesel- fired heater. The Mona plant produces up to 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt. NSR Classification New Minor Source Source Classification Located in Attainment Area Juab County Airs Source Size: B Applicable Federal Standards NSPS (Part 60), A: General Provisions NSPS (Part 60), I: Standards of Performance for Hot Mix Asphalt Facilities NSPS (Part 60), OOO: Standards of Performance for Nonmetallic Mineral Processing Plants DAQE-IN161600001-24 Page 4 Project Description GRP has requested a new AO to mine aggregate for sale and also for use in the CBP and HMA plant within the property boundaries. GRP will produce 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt product. GRP will use six (6) crushers, six (6) triple deck screens, 15 conveyor transfers, four (4) aggregate feeder bins, and one (1) wash plant in the aggregate production facility. The active aggregate mining area will be 25 acres. Stockpiles will be a maximum of 15 acres. Four (4) diesel fuel storage tanks with a 12,000-gallon capacity each will supply the front-end loaders, bulldozers, and haul trucks with a total throughput of 288,000 gallons each. The onsite roads will consist of paved and unpaved haul roads. The CBP has four (4) staging bins containing fly ash, cement, sand, and aggregate; feeders to the central mix area; and a water heater. The asphalt plant has feeding bins, transfer conveyors, a scalping screen, a drum-mix dryer, a baghouse, a lime pugmill, a lime silo with an attached dust collector, liquid asphalt storage tanks, and a diesel-fired heater. SUMMARY OF EMISSIONS The emissions listed below are an estimate of the total potential emissions from the source. Some rounding of emissions is possible. Criteria Pollutant Change (TPY) Total (TPY) CO2 Equivalent 10433.00 Carbon Monoxide 35.49 Nitrogen Oxides 23.07 Particulate Matter - PM10 38.77 Particulate Matter - PM2.5 5.64 Sulfur Dioxide 14.60 Volatile Organic Compounds 12.74 Hazardous Air Pollutant Change (lbs/yr) Total (lbs/yr) Acetaldehyde (CAS #75070) 650 Formaldehyde (CAS #50000) 1600 Generic HAPs (CAS #GHAPS) 1160 Hexane (CAS #110543) 460 Naphthalene (CAS #91203) 436 Toluene (CAS #108883) 1464 Change (TPY) Total (TPY) Total HAPs 2.89 PUBLIC NOTICE STATEMENT The NOI for the above-referenced project has been evaluated and has been found to be consistent with the requirements of UAC R307. Air pollution producing sources and/or their air control facilities may not be constructed, installed, established, or modified prior to the issuance of an AO by the Director. A 30-day public comment period will be held in accordance with UAC R307-401-7. A notification of the intent to approve will be published in the Nephi Times News on August 21, 2024. During the public comment period the proposal and the evaluation of its impact on air quality will be available for the DAQE-IN161600001-24 Page 5 public to review and provide comment. If anyone so requests a public hearing within 15 days of publication, it will be held in accordance with UAC R307-401-7. The hearing will be held as close as practicable to the location of the source. Any comments received during the public comment period and the hearing will be evaluated. The proposed conditions of the AO may be changed as a result of the comments received. SECTION I: GENERAL PROVISIONS The intent is to issue an air quality AO authorizing the project with the following recommended conditions and that failure to comply with any of the conditions may constitute a violation of the AO. I.1 All definitions, terms, abbreviations, and references used in this AO conform to those used in the UAC R307 and 40 CFR. Unless noted otherwise, references cited in these AO conditions refer to those rules. [R307-101] I.2 The limits set forth in this AO shall not be exceeded without prior approval. [R307-401] I.3 Modifications to the equipment or processes approved by this AO that could affect the emissions covered by this AO must be reviewed and approved. [R307-401-1] I.4 All records referenced in this AO or in other applicable rules, which are required to be kept by the owner/operator, shall be made available to the Director or Director's representative upon request, and the records shall include the two-year period prior to the date of the request. Unless otherwise specified in this AO or in other applicable state and federal rules, records shall be kept for a minimum of two (2) years. [R307-401-8] I.5 At all times, including periods of startup, shutdown, and malfunction, owners and operators shall, to the extent practicable, maintain and operate any equipment approved under this AO, including associated air pollution control equipment, in a manner consistent with good air pollution control practice for minimizing emissions. Determination of whether acceptable operating and maintenance procedures are being used will be based on information available to the Director which may include, but is not limited to, monitoring results, opacity observations, review of operating and maintenance procedures, and inspection of the source. All maintenance performed on equipment authorized by this AO shall be recorded. [R307-401-4] I.6 The owner/operator shall comply with UAC R307-107. General Requirements: Breakdowns. [R307-107] I.7 The owner/operator shall comply with UAC R307-150 Series. Emission Inventories. [R307-150] I.8 The owner/operator shall submit documentation of the status of construction or modification to the Director within 18 months from the date of this AO. This AO may become invalid if construction is not commenced within 18 months from the date of this AO or if construction is discontinued for 18 months or more. To ensure proper credit when notifying the Director, send the documentation to the Director, attn.: NSR Section. [R307-401-18] DAQE-IN161600001-24 Page 6 SECTION II: PERMITTED EQUIPMENT The intent is to issue an air quality AO authorizing the project with the following recommended conditions and that failure to comply with any of the conditions may constitute a violation of the AO. II.A THE APPROVED EQUIPMENT II.A.1 Geneva Rock Mona HMA, Concrete, and Aggregate Site II.A.2 Crushers Two (2) Jaw, Cone, VSI, or HSI Crushers 1000 tons/hr each NSPS Subpart OOO Four (4) Jaw, Cone, VSI, or HSI Crushers 600 tons/hr each NSPS Subpart OOO II.A.3 Screens Six (6) Triple-Deck Screens 20' x 30' each NSPS Subpart OOO II.A.4 Various Conveyors NSPS Subpart OOO One (1) Aggregate Wash Plant Conveyor Listed for informational purposes only. II.A.5 Aggregate Feeder Bins Four (4) Aggregate Feeder Bins NSPS Subpart OOO II.A.6 Concrete Batch Plant One (1) CBP with the following equipment: One (1) sand storage silo One (1) aggregate storage silo One (1) 60-ton fly ash storage silo with a dust collector Two (2) 80-ton cement storage silos with a dust collector each One (1) weigh hopper One (1) 9.9 MMBtu/hr water heater (see below item in this equipment list) Assorted conveyors II.A.7 Concrete Batch Plant Boiler One (1) CBP Boiler Capacity: 9.9 MMBtu/hr Fuel: diesel, propane, or natural gas DAQE-IN161600001-24 Page 7 II.A.8 Hot Mix Asphalt Plant One (1) HMA Plant with the following equipment included: One (1) drum mix dryer with a heating unit (see below item in this equipment list) One (1) mixing drum One (1) lime pugmill system One (1) lime silo with a dust collector One (1) fabric filter (see below item in this equipment list) One (1) 5.0 MMBtu/hr boiler (see below item in this equipment list) Six (6) asphalt oil storage tanks (see below item in this equipment list) NSPS Subpart I II.A.9 Asphalt Plant Boiler One (1) Asphalt Plant Boiler Capacity: 5.0 MMBtu/hr Fuel: Natural Gas, Propane, Diesel Fuel, or On-Specification Used Oil NSPS Subpart I II.A.10 Asphalt Drum Mixer One (1) Asphalt Drum Mixer with Heater Capacity: 425 tons/hr Rating: 150 MMBtu/hr Fuel: Natural Gas, Propane, Diesel Fuel, or On-Specification Used Oil NSPS Subpart I II.A.11 Asphalt Drum Mixer Baghouse One (1) Baghouse Flowrate: 86,217 dscfm II.A.12 Storage Tanks 12 Storage Tanks Capacities: Tank 1 - 4 12,000 gallons (diesel fuel) each Tank 5 4,000 gallons (asphalt cement) Tank 6 25,000 gallons (asphalt cement) Tank 7 30,000 gallons (asphalt cement) Tank 8 35,000 gallons (asphalt cement) Tank 9 - 10 60,000 gallons (asphalt cement) each Tank 11 60,000 gallons (RFO) Tank 12 250,000 gallons (asphalt cement) DAQE-IN161600001-24 Page 8 SECTION II: SPECIAL PROVISIONS The intent is to issue an air quality AO authorizing the project with the following recommended conditions and that failure to comply with any of the conditions may constitute a violation of the AO. II.B REQUIREMENTS AND LIMITATIONS II.B.1 Plantwide Requirements II.B.1.a The owner/operator shall not produce more than the following: A. 1,000,000 tons of aggregate per rolling 12-month period. B. 300,000 cubic yards of concrete per rolling 12-month period. C. 500,000 tons of finished asphalt per rolling 12-month period. [R307-401-8] II.B.1.a.1 The owner/operator shall: A. Determine production with a scale or a cubic yard measurement device. B. Record production on a daily basis. C. Use the production data to calculate a new rolling 12-month total by the 20th day of each month using data from the previous 12 months. D. Keep the production records for all periods the plant is in operation. [R307-401-8] II.B.2 HMA Plant Requirements II.B.2.a The owner/operator shall not allow visible emissions from the HMA plant baghouse or storage silo fabric filters on site to exceed 10% opacity. [R307-401-8] II.B.2.a.1 Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.2.b The owner/operator shall not emit more than the following rates and concentrations from the HMA plant baghouse: Pollutant lb/hr grains/dscf Filterable PM10 9.80 0.024 Filterable PM2.5 1.20 0.024. [R307-401-8] II.B.2.b.1 Compliance Demonstration To demonstrate compliance with the emission limitations above, the owner/operator shall perform stack testing on the emissions unit according to the stack testing conditions contained in this AO. [R307-165-2, R307-401-8] II.B.2.b.2 Initial Test The owner/operator shall conduct an initial stack test on the emission unit within 180 days after startup of the emission unit. [R307-165-2] DAQE-IN161600001-24 Page 9 II.B.2.b.3 Test Frequency The owner/operator shall conduct a stack test on the emission unit within five years after the date of the most recent stack test of the emission unit. The Director may require the owner/operator to perform a stack test at any time. [R307-165-2, R307-401-8] II.B.3 Stack Testing Requirements II.B.3.a The owner/operator shall conduct any stack testing required by this AO according to the following conditions. [R307-401-8] II.B.3.a.1 Notification At least 30 days prior to conducting a stack test, the owner/operator shall submit a source test protocol to the Director. The source test protocol shall include the items contained in R307-165-3. If directed by the Director, the owner/operator shall attend a pretest conference. [R307-165-3, R307-401-8] II.B.3.a.2 Testing & Test Conditions The owner/operator shall conduct testing according to the approved source test protocol and according to the test conditions contained in R307-165-4. [R307-165-4, R307-401-8] II.B.3.a.3 Access The owner/operator shall provide Occupational Safety and Health Administration (OSHA)- or Mine Safety and Health Administration (MSHA)-approved access to the test location. [R307-401-8] II.B.3.a.4 Reporting No later than 60 days after completing a stack test, the owner/operator shall submit a written report of the results from the stack testing to the Director. The report shall include validated results and supporting information. [R307-165-5, R307-401-8] II.B.3.a.5 Possible Rejection of Test Results The Director may reject stack testing results if the test did not follow the approved source test protocol or for a reason specified in R307-165-6. [R307-165-6, R307-401-8] II.B.3.b Test Methods When performing stack testing, the owner/operator shall use the appropriate EPA-approved test methods as acceptable to the Director. Acceptable test methods for pollutants are listed below. [R307-401-8] II.B.3.b.1 Standard Conditions A. Temperature - 68 degrees Fahrenheit (293 K). B. Pressure - 29.92 in Hg (101.3 kPa). C. Averaging Time - As specified in the applicable test method. [40 CFR 60 Subpart A, 40 CFR 63 Subpart A, R307-401-8] II.B.3.b.2 Filterable PM10 40 CFR 60, Appendix A, Method 5; 40 CFR 51, Appendix M, Method 201; Method 201A; or other EPA-approved testing method as acceptable to the Director. If other approved testing methods are used which cannot measure the PM10 fraction of the filterable particulate emissions, all of the filterable particulate emissions shall be considered PM10. [R307-401-8] DAQE-IN161600001-24 Page 10 II.B.3.b.3 Filterable PM2.5 40 CFR 60, Appendix A, Method 5; 40 CFR 51, Appendix M, Method 201A, or other EPA-approved testing method as acceptable to the Director. If other approved testing methods are used which cannot measure the PM2.5 fraction of the filterable particulate emissions, all of the filterable particulate emissions shall be considered PM2.5. [R307-401-8] II.B.3.c The owner/operator shall use natural gas, propane, diesel fuel (e.g., fuel oil #1 or #2), on-specification used oil as defined in R315-15, or any combination thereof as fuel in the HMA plant. [R307-401-8] II.B.3.d The owner/operator shall only combust diesel fuel that meets the definition of ultra-low sulfur diesel (ULSD), which has a sulfur content of 15 ppm or less. [R307-401-8] II.B.3.d.1 To demonstrate compliance with the ULSD fuel requirement, the owner/operator shall maintain records of diesel fuel purchase invoices or obtain certification of sulfur content from the diesel fuel supplier. The diesel fuel purchase invoices shall indicate that the diesel fuel meets the ULSD requirements. [R307-401-8] II.B.4 Baghouse Requirements II.B.4.a The owner/operator shall use a baghouse to control particulate emissions from the HMA plant dryer and mixer drums on site. [R307-401-8] II.B.4.b The owner/operator shall install a manometer or magnehelic pressure gauge to measure the static pressure drop across the HMA plant baghouse. [R307-401-8] II.B.4.b.1 The pressure gauge shall be located such that an inspector/operator can safely read the indicator at any time. [R307-401-8] II.B.4.b.2 The pressure gauge shall measure the pressure drop in 1-inch water column increments or less. [R307-401-8] II.B.4.c At least once every 12 months, the owner/operator shall calibrate the pressure gauges in accordance with the manufacturer's instructions or replace the gauges. [R307-401-8] II.B.4.c.1 The owner/operator shall maintain records of the pressure gauge calibrations and replacements. [R307-401-8] II.B.4.d The owner/operator shall maintain the static pressure drop across the HMA plant baghouse during operation between 1.5 and 8 inches of water column. [R307-401-8] II.B.4.d.1 The owner/operator shall record the pressure drop at least once per operating day. [R307-401-8] II.B.4.d.2 The owner/operator shall maintain records of the pressure drop readings. [R307-401-8] II.B.4.e The owner/operator shall install a fabric filter on each lime storage silo associated with the HMA plant to control particulate emissions generated during the filling of the lime silos. Displaced air from each lime silo shall pass through a fabric filter before being vented to the atmosphere. [R307-401-8] II.B.5 Concrete Batch Plant Requirements II.B.5.a The owner/operator shall use a baghouse to control emissions from the weigh hopper loading of the CBP. [R307-401-8] II.B.5.b The owner/operator shall install a manometer or magnehelic pressure gauge to measure the static pressure drop across the CBP baghouse. [R307-401-8] DAQE-IN161600001-24 Page 11 II.B.5.b.1 The pressure gauge shall be located such that an inspector/operator can safely read the indicator at any time. [R307-401-8] II.B.5.b.2 The pressure gauge shall measure the pressure drop in 1-inch water column increments or less. [R307-401-8] II.B.5.c At least once every 12 months, the owner/operator shall calibrate the pressure gauges in accordance with the manufacturer's instructions or replace the gauges. [R307-401-8] II.B.5.c.1 The owner/operator shall maintain records of the pressure gauge calibrations and replacements. [R307-401-8] II.B.5.d The owner/operator shall maintain the static pressure drop across the CBP baghouse during operation between 1.5 and 8 inches of water column. [R307-401-8] II.B.5.d.1 The owner/operator shall record the pressure drop at least once per operating day. [R307-401-8] II.B.5.d.2 The owner/operator shall maintain records of the pressure drop readings. [R307-401-8] II.B.5.e The owner/operator shall install a fabric filter on each material storage silo associated with the CBP to control particulate emissions generated during the filling of the silos. Displaced air from each silo shall pass through a fabric filter before being vented to the atmosphere. [R307-401-8] II.B.5.f The owner/operator shall not allow visible emissions from the CBP baghouse or storage silo fabric filters on site to exceed 7% opacity. [R307-401-8] II.B.5.f.1 Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.6 Aggregate Processing Requirements II.B.6.a The owner/operator shall install water sprays on each crusher, screen, conveyor transfer point, and conveyor drop point on site to control emissions. Water sprays shall operate as necessary to prevent visible emissions from exceeding the opacity limits listed in this AO. [R307-401-8] II.B.6.b The owner/operator shall perform monthly periodic inspections to check that water is flowing to water sprays associated with each crusher, screen, and conveyor. If the owner/operator finds that water is not flowing properly during an inspection of the water sprays, the owner/operator shall initiate corrective action within 24 hours and complete corrective action as expediently as practical. [40 CFR 60 Subpart OOO, R307-401-8] II.B.6.b.1 Records of the water spray inspections shall be maintained in a logbook for all periods when the plant is in operation. The records shall include the following items: A. Date the inspections were made. B. Any corrective actions taken. C. Control mechanism used if sprays are not operating. [40 CFR 60 Subpart OOO, R307-401-8] DAQE-IN161600001-24 Page 12 II.B.6.c The owner/operator shall not exceed the following opacity limits for indicated the emission units. A. Crushers - 12% Opacity. B. Screens - 7% Opacity. C. Conveyor Transfer Points - 7% Opacity. D. Conveyor Drop Points - 7% Opacity. E. All Other Points - 20% Opacity. [40 CFR 60 Subpart OOO, R307-401-8] II.B.6.c.1 Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.6.d The owner/operator shall not operate the aggregate production and hauling for 17 hours per day, before 6 a.m. and after 11 p.m., after December 1st to before March 1st. The owner/operator may operate the aggregate production and hauling 24-hours per day the rest of the year. [R307-401-8] II.B.6.d.1 The owner/operator shall keep and maintain the following records of operation for all periods of aggregate production and hauling: A. Time operations begin each day. B. Time operations end each day. [R307-401-8] II.B.7 Crushers, Screens, and Conveyors Subject to NSPS Subpart OOO: II.B.7.a The owner/operator shall conduct an initial performance test for each crusher, screen, and conveyor transfer point on site. Performance tests shall demonstrate compliance with the limitations specified in Table 3 to Subpart OOO. [40 CFR 60 Subpart OOO] II.B.7.a.1 Initial performance tests for fugitive emissions limits shall be conducted according to 40 CFR 60.675(c). The owner or operator may use methods and procedures specified in 40 CFR 60.675(e) as alternatives to the reference methods and procedures specified in 40 CFR 60.675(c). [40 CFR 60 Subpart OOO] II.B.7.a.2 The owner/operator shall keep and maintain records of the initial performance test for each crusher, screen, and conveyor for the life of the equipment. [40 CFR 60 Subpart OOO, R307-401-8] II.B.8 Haul Roads and Fugitive Dust Requirements II.B.8.a The owner/operator shall not allow visible emissions from haul roads and fugitive dust sources to exceed 20% opacity on site. [R307-205-4, R307-401-8] II.B.8.a.1 Visible emission determinations for fugitive dust from haul roads and operational areas shall use procedures similar to Method 9. The normal requirement for observations to be made at 15-second intervals over a six-minute period, however, shall not apply. Visible emissions shall be measured at the densest point of the plume, but at a point not less than one-half vehicle length behind the vehicle and not less than one-half the height of the vehicle. [R307-205-4, R307-401-8] II.B.8.b The owner/operator shall pave the haul road from the site entrance to the HMA plant. [R307-401-8] DAQE-IN161600001-24 Page 13 II.B.8.c The haul roads shall comply with the following lengths: A. Paved haul roads shall not be less than 550 feet. B. Unpaved hot-mix asphalt haul road shall not exceed 3,221 feet. C. Unpaved concrete haul road shall not exceed 2,535 feet. D. Unpaved wash plant haul road shall not exceed 2,693 feet. E. Unpaved aggregate haul road shall not exceed 5,544 feet. F. Loader main operating area shall not exceed 264 feet. [R307-401-8] II.B.8.c.1 Compliance shall be determined through Global Positioning System (GPS) measurements or aerial photographs. [R307-401-8] II.B.8.c.2 The owner/operator shall measure the six (6) roadways once per year each. The owner/operator shall keep these measurements in a log book. [R307-401-8] II.B.8.d The owner/operator shall cover all unpaved haul roads and wheeled-vehicle operational areas with road base and chemical suppressants to maintain the opacity limits in this AO. An operational water truck shall be available during each operating day. [R307-401-8] II.B.8.d.1 The owner/operator shall keep the following records for water and/or chemical dust suppressant application: A. The material used. B. The date of application. C. The quantity used. [R307-401-8] II.B.8.d.2 The owner/operator shall use water application to maintain the opacity limits listed in this AO. [R307-401-8] II.B.8.d.3 If the temperature is below freezing, the owner/operator may stop applying water to the unpaved haul roads or wheeled-vehicle operational areas. [R307-401-8] II.B.8.e The owner/operator shall vacuum sweep and flush with water all the paved roads on site to maintain the opacity limits in this AO. An operational vacuum sweeper and water truck shall be available each operating day. [R307-401-8] II.B.8.e.1 If the temperature is below freezing, the owner/operator shall continue to sweep the paved haul road, but may stop flushing the roads with water. If the paved haul roads are covered with snow or ice, the owner/operator may stop vacuum sweeping. [R307-401-8] II.B.8.e.2 The owner/operator shall not exceed a combined area of 15 acres of all storage piles. [R307-401-8] DAQE-IN161600001-24 Page 14 II.B.8.e.3 To determine compliance with the total acres of the storage piles, the owner/operator shall measure the total area of the storage piles at least once every six months and shall maintain a record of the total acres of the storage piles. Compliance shall be determined through GPS measurements or aerial photographs. The area of each storage pile shall be added together to obtain the total area of all the storage piles on site. Records of the total acres of the storage piles shall contain the following: A. Date of measurements. B. Size of each storage pile on site. C. Total acres of all storage piles combined. [R307-401-8] II.B.8.f The owner/operator shall not exceed a combined disturbed mining area of 25 acres. [R307-401-8] II.B.8.f.1 Compliance shall be determined through GPS measurements or aerial photographs. [R307-401-8] II.B.8.f.2 The owner/operator shall measure the disturbed mining area once per year. The owner/operator shall keep the measurement in a log book. [R307-401-8] II.B.8.g The owner/operator shall apply water to fugitive dust sources to prevent visible emissions from exceeding the opacity limits listed in this AO. The owner/operator may stop applying water to fugitive dust sources when the temperature is below freezing, but shall apply other controls as necessary to prevent visible emissions from exceeding the opacity limits listed in this AO. [R307-205-4, R307-401-8] II.B.8.g.1 The owner/operator shall keep records of water application and fugitive dust control for all periods when the plant is in operation. The records shall include the following items: A. Date and time treatments were made. B. Number of treatments made and quantity of water applied. C. Rainfall amount received, if any. D. Records of temperature, if the temperature is below freezing. E. Records of any other controls used to reduce fugitive dust. [R307-205-4, R307-401-8] PERMIT HISTORY This Approval Order shall supersede (if a modification) or will be based on the following documents: Is Derived From NOI dated July 13, 2023 Incorporates Additional information dated October 30, 2023 Incorporates Modeling completed dated November 21, 2023 Incorporates Additional information dated May 22, 2024 DAQE-IN161600001-24 Page 15 ACRONYMS The following lists commonly used acronyms and associated translations as they apply to this document: 40 CFR Title 40 of the Code of Federal Regulations AO Approval Order BACT Best Available Control Technology CAA Clean Air Act CAAA Clean Air Act Amendments CDS Classification Data System (used by Environmental Protection Agency to classify sources by size/type) CEM Continuous emissions monitor CEMS Continuous emissions monitoring system CFR Code of Federal Regulations CMS Continuous monitoring system CO Carbon monoxide CO2 Carbon Dioxide CO2e Carbon Dioxide Equivalent - Title 40 of the Code of Federal Regulations Part 98, Subpart A, Table A-1 COM Continuous opacity monitor DAQ/UDAQ Division of Air Quality DAQE This is a document tracking code for internal Division of Air Quality use EPA Environmental Protection Agency FDCP Fugitive dust control plan GHG Greenhouse Gas(es) - Title 40 of the Code of Federal Regulations 52.21 (b)(49)(i) GWP Global Warming Potential - Title 40 of the Code of Federal Regulations Part 86.1818- 12(a) HAP or HAPs Hazardous air pollutant(s) ITA Intent to Approve LB/YR Pounds per year MACT Maximum Achievable Control Technology MMBTU Million British Thermal Units NAA Nonattainment Area NAAQS National Ambient Air Quality Standards NESHAP National Emission Standards for Hazardous Air Pollutants NOI Notice of Intent NOx Oxides of nitrogen NSPS New Source Performance Standard NSR New Source Review PM10 Particulate matter less than 10 microns in size PM2.5 Particulate matter less than 2.5 microns in size PSD Prevention of Significant Deterioration PTE Potential to Emit R307 Rules Series 307 R307-401 Rules Series 307 - Section 401 SO2 Sulfur dioxide Title IV Title IV of the Clean Air Act Title V Title V of the Clean Air Act TPY Tons per year UAC Utah Administrative Code VOC Volatile organic compounds Times-News Publication Name: Times-News Publication URL: nephitimesnewd.com Publication City and State: Nephi, UT Publication County: Juab Notice Popular Keyword Category: Notice Keywords: mona asphalt Notice Authentication Number: 202408221154153684448 1761527914 Notice URL: Back Notice Publish Date: Wednesday, August 21, 2024 Notice Content PUBLIC NOTICE A Notice of Intent for the following project submitted in accordance with R307-401-1, Utah Administrative Code (UAC), has been received for consideration by the Director: Company Name: Geneva Rock Products, Inc. Location: Geneva Rock Products - Mona Asphalt, Concrete, and Aggregate Pit – 1.5 Miles Northeast of Mona, Mona, UT Project Description: Geneva Rock Products (GRP) has requested a new Approval Order to mine aggregate for sale and also for use in the concrete batch plant (CBP) and hot mix asphalt (HMA) plant within the property boundaries. GRP will produce 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt product. GRP will use six (6) crushers, six (6) triple deck screens, 15 conveyor transfers, four (4) aggregate feeder bins, and one (1) wash plant in the aggregate production facility. The active aggregate mining area will be 25 acres. Stockpiles will be a maximum of 15 acres. Four (4) diesel fuel storage tanks with a 12,000-gallon capacity each will supply the front-end loaders, bulldozers, and haul trucks with a total throughput of 288,000 gallons each. The onsite roads will consist of paved and unpaved haul roads. The CBP has four (4) staging bins containing fly ash, cement, sand, and aggregate; feeders to the central mix area; and a water heater. The asphalt plant has feeding bins, transfer conveyors, a scalping screen, a drum-mix dryer, a bathhouse, a lime pummel, a lime silo with an attached dust collector, liquid asphalt storage tanks, and a diesel-fired heater. The completed engineering evaluation and air quality impact analysis showed the proposed project meets the requirements of federal air quality regulations and the State air quality rules. The Director intends to issue an Approval Order pending a 30-day public comment period. The project proposal, estimate of the effect on local air quality and draft Approval Order are available for public inspection and comment at the Utah Division of Air Quality, 195 North 1950 West, Salt Lake City, UT 84116. Written comments received by the Division at this same address on or before September 20, 2024 will be considered in making the final decision on the approval/disapproval of the proposed project. Email comments will also be accepted at tdejulis@utah.gov. If anyone so requests to the Director in writing within 15 days of publication of this notice, a hearing will be held in accordance with R307-401-7, UAC. Under Section 19-1-301.5, a person who wishes to challenge a Permit Order may only raise an issue or argument during an adjudicatory proceeding that was raised during the public comment period and was supported with sufficient information or documentation to enable the Director to fully consider the substance and significance of the issue. Published in The Times-News, Nephi, Utah on 8/21/2024. Back DAQE-NN161600001-24 August 15, 2024 Nephi Times News Legal Advertising Dept. 96 S Main Nephi, UT 84648 RE: Legal Notice of Intent to Approve This letter will confirm the authorization to publish the attached NOTICE in the Nephi Times News on August 21, 2024. Please mail the invoice and affidavit of publication to the Utah State Department of Environmental Quality, Division of Air Quality, P.O. Box 144820, Salt Lake City, Utah 84114-4820. If you have any questions, contact Jeree Greenwood, who may be reached at (385) 306-6514. Sincerely, {{$s }} Jeree Greenwood Office Technician Enclosure cc: Juab County cc: Six County Association of Governments 195 North 1950 West • Salt Lake City, UT Mailing Address: P.O. Box 144820 • Salt Lake City, UT 84114-4820 Telephone (801) 536-4000 • Fax (801) 536-4099 • T.D.D. (801) 903-3978 www.deq.utah.gov Printed on 100% recycled paper State of Utah SPENCER J. COX Governor DEIDRE HENDERSON Lieutenant Governor Department of Environmental Quality Kimberly D. Shelley Executive Director DIVISION OF AIR QUALITY Bryce C. Bird Director DAQE-NN161600001-24 Page 2 NOTICE A Notice of Intent for the following project submitted in accordance with R307-401-1, Utah Administrative Code (UAC), has been received for consideration by the Director: Company Name: Geneva Rock Products, Inc. Location: Geneva Rock Products - Mona Asphalt, Concrete, and Aggregate Pit – 1.5 Miles Northeast of Mona, Mona, UT Project Description: Geneva Rock Products (GRP) has requested a new Approval Order to mine aggregate for sale and also for use in the concrete batch plant (CBP) and hot mix asphalt (HMA) plant within the property boundaries. GRP will produce 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt product. GRP will use six (6) crushers, six (6) triple deck screens, 15 conveyor transfers, four (4) aggregate feeder bins, and one (1) wash plant in the aggregate production facility. The active aggregate mining area will be 25 acres. Stockpiles will be a maximum of 15 acres. Four (4) diesel fuel storage tanks with a 12,000-gallon capacity each will supply the front-end loaders, bulldozers, and haul trucks with a total throughput of 288,000 gallons each. The onsite roads will consist of paved and unpaved haul roads. The CBP has four (4) staging bins containing fly ash, cement, sand, and aggregate; feeders to the central mix area; and a water heater. The asphalt plant has feeding bins, transfer conveyors, a scalping screen, a drum-mix dryer, a baghouse, a lime pugmill, a lime silo with an attached dust collector, liquid asphalt storage tanks, and a diesel-fired heater. The completed engineering evaluation and air quality impact analysis showed the proposed project meets the requirements of federal air quality regulations and the State air quality rules. The Director intends to issue an Approval Order pending a 30-day public comment period. The project proposal, estimate of the effect on local air quality and draft Approval Order are available for public inspection and comment at the Utah Division of Air Quality, 195 North 1950 West, Salt Lake City, UT 84116. Written comments received by the Division at this same address on or before September 20, 2024 will be considered in making the final decision on the approval/disapproval of the proposed project. Email comments will also be accepted at tdejulis@utah.gov. If anyone so requests to the Director in writing within 15 days of publication of this notice, a hearing will be held in accordance with R307-401-7, UAC. Under Section 19-1-301.5, a person who wishes to challenge a Permit Order may only raise an issue or argument during an adjudicatory proceeding that was raised during the public comment period and was supported with sufficient information or documentation to enable the Director to fully consider the substance and significance of the issue. Date of Notice: August 21, 2024 {{#s=Sig_es_:signer1:signature}} DAQE- RN161600001 August 12, 2024 Grant Ensign Geneva Rock Products, Inc. 730 North 1550 West Orem, UT 84057 gensign@clydeinc.com Dear Grant Ensign, Re: Engineer Review: New Mona Aggregate Production Facility, Concrete Batch Plant, and Hot Mix Asphalt Plant Project Number: N161600001 The DAQ requests a company representative review and sign the attached Engineer Review (ER). This ER identifies all applicable elements of the New Source Review permitting program. Geneva Rock Products, Inc. should complete this review within 10 business days of receipt. Geneva Rock Products, Inc. should contact Mr. Tim DeJulis at (385) 306-6523 if there are questions or concerns with the review of the draft permit conditions. Upon resolution of your concerns, please email Mr. Tim DeJulis at tdejulis@utah.gov the signed cover letter. Upon receipt of the signed cover letter, the DAQ will prepare an ITA for a 30-day public comment period. At the completion of the comment period, the DAQ will address any comments and will prepare an Approval Order (AO) for signature by the DAQ Director. If Geneva Rock Products, Inc. does not respond to this letter within 10 business days, the project will move forward without source concurrence. If Geneva Rock Products, Inc. has concerns that cannot be resolved and the project becomes stagnant, the DAQ Director may issue an Order prohibiting construction. Approval Signature _____________________________________________________________ (Signature & Date) 195 North 1950 West • Salt Lake City, UT Mailing Address: P.O. Box 144820 • Salt Lake City, UT 84114-4820 Telephone (801) 536-4000 • Fax (801) 536-4099 • T.D.D. (801) 903-3978 www.deq.utah.gov Printed on 100% recycled paper Department of Environmental Quality Kimberly D. Shelley Executive Director DIVISION OF AIR QUALITY Bryce C. Bird Director State of Utah SPENCER J. COX Governor DEIDRE HENDERSON Lieutenant Governor Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 1 UTAH DIVISION OF AIR QUALITY ENGINEER REVIEW SOURCE INFORMATION Project Number N161600001 Owner Name Geneva Rock Products, Inc. Mailing Address 730 North 1500 West Orem, UT 84057 Source Name Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit Source Location 1.5 Miles Northeast of Mona Mona, UT UTM Projection 429,887 m Easting, 4,408,585 m Northing UTM Datum NAD83 UTM Zone UTM Zone 12 SIC Code 1442 (Construction Sand & Gravel) Source Contact Grant Ensign Phone Number (801) 802-6954 Email gensign@clydeinc.com Billing Contact Grant Ensign Phone Number 801-802-6954 Email gensign@clydeinc.com Project Engineer Mr. Tim DeJulis, Engineer Phone Number (385) 306-6523 Email tdejulis@utah.gov Notice of Intent (NOI) Submitted July 12, 2023 Date of Accepted Application December 1, 2023 Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 2 SOURCE DESCRIPTION General Description Geneva Rock Products (GRP) operates an aggregate processing plant, concrete batch plant (CBP), and hot mix asphalt (HMA) plant located in Mona, Juab County. Aggregate is processed for sale and for use in the concrete and asphalt plants. Equipment in use at the site includes: crushers, screens, conveyors, conveyor transfers, aggregate feeder bins, wash plant, feeding bins, staging bins, truck mix concrete batch plant, drum-mix dryer, a baghouse, a lime pugmill, lime silo, storage tanks, and a diesel fired heater. The Mona plant produces up to 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt. NSR Classification: New Minor Source Source Classification Located in Attainment Area Juab County Airs Source Size: B Applicable Federal Standards NSPS (Part 60), A: General Provisions NSPS (Part 60), I: Standards of Performance for Hot Mix Asphalt Facilities NSPS (Part 60), OOO: Standards of Performance for Nonmetallic Mineral Processing Plants Project Proposal New Mona Aggregate Production Facility, Concrete Batch Plant, and Hot Mix Asphalt Plant Project Description Geneva Rock Products (GRP) has requested a new AO to mine aggregate for sale and also for use in the CBP and HMA plant in the property boundaries. GRP will produce 1,000,000 tons/yr of aggregate, 300,000 cubic yards/yr of concrete, and 500,000 tons/yr of asphalt product. GRP will use six (6) crushers, six (6) triple deck screens, 15 conveyor transfers, four (4) aggregate feeder bins, and one (1) wash plant in the aggregate production facility. The active aggregate mining area will be 25 acres. Stockpiles will be a maximum of 15 acres. Four (4) diesel fuel storage tanks with a 12,000-gallon capacity each will supply the front-end loaders, bulldozers, and haul trucks with a total throughput of 288,000 gallons each. The onsite roads will consist of paved and unpaved haul roads. The CBP has four staging bins containing fly ash, cement, sand, and aggregate; feeders to the central mix area; and a water heater. The asphalt plant has feeding bins, transfer conveyors, a scalping screen, a drum-mix dryer, a baghouse, a lime pugmill, a lime silo with an attached dust collector, liquid asphalt storage tanks, and a diesel-fired heater. Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 3 EMISSION IMPACT ANALYSIS All criteria pollutants except for PM10 are below the modeling thresholds contained in R307-410-4. All HAP emissions except for formaldehyde are below their respective emission threshold values in R307-410-5. DAQ will evaluate the 1-hour emissions of NOx in order to be sure there are no exceedances. The modeling analysis of PM10, NOx, and formaldehyde with aggregate production limitations based on the model shown below: Pollutant Period Prediction Percent (µg/m3) PM10 24-Hour 76.12 97.80 Pollutant Period Prediction Percent (µg/m3) NOx 1-Hour 112.0 81.20 Pollutant Period Prediction Percent (µg/m3) Formaldehyde 1-Hour 35.43 95.8 Aggregate production and hauling from December through February shall be limited to 17 hours per day between the hours of 6 am and 11 pm. During the remaining months of the year, aggregate production and hauling can operate 24 hours per day. [Last updated August 12, 2024] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 4 SUMMARY OF EMISSIONS The emissions listed below are an estimate of the total potential emissions from the source. Some rounding of emissions is possible. Criteria Pollutant Change (TPY) Total (TPY) CO2 Equivalent 10433.00 Carbon Monoxide 35.49 Nitrogen Oxides 23.07 Particulate Matter - PM10 38.77 Particulate Matter - PM2.5 5.64 Sulfur Dioxide 14.60 Volatile Organic Compounds 12.74 Hazardous Air Pollutant Change (lbs/yr) Total (lbs/yr) Acetaldehyde (CAS #75070) 650 Formaldehyde (CAS #50000) 1600 Generic HAPs (CAS #GHAPS) 1160 Hexane (CAS #110543) 460 Naphthalene (CAS #91203) 436 Toluene (CAS #108883) 1464 Change (TPY) Total (TPY) Total HAPs 2.89 Note: Change in emissions indicates the difference between previous AO and proposed modification. Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 5 Review of BACT for New/Modified Emission Units 1. BACT review regarding Aggregate Processing Five control technologies were identified for particulate control from aggregate processing operations. These are: (1) total equipment enclosure; (2) Electrostatic Precipitator (ESP); (3) Wet Scrubbers; (4) Baghouses (Fabric Filters), and (5) Wet Suppression. Cyclones were not considered. a control technology for material handling since a cyclone does not remove fine particulate matter. Total enclosure of the equipment provides the highest percentage of control at 100%; ESPs and baghouses typically reduce PM10 and PM2.5 emissions by up to 99.9%. Wet scrubbers offer approximately 95% control and wet suppression offers approximately 75% control. Because the emissions from crushing, screening, conveying, and transfer points are fugitive in nature, wet scrubbers, ESPs, and baghouses are eliminated from the BACT analysis. ESPs and wet scrubbers were eliminated from review since these emission control technologies are either infeasible in a temperature variable outdoor environment, due to cost, or because they are not considered effective for fugitive control for aggregate operations. Although the emissions from the crushers could be captured and vented to a baghouse (fabric filters), this option was determined to be economically infeasible due to the cost of the ducting and capture system. Wet suppression using water sprays nozzles or fog bars are effective in minimizing emissions from crushing, screening, conveying, and transfer points. The most common control technology used to control fugitive PM10 and PM2.5 is the application of water to maintain moisture throughout the material handling process and to meet the required State of Utah opacity limits. Wet suppression will be employed on the crushers, screens, and conveyor transfer points. Spray systems at transfer points have been estimated to reduce PM emissions by 70 to 95%. Factors affecting emissions from screening include the stone size distribution and the surface moisture content of the stone processed as well as the process throughput rate. The Mona facility will apply water as necessary to maintain relatively high material moisture content to effectively control PM emissions from material crushing, screening, conveying, and transfer points. The material at the wash plant will be saturated with water. Therefore, the application of water for material handling operations is considered to meet BACT. [Last updated June 13, 2024] 2. BACT review regarding Concrete Batch Plant Loading the sand, aggregate, flyash, and cementitious materials into material bins and silos cause PM emissions at the top of the bins. Loading the concrete trucks (in-transit mixing) has properties of both fugitive and point sources. PM emissions from the concrete plant operations are in the PM10 or larger range. The following control technologies were identified for controlling PM emissions at a concrete plant: (1) Dry material storage silos with fabric filters; (2) Aggregate storage piles and handling operations with water sprays; (3) truck filling with enclosed drop chutes; and (4) enclosure of concrete plant within structure. At the Mona facility, GRP is proposing to enclose the cement plant in a four-sided structure and capture PM emissions which will be vented to a baghouse that is at least 98% effective in removing PM10/PM2.5. Dust collectors are also proposed on all dry material storage silo vents. Drop chutes will be enclosed for truck fillings. These controls represent BACT for PM10/PM2.5 emissions from the proposed concrete plant. The concrete batch plant boiler is a natural gas fired unit capable of achieving [Last updated June 13, 2024] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 6 3. BACT review regarding HMA Plant The dryer operations are the main source of pollution at the proposed hot mix asphalt plant. Combustion emissions from the dryer include products of complete and incomplete combustion. Products of complete combustion include oxides of nitrogen (NOx) and, if sulfur is present in the fuel, sulfur dioxide (SO2) and other substances such as carbon dioxide (CO2) and water. Products of incomplete combustion include carbon monoxide (CO), volatile organic compounds (VOCs) (including benzene, toluene, and xylenes), and other organic particulate matter. The drum dryer at the Mona facility will be fired by natural gas, propane, diesel, or residual fuel oil (RFO). For the drum dryer, two control technologies were identified for reduction of criteria combustion and HAP emissions. These include: (1) work practice requirements of good combustion practice; and (2) use of low sulfur gaseous fuels. Incomplete combustion emissions result from improper air and fuel mixtures, such as poor mixing of fuel and air, inadequate fuel air residence time and temperature, and quenching of the burner flame. Thus, NOx, VOC, CO, and HAP emissions will be reduced by ensuring good combustion practices are utilized which include periodic dryer burner tune-up and proper burner maintenance to increase the efficiency of the burners and operation of the dryer burner in accordance with manufacturer specifications. In addition, natural gas and propane are low sulfur fuels which will be utilized on-site along with RFO and diesel. The drum dryer will use a low-NOx burner capable of delivering equal to or less than 30 ppm NOx in the output. Thus, BACT for minimizing drum dryer emissions is using a low-NOx burner, good combustion practices, and use of low sulfur fuels as much as possible. Emissions from the asphalt plant dryer also include PM10/PM2.5 from the aggregate and a small amount from fuel combustion. Several add-on technologies were identified for reduction on PM10 and PM2.5 and include: (1) Cyclones; (2) Multiple cyclones; (3) Settling chambers; (4) Fabric filter baghouses; (5) Wet gas venturi scrubbers, and (6) good combustion practices. Venturi wet gas scrubber and fabric filter baghouses are most efficient in reducing PM10/PM2.5 emissions with control efficiencies ranging from 90 - 99.5%. Multiple cyclones have a control efficiency of approximately 90%, and individual cyclones have a control efficiency from 50 to 75%. Settling chambers are least efficient with a control efficiency of less than 50%. For the proposed asphalt plant dryer at Mona, PM10/PM2.5 emissions will be controlled using a fabric filter baghouse with a control efficiency of 98% or greater. PM10/PM2.5 will have an emission limitation based on this > 98% control efficiency, equaling 0.024 grains/dscf. In addition, GRP will maintain the HMA plant in good working order and will utilize good combustion practices. All these proposed controls represent BACT for PM10/PM2.5 emissions from the proposed Mona HMA plant dryer. [Last updated June 13, 2024] 4. BACT review regarding HMA Plant (continued) and Fugitive PM10/PM2.5 Lime to be used in the HMA process will be stored in enclosed bins. PM10 and PM2.5 emissions are anticipated from lime handling. The only control technology to reduce particulate emissions from lime handling was the installation and operation of fabric filters on dust collectors. Dust collectors are proposed to be utilized on the lime silos at the Mona facility. The control efficiency of fabric filters on dust collectors is 99%. This represents BACT for minimizing PM10/PM2.5 emissions from lime silos. [Last updated June 13, 2024] 5. BACT review regarding Haul Roads Loader, bulldozer, and haul truck operations will create fugitive PM10 and PM2.5 emissions. Three front end loaders will be used to transport and load material at the site. A bulldozer will be utilized to move and smooth overburden. The factors that affect PM10 and PM2.5 emissions include the Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 7 amount and size of material being transported, moisture content of the material, and climatic/seasonal conditions. Several control technologies were identified to minimize particulate emissions from loader and dozer operations which include water application and minimizing drop distances. Other control technologies to minimize particulate emissions such as electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones are not feasible for use in such a dynamic environment as loading operations to storage piles, dozing overburden, conveyors, haul trucks, etc. Thus, electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones were determined to be technically infeasible. For unpaved areas where the loaders, bulldozers, and haul trucks will be operating, control technologies include watering, application of chemical dust suppressants, and use of a low silt content road base. The unpaved road control options are ranked in order of efficiency. These efficiencies were obtained from a UDAQ January 12, 2015 Memorandum, Emission factors for Paved and Unpaved Haul Roads. Paving followed by vacuuming sweeping and water has the highest control efficiency of 95%. Paved road followed by sweeping and water has a control efficiency of 90%. Paving, however, costs on average $500,000 per mile which makes it economically infeasible to pave all roads on-site since road locations at the site will change due to the location of aggregate activities. The section of roadway from the entrance of the Mona facility to the HMA plant will be paved. This section of pavement will be vacuum swept and watered which represents BACT with a 95% control efficiency for paved road segments. Studies have shown that on heavily traveled unpaved roads, chemical suppression methods are as effective as watering at regular intervals. Based on information from the UDAQ, chemical suppressant use, basic watering, and the use of low silt content road base will reduce PM10 and PM2.5 emissions on unpaved roads by 85%. Thus, chemical suppressant, road base, and water applications are proposed to be utilized at the Mona facility to suppress PM10 and PM2.5 emissions from unpaved roads which is considered BACT. [Last updated June 13, 2024] 6. BACT review regarding Disturbed Area Fugitive particulate (PM10/PM2.5) emissions will be emitted from exposed or disturbed areas. During the mining process, stripped overburden, or graded overburden from initial removal until when vegetation starts to grow has the potential to emit fugitive PM10 and PM2.5 from wind and dry climatic conditions. For exposed or disturbed areas, the following control options were identified: (1) watering exposed areas, (2) minimal disturbance of the area, and (3) planting vegetation. Watering large, exposed areas is technically not feasible in an arid climate such as GRP's Mona facility due to the size of the exposed area, which is proposed at 25 acres. Copious amounts of water and a several water trucks would be required to maintain the exposed and disturbed areas with enough moisture to suppress fugitive dust emissions. Minimally disturbing the area will minimize emissions by reducing the availability of smaller particulate matter at the surface. Planting vegetation on exposed or disturbed areas that is not quickly reclaimed can also reduce particulate emissions. According to an article published in 2016 by Phatak titled "A Detailed Look at the Cost of Hydroseeding", the cost to hydro-seed can cost overall $3,000 per acre. It is cost prohibitive for GRP to hydro-seed 25 acres. Thus, planting vegetation to reduce particulate emissions from exposed or disturbed areas was not considered further. The remaining control option, minimal disturbance of the area, will be employed by GRP at Mona. Minimal disturbance will help reduce fugitive particulate emissions and will give time for natural vegetation to grow which will further reduce emissions. This option is considered BACT for exposed and disturbed areas. [Last updated June 13, 2024] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 8 7. BACT review regarding Storage Piles Fugitive particulate (PM10/PM2.5) emissions will be emitted from the outdoor storage piles from material loading and unloading as well as wind. Three control options were identified for controlling PM10 and PM2.5 emissions from storage piles. They are: (1) water sprays; (2) full enclosure; and (3) partial enclosure. Full enclosure of piles, the most effective control option, is typically used at coal processing plants where the coal needs to be kept dry. These enclosures are usually for piles smaller than what is typically at aggregate operations. The Mona site will have up to 15 acres of storage piles throughout the property. It is practically not feasible at aggregate, sand, or gravel operations to enclose the piles due to cost and the dynamic nature and the location change of mining operations. Partial enclosures are easier to implement but are still costly and to maintain a required opacity limit, water sprays are still needed. In very windy areas, barriers can be installed to reduce the impact of wind on storage piles. Water systems are designed to spray storage piles. These systems are relatively inexpensive and can be modified to maintain the UDAQ required opacity limit. The DAQ assumes a 50% control efficiency of fugitive emissions when water sprays are utilized to maintain an opacity limit. This control technology is commonly implemented on storage piles. Thus, GRP will maintain water systems to reduce PM10 and PM2.5 emissions from aggregate, gravel, or sand storage piles. The use of these water spray systems is considered BACT. [Last updated June 13, 2024] 8. BACT review regarding Fuel Storage Tanks VOC and HAP emissions will be emitted from above ground storage tanks. Four (4) horizontal diesel, seven (7) above-ground fixed roof asphalt cement oil, and one (1) RFO storage tanks are proposed at the Mona facility. Floating roof tanks are commonly used for storing crude oil, gasoline, and naphtha. Internal floating roofs are most often used for storing low flash point fuels while external floating roofs are used for medium flash point fuels. Fixed roof tanks are most often used for high flash point fuels like diesel, kerosene, jet fuel, fuel oils, and asphalt cement. There are two general types of atmospheric storage tanks: fixed roof tanks and floating roof tanks. There are three types of floating roof tanks: external floating roof, internal floating roof, and covered or domed floating roof. Emissions from storage tanks result from displacement of headspace vapor during filling operations (working losses) in the case of fixed roof or internal floating roof tanks, and from diurnal temperature and heating variations (breathing losses). Lower vapor pressure liquids such as heating oils, diesel, and kerosene are stored in fixed roof tanks. Typically, filling losses constitute 80-90% of the total losses for fixed roof tanks. Crude oils and lighter products such as gasoline are stored in floating roof tanks. Most of the emissions from floating roof tanks are due to standing losses. Compliance options for VOC emission controls on these tanks includes using a fixed roof with an internal floating roof or an external floating roof meeting certain design specification and/or using a closed-vent system and control device that meet the requirements of 40 CFR Part 60 Subpart Kb. Asphalt is produced in refinery distillation towers and solvent extraction units and is typically stored in fixed roof tanks due to its low volatility. The proposed aboveground storage tanks have the potential to create VOCs and HAPs resulting from evaporative losses during storage, filling and emptying. Two add-on control technologies as well as best management practices were identified to reduce VOC emissions from fixed roof diesel and asphalt cement tanks. These include: carbon adsorption, incinerator, and best management practices. Both carbon adsorption and incineration are effective control technologies having greater 95% and 98% control Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 9 efficiencies. Best management practices are considered the baseline for controlling VOC emissions from fixed roof tanks. Vapor losses from fixed roof vertical tanks are primarily due to changes in the atmospheric temperature and pressure as well as liquid level changes inside the tank. Due to the low volatility of the products to be stored, GRP is proposing fixed roof diesel, asphalt cement, and RFO storage tanks with no additional add on vapor recovery technology. The cost of a vapor control system is a function of the vapor flow rate to the system. The flow rate is controlled by the rate at which liquids are pumped into the tank. The volume of VOC vapors expected from the proposed tanks is 0.40 tons. Due to the low volatility of the products being stored, additional emission controls are not required. Thus, the control technologies identified for the fixed roof tanks is submerged filling of each tank and best management practices. Best management practices include regular inspection of the tanks and associated piping and reducing breathing and working losses from the tank. Breathing losses can be by minimizing the vapor space in the tank. In fixed-roof tanks, breathing losses can account for 10% to 95% of total annual emissions. For fixed-roof tanks, liquid level matters significantly for emission generation: the emptier the tank is, the more room there is for vapors to build up. However, it's not until those vapors are pushed outwards with enough force to pass through the roof vent that these vapors become fugitive emissions. [Last updated June 13, 2024] 9. BACT review regarding Fuel Storage Tanks (continued) To prevent breathing losses the tank head space will be reduced by operating at a full level and constant rate. Tanks that operate conservation vents at 2.5 psig or higher will often have low breathing losses, or none. Reducing the number of tank turnovers per year will reduce working loss emissions. Regular inspection of the above ground storage tank and associated piping for leaks will also reduce VOC emissions. Thus, BACT for VOC and HAPS from the diesel, asphalt cement, and RFO storage tanks is proper maintenance which includes regular inspection of the aboveground storage tanks and associated piping for leaks and reducing breathing and working losses from the tank. [Last updated June 13, 2024] 10. BACT review regarding Boilers for the CBP and HMA Plant A 9.9 MMBtu/hr hot water boiler at the concrete batch plant and a 5.0 MMBtu/hr hot oil boiler at the asphalt plant are proposed to be operated at their rated capacities. Emissions from combustion, including NOx, SO2, CO, PM10/PM2.5 and VOC are expected from the hot water and hot oil boilers when fired on diesel fuel, propane, and natural gas. NOx Emissions The following control options were evaluated for controlling NOx emissions from the hot water and hot oil boilers: good combustion and management practices, low NOx burners, and flue gas recirculation. Good combustion and management practices include the following components: proper air/fuel mixing in the combustion zone, high temperatures and low oxygen levels in the primary combustion zone, and sufficient residence time to complete combustion. Good combustion practices are accomplished by controlling the temperature of the flame at the main burner and controlling the amount of oxygen and nitrogen available for the reaction. Low-NOx burner technology uses advanced burner design to reduce NOx formation through the restriction of oxygen, flame temperature, and/or residence time. Flue gas recirculation (FGR) can control NOx from the two (2) boilers. FGR involves the recycling of fuel gas into the air-fuel mixture at the burner to help cool the burner flame. At the CBP, the proposed hot water boiler will be fired on either diesel fuel, propane, or natural gas. Natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under Interstate 15 (I-15) at a current cost of over Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 10 $1,000,000. Using conservative emission factors from AP-42, the hot water and hot oil boilers NOx emissions were estimated to be 0.143 lb NOx/MMbtu which equates to approximately 111.4 ppm (based on a conversion rate of rate of 780 lb/MMBtu to ppm at 3% oxygen (O2), dry, for #2 fuel oil or diesel). If natural gas were used, using conservative AP-42 emission factors, NOx emissions were estimated to be 0.049 lb/MMbtu which equates to approximately 40.8 ppm NOx (conversion rate of 833 lbs/MMBtu to ppm for natural gas at 3% O2. The emission of 40.8 ppm is in line with emissions from similar hot water and hot oil heaters run on natural gas at other GRP facilities. [Last updated June 13, 2024] 11. BACT review regarding Boilers for the CBP and HMA Plant continued A cost estimate was obtained for a 9.9 MMBtu/hr hot water boiler fired on natural gas. The cost for a 9.9 MMBtu/hr hot water boiler fired on natural gas was estimated to be $207,084 (including freight). The total annual operating cost was estimated to be $23,508. The difference (or reduction) in emissions from firing a 9.9 MMBtu/hr hot water boiler on diesel and replacing diesel with natural gas was estimated to be 4.06 tons of NOx. Thus, the total annual cost per ton of NOx reduction is $5,790. However, as mentioned above, this cost does not include the construction of a natural gas pipeline which has been estimated to be over $1,000,000 and would require installation under I-15. While use of natural gas would provide the lowest emissions, at this time, the use of natural gas is not an option due to cost and logistics of bringing a pipeline to the site. A cost estimate was also obtained for the proposed 5.0 MMBtu/hr asphalt plant hot oil boiler fired by diesel and an equivalent unit fired on natural gas. The cost for a 5.0 MMBtu/hr hot oil boiler fired on natural gas was estimated to be $105,820 (including freight). Total annual operating cost was estimated to be $13,082. The difference (reduction) in emissions from firing a 5.0 MMBtu/hr hot oil boiler on diesel and replacing diesel with natural gas was estimated to be 2.02 tons of NOx. Thus, the total annual cost per ton of NOx reduction is $6,350. However, this cost does not include the construction of a natural gas line which has been estimated to be over $1,000,000 and would require installation under Interstate 15. The use of natural gas for the proposed hot water heater or hot water boiler at this time is not economically feasible and has been eliminated at this time for consideration. In addition, based on the estimated NOx emissions from these units firing natural gas 2.12 TPY for the hot water heater and 1.07 TPY for the hot oil heater, the addition of any add- on technologies would be cost prohibitive and are not economically feasible. Thus, BACT for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is based on the use of FGR in each boiler; good combustion and management practices; proper equipment design and operation; and the use of ultra-low sulfur fuel or propane. [Last updated June 19, 2024] 12. BACT review regarding Boilers for the CBP and HMA Plant (continued) CO and VOC Emissions Carbon monoxide is a product of the chemical reaction between carbonaceous fuels and oxygen. VOC emissions are the fuel source passing through the combustion chamber and secondary reactions creating them. Only one control option, good combustion practices, was identified to control CO and VOC emissions from small boilers such as the proposed 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil boiler. The control technology identified to reduce CO emissions is through good engineering design of the equipment utilizing good combustion practices. Good combustion practices for CO and VOC include adequate fuel residence times, proper fuel-air mixing, and temperature control. Natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under I-15 at a current cost of over $1,000,000. Thus, BACT for CO and VOC for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is based on good combustion practices; proper equipment design and operation; and the use of ultra-low sulfur diesel or propane. Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 11 PM10/PM2.5 Emissions For this BACT analysis, all particulate emissions were considered PM2.5 which is a subset of PM10. The following is a list of combustion and post-combustion control technologies which were identified for controlling PM10/PM2.5 emissions: good combustion practices, use of clean burning fuels, and proper design and operation. Combustion controls or "proper combustion" to minimize PM10/PM2.5 emissions include adequate fuel residence time, proper fuel-air mixing, and temperature control to ensure the maximum amount of fuel is combusted. The use of clean-burning fuels, such as natural gas which has only trace amounts of sulfur that can form particulates, will result in minimal formation of PM10/PM2.5 during combustion. Thus, the only control technology identified in the RBLC database for liquid-fired boilers in the proposed sizes is a work practice requirement to adhere to good combustion practices and use of low sulfur fuels such as low sulfur diesel fuel or naturas gas. These control strategies are technically feasible and will not cause any adverse energy, economic or environmental impacts. As mentioned previously, natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under I-15 at a current cost of over $1,000,000. The use of natural gas for the proposed hot water heater or hot water boiler at this time is not economically feasible and has been eliminated at this time for consideration. Hence, BACT for PM10/PM2.5 for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is good combustion practices; proper equipment design and operation; and the use of low sulfur diesel fuel or propane. SO2 Emissions SO2 emissions from the proposed 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater will be a result of oxidation of fuel sulfur. Using lower sulfur fuels can lower SO2 emissions. Only one control option was found which is to limit the amount of sulfur in the fuel. Since natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under I-15 at a current cost of over $1,000,000, GRP will be using low sulfur diesel fuel or propane as the primary fuel. The use of a lower sulfur content fuel is considered a control technology. The use of a lower sulfur content fuel for the boilers of the proposed sizes is a feasible SO2 control technology for the proposed hot oil and hot water boilers. Hence, BACT for SO2 for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is the use of low sulfur diesel (15 ppm) or propane as the primary fuels. [Last updated June 19, 2024] SECTION I: GENERAL PROVISIONS The intent is to issue an air quality AO authorizing the project with the following recommended conditions and that failure to comply with any of the conditions may constitute a violation of the AO. (New or Modified conditions are indicated as “New” in the Outline Label): I.1 All definitions, terms, abbreviations, and references used in this AO conform to those used in the UAC R307 and 40 CFR. Unless noted otherwise, references cited in these AO conditions refer to those rules. [R307-101] I.2 The limits set forth in this AO shall not be exceeded without prior approval. [R307-401] I.3 Modifications to the equipment or processes approved by this AO that could affect the emissions covered by this AO must be reviewed and approved. [R307-401-1] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 12 I.4 All records referenced in this AO or in other applicable rules, which are required to be kept by the owner/operator, shall be made available to the Director or Director's representative upon request, and the records shall include the two-year period prior to the date of the request. Unless otherwise specified in this AO or in other applicable state and federal rules, records shall be kept for a minimum of two (2) years. [R307-401-8] I.5 At all times, including periods of startup, shutdown, and malfunction, owners and operators shall, to the extent practicable, maintain and operate any equipment approved under this AO, including associated air pollution control equipment, in a manner consistent with good air pollution control practice for minimizing emissions. Determination of whether acceptable operating and maintenance procedures are being used will be based on information available to the Director which may include, but is not limited to, monitoring results, opacity observations, review of operating and maintenance procedures, and inspection of the source. All maintenance performed on equipment authorized by this AO shall be recorded. [R307- 401-4] I.6 The owner/operator shall comply with UAC R307-107. General Requirements: Breakdowns. [R307-107] I.7 The owner/operator shall comply with UAC R307-150 Series. Emission Inventories. [R307- 150] I.8 The owner/operator shall submit documentation of the status of construction or modification to the Director within 18 months from the date of this AO. This AO may become invalid if construction is not commenced within 18 months from the date of this AO or if construction is discontinued for 18 months or more. To ensure proper credit when notifying the Director, send the documentation to the Director, attn.: NSR Section. [R307-401-18] SECTION II: PERMITTED EQUIPMENT The intent is to issue an air quality AO authorizing the project with the following recommended conditions and that failure to comply with any of the conditions may constitute a violation of the AO. (New or Modified conditions are indicated as “New” in the Outline Label): II.A THE APPROVED EQUIPMENT II.A.1 NEW Geneva Rock Mona Hot Mix Asphalt, Concrete, and Aggregate Site II.A.2 NEW Crushers Two (2) Jaw, Cone, VSI, or HSI Crushers 1000 tons/hr each NSPS Subpart OOO Four (4) Jaw, Cone, VSI, or HSI Crushers 600 tons/hr each NSPS Subpart OOO Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 13 II.A.3 NEW Screens Six (6) Triple-Deck Screens 20' x 30' each NSPS Subpart OOO II.A.4 NEW Various Conveyors NSPS Subpart OOO One (1) Aggregate Wash Plant Conveyor Listed for informational purposes only. II.A.5 NEW Aggregate Feeder Bins Four (4) Aggregate Feeder Bins NSPS Subpart OOO II.A.6 NEW Concrete Batch Plant One (1) Concrete Batch Plant with the following equipment: One (1) sand storage silo One (1) aggregate storage silo One (1) 60-ton flyash storage silo with a dust collector Two (2) 80-ton cement storage silos with a dust collector each One (1) weigh hopper One (1) 9.9 MMBtu/hr water heater (see below item in this equipment list) Assorted conveyors II.A.7 NEW Concrete Batch Plant Boiler One (1) Concrete Batch Plant Boiler Capacity: 9.9 MMBtu/hr Fuel: diesel, propane, or natural gas II.A.8 NEW Hot Mix Asphalt Plant One (1) Hot Mix Asphalt Plant with the following equipment included: One (1) drum mix dryer with a heating unit (see below item in this equipment list) One (1) mixing drum One (1) lime pugmill system One (1) lime silo with a dust collector One (1) fabric filter (see below item in this equipment list) One (1) 5.0 MMBtu/hr boiler (see below item in this equipment list) Six (6) asphalt oil storage tanks (see below item in this equipment list) NSPS Subpart I II.A.9 NEW Asphalt Plant Boiler One (1) Asphalt Plant Boiler Capacity: 5.0 MMBtu/hr Fuel: Natural Gas, Propane, Diesel Fuel, or On-Specification Used Oil NSPS Subpart I Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 14 II.A.10 NEW Asphalt Drum Mixer One (1) Asphalt Drum Mixer with Heater Capacity: 425 tons/hr Rating: 150 MMBtu/hr Fuel: Natural Gas, Propane, Diesel Fuel, or On-Specification Used Oil NSPS Subpart I II.A.11 NEW Asphalt Drum Mixer Baghouse One (1) Baghouse Flowrate: 86,217 dscfm II.A.12 NEW Storage Tanks 12 Storage Tanks Capacities: Tank 1 - 4 12,000 gallons (diesel fuel) each Tank 5 4,000 gallons (asphalt cement) Tank 6 25,000 gallons (asphalt cement) Tank 7 30,000 gallons (asphalt cement) Tank 8 35,000 gallons (asphalt cement) Tank 9 - 10 60,000 gallons (asphalt cement) each Tank 11 60,000 gallons (RFO) Tank 12 250,000 gallons (asphalt cement) SECTION II: SPECIAL PROVISIONS The intent is to issue an air quality AO authorizing the project with the following recommended conditions and that failure to comply with any of the conditions may constitute a violation of the AO. (New or Modified conditions are indicated as “New” in the Outline Label): II.B REQUIREMENTS AND LIMITATIONS II.B.1 NEW Plantwide Requirements II.B.1.a NEW The owner/operator shall not produce more than the following: A. 1,000,000 tons of aggregate per rolling 12-month period B. 300,000 cubic yards of concrete per rolling 12-month period C. 500,000 tons of finished asphalt per rolling 12-month period. [R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 15 II.B.1.a.1 NEW The owner/operator shall: A. Determine production with a scale or a cubic yard measurement device B. Record production on a daily basis C. Use the production data to calculate a new rolling 12-month total by the 20th day of each month using data from the previous 12 months D. Keep the production records for all periods the plant is in operation. [R307-401-8] II.B.2 NEW HMA Plant Requirements II.B.2.a NEW The owner/operator shall not allow visible emissions from the hot mix asphalt plant baghouse or storage silo fabric filters on site to exceed 10% opacity. [R307-401-8] II.B.2.a.1 NEW Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.2.b NEW The owner/operator shall not emit more than the following rates and concentrations from the HMA plant baghouse: Pollutant lb/hr grains/dscf Filterable PM10 9.80 0.024 Filterable PM2.5 1.20 0.024. [R307-401-8] II.B.2.b.1 NEW Compliance Demonstration To demonstrate compliance with the emission limitations above, the owner/operator shall perform stack testing on the emissions unit according to the stack testing conditions contained in this AO. [R307-165-2, R307-401-8] II.B.2.b.2 NEW Initial Test The owner/operator shall conduct an initial stack test on the emission unit within 180 days after startup of the emission unit. [R307-165-2] II.B.2.b.3 NEW Test Frequency The owner/operator shall conduct a stack test on the emission unit within five years after the date of the most recent stack test of the emission unit. The Director may require the owner/operator to perform a stack test at any time. [R307-165-2, R307-401-8] II.B.3 NEW Stack Testing Requirements II.B.3.a NEW The owner/operator shall conduct any stack testing required by this AO according to the following conditions. [R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 16 II.B.3.a.1 NEW Notification At least 30 days prior to conducting a stack test, the owner/operator shall submit a source test protocol to the Director. The source test protocol shall include the items contained in R307-165-3. If directed by the Director, the owner/operator shall attend a pretest conference. [R307-165-3, R307-401-8] II.B.3.a.2 NEW Testing & Test Conditions The owner/operator shall conduct testing according to the approved source test protocol and according to the test conditions contained in R307-165-4. [R307-165-4, R307-401-8] II.B.3.a.3 NEW Access The owner/operator shall provide Occupational Safety and Health Administration (OSHA)- or Mine Safety and Health Administration (MSHA)-approved access to the test location. [R307- 401-8] II.B.3.a.4 NEW Reporting No later than 60 days after completing a stack test, the owner/operator shall submit a written report of the results from the stack testing to the Director. The report shall include validated results and supporting information. [R307-165-5, R307-401-8] II.B.3.a.5 NEW Possible Rejection of Test Results The Director may reject stack testing results if the test did not follow the approved source test protocol or for a reason specified in R307-165-6. [R307-165-6, R307-401-8] II.B.3.b NEW Test Methods When performing stack testing, the owner/operator shall use the appropriate EPA-approved test methods as acceptable to the Director. Acceptable test methods for pollutants are listed below. [R307-401-8] II.B.3.b.1 NEW Standard Conditions A. Temperature - 68 degrees Fahrenheit (293 K) B. Pressure - 29.92 in Hg (101.3 kPa) C. Averaging Time - As specified in the applicable test method. [40 CFR 60 Subpart A, 40 CFR 63 Subpart A, R307-401-8] II.B.3.b.2 NEW Filterable PM10 40 CFR 60, Appendix A, Method 5; 40 CFR 51, Appendix M, Method 201; Method 201A; or other EPA-approved testing method as acceptable to the Director. If other approved testing methods are used which cannot measure the PM10 fraction of the filterable particulate emissions, all of the filterable particulate emissions shall be considered PM10. [R307-401-8] II.B.3.b.3 NEW Filterable PM2.5 40 CFR 60, Appendix A, Method 5; 40 CFR 51, Appendix M, Method 201A or other EPA- approved testing method as acceptable to the Director. If other approved testing methods are used which cannot measure the PM2.5 fraction of the filterable particulate emissions, all of the filterable particulate emissions shall be considered PM2.5. [R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 17 II.B.3.c NEW The owner/operator shall use natural gas, propane, diesel fuel (e.g. fuel oil #1 or #2), on- specification used oil as defined in R315-15, or any combination thereof as fuel in the hot mix asphalt plant. [R307-401-8] II.B.3.d NEW The owner/operator shall only combust diesel fuel that meets the definition of ultra-low sulfur diesel (ULSD), which has a sulfur content of 15 ppm or less. [R307-401-8] II.B.3.d.1 NEW To demonstrate compliance with the ULSD fuel requirement, the owner/operator shall maintain records of diesel fuel purchase invoices or obtain certification of sulfur content from the diesel fuel supplier. The diesel fuel purchase invoices shall indicate that the diesel fuel meets the ULSD requirements. [R307-401-8] II.B.4 NEW Baghouse Requirements II.B.4.a NEW The owner/operator shall use a baghouse to control particulate emissions from the hot mix asphalt plant dryer and mixer drums on site. [R307-401-8] II.B.4.b NEW The owner/operator shall install a manometer or magnehelic pressure gauge to measure the static pressure drop across the hot mix asphalt plant baghouse. [R307-401-8] II.B.4.b.1 NEW The pressure gauge shall be located such that an inspector/operator can safely read the indicator at any time. [R307-401-8] II.B.4.b.2 NEW The pressure gauge shall measure the pressure drop in 1-inch water column increments or less. [R307-401-8] II.B.4.c NEW At least once every 12 months, the owner/operator shall calibrate the pressure gauges in accordance with the manufacturer's instructions or replace the gauges. [R307-401-8] II.B.4.c.1 NEW The owner/operator shall maintain records of the pressure gauge calibrations and replacements. [R307-401-8] II.B.4.d NEW The owner/operator shall maintain the static pressure drop across the hot mix asphalt plant baghouse during operation between 1.5 and 8 inches of water column. [R307-401-8] II.B.4.d.1 NEW The owner/operator shall record the pressure drop at least once per operating day. [R307-401- 8] II.B.4.d.2 NEW The owner/operator shall maintain records of the pressure drop readings. [R307-401-8] II.B.4.e NEW The owner/operator shall install a fabric filter on each lime storage silo associated with the hot mix asphalt plant to control particulate emissions generated during the filling of the lime silos. Displaced air from each lime silo shall pass through a fabric filter before being vented to the atmosphere. [R307-401-8] II.B.5 NEW Concrete Batch Plant Requirements II.B.5.a NEW The owner/operator shall use a baghouse to control emissions from the weigh hopper loading of the concrete batch plant. [R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 18 II.B.5.b NEW The owner/operator shall install a manometer or magnehelic pressure gauge to measure the static pressure drop across the concrete batch plant baghouse. [R307-401-8] II.B.5.b.1 NEW The pressure gauge shall be located such that an inspector/operator can safely read the indicator at any time. [R307-401-8] II.B.5.b.2 NEW The pressure gauge shall measure the pressure drop in 1-inch water column increments or less. [R307-401-8] II.B.5.c NEW At least once every 12 months, the owner/operator shall calibrate the pressure gauges in accordance with the manufacturer's instructions or replace the gauges. [R307-401-8] II.B.5.c.1 NEW The owner/operator shall maintain records of the pressure gauge calibrations and replacements. [R307-401-8] II.B.5.d NEW The owner/operator shall maintain the static pressure drop across the concrete batch plant baghouse during operation between 1.5 and 8 inches of water column. [R307-401-8] II.B.5.d.1 NEW The owner/operator shall record the pressure drop at least once per operating day. [R307-401- 8] II.B.5.d.2 NEW The owner/operator shall maintain records of the pressure drop readings. [R307-401-8] II.B.5.e NEW The owner/operator shall install a fabric filter on each material storage silo associated with the concrete batch plant to control particulate emissions generated during the filling of the silos. Displaced air from each silo shall pass through a fabric filter before being vented to the atmosphere. [R307-401-8] II.B.5.f NEW The owner/operator shall not allow visible emissions from the concrete batch plant baghouse or storage silo fabric filters on site to exceed 7% opacity. [R307-401-8] II.B.5.f.1 NEW Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.6 NEW Aggregate Processing Requirements II.B.6.a NEW The owner/operator shall install water sprays on each crusher, screen, conveyor transfer point, and conveyor drop point on site to control emissions. Water sprays shall operate as necessary to prevent visible emissions from exceeding the opacity limits listed in this AO. [R307-401-8] II.B.6.b NEW The owner/operator shall perform monthly periodic inspections to check that water is flowing to water sprays associated with each crusher, screen, and conveyor. If the owner/operator finds that water is not flowing properly during an inspection of the water sprays, the owner/operator shall initiate corrective action within 24 hours and complete corrective action as expediently as practical. [40 CFR 60 Subpart OOO, R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 19 II.B.6.b.1 NEW Records of the water spray inspections shall be maintained in a logbook for all periods when the plant is in operation. The records shall include the following items: A. Date the inspections were made B. Any corrective actions taken C. Control mechanism used if sprays are not operating. [40 CFR 60 Subpart OOO, R307-401-8] II.B.6.c NEW The owner/operator shall not exceed the following opacity limits for indicated the emission units. A. Crushers - 12% Opacity B. Screens - 7% Opacity C. Conveyor Transfer Points - 7% Opacity D. Conveyor Drop Points - 7% Opacity E. All Other Points - 20% Opacity. [40 CFR 60 Subpart OOO, R307-401-8] II.B.6.c.1 NEW Opacity observations of emissions from stationary sources shall be conducted according to 40 CFR 60, Appendix A, Method 9. [R307-401-8] II.B.6.d NEW The owner/operator shall not operate the aggregate production and hauling for 17 hours per day, before 6 am and after 11 pm, after December 1 to before March 1. The owner/operator shall operate the aggregate production and hauling 24-hours per day the rest of the year. [R307-401-8] II.B.6.d.1 NEW The owner/operator shall keep and maintain the following records of operation for all periods of aggregate production and hauling: A. Time operations begin each day B. Time operations end each day. [R307-401-8] II.B.7 NEW Crushers, Screens, and Conveyors Subject to NSPS Subpart OOO: II.B.7.a NEW The owner/operator shall conduct an initial performance test for each crusher, screen, and conveyor transfer point on site. Performance tests shall demonstrate compliance with the limitations specified in Table 3 to Subpart OOO. [40 CFR 60 Subpart OOO] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 20 II.B.7.a.1 NEW Initial performance tests for fugitive emissions limits shall be conducted according to 40 CFR 60.675(c). The owner or operator may use methods and procedures specified in 40 CFR 60.675(e) as alternatives to the reference methods and procedures specified in 40 CFR 60.675(c). [40 CFR 60 Subpart OOO] II.B.7.a.2 NEW The owner/operator shall keep and maintain records of the initial performance test for each crusher, screen, and conveyor for the life of the equipment. [40 CFR 60 Subpart OOO, R307- 401-8] II.B.8 NEW Haul Roads and Fugitive Dust Requirements II.B.8.a NEW The owner/operator shall not allow visible emissions from haul roads and fugitive dust sources to exceed 20% opacity on site. [R307-205-4, R307-401-8] II.B.8.a.1 NEW Visible emission determinations for fugitive dust from haul roads and operational areas shall use procedures similar to Method 9. The normal requirement for observations to be made at 15-second intervals over a six-minute period, however, shall not apply. Visible emissions shall be measured at the densest point of the plume but at a point not less than one-half vehicle length behind the vehicle and not less than one-half the height of the vehicle. [R307-205-4, R307-401-8] II.B.8.b NEW The owner/operator shall pave the haul road from the site entrance to the HMA plant. [R307- 401-8] II.B.8.c NEW The haul roads shall comply with the following lengths: A. Paved haul roads shall not be less than 550 feet B. Unpaved hot-mix asphalt haul road shall not exceed 3,221 feet C. Unpaved concrete haul road shall not exceed 2,535 feet D. Unpaved wash plant haul road shall not exceed 2,693 feet E. Unpaved aggregate haul road shall not exceed 5,544 feet F. Loader main operating area shall not exceed 264 feet. [R307-401-8] II.B.8.c.1 NEW Compliance shall be determined through Global Positioning System (GPS) measurements or aerial photographs. [R307-401-8] II.B.8.c.2 NEW The owner/operator shall measure the six (6) roadways once per year each. The owner/operator shall keep these measurements in a log book. [R307-401-8] II.B.8.d NEW The owner/operator shall cover all unpaved haul roads and wheeled-vehicle operational areas with road base and chemical suppressants to maintain the opacity limits in this AO. An operational water truck shall be available during each operating day. [R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 21 II.B.8.d.1 NEW The owner/operator shall keep the following records for water and/or chemical dust suppressant application: A. The material used B. The date of application C. The quantity used. [R307-401-8] II.B.8.d.2 NEW The owner/operator shall use water application to maintain the opacity limits listed in this AO. [R307-401-8] II.B.8.d.3 NEW If the temperature is below freezing, the owner/operator may stop applying water to the unpaved haul roads or wheeled-vehicle operational areas. [R307-401-8] II.B.8.e NEW The owner/operator shall vacuum sweep and flush with water all the paved roads on site to maintain the opacity limits in this AO. An operational vacuum sweeper and water truck shall be available each operating day. [R307-401-8] II.B.8.e.1 NEW If the temperature is below freezing, the owner/operator shall continue to sweep the paved haul road, but may stop flushing the roads with water. If the paved haul roads are covered with snow or ice, the owner/operator may stop vacuum sweeping. [R307-401-8] II.B.8.e.2 NEW The owner/operator shall not exceed a combined area of 15 acres of all storage piles. [R307- 401-8] II.B.8.e.3 NEW To determine compliance with the total acres of the storage piles, the owner/operator shall measure the total area of the storage piles at least once every six months and shall maintain a record of the total acres of the storage piles. Compliance shall be determined through GPS measurements or aerial photographs. The area of each storage pile shall be added together to obtain the total area of all the storage piles on site. Records of the total acres of the storage piles shall contain the following: A. Date of measurements B. Size of each storage pile on site C. Total acres of all storage piles combined. [R307-401-8] II.B.8.f NEW The owner/operator shall not exceed a combined disturbed mining area of 25 acres. [R307- 401-8] II.B.8.f.1 NEW Compliance shall be determined through Global Positioning System (GPS) measurements or aerial photographs. [R307-401-8] II.B.8.f.2 NEW The owner/operator shall measure the disturbed mining area once per year. The owner/operator shall keep the measurement in a log book. [R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 22 II.B.8.g NEW The owner/operator shall apply water to fugitive dust sources to prevent visible emissions from exceeding the opacity limits listed in this AO. The owner/operator may stop applying water to fugitive dust sources when the temperature is below freezing, but shall apply other controls as necessary to prevent visible emissions from exceeding the opacity limits listed in this AO. [R307-205-4, R307-401-8] II.B.8.g.1 NEW The owner/operator shall keep records of water application and fugitive dust control for all periods when the plant is in operation. The records shall include the following items: A. Date and time treatments were made B. Number of treatments made and quantity of water applied C. Rainfall amount received, if any D. Records of temperature, if the temperature is below freezing E. Records of any other controls used to reduce fugitive dust. [R307-205-4, R307-401-8] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 23 PERMIT HISTORY When issued, the approval order shall supersede (if a modification) or will be based on the following documents: Is Derived From NOI dated July 13, 2023 Incorporates Additional information dated October 30, 2023 Incorporates Modeling completed dated November 21, 2023 Incorporates Additional information dated May 22, 2024 REVIEWER COMMENTS 1. Comment regarding Emission Estimates: The emission estimates from the following processes are calculated as follows: CBP Emissions estimates from the concrete batching plant are from AP-42 Section 11.12 HMA Plant Emission estimate from the asphalt plant are from AP-42 Section 11.1 Aggregate Processing Emission estimates from the crusher/(dry) screens/conveyors are from AP-42 Section 11.19.2 Emission estimates from bulldozing are from AP-42 Section 11.9 Emission estimates from loader routes are from AP-42 Section 13.3.3 Emission estimates from storage piles are from AP-42 Section 8.19 (4th edition) Emission estimates from disturbed ground are from AP-42 Section 11.9 and 13.2.5.3 Emission estimates from the use of unpaved roads are from AP-42 Section 13.2.2 Emission estimates from aggregate handling are from AP-42 Section 11.19.2 Emission estimates from material handling are from AP-42 Section 13.2.4.3 Emission estimates from the diesel fuel storage tanks are from AP-42 Section 7 Emission estimates from the generator engine are from the manufacturer and from AP-42 Section 1.4 CO2e by AP-42 Tables 1.3-3, 1.3-8, 1.3-12, and Part 98, Subpart A, Table A-1. [Last updated June 13, 2024] 2. Comment regarding NSPS and MACT: 40 CFR 60 (NSPS) 40 CFR 60 Subpart Dc applies to owners and operators of small industrial-commercial-institutional steam generating units between 100 MMBtu/hr and 10 MMBtu/hr. This steam generating unit uses diesel fuel. Since this source will have two steam generators rated at 9.9 MMBtu/hr and 5.0 MMBtu/hr. NSPS Subpart Dc will not apply to this plant. 40 CFR Subpart I applies to owner and operators of HMA facilities that commenced construction, modification, or reconstruction after June 11, 1973. NSPS Subpart I will apply to this plant. 40 CFR Part 60 Subpart OOO applies to select equipment at nonmetallic mineral processing plants that commenced construction, modification, or reconstruction after August 31, 1983. The screens, crushers, and transfer/drop points (conveyors, stackers, feed bins) at this facility are subject to 40 Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 24 CFR Part 60 Subpart OOO. [Last updated June 13, 2024] 3. Comment regarding Title V Requirements: Title V of the 1990 Clean Air Act (Title V) applies to the following: 1. Any major source 2. Any source subject to a standard, limitation, or other requirement under Section 111 of the Act, Standards of Performance for New Stationary Sources; 3. Any source subject to a standard or other requirement under Section 112 of the Act, Hazardous Air Pollutants. 4. Any Title IV affected source. This facility is not a major source and is not a Title IV source. The facility is subject to 40 CFR 60 (NSPS). The facility is not subject to 40 CFR 61 (NESHAP) and 40 CFR 63 (MACT) regulations. Title V applies to this facility as an area source. There is no requirement for this source to apply for a Title V operating permit under current UDAQ and EPA rules. The source will be charged applicable Title V fees and Title V funds may be used for inventory and compliance inspections of this source. [Last updated June 13, 2024] Engineer Review N161600001: Geneva Rock Products- Mona Asphalt, Concrete, and Aggregate Pit August 12, 2024 Page 25 ACRONYMS The following lists commonly used acronyms and associated translations as they apply to this document: 40 CFR Title 40 of the Code of Federal Regulations AO Approval Order BACT Best Available Control Technology CAA Clean Air Act CAAA Clean Air Act Amendments CDS Classification Data System (used by EPA to classify sources by size/type) CEM Continuous emissions monitor CEMS Continuous emissions monitoring system CFR Code of Federal Regulations CMS Continuous monitoring system CO Carbon monoxide CO2 Carbon Dioxide CO2e Carbon Dioxide Equivalent - 40 CFR Part 98, Subpart A, Table A-1 COM Continuous opacity monitor DAQ/UDAQ Division of Air Quality DAQE This is a document tracking code for internal UDAQ use EPA Environmental Protection Agency FDCP Fugitive dust control plan GHG Greenhouse Gas(es) - 40 CFR 52.21 (b)(49)(i) GWP Global Warming Potential - 40 CFR Part 86.1818-12(a) HAP or HAPs Hazardous air pollutant(s) ITA Intent to Approve LB/HR Pounds per hour LB/YR Pounds per year MACT Maximum Achievable Control Technology MMBTU Million British Thermal Units NAA Nonattainment Area NAAQS National Ambient Air Quality Standards NESHAP National Emission Standards for Hazardous Air Pollutants NOI Notice of Intent NOx Oxides of nitrogen NSPS New Source Performance Standard NSR New Source Review PM10 Particulate matter less than 10 microns in size PM2.5 Particulate matter less than 2.5 microns in size PSD Prevention of Significant Deterioration PTE Potential to Emit R307 Rules Series 307 R307-401 Rules Series 307 - Section 401 SO2 Sulfur dioxide Title IV Title IV of the Clean Air Act Title V Title V of the Clean Air Act TPY Tons per year UAC Utah Administrative Code VOC Volatile organic compounds DAQE-MN161600001A-24 M E M O R A N D U M TO: Tim DeJulis, NSR Engineer FROM: Dave Prey, Air Quality Modeler DATE: August 8, 2024 SUBJECT: Modeling Analysis Review for the Notice of Intent for Geneva Rock Products – Mona Facility, Juab County, Utah _____________________________________________________________________________________ This is not a Major Prevention of Significant Deterioration (PSD) Source. I. OBJECTIVE Geneva Rock Products (Applicant) is seeking an approval order for their Mona Facility located in Juab County, Utah. The plant produces up to 500,000 tons of asphalt annually, up to 300,000 tons of concrete annually, and up to 1,000,000 tons of aggregate annually. This report, prepared by the Staff of the New Source Review Section (NSR), contains a review of the air quality impact analysis (AQIA) including the information, data, assumptions and modeling results used to determine if the facility would be in compliance with State and Federal concentration standards. II. APPLICABLE RULE(S) Utah Air Quality Rules: R307-401-6 Condition for Issuing an Approval Order R307-410-3 Use of Dispersion Models R307-410-4 Modeling of Criteria Pollutants in Attainment Areas R307-410-5 Documentation of Ambient Air Impacts for Hazardous Air Pollutants 195 North 1950 West • Salt Lake City, UT Mailing Address: P.O. Box 144820 • Salt Lake City, UT 84114-4820 Telephone (801) 536-4000 • Fax (801) 536-4099 • T.D.D. (801) 903-3978 www.deq.utah.gov Printed on 100% recycled paper State of Utah SPENCER J. COX Governor DEIDRE HENDERSON Lieutenant Governor Department of Environmental Quality Kimberly D. Shelley Executive Director DIVISION OF AIR QUALITY Bryce C. Bird Director : 3 * DP DP DAQE-MN161600001A-24 Page 2 III. MODELING METHODOLOGY A. Applicability Emissions from the facility include PM10, NOx, CO, SO2, and HAPs. Fugitive PM10 emissions were over 5 tons/year, so a modeling demonstration was performed to demonstrate compliance with the NAAQS. Modeling was also performed for formaldehyde. Modeling was performed by the Applicant. Modeling for NO2 was also performed by the UDAQ. B. Assumptions 1. Topography/Terrain The Plant is at an elevation 5257 feet with terrain features that have little effect on concentration predictions. a. Zone: 12 b. Approximate Location: UTM (NAD83): 429172 meters East 4408560 meters North 2. Urban or Rural Area Designation After a review of the appropriate 7.5 minute quadrangles, it was concluded the area is “rural” for air modeling purposes. 3. Ambient Air It was determined the Plant boundary used in the AQIA meets the State’s definition of ambient air. 4. Building Downwash The source was modeled with the AERMOD model. All structures at the plant were used in the model to account for their influence on downwash. 5. Meteorology One (1) year of on-site surface and upper air data were used in the analysis consisting of the following: Surface – Currant Creek Power Plant, UT PacifiCorp: 2001-2002 Upper Air – Salt Lake Airport, UT NWS: 2001-2002 6. Background The background concentrations were based on concentrations measured in Spanish Fork and Lindon, Utah. DAQE-MN161600001A-24 Page 3 7. Receptor and Terrain Elevations The modeling domain used consisted of receptors including property boundary receptors. This area of the state contains mountainous terrain and the modeling domain has simple and complex terrain features in the near and far fields. Therefore, receptor points representing actual terrain elevations from the area were used in the analysis. 8. Model and Options The State-accepted AERMOD model was used to predict air pollutant concentrations under a simple/complex terrain/wake effect situation. In quantifying concentrations, the regulatory default option was selected. 9. Air Pollutant Emission Rates PM10 Source UTM Coordinates Modeled Emission Rates Easting Northing PM10 (m) (m) (lb/hr) (tons/yr) hrs/year CON_WH 429393 4408371 0.1170 0.512 8760 HMA_HTR 429172 4408560 0.0589 0.258 8760 HMA_AP 429166 4408565 9.7800 42.837 8760 SP1 429552 4408627 0.3956 1.733 8760 SP2 429342 4408636 0.3943 1.727 8760 SP3 429641 4408545 0.3945 1.728 8760 SP4 429830 4409543 0.3923 1.718 8760 SP5 429496 4408382 0.3932 1.722 8760 DIST1 429787 4408392 0.5657 2.478 8760 DIST2 429751 4409558 0.5211 2.282 8760 AGG_001 429796 4409525 0.5400 1.675 6205 AGG_002 429900 4408592 0.5400 1.675 6205 AGG_003 429876 4408595 0.3240 1.005 6205 AGG_004 429347 4408524 0.3240 1.005 6205 AGG_005 429902 4408605 0.3240 1.005 6205 AGG_006 429916 4408549 0.3240 1.005 6205 AGG_007 429930 4408612 1.1100 3.444 6205 AGG_008 429914 4408579 0.7400 2.296 6205 AGG_009 429897 4408628 0.7400 2.296 6205 AGG_010 429856 4408578 0.4440 1.378 6205 AGG_011 429891 4408559 0.4440 1.378 6205 DAQE-MN161600001A-24 Page 4 AGG_012 429930 4408584 0.4440 1.378 6205 HMA_001 429148 4408555 0.2439 1.068 8760 HMA_002 429145 4408555 0.0298 0.130 8760 RMC_CB 429393 4408377 0.7848 3.437 8760 LDR_ASP 429148 4408552 0.0425 0.186 8760 LDR_AG1 429900 4408588 0.1000 0.310 6205 LDR_AG2 429802 4409525 0.1000 0.310 6205 LDR_AGG 429844 4408586 0.1000 0.310 6205 HMA_MHC 429151 4408513 0.1173 0.514 8760 HMA_LDR 429151 4408513 0.1070 0.469 8760 AGG_MHC 429841 4408544 0.6903 3.024 8760 AG_LDR1 429842 4408543 0.3528 1.095 6205 AG_LDR2 429786 4409514 0.0156 0.048 6205 RMC_MHC 429403 4408385 0.0580 0.254 8760 DOZER1 429787 4408392 0.3924 1.217 6205 DOZER2 429751 4409558 0.3618 1.122 6205 LDR_CB 429425 4408386 0.0420 0.184 8760 RMC_LDR 429403 4408385 0.0629 0.276 8760 Concrete Haul Roads 0.1811 0.7931 WP Haul Roads 0.4840 2.1199 HMA Haul roads 0.1308 0.5729 Aggregate Haul roads 1.2632 3.9191 Total 24.97 97.89 Nearby Sources Source UTM Coordinates Modeled Emission Rates Easting Northing PM10 (m) (m) (lb/hr) (tons/yr) hrs/year CTHRSG1 423536 4408324 13.3001 58.254 8760 CTHRSG2 423536 4408364 13.3001 58.254 8760 KIGORE 429690 4411522 3.7411 16.386 8760 SUNROC 429714 4411495 1.7272 7.565 8760 DAQE-MN161600001A-24 Page 5 NOx Source UTM Coordinates Modeled Emission Rates Easting Northing NOx (m) (m) (lb/hr) (tons/yr) hrs/year CON_WH 429393 4408371 1.41 6.19 8760 HMA_HTR 429172 4408560 0.71 3.13 8760 HMA_AP 429166 4408565 23.40 102.49 8760 Total 25.53 111.81 Formaldehyde Source UTM Coordinates Modeled Emission Rates Easting Northing Formaldehyde (m) (m) (lb/hr) (tons/yr) hrs/year CON_WH 429393 4408371 0.0023 0.0102 8760 HMA_HTR 429172 4408560 0.0012 0.0052 8760 HMA_AP 429166 4408565 1.3200 5.7816 8760 HMA_001 429148 4408555 0.0357 0.1565 8760 HMA_002 429145 4408555 0.0002 0.0009 8760 Total 1.36 5.95 10. Source Location and Parameters Source Type Source Parameters Elev, Ht Temp Flow Dia Sigma- Y Sigma- Z X-Dim Y- Dim Area (ft) (m) (ft) (K) (m/s) (m) (m) (m) (m) (m) (m^2) CON_WH POINT 5308.4 18.3 60.0 294 12.19 0.61 0.00 1 HMA_HTR POINT 5257.4 18.3 60.0 294 12.19 0.61 0.00 1 HMA_AP POINT 5256.5 7.2 23.5 354 18.43 1.15 0.00 1 SP1 AREA_POLY 5371.7 0.0 0.0 0.00 15.00 12320.9 SP2 AREA_POLY 5305.6 0.0 0.0 0.00 15.00 12118.8 DAQE-MN161600001A-24 Page 6 SP3 AREA_POLY 5391.3 0.0 0.0 0.00 15.00 12267.3 SP4 AREA_POLY 5491.4 0.0 0.0 0.00 15.00 12118.8 SP5 AREA_POLY 5336.9 0.0 0.0 0.00 15.00 12186.7 DIST1 AREA_POLY 5418.0 0.0 0.0 0.00 0.00 49846.6 DIST2 AREA_POLY 5464.0 0.0 0.0 0.00 0.00 48902.1 AGG_001 VOLUME 5481.8 2.5 8.2 0.00 5.00 21.5 1 AGG_002 VOLUME 5482.4 2.5 8.2 0.00 5.00 21.5 1 AGG_003 VOLUME 5477.3 2.5 8.2 0.00 5.00 21.5 1 AGG_004 VOLUME 5303.8 2.5 8.2 0.00 5.00 21.5 1 AGG_005 VOLUME 5488.4 2.5 8.2 0.00 5.00 21.5 1 AGG_006 VOLUME 5481.4 2.5 8.2 0.00 5.00 21.5 1 AGG_007 VOLUME 5495.6 2.5 8.2 0.00 5.00 21.5 1 AGG_008 VOLUME 5486.8 2.5 8.2 0.00 5.00 21.5 1 AGG_009 VOLUME 5491.5 2.5 8.2 0.00 5.00 21.5 1 AGG_010 VOLUME 5464.4 2.5 8.2 0.00 5.00 21.5 1 AGG_011 VOLUME 5476.1 2.5 8.2 0.00 5.00 21.5 1 AGG_012 VOLUME 5492.7 2.5 8.2 0.00 5.00 21.5 1 HMA_001 VOLUME 5251.3 4.6 15.0 0.00 4.27 3.01 1 HMA_002 VOLUME 5250.7 4.6 15.0 0.00 4.27 3.01 1 RMC_CB VOLUME 5307.8 6.1 20.0 0.00 2.84 41.022 1 LDR_ASP VOLUME 5250.9 2.5 8.1 0.00 1.15 2.494 1 LDR_AG1 VOLUME 5480.8 2.5 8.1 0.00 1.15 2.494 1 LDR_AG2 VOLUME 5483.6 2.5 8.1 0.00 1.15 2.494 1 LDR_AGG VOLUME 5465.8 2.5 8.1 0.00 1.15 2.494 1 HMA_MHC AREA 5248.5 5.0 16.4 0.00 5.00 30 60 1800 HMA_LDR AREA 5248.5 0.0 0.0 0.00 3.00 30 60 1800 AGG_MHC AREA 5457.6 5.0 16.4 0.00 5.00 110 185 20350 AG_LDR1 AREA 5457.6 0.0 0.0 0.00 3.00 110 185 20350 AG_LDR2 AREA 5478.8 0.0 0.0 0.00 3.00 30 30 900 RMC_MHC AREA 5309.1 5.0 16.4 0.00 5.00 30 30 900 DOZER1 AREA_POLY 5418.0 0.0 0.0 0.00 3.00 49846.6 DOZER2 AREA_POLY 5464.0 0.0 0.0 0.00 3.00 48902.1 LDR_CB VOLUME 5315.4 2.5 8.1 0.00 1.15 2.494 1 RMC_LDR AREA 5309.1 0.0 0.0 0.00 3.00 30 30 900 DAQE-MN161600001A-24 Page 7 Nearby Sources Source Type Source Parameters Elev, Ht Temp Flow Dia Sigma- Y Sigma- Z X- Dim Y- Dim Area (ft) (m) (ft) (K) (m/s) (m) (m) (m) (m) (m) (m^2) CTHRSG1 POINT 5055.8 15.3 50.3 365 26.20 5.13 0.00 CTHRSG2 POINT 5055.9 15.3 50.3 365 26.20 5.00 0.00 KIGORE AREA_POLY 5335.4 3.0 10.0 0.00 3.05 85355.9 SUNROC AREA_POLY 5341.7 3.0 10.0 0.00 3.05 108369.9 A. National Ambient Air Quality Standards The below table provides a comparison of the predicted total air quality concentrations with the NAAQS. The predicted total concentrations are less than the NAAQS. Pollutant Period Prediction Others Background Total NAAQS Percent (μg/m3) (μg/m3) (μg/m3) (μg/m3) (μg/m3) NAAQS PM10 24-Hour 76.12 5.59 65 146.7 150 97.8% Air Pollutant Period Prediction Class II Significant Impact Level Background Nearby Sources Total NAAQS Percent (μg/m3) (μg/m3) (μg/m3) (μg/m3) (μg/m3) (μg/m3) NAAQS NO2 1-Hour 112.0 7.5 39.5 1.1 152.7 188 81.2% B. Toxic Screening Levels The model predicted all HAP concentrations to be less than their respective UDAQ - Toxic Screening Levels (TSL). Based on these results, no further analysis is required. Pollutant Period Prediction TSL Percent (μg/m3) (μg/m3) Formaldehyde 1-Hour 35.43 37 95.8% DAQE-MN161600001A-24 Page 8 V. PERMIT CONDITIONS The following suggested permit language should be included under the Terms and Conditions in the AO: • Aggregate production and hauling from December through February shall be limited to 17 hours per day between the hours of 6 am and 11 pm. During the remaining months of the year, aggregate production and hauling can operate 24 hours per day. DP:jg DAQE-MN161600001-23 M E M O R A N D U M TO: Tim DeJulis, NSR Engineer FROM: Dave Prey, Air Quality Modeler DATE: November 21, 2023 SUBJECT: Modeling Analysis Review for the Notice of Intent for Geneva Rock Products – Mona Facility, Juab County, Utah __________________________________________________________________________________________ This is not a Major Prevention of Significant Deterioration (PSD) Source. I. OBJECTIVE Geneva Rock Products (Applicant) is seeking an approval order for their Mona Facility located in Juab County, Utah. The plant produces up to 500,000 tons of asphalt annually, up to 300,000 tons of concrete annually, and up to 1,000,000 tons of aggregate annually. This report, prepared by the Staff of the New Source Review Section (NSR), contains a review of the air quality impact analysis (AQIA) including the information, data, assumptions and modeling results used to determine if the facility would be in compliance with State and Federal concentration standards. II. APPLICABLE RULE(S) Utah Air Quality Rules: R307-401-6 Condition for Issuing an Approval Order R307-410-3 Use of Dispersion Models R307-410-4 Modeling of Criteria Pollutants in Attainment Areas R307-410-5 Documentation of Ambient Air Impacts for Hazardous Air Pollutants 195 North 1950 West • Salt Lake City, UT Mailing Address: P.O. Box 144820 • Salt Lake City, UT 84114-4820 Telephone (801) 536-4000 • Fax (801) 536-4099 • T.D.D. (801) 903-3978 www.deq.utah.gov Printed on 100% recycled paper State of Utah SPENCER J. COX Governor DEIDRE HENDERSON Lieutenant Governor Department of Environmental Quality Kimberly D. Shelley Executive Director DIVISION OF AIR QUALITY Bryce C. Bird Director : 3 * DP DP DAQE-MN161600001-23 Page 2 III. MODELING METHODOLOGY A. Applicability Emissions from the facility include PM10, NOx, CO, SO2, and HAPs. Fugitive PM10 emissions were over 5 tons/year, so a modeling demonstration was performed to demonstrate compliance with the NAAQS. Modeling was also performed for formaldehyde. Modeling was performed by the Applicant. Modeling for NO2 was also performed by the UDAQ. B. Assumptions 1. Topography/Terrain The Plant is at an elevation 5257 feet with terrain features that have little effect on concentration predictions. a. Zone: 12 b. Approximate Location: UTM (NAD83): 429172 meters East 4408560 meters North 2. Urban or Rural Area Designation After a review of the appropriate 7.5-minute quadrangles, it was concluded the area is “rural” for air modeling purposes. 3. Ambient Air It was determined the Plant boundary used in the AQIA meets the State’s definition of ambient air. 4. Building Downwash The source was modeled with the AERMOD model. All structures at the plant were used in the model to account for their influence on downwash. 5. Meteorology One (1) year of on-site surface and upper air data were used in the analysis consisting of the following: Surface – Currant Creek Power Plant, UT PacifiCorp: 2001-2002 Upper Air – Salt Lake Airport, UT NWS: 2001-2002 DAQE-MN161600001-23 Page 3 6. Background The background concentrations were based on concentrations measured in Spanish Fork and Lindon, Utah. 7. Receptor and Terrain Elevations The modeling domain used consisted of receptors including property boundary receptors. This area of the state contains mountainous terrain and the modeling domain has simple and complex terrain features in the near and far fields. Therefore, receptor points representing actual terrain elevations from the area were used in the analysis. 8. Model and Options The State-accepted AERMOD model was used to predict air pollutant concentrations under a simple/complex terrain/wake effect situation. In quantifying concentrations, the regulatory default option was selected. 9. Air Pollutant Emission Rates PM10 Source UTM Coordinates Modeled Emission Rates Easting Northing PM10 (m) (m) (lb/hr) (tons/yr) hrs/year CON_WH 429393 4408371 0.1170 0.512 8760 HMA_HTR 429172 4408560 0.0589 0.258 8760 HMA_AP 429166 4408565 9.7800 42.837 8760 SP1 429552 4408627 0.3956 1.733 8760 SP2 429342 4408636 0.3943 1.727 8760 SP3 429641 4408545 0.3945 1.728 8760 SP4 429830 4409543 0.3923 1.718 8760 SP5 429496 4408382 0.3932 1.722 8760 DIST1 429787 4408392 0.5657 2.478 8760 DIST2 429751 4409558 0.5211 2.282 8760 AGG_001 429796 4409525 0.5400 1.675 6205 AGG_002 429900 4408592 0.5400 1.675 6205 AGG_003 429876 4408595 0.3240 1.005 6205 AGG_004 429347 4408524 0.3240 1.005 6205 AGG_005 429902 4408605 0.3240 1.005 6205 DAQE-MN161600001-23 Page 4 AGG_006 429916 4408549 0.3240 1.005 6205 AGG_007 429930 4408612 1.1100 3.444 6205 AGG_008 429914 4408579 0.7400 2.296 6205 AGG_009 429897 4408628 0.7400 2.296 6205 AGG_010 429856 4408578 0.4440 1.378 6205 AGG_011 429891 4408559 0.4440 1.378 6205 AGG_012 429930 4408584 0.4440 1.378 6205 HMA_001 429148 4408555 0.2439 1.068 8760 HMA_002 429145 4408555 0.0298 0.130 8760 RMC_CB 429393 4408377 0.7848 3.437 8760 LDR_ASP 429148 4408552 0.0425 0.186 8760 LDR_AG1 429900 4408588 0.1000 0.310 6205 LDR_AG2 429802 4409525 0.1000 0.310 6205 LDR_AGG 429844 4408586 0.1000 0.310 6205 HMA_MHC 429151 4408513 0.1173 0.514 8760 HMA_LDR 429151 4408513 0.1070 0.469 8760 AGG_MHC 429841 4408544 0.6903 3.024 8760 AG_LDR1 429842 4408543 0.3528 1.095 6205 AG_LDR2 429786 4409514 0.0156 0.048 6205 RMC_MHC 429403 4408385 0.0580 0.254 8760 DOZER1 429787 4408392 0.3924 1.217 6205 DOZER2 429751 4409558 0.3618 1.122 6205 LDR_CB 429425 4408386 0.0420 0.184 8760 RMC_LDR 429403 4408385 0.0629 0.276 8760 Concrete Haul Roads 0.1811 0.7931 WP Haul Roads 0.4840 2.1199 HMA Haul roads 0.1308 0.5729 Aggregate Haul roads 1.2632 3.9191 Total 24.97 97.89 Nearby Sources Source UTM Coordinates Modeled Emission Rates Easting Northing PM10 (m) (m) (lb/hr) (tons/yr) hrs/year CTHRSG1 423536 4408324 13.3001 58.254 8760 CTHRSG2 423536 4408364 13.3001 58.254 8760 DAQE-MN161600001-23 Page 5 KIGORE 429690 4411522 3.7411 16.386 8760 SUNROC 429714 4411495 1.7272 7.565 8760 NOx Source UTM Coordinates Modeled Emission Rates Easting Northing Nox (m) (m) (lb/hr) (tons/yr) hrs/year CON_WH 429393 4408371 1.41 6.19 8760 HMA_HTR 429172 4408560 0.71 3.13 8760 HMA_AP 429166 4408565 23.40 102.49 8760 Total 25.53 111.81 Formaldehyde Source UTM Coordinates Modeled Emission Rates Easting Northing Formaldehyde (m) (m) (lb/hr) (tons/yr) hrs/year CON_WH 429393 4408371 0.0023 0.0102 8760 HMA_HTR 429172 4408560 0.0012 0.0052 8760 HMA_AP 429166 4408565 1.3200 5.7816 8760 HMA_001 429148 4408555 0.0357 0.1565 8760 HMA_002 429145 4408555 0.0002 0.0009 8760 Total 1.36 5.95 DAQE-MN161600001-23 Page 6 10. Source Location and Parameters Source Type Source Parameters Elev, Ht Te mp Flo w Di a Sigm a-Y Sigm a-Z X- Dim Y- Di m Area (ft) (m ) (ft) (K) (m/s ) (m ) (m) (m) (m) (m ) (m^2 ) CON_W H POINT 5308 .4 18. 3 60. 0 294 12. 19 0.6 1 0.00 1 HMA_H TR POINT 5257 .4 18. 3 60. 0 294 12. 19 0.6 1 0.00 1 HMA_A P POINT 5256 .5 7.2 23. 5 354 18. 43 1.1 5 0.00 1 SP1 AREA_P OLY 5371 .7 0.0 0.0 0.00 15.0 0 1232 0.9 SP2 AREA_P OLY 5305 .6 0.0 0.0 0.00 15.0 0 1211 8.8 SP3 AREA_P OLY 5391 .3 0.0 0.0 0.00 15.0 0 1226 7.3 SP4 AREA_P OLY 5491 .4 0.0 0.0 0.00 15.0 0 1211 8.8 SP5 AREA_P OLY 5336 .9 0.0 0.0 0.00 15.0 0 1218 6.7 DIST1 AREA_P OLY 5418 .0 0.0 0.0 0.00 0.00 4984 6.6 DIST2 AREA_P OLY 5464 .0 0.0 0.0 0.00 0.00 4890 2.1 AGG_00 1 VOLUME 5481 .8 2.5 8.2 0.00 5.00 21.5 1 AGG_00 2 VOLUME 5482 .4 2.5 8.2 0.00 5.00 21.5 1 AGG_00 3 VOLUME 5477 .3 2.5 8.2 0.00 5.00 21.5 1 AGG_00 4 VOLUME 5303 .8 2.5 8.2 0.00 5.00 21.5 1 AGG_00 5 VOLUME 5488 .4 2.5 8.2 0.00 5.00 21.5 1 AGG_00 6 VOLUME 5481 .4 2.5 8.2 0.00 5.00 21.5 1 AGG_00 7 VOLUME 5495 .6 2.5 8.2 0.00 5.00 21.5 1 AGG_00 8 VOLUME 5486 .8 2.5 8.2 0.00 5.00 21.5 1 AGG_00 9 VOLUME 5491 .5 2.5 8.2 0.00 5.00 21.5 1 DAQE-MN161600001-23 Page 7 AGG_01 0 VOLUME 5464 .4 2.5 8.2 0.00 5.00 21.5 1 AGG_01 1 VOLUME 5476 .1 2.5 8.2 0.00 5.00 21.5 1 AGG_01 2 VOLUME 5492 .7 2.5 8.2 0.00 5.00 21.5 1 HMA_0 01 VOLUME 5251 .3 4.6 15. 0 0.00 4.27 3.01 1 HMA_0 02 VOLUME 5250 .7 4.6 15. 0 0.00 4.27 3.01 1 RMC_C B VOLUME 5307 .8 6.1 20. 0 0.00 2.84 41.0 22 1 LDR_AS P VOLUME 5250 .9 2.5 8.1 0.00 1.15 2.49 4 1 LDR_A G1 VOLUME 5480 .8 2.5 8.1 0.00 1.15 2.49 4 1 LDR_A G2 VOLUME 5483 .6 2.5 8.1 0.00 1.15 2.49 4 1 LDR_A GG VOLUME 5465 .8 2.5 8.1 0.00 1.15 2.49 4 1 HMA_M HC AREA 5248 .5 5.0 16. 4 0.00 5.00 30 60 1800 HMA_L DR AREA 5248 .5 0.0 0.0 0.00 3.00 30 60 1800 AGG_M HC AREA 5457 .6 5.0 16. 4 0.00 5.00 110 18 5 2035 0 AG_LD R1 AREA 5457 .6 0.0 0.0 0.00 3.00 110 18 5 2035 0 AG_LD R2 AREA 5478 .8 0.0 0.0 0.00 3.00 30 30 900 RMC_M HC AREA 5309 .1 5.0 16. 4 0.00 5.00 30 30 900 DOZER 1 AREA_P OLY 5418 .0 0.0 0.0 0.00 3.00 4984 6.6 DOZER 2 AREA_P OLY 5464 .0 0.0 0.0 0.00 3.00 4890 2.1 LDR_C B VOLUME 5315 .4 2.5 8.1 0.00 1.15 2.49 4 1 RMC_L DR AREA 5309 .1 0.0 0.0 0.00 3.00 30 30 900 Nearby Sources Source Type Source Parameters Elev, Ht Te mp Flo w Di a Sigm a-Y Sigm a-Z X- Di m Y- Di m Area (ft) (m (ft) (K) (m/s (m (m) (m) (m (m (m^2) DAQE-MN161600001-23 Page 8 ) ) ) ) ) CTHRS G1 POINT 5055 .8 15. 3 50. 3 365 26. 20 5.1 3 0.00 CTHRS G2 POINT 5055 .9 15. 3 50. 3 365 26. 20 5.0 0 0.00 KIGOR E AREA_P OLY 5335 .4 3.0 10. 0 0.00 3.05 85355. 9 SUNRO C AREA_P OLY 5341 .7 3.0 10. 0 0.00 3.05 10836 9.9 IV. RESULTS AND CONCLUSIONS A. National Ambient Air Quality Standards The below table provides a comparison of the predicted total air quality concentrations with the NAAQS. The predicted total concentrations are less than the NAAQS. Pollutant Period Prediction Others Background Total NAAQS Percent (μg/m3) (μg/m3) (μg/m3) (μg/m3) (μg/m3) NAAQS PM10 24-Hour 76.12 5.59 65 146.7 150 97.8% Air Polluta nt Perio d Predictio n Class II Significa nt Impact Level Backgrou nd Nearb y Sourc es Total NAAQ S Percen t (μg/m3) (μg/m3) (μg/m3) (μg/m3 ) (μg/m 3) (μg/m3) NAAQ S NO2 1- Hour 112.0 7.5 39.5 1.1 152.7 188 81.2% DAQE-MN161600001-23 Page 9 B. Toxic Screening Levels The model predicted all HAP concentrations to be less than their respective UDAQ - Toxic Screening Levels (TSL). Based on these results, no further analysis is required. Pollutant Period Prediction TSL Percent (μg/m3) (μg/m3) Formaldehyde 1-Hour 35.43 37 95.8% V. PERMIT CONDITIONS The following suggested permit language should be included under the Terms and Conditions in the AO: • Aggregate production and hauling shall be limited to 17 hours per day between the hours of 6 am and 11 pm. DP:jg Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants NOTICE OF INTENT Geneva Rock Products Proposed Mona, Utah Facility Geneva Rock Product Prepared By: Linda Conger Otto AhChing TRINITY CONSULTANTS 4525 South Wasatch Blvd., Suite 100 Salt Lake City, Utah 84124 May 2024 Project 224501.0094 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants i TABLE OF CONTENTS 1.0 INTRODUCTION 1-1 1.1 Facility Description ..................................................................................................... 1-1 2.0 SOURCE DESCRIPTION 2-1 2.1 Aggregate Operations ................................................................................................. 2-1 2.2 Concrete Plant ............................................................................................................ 2-1 2.3 Hot Mix Asphalt Plant ................................................................................................. 2-1 2.4 Wash Plant .................................................................................................................. 2-2 2.5 Storage Piles and Mining Area .................................................................................... 2-2 2.6 Unpaved and Paved Roads .......................................................................................... 2-2 2.7 Heavy Duty Construction Equipment .......................................................................... 2-3 2.8 Storage Tanks ............................................................................................................. 2-3 2.9 Schedule ..................................................................................................................... 2-3 3.0 AIR EMISSIONS 3-1 4.0 BEST AVAILABLE CONTROL TECHNOLOGY 4-1 4.1 BACT for Material Handling ......................................................................................... 4-1 4.1.1 BACT for PM10/PM2.5 .................................................................................................. 4-1 4.2 BACT for Concrete Plant .............................................................................................. 4-2 4.2.1 BACT for PM10/PM2.5 .................................................................................................. 4-2 4.3 BACT for Hot Mix Asphalt Plant Dryer ......................................................................... 4-2 4.3.1 BACT for NOx, VOC, CO, SO2, and HAP ....................................................................... 4-2 4.3.2 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.4 BACT for Lime Silo ....................................................................................................... 4-3 4.4.1 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.5 BACT for Loader, Bulldozer, and Haul Truck Operations ............................................. 4-3 4.5.1 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.6 BACT for Exposed or Disturbed Area ........................................................................... 4-4 4.6.1 BACT for PM10/PM2.5 .................................................................................................. 4-4 4.7 BACT for Storage Piles ................................................................................................ 4-5 4.7.1 BACT for PM10/PM2.5 ............................................................................................... 4-5 4.8 BACT from Above Ground Storage Tanks .................................................................... 4-5 4.8.1 BACT for VOC and HAPs ............................................................................................ 4-6 4.9 BACT for Hot Water and Hot Oil Boilers ...................................................................... 4-7 4.9.1 BACT for NOx ........................................................................................................... 4-7 4.9.2 BACT for CO and VOC ............................................................................................... 4-9 4.9.3 BACT for PM10/PM2.5 .................................................................................................. 4-9 4.9.3 BACT for SO2 .......................................................................................................... 4-10 5.0 REGULATORY REVIEW 5-1 5.1 R307-101 General Requirements ............................................................................... 5-1 5.2 R307-102 General Requirements: Broadly Applicable Requirements ........................ 5-1 5.3 R307-107 General Requirements: Breakdowns .......................................................... 5-2 5.4 R307-130 General Penalty Policy ............................................................................... 5-2 5.5 R307-150 Emission Inventories .................................................................................. 5-3 5.6 R307-165 Stack Testing .............................................................................................. 5-4 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants ii 5.7 R307-201 Emission Standards: General Emission Standards ..................................... 5-4 5.8 R307-203 Emission Standards: Sulfur Content of Fuels ............................................. 5-5 5.9 R307-205 Emission Standards: Fugitive Emissions and Fugitive Dust ....................... 5-6 5.10 R307-210 Standards of Performance for New Stationary Sources ............................. 5-7 5.11 R307-214 National Emissions Standards for Hazardous Air Pollutants ...................... 5-7 5.12 R307-401 Permit: New and Modified Sources ............................................................ 5-8 5.13 R307-410 Permits Emissions Impact Analysis ............................................................ 5-8 6.0 DISPERSION MODELING 6-1 6.1 Dispersion Modeling Methodology .............................................................................. 6-1 6.2 Model Selection ........................................................................................................... 6-1 6.3 Meteorological Data .................................................................................................... 6-2 6.4 Treatment of Calms or Near-Calms ............................................................................. 6-2 6.5 Surface Characteristics ............................................................................................... 6-3 6.6 Regional Description ................................................................................................... 6-3 6.7 Terrain Data ................................................................................................................ 6-3 6.8 Building Downwash .................................................................................................... 6-3 6.9 Receptor Grid .............................................................................................................. 6-3 6.10 Model Options ............................................................................................................. 6-5 6.11 Source Parameters ...................................................................................................... 6-5 6.12 Background Concentrations ........................................................................................ 6-6 6.13 Near-Field Dispersion Modeling Results for PM10 ....................................................... 6-6 6.14 Near-Field Dispersion Modeling Results – Formaldehyde ........................................... 6-8 APPENDIX A. POTENTIAL TO EMIT CALCULATIONS A-1 APPENDIX B. MODELING PARAMETERS B-2 APPENDIX C. DISPERSION MODELING RESULTS C-1 LIST OF FIGURES Figure 1.1 Location of Geneva Rock Products Mona, Utah Facility 1-2 Figure 1.2 Current Aggregate and Hot Mix Asphalt Operations at Mona Site 1-2 Figure 1.3 Facility Layout and Locations of Hot Mix Asphalt, Concrete Plant, Wash Plant, and Southern Aggregate Emission Sources 1-3 Figure 1.4 Facility Layout and Locations of Aggregate Operations 1-3 Figure 6.1 Windrose for Mona, Utah (2001-2002) 6-2 Figure 6.2 GRP Mona Receptor Grid 6-4 Figure 6.3 GRP Mona 24-hour PM10 NAAQS Analysis Isopleth Plot 6-8 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants iii Figure 6.5 GRP Mona Formaldehyde Isopleth Plot 6-9 LIST OF TABLES Table 3-1 Potential to Emit Emissions from Geneva Rock Products Mona, Utah Facility 3-1 Table 4-1 Paved and Unpaved Road Control Efficiencies 4-4 Table 6-1 Dispersion Modeling Thresholds and Controlled Emission Increases 6-1 Table 6-2 Procedures Used for Estimating Lateral and Initial Vertical Dimensions for Volume and Line Sources 6-5 Table 6-3 Lindon, Utah Monthly Background Concentrations 6-6 Table 6-4 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – SIL Analysis 6-7 Table 6-5 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – NAAQS Analysis 6-7 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-1 1.0 INTRODUCTION Trinity Consultants (Trinity) was retained by Geneva Rock Products (GRP) to prepare a Notice of Intent for a new asphalt, concrete, and aggregate facility in Mona, Utah. At this facility, GRP is proposing: (1) Hot Mix Asphalt (HMA) Plant with a production limit of 500,000 tons per year (TPY); (2) a truck mix that be converted to a 12-cubic yard central mix concrete batch plant with a production limit of 300,000 cubic yards per year; (3) aggregate operations at a production rate of 1,000,000 TPY; and (4) various fuel and asphalt cement oil storage tanks. Aggregate and hot mix asphalt operations are currently being conducted at the site under a temporary permit. Any correspondence or communication regarding this NOI should be directed to: Mr. Grant Ensign Environmental Specialist Clyde Companies 730 North 1500 West Orem, Utah 84057 801-802-6954 (office) 801-633-7830 (mobile) gensign@clydeinc.com The SIC code for ready-mix concrete is 3273; 1442 for construction sand & gravel; and 2951 for asphalt paving mixtures and blocks. 1.1 Facility Description The proposed GRP Mona facility will be located approximately 1.5 miles northeast of Mona, Utah. Juab County is in attainment of the National Ambient Air Quality Standards (NAAQS) for particulate matter less than 2.5 microns (PM2.5), 8-hour ozone (O3), particulate matter less than or equal to 10 microns (PM10), carbon monoxide (CO), sulfur dioxide (SO2), and nitrogen dioxide (NO2). The Facility is considered a minor source for both criteria and hazardous air pollutants (HAPs). The Universal Transverse Mercator (UTM) coordinates of the GRP Mona facility are 429,887 meters (m) east and 4,408,585 m north at an elevation of approximately 4,060 feet. Figure 1.1 presents a Google Earth image showing the location of the Mona facility in relation to Mona, Utah. Figure 1.2 shows the location of current aggregate and hot mix asphalt operations at the site. Figures 1.3 and 1.4 present the facility layout with property boundary and proposed locations of emission sources. The red line indicates the section of the property where operations will be performed. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-2 Figure 1.1 Location of Geneva Rock Products Mona, Utah Facility Figure 1.2 Current Aggregate and Hot Mix Asphalt Operations at Mona Site Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-3 Figure 1.3 Facility Layout and Locations of Hot Mix Asphalt, Concrete Plant, Wash Plant, and Southern Aggregate Emission Sources Figure 1.4 Facility Layout and Locations of Aggregate Operations Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-1 2.0 SOURCE DESCRIPTION The following sections describe the operations and emission sources at the proposed Mona, Utah facility. 2.1 Aggregate Operations The proposed production rate of aggregate sand and gravel operations at the Mona site is 1,000,000 TPY. The proposed equipment at the site includes two (2) primary crushers with a feed rate of 1,000 tons per hour (TPH), two (2) secondary crushers with a feed rate of 600 TPH, and two (2) tertiary crushers with a feed rate of 600 TPH, six (6) triple deck screens with a maximum size of 20 feet by 30 feet, 15 conveyor transfers, four (4) aggregate feeder bins, and one wash plant. On-site roads will be paved and unpaved. The active mining area is 25 acres. There will be 15 acres of stockpiles. Four (4) diesel storage tanks with a 12,000-gallon capacity each and a maximum annual throughput of 288,000 gallons will be associated with the aggregate operations. 2.2 Concrete Plant Concrete is made by combining sand, aggregate, Portland cement and/or flyash, and water. Small amounts of supplementary materials are sometimes added to reduce cost, reduce permeability by liquids, increase strength, alter color, alter concrete viscosity, retard or accelerate setting time, entrain air, or reduce water requirements. Concrete batch plants put these components together in the desired proportions. The solid components are gravity feed from bins through a weigh hopper. In a truck mix operation, as is initially proposed at Mona, the dry components are dropped into mixer trucks (in–transit mixers), water is added volumetrically, and the concrete is mixed on the way to the place where the concrete is to be used. Eventually, the truck mix plant may be converted to a 12-cubic yard central mix plant. The 150 cubic yards per hour (yd3/hr) or 300,000 cubic yards per year concrete plant will consist of: one (1) 60-ton cement supplement (flyash) silo with dust collector; two (2) 80-ton cement storage silos with dust collectors; 9.9 MMbtu hot water boiler; weigh batcher; conveyors; and other miscellaneous equipment. Approximately 73,650 tons of cement and 11,000 tons of flyash be transported to the plant by truck and stored in silos adjacent to the plant. Aggregate is loaded into the plant hopper where the cement, cement supplement, aggregate, and water are loaded into concrete trucks, mixed, and transported offsite. All aggregate will be stored in enclosed storage silos that are fed from a drive over a grizzly feeder. The batch plant will be completely enclosed. 2.3 Hot Mix Asphalt Plant At the proposed Mona operation, HMA paving material will be manufactured by a drum-mix asphalt plant having a capacity of 425 TPH with a maximum of 500,000 TPY of finished asphalt. The asphalt plant consists of a drum mix dryer, a fabric filter baghouse, and a 200-ton lime silo with dust collector. Liquid asphalt is transported to the site which will be stored in storage tanks located near the asphalt plant. A 5.0 MMBtu/hr diesel-fired boiler will be used to heat the asphalt oil. Processed and sized aggregate products from the Aggregate Plant will be stockpiled near the HMA Plant and are then transferred by a wheel loader into feeder bins. The feeder bins meter desired proportions of the various products onto a transfer conveyor, which transfers the combined aggregate products through a scalping screen onto a transfer conveyor. The scalping screen removes only grossly oversized aggregate particles or agglomerations which allows almost all the material to pass through it onto the transfer conveyor. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-2 The transfer conveyor transports the aggregate to a lime pugmill system which can either be used to mix the aggregate with a metered quantity of hydrated lime or that can be bypassed when not needed. A second transfer conveyor weighs the aggregate as it is conveyed from the lime pugmill system to the drum mixer. The hydrated lime is pneumatically transferred from the delivery vehicles into the lime storage silo using compressed air. The lime silo is vented to the atmosphere through a baghouse or small filter enclosure to allow the compressed air to escape while preventing discharge of hydrated lime into the atmosphere. The 150 MMBtu/hr drum mixer heats and dries the aggregate and mixes the hot aggregates and baghouse fines returned from the baghouse. The drum mixer burner will be fired with burner fuel, which is either recycled fuel oil, diesel, propane, or natural gas where recycled fuel oil (RFO) most closely resembles #5 fuel oil. The exhaust gases and airborne dust from the heating and drying process are evacuated from the drum mixer through ducting to the baghouse. The larger particles are removed from the gas stream in a knockout box and are fed with gravity through a closed system back into the recycle collar of the drum mixer. The dust that accumulates on the filter media in the baghouse is periodically removed from the filter media and conveyed through enclosed augers back to the recycle collar on the dryer drum. The HMA is discharged from the drum mixer into an enclosed drag slat conveyor that transports the mixture to the top of the storage silos where it is stored and discharged into haul vehicles. 2.4 Wash Plant Material to be processed at the Wash Plant will be conveyed from the Aggregate Plant into a feeder. The material is split by volume (50/50) onto transfer conveyors. The transfer conveyors each feed to one of four log washers where the material is washed followed by dewatering. Four (4) log washers send fine material to the washer clarifier where it is stacked as cyclone sand. The remaining material is discharged to triple deck wet screens. Material is sized by the triple-deck wet screens where material from each screen is conveyed to a different storage pile. Material that passes through the triple deck screen is conveyed to the classifier where material is discharged into two screw washers or the clarifier. The screw washers wash and dewater the material before it is stacked stockpiled. The proposed amount of material to be washed is 1,000,000 TPY. 2.5 Storage Piles and Mining Area Storage piles associated with aggregate operations, concrete and asphalt plants will occupy 15 acres. 25 acres is proposed at the Mona site for active mining operations. 2.6 Unpaved and Paved Roads Haul trucks with a capacity of 22 tons will be utilized at the Mona site for the HMA and aggregate operations. Concrete trucks will have a capacity of 29 tons with an average weight of 40.5 tons. The entire length of the road to the HMA plant will be paved, watered and vacuum swept. The first 550 feet of the road to the aggregate/wash plant/concrete plant will be paved, watered and vacuum sweeping. The remaining roads will be unpaved with low silt content road base, watered, and chemical suppressants to minimize fugitive dust emissions. The round-trip haul road distances to the HMA and Concrete Batch Plants were estimated to be 0.61 miles and 0.48 miles, respectively. The round-trip haul road distance to the Wash Plant was estimated to be 0.51 miles and the round-trip haul road distance for aggregate operations was estimated to be 1.05 miles. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-3 2.7 Heavy Duty Construction Equipment Three (3) 9-yard loaders, one for each operation (aggregate, concrete, and asphalt) will be used at the Mona site. One dozer will also be present onsite. 2.8 Storage Tanks Four (4) 12,000-gallon horizontal diesel fuel, one (1) 50,000-gallon RFO, two (2) 60,000-gallon asphalt oil, one (1) 30,000-gallon asphalt oil, one (1) 35,000-gallon asphalt oil (portable), one (1) 25,000-gallon asphalt oil (portable), one (1) 250,000-gallon asphalt oil tanks, and (1) 4,000-ton asphalt oil tank are proposed to be at the site. 2.9 Schedule Operations at the aggregate plant are proposed to be 7 days per week, and 24 hours per day, except during the winter months (December 1 - March 1) where the operations will take place between 06:00 AM – 11:00 PM only, 7 days per week. Total operation for aggregate operation is proposed to be 8,130 hours per year. Operation of the HMA, Concrete, and Wash Plants is proposed to be 7 days per week, 24 hours per day, or 8,760 hours per year. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-1 3.0 AIR EMISSIONS The Geneva Rock Products Mona facility will generate criteria, hazardous air pollutant (HAP), and greenhouse gas (GHG) emissions. Criteria pollutant emissions include PM10 and PM2.5 (particulate matter with aerodynamic diameters less than or equal to 10 micrometers and 2.5 micrometers respectively), volatile organic compounds (VOCs), nitrogen oxides (NOx), sulfur oxides (SOx), and carbon monoxide (CO). HAPs, as presented in Section 112 of the Clean Air Act, were derived for applicable sources and pollutants. Greenhouse gas (GHG) emissions will also be emitted from the combustion of fossil fuels and mass and CO2e estimates are presented in the NOI. Potential to emit (PTE) emission estimates were developed for the proposed changes at the Mona facility. These emission estimates are based on EPA guidance as published in Compilation of Air Pollution Emission Factors, Volume I: Stationary Point and Area Sources or AP-42, fuel type, material throughput, and anticipated operating hours. A summary of Mona PTE controlled emissions in tons per year is presented in Table 3-1. PTE emission calculations are presented in Appendix A. Table 3-1 Potential to Emit Emissions from Geneva Rock Products Mona, Utah Facility Pollutant Projected Facility-Wide PTE Emissions (tons/year) NOx 23.07 VOC 12.74 CO 35.49 SO2 14.60 PM10 38.77 PM2.5 5.64 CO2e 10432.6 HAPs 2.88 3.1 Aggregate Operations Fugitive emissions for aggregate operations are generally controlled by residual moisture content or by water sprays as necessary for feeders, conveyor drop points, screens, and crushers. Operations for washing aggregate have reduced fugitive emissions because the processed material is saturated. Haul vehicle traffic on unpaved roads and front-end loader operation areas are controlled by wet suppression. Ripping and dozing, feeding, stockpiling, and load-out of materials generally rely on residual moisture content for fugitive emission control. Hourly PM10 and PM2.5 emissions for feeders, conveyors, drop points, screens, and crushers were derived from AP-42, Section 11.19, Crushed Stone Processing and Pulverized Mineral Processing, August 2004, Table 11.19.2-2 and an annual throughput of 1,000,000 TPY. Crushing emissions were based on the proposed throughput of 1,000,000 TPY and 1,000 TPH for two crushers and 600 TPH for the other four crushers. PM10/PM2.5 emissions from the aggregate operations will be controlled through wet suppression. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-2 PM10/PM2.5 emissions from storage piles were based on AP-42, Section 11.9, Western Surface Coal Mining, Table 11.9-4 and 15 acres. Per the Utah Division of Air Quality (UDAQ), a 50% control factor was applied through wet suppression. Exposed area emissions were also based on AP-42, Section 11.9, Western Surface Coal Mining, and 25 acres. A PM2.5/PM10 ratio of 0.15, based on the Midwest Research Institute’s Background Document for Revisions to Fine Fraction Ratios Used for AP-42 Fugitive Emission Factors, prepared for the WRAP, was applied to determine PM2.5 emissions. Fugitive emissions from loader and conveyor operations are based on Table 11.19.2-2 and a throughput of 1,000,000 TPY and 1,000 TPH. Fugitive emissions from dozer operations are based AP-42, Section 11.9, Western Surface Coal Mining. 3.2 Concrete Plant Concrete batch plants emit particulate matter (PM) and any toxic metals contained in the particulate matter. PM emissions result from moving sand and aggregate from the piles to the feed bins, loading the sand, aggregate, and cementitious material bins and silos, and from loading the concrete trucks (in-transit mixing). Each of these activities generates PM. Most of the PM is larger than 10 microns in aerodynamic diameter. About 14% by weight of the PM is Portland cement. Concrete plant emissions were derived from emission factors presented in AP-42, Section 11.12 Concrete Batching, Table 11.12-2. Since GRP wants the option to have either a truck mix or central mix batch plant operations, emissions were based on the emission factors for truck-mix which were more conservative. Emissions were based on the projected maximum annual throughput of 300,000 cubic yards per year and 8,760 proposed operating hours. A 98% control efficiency was assumed for PM10/PM2.5 and HAP emissions since the concrete batch plant will be enclosed with all emissions controlled through a baghouse. 3.3 Asphalt Plant Criteria, HAP, and GHG emissions for the new asphalt plant were derived using equipment information provided by GRP and emission factors as found in AP-42, Section 11.1 Hot Mix Asphalt Plants. The asphalt plant is proposed to be fueled on RFO, diesel, natural gas, or propane. Emissions for the dryer were based on the emission factors found in AP-42, Section 11.1 Drum Mix, Tables 11.1-3, 11.1-4, 11.1-7, 11.1-8, and 11.1-10 based on fabric filter usage for the control device, fuel type, aggregate throughput, and hours of operation. Emissions from the dryer were estimated based on waste oil with an hourly maximum throughput of 425 tons with a maximum annual throughput of 500,000 tons per year. Particulate emissions from the dryer will be controlled using a primary collector and a baghouse. 3.4 Hot Water and Hot Oil Boilers A 9.9 MMBtu/hr hot water boiler is proposed at the Concrete plant and will be fueled by diesel, propane, or natural gas. A hot oil boiler rated at 5.0 MMBtu/hr and fueled by diesel will be operated at the asphalt plant. Emissions from the proposed hot water and hot oil boilers were based on AP-42, Section 1.3, Fuel Oil Combustion based on fuel type, equipment rating, amount of fuel consumed, and 8,760 operating hours. 3.5 Wash Plant Wash plant PM10/PM2.5 emissions were based on AP-42, Section 11.19.2, and a production rate of 1,000,000 TPY. As part of the normal washing process, aggregate material is fully saturated and PM10/PM2.5 emissions are assumed to be zero. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-3 3.6 Unpaved Roads PM10 and PM2.5 unpaved road emissions from increased aggregate production were based AP-42, Section 13.2.2, Unpaved Roads and an 85% control efficiency through frequent watering and chemical suppressants per UDAQ’s January 12, 2015 memo, Emission Factors for Paved and Unpaved Haul Roads. Emissions were projected based on the plant road layouts, vehicle weights, hauling capacity, and increased aggregate plant throughput. 3.7 Paved Roads PM10 and PM2.5 paved road emissions were based AP-42, Section 13.2.2, Unpaved Roads and a 95% control efficiency through frequent vacuum sweeping and watering of pavement as per UDAQ’s January 12, 2015 memo, Emission Factors for Paved and Unpaved Haul Roads. Emissions were projected based on the plant road layouts, vehicle weights, and hauling capacity. 3.8 Storage Tanks Storage tank emission calculations were based on AP-42 Section 7.1, Organic Liquid Storage Tanks June 2020. Diesel and asphalt cement will be stored in fixed roof tanks. Emissions from fixed roof tanks are caused by changes in temperature, pressure, and liquid level. Four (4) 12,000-gallon diesel storage tanks, and two (2) 25,000 gallon, one (1) 30,000 gallon, one (1) 35,000 gallon, two (2) 60,000-gallon asphalt cement oil tanks, (1) 4,000-ton asphalt cement oil tank, and one (1) 60,000-gallon RFO tank are proposed to be installed at the site. The liquid bulk temperature of the asphalt cement was assumed to be 325˚F. The VOC emissions from the proposed storage tanks were estimated to be 0.46 tons per year. VOC emissions from the proposed AC tanks will not be controlled with add-on control equipment due to the low vapor pressure of the products stored. CO emissions, based on AP-42, Section 11.1, Hot Mix Asphalt Plants from the proposed asphalt storage tanks were estimated to be 0.031 tons. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-1 4.0 BEST AVAILABLE CONTROL TECHNOLOGY Per Utah Air Rules R307-400, best available control technology (BACT) is defined as an emissions limitation (including a visible emissions standard) based on the maximum degree of reduction for each air contaminant which would be emitted from any proposed stationary source or modification which the director, on a case- by-case basis, taking into account energy, environmental, and economic impacts and other costs, determines is achievable for such source or modification through application of production processes or available methods, systems, and techniques, including fuel cleaning or treatment or innovative fuel combustion techniques for control of such pollutant. BACT analyses for the emissions from the proposed equipment at the Mona Facility are discussed in the following sections. 4.1 BACT for Material Handling Fugitive particulate (PM10/PM2.5) emissions will be emitted from the material handling processes which includes crushing, screening, conveying, and transfer of aggregate material. 4.1.1 BACT for PM10/PM2.5 Five control technologies were identified for particulate control. These are: (1) total equipment enclosure; (2) Electrostatic Precipitator (ESP); (3) Wet Scrubbers; (4) Baghouses (Fabric Filters), and (5) Wet Suppression. Cyclones were not considered. a control technology for material handling since a cyclone does not remove fine particulate matter. Total enclosure of the equipment provides the highest percentage of control at 100%; ESP’s and baghouses typically reduce PM10 and PM2.5 emissions by up to 99.9%. Wet scrubbers offer approximately 95% control and wet suppression offers approximately 75% control. Because the emissions from crushing, screening, conveying, and transfer points are fugitive in nature, wet scrubbers, ESPs, and baghouses are eliminated from the BACT analysis. ESP’s and wet scrubbers were eliminated from review since these emission control technologies are either infeasible in a temperature variable outdoor environment, due to cost, or because they are not considered effective for fugitive control for aggregate operations. Although the emissions from the crushers could be captured and vented to a baghouse (fabric filters), this option was determined to be economically infeasible due to the cost of the ducting and capture system. Wet suppression using water sprays nozzles or fog bars are effective in minimizing emissions from crushing, screening, conveying, and transfer points. The most common control technology used to control fugitive PM10 and PM2.5 is the application of water to maintain moisture throughout the material handling process and to meet the required State of Utah opacity limits. Wet suppression will be employed on the crushers, screens, and conveyor transfer points. Spray systems at transfer points have been estimated to reduce PM emissions by 70 to 95%. Factors affecting emissions from screening include the stone size distribution and the surface moisture content of the stone processed as well as the process throughput rate. The Mona facility will apply water as necessary to maintain relatively high material moisture content to effectively control PM emissions from material crushing, screening, conveying, and transfer points. The material at the wash plant will be saturated with water. Therefore, the application of water for material handling operations is considered to meet BACT. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-2 4.2 BACT for Concrete Plant Loading the sand, aggregate, flyash, and cementitious into material bins and silos cause PM emissions at the top of the bins and may best be characterized as point emission sources. Loading the concrete trucks (in- transit mixing) has properties of both fugitive and point sources. PM emissions from the concrete plant operations are in the PM10 or larger range. 4.2.1 BACT for PM10/PM2.5 The following control technologies were identified for controlling PM emissions at a concrete plant: (1) Dry material storage silos with fabric filters; (2) Aggregate storage piles and handling operations with water sprays; (3) truck filling with enclosed drop chutes; and (4) enclosure of concrete plant within structure. At the Mona facility, GRP is proposing to enclose the cement plant in a four-sided structure and capture PM emissions which will be vented to a baghouse that is at least 98% effective in removing PM10/PM2.5. Dust collectors are also proposed on all dry material storage silo vents. Drop chutes will be enclosed for truck fillings. These controls represent BACT for PM10/PM2.5 emissions from the proposed concrete plant. 4.3 BACT for Hot Mix Asphalt Plant Dryer The dryer operations are the main source of pollution at the proposed hot mix asphalt plant. Combustion emissions from the dryer include products of complete and incomplete combustion. Products of complete combustion include oxides of nitrogen (NOx) and, if sulfur is present in the fuel, sulfur dioxide (SO2) and other substances such as carbon dioxide (CO2) and water. Products of incomplete combustion include carbon monoxide (CO), volatile organic compounds (VOCs) (including benzene, toluene, and xylenes), and other organic particulate matter. The drum dryer at the Mona facility will be fired by natural gas, propane, diesel, or RFO. 4.3.1 BACT for NOx, VOC, CO, SO2, and HAP For the drum dryer, two control technologies were identified for reduction of criteria combustion and HAP emissions. These include: (1) work practice requirements of good combustion practice; and (2) use of low sulfur gaseous fuels. Incomplete combustion emissions result from improper air and fuel mixtures, such as poor mixing of fuel and air, inadequate fuel air residence time and temperature, and quenching of the burner flame. Thus, NOx, VOC, CO, and HAP emissions will be reduced by ensuring good combustion practices are utilized which include periodic dryer burner tune-up and proper burner maintenance to increase the efficiency of the burners and operation of the dryer burner in accordance with manufacturer specifications. In addition, natural gas and propane are low sulfur fuels which will be utilized on-site along with RFO and diesel. Thus, BACT for minimizing drum dryer emissions is good combustion practices and use of low sulfur fuels as much as possible. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-3 4.3.2 BACT for PM10/PM2.5 Emissions from the asphalt plant dryer also include PM10/PM2.5 from the aggregate and a small amount from fuel combustion. Several add-on technologies were identified for reduction on PM10 and PM2.5 and include: (1) Cyclones; (2) Multiple cyclones; (3) Settling chambers; (4) Fabric filter baghouses; (5) Wet gas venturi scrubbers, and (6) good combustion practices. Venturi wet gas scrubber and fabric filter baghouses are most efficient in reducing PM10/PM2.5 emissions with control efficiencies ranging from 90 - 99.5%. Multiple cyclones have a control efficiency of approximately 90%, and cyclones have a control efficiency from 50 to 75%. Settling chambers are least efficient with a control efficiency of less than 50%. For the proposed asphalt plant dryer at Mona, PM10/PM2.5 emissions will be controlled using a fabric filter baghouse with a control efficiency of 98% or greater. In addition, GRP will maintain the HMA plant in good working order and will utilize good combustion practices. All these proposed controls represent BACT for PM10/PM2.5 emissions from the proposed Mona HMA plant dryer. 4.4 BACT for Lime Silo Lime to be used in the HMA process will be stored in enclosed bins. PM10 and PM2.5 emissions are anticipated from lime handling. 4.4.1 BACT for PM10/PM2.5 The only control technology to reduce particulate emissions from lime handling was the installation and operation of fabric filters on dust collectors. Dust collectors are proposed to be utilized on the lime silos at the Mona facility. The control efficiency of fabric filters on dust collectors is 99%. This represents BACT for minimizing PM10/PM2.5 emissions from lime silos. 4.5 BACT for Loader, Bulldozer, and Haul Truck Operations Loader, bulldozer, and haul truck operations will create fugitive PM10 and PM2.5 emissions. 4.5.1 BACT for PM10/PM2.5 Three front end loaders will be used to transport and load material at the site. A bulldozer will be utilized to move and smooth overburden. The factors that affect PM10 and PM2.5 emissions include the amount and size of material being transported, moisture content of the material, and climatic/seasonal conditions. Several control technologies were identified to minimize particulate emissions from loader and dozer operations which include water application and minimizing drop distances. Other control technologies to minimize particulate emissions such as electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones are not feasible for use in such a dynamic environment as loading operations to storage piles, dozing overburden, conveyors, haul trucks, etc. Thus, electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones were determined to be technically infeasible. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-4 For unpaved areas where the loaders, bulldozers, and haul trucks will be operating, control technologies include watering, application of chemical dust suppressants, and use of a low silt content road base. The unpaved road control options, presented in Table 4-1, are ranked in order of efficiency. These efficiencies were obtained from a UDAQ January 12, 2015 Memorandum, Emission factors for Paved and Unpaved Haul Roads. Table 4-1 Paved and Unpaved Road Control Efficiencies Control Control Efficiency (%) Paved road surface with vacuum sweeping and watering 95 Paved road with sweeping and watering 90 Chemical Suppressant and Watering 85 Basic Watering and Low Silt Content Road Base 75 Basic Watering 70 Paving followed by vacuuming sweeping and water has the highest control efficiency of 95%. Paved road followed by sweeping and water has a control efficiency of 90%. Paving, however, costs on average $500,000 per mile1 which makes it economically infeasible to pave all roads on-site since road locations at the site will change due to the location of aggregate activities. The section of roadway from the entrance of the Mona facility to the HMA plant will be paved. This section of pavement will be vacuum swept and watered which represents BACT with a 95% control efficiency for paved road segments. Studies have shown that on heavily traveled unpaved roads, chemical suppression methods are as effective as watering at regular intervals. Based on information from the UDAQ, basic watering and the use of low silt content road base will reduce PM10 and PM2.5 emissions on unpaved roads by 85%. Thus, road base, chemical suppressants and water applications are proposed to be utilized at the Mona facility to suppress PM10 and PM2.5 emissions from unpaved roads which is considered BACT. 4.6 BACT for Exposed or Disturbed Area Fugitive particulate (PM10/PM2.5) emissions will be emitted from exposed or disturbed areas. 4.6.1 BACT for PM10/PM2.5 During the mining process, stripped overburden, or graded overburden from initial removal until when vegetation starts to grow has the potential to emit fugitive PM10 and PM2.5 from wind and dry climatic conditions. For exposed or disturbed areas, the following control options were identified: (1) watering exposed areas, (2) minimal disturbance of the area, and (3) planting vegetation. Watering large, exposed areas is technically not feasible in an arid climate such as GRP’s Mona facility due to the size of the exposed area, which at proposed at 25 acres. Copious amounts of water and a several water trucks would be required to maintain the exposed and disturbed areas with enough moisture to suppress fugitive dust emissions. 1 https://documents.deq.utah.gov/air-quality/pm25-serious-sip/DAQ-2018-007161.pdf Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-5 Minimally disturbing the area will minimize emissions by reducing the availability of smaller particulate matter at the surface. Planting vegetation on exposed or disturbed areas that is not quickly reclaimed can also reduce particulate emissions. According to an article published in 2016 by Phatak titled “A Detailed Look at the Cost of Hydroseeding”, the cost to hydro-seed can cost overall $3,000 per acre. For GRP to hydro-seed just 25 acres, the cost would be over $75,000 which is burdensome for the company. Thus, planting vegetation to reduce particulate emissions from exposed or disturbed areas was not considered further. The remaining control option, minimal disturbance of the area, will be employed by GRP at Mona. Minimal disturbance will help reduce fugitive particulate emissions and will give time for natural vegetation to grow which will further reduce emissions. This option is considered BACT for exposed and disturbed areas. 4.7 BACT for Storage Piles Fugitive particulate (PM10/PM2.5) emissions will be emitted from the outdoor storage piles from material loading and unloading as well as wind. 4.7.1 BACT for PM10/PM2.5 Three control options were identified for controlling PM10 and PM2.5 emissions from storage piles. They are: (1) water sprays; (2) full enclosure; and (3) partial enclosure. Full enclosure of piles, the most effective control option, is typically used at coal processing plants where the coal needs to be kept dry. These enclosures are usually for piles smaller than what is typically at aggregate operations. The Mona site will have up to 15 acres of storage piles throughout the property. It is practically not feasible at aggregate, sand, or gravel operations to enclose the piles due to cost and the dynamic nature and the location change of mining operations. Partial enclosures are easier to implement but are still costly and to maintain a required opacity limit, water sprays are still needed. In very windy areas, barriers can be installed to reduce the impact of wind on storage piles. Water systems are designed to spray storage piles. These systems are relatively inexpensive and can be modified to maintain the UDAQ required opacity limit. The DAQ assumes a 50% control efficiency of fugitive emissions when water sprays are utilized to maintain an opacity limit. This control technology is commonly implemented on storage piles. Thus, GRP will maintain water systems to reduce PM10 and PM2.5 emissions from aggregate, gravel, or sand storage piles. The use of these water spray systems is considered BACT. 4.8 BACT from Above Ground Storage Tanks VOC and HAP emissions will be emitted from above ground storage tanks. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-6 4.8.1 BACT for VOC and HAPs Four (4) horizontal diesel, seven (7) above-ground fixed roof asphalt cement oil, and one (1) RFO storage tanks are proposed at the Mona facility. Floating roof tanks are commonly used for storing crude oil, gasoline, and naphtha. Internal floating roofs are most often used for storing low flash point fuels while external floating roofs are used for medium flash point fuels. Fixed roof tanks are most often used for high flash point fuels like diesel, kerosene, jet fuel, fuel oils, and asphalt cement. There are two general types of atmospheric storage tanks: fixed roof tanks and floating roof tanks. There are three types of floating roof tanks: external floating roof, internal floating roof, and covered or domed floating roof. Emissions from storage tanks result from displacement of headspace vapor during filling operations (working losses) in the case of fixed roof or internal floating roof tanks, and from diurnal temperature and heating variations (breathing losses). Lower vapor pressure liquids such as heating oils, diesel, and kerosene are stored in fixed roof tanks. Typically, filling losses constitute 80-90% of the total losses for fixed roof tanks. Crude oils and lighter products such as gasoline are stored in floating roof tanks. Most of the emissions from floating roof tanks are due to standing losses. Compliance options for VOC emission controls on these tanks includes using a fixed roof with an internal floating roof or an external floating roof meeting certain design specification and/or using a closed-vent system and control device that meet the requirements of 40 CFR Part 60 Subpart Kb. Asphalt is produced in refinery distillation towers and solvent extraction units and is typically stored in fixed roof tanks due to its low volatility. The proposed aboveground storage tanks have the potential to create VOCs and HAPs resulting from evaporative losses during storage, filling and emptying. Two add-on control technologies as well as best management practices were identified to reduce VOC emissions from fixed roof diesel and asphalt cement tanks. These include: ► Carbon adsorption ► Incinerator ► Best Management Practices Both carbon adsorption and incineration are effective control technologies having greater 95% and 98% control efficiencies. Best management practices are considered the baseline for controlling VOC emissions from fixed roof tanks. Vapor losses from fixed roof vertical tanks are primarily due to changes in the atmospheric temperature and pressure as well as liquid level changes inside the tank. Due to the low volatility of the products to be stored, GRP is proposing fixed roof diesel, asphalt cement, and RFO storage tanks with no additional add on vapor recovery technology. The cost of a vapor control system is a function of the vapor flow rate to the system. The flow rate is controlled by the rate at which liquids are pumped into the tank. The volume of VOC vapors expected from the proposed tanks is 0.40 tons. Due to the low volatility of the products being stored, additional emission controls are not required. Thus, the only control technology identified for the fixed roof tanks is best management practices. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-7 Best management practices include regular inspection of the tanks and associated piping and reducing breathing and working losses from the tank. Breathing losses can be by minimizing the vapor space in the tank. In fixed-roof tanks, breathing losses can account for 10 to 95 percent of total annual emissions. For fixed-roof tanks, liquid level matters significantly for emission generation: the emptier the tank is, the more room there is for vapors to build up. However, it’s not until those vapors are pushed outwards with enough force to pass through the roof vent that these vapors become fugitive emissions. To prevent breathing losses, the tank head space will be reduced by operating at a full level and constant rate. Tanks that operate conservation vents at 2.5 psig or higher will often have low breathing losses, or none. Reducing the number of tank turnovers per year will reduce working loss emissions. Regular inspection of the above ground storage tank and associated piping for leaks will also reduce VOC emissions. Thus, BACT for VOC and HAPS from the diesel, asphalt cement, and RFO storage tanks is best management practices which includes regular inspection of the aboveground storage tanks and associated piping for leaks and reducing breathing and working losses from the tank. 4.9 BACT for Hot Water and Hot Oil Boilers A 9.9 MMBtu/hr hot water boiler at the concrete batch plant and a 5.0 MMBtu/hr hot oil boiler at the asphalt plant are proposed to be operated at their rated capacities. Emissions from combustion, including NOx, SO2, CO, PM10/PM2.5 and VOC are expected from the hot water and hot oil boilers when fired on diesel fuel, propane, and natural gas, the proposed fuels for these boilers. The cost analyses performed for this section are presented in Appendix A. 4.9.1 BACT for NOx NOx is formed during combustion by two major mechanisms, thermal NOx and fuel NOx. The first way NOx is formed is within a high temperature environment with the combination of elemental nitrogen and oxygen in the combustion air (thermal NOx). The second way NOx is formed is through the oxidation of nitrogen contained in the fuel (fuel NOx). The majority of NOx emissions from hot water and oil boilers will be the result of thermal NOx. The rate of formation of thermal NOx is a function of the residence time and free oxygen and is exponential with peak flame temperature. The following control options were evaluated for controlling NOx emissions from the hot water and hot oil boilers: ► Good combustion and management practices ► Low NOx burners ► Flue gas recirculation Good combustion and management practices generally include the following components: (1) Proper air/fuel mixing in the combustion zone; (2) High temperatures and low oxygen levels in the primary combustion zone; and (3) Sufficient residence time to complete combustion. Good combustion practices are accomplished by controlling the temperature of the flame at the main burner and controlling the amount of oxygen and nitrogen available for the reaction. Low-NOx burner technology uses advanced burner design to reduce NOx formation through the restriction of oxygen, flame temperature, and/or residence time. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-8 Flue gas recirculation is another combustion control used to reduce NOx. FGR involves the recycling of fuel gas into the air-fuel mixture at the burner to help cool the burner flame. Internal FGR involves recirculation of the hot O2-depleted flue gas from the boiler into the combustion zone using burner design features. Hot water and hot oil boiler manufacturers strive to reduce the formation of NOx by controlling the temperature of the flame at the main burner and controlling the amount of oxygen and nitrogen available for the reaction. A hotter flame has the potential of producing more NOx products. Thus, good combustion practices will be employed by these units by controlling the temperature of combustion. Combustion temperatures that are cooler do not allow the nitrogen and oxygen molecules to bond and form NOx. At the Concrete Batch plant, the proposed hot water boiler will be fired on either diesel fuel, propane, or natural gas. Natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under Interstate 15 (I-15) at a current cost of over $1,000,000. Using conservative emission factors from AP-42, the hot water and hot oil boilers NOx emissions were estimated to be 0.143 lb NOx/MMbtu which equates to approximately 111.4 ppm (based on a conversion rate of rate of 780 lb/MMBtu to ppm at 3% oxygen (O2), dry, for #2 fuel oil or diesel). If natural gas were used, using conservative AP-42 emission factors, NOx emissions were estimated to be 0.049 lb/MMbtu which equates to approximately 40.8 ppm NOx (conversion rate of 833 lbs/MMBtu to ppm for natural gas at 3% O2. The emission of 40.8 ppm is in line with emissions from similar hot water and hot oil heaters run on natural gas at other GRP facilities. A cost estimate was obtained for a 9.9 MMBtu/hr hot water boiler fired on natural gas. The cost for a 9.9 MMBtu/hr hot water boiler fired on natural gas was estimated to be $207,084 (including freight). The total annual operating cost was estimated to be $23,508. The difference (or reduction) in emissions from firing a 9.9 MMBtu/hr hot water boiler on diesel and replacing diesel with natural gas was estimated to be 4.06 tons of NOx. Thus, the total annual cost per ton of NOx reduction is $5,790. However, as mentioned above, this cost does not include the construction of a natural gas pipeline which has been estimated to be over $1,000,000 and would require installation under I-15. A cost estimate was also obtained for the proposed 5.0 MMBtu/hr asphalt plant hot oil boiler fired by diesel and an equivalent unit fired on natural gas. The cost for a 5.0 MMBtu/hr hot oil boiler fired on natural gas was estimated to be $105,820 (including freight). Total annual operating cost was estimated to be $13,082. The difference (reduction) in emissions from firing a 5.0 MMBtu/hr hot oil boiler on diesel and replacing diesel with natural gas was estimated to be 2.02 tons of NOx. Thus, the total annual cost per ton of NOx reduction is $6,350. However, this cost does not include the construction of a natural gas line which has been estimated to be over $1,000,000 and would require installation under Interstate 15. The use of natural gas for the proposed hot water heater or hot water boiler at this time is not economically feasible and has been eliminated at this time for consideration. In addition, based on the estimated NOx emissions from these units firing natural gas 2.12 TPY for the hot water heater and 1.07 TPY for the hot oil heater, the addition of any add-on technologies would be cost prohibitive and are not economically feasible. Thus, BACT for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is based on good combustion and management practices and the use of ultra-low sulfur fuel or propane. While use of natural gas would provide the lowest emissions, at this time, the use of natural gas is not an option due to cost and logistics of bringing a pipeline to the site. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-9 4.9.2 BACT for CO and VOC Carbon monoxide is a product of the chemical reaction between carbonaceous fuels and oxygen. The primary factors influencing generation of CO are temperature and residence time in the combustion zone. Higher combustion zone temperatures and residence times lead to more complete combustion and lower CO emissions. Only one control option, good combustion practices, was identified to control CO and VOC emissions from small boilers such as the proposed 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil boiler. The control technology identified to reduce CO emissions is through good engineering design of the equipment utilizing good combustion practices. Good combustion practices for CO and VOC include adequate fuel residence times, proper fuel-air mixing, and temperature control. Natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under I-15 at a current cost of over $1,000,000. Thus, BACT for CO and VOC for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is based on good combustion practices and the use of ultra-low sulfur diesel or propane. 4.9.3 BACT for PM10/PM2.5 For this BACT analysis, all particulate emissions were considered PM2.5 which is a subset of PM10. The following is a list of combustion and post-combustion control technologies which were identified for controlling PM10/PM2.5 emissions: ► good combustion practices, ► use of clean burning fuels, and, ► proper design and operation. All proposed control options are technically feasible and will be reviewed further. Combustion controls or “proper combustion” to minimize PM10/PM2.5 emissions include adequate fuel residence time, proper fuel-air mixing, and temperature control to ensure the maximum amount of fuel is combusted. The use of clean-burning fuels, such as natural gas which has only trace amounts of sulfur that can form particulates, will result in minimal formation of PM10/PM2.5 during combustion. Thus, the only control technology identified in the RBLC database for liquid-fired boilers in the proposed sizes is a work practice requirement to adhere to good combustion practices and use of low sulfur fuels such as low sulfur diesel fuel or naturas gas. These control strategies are technically feasible and will not cause any adverse energy, economic or environmental impacts. As mentioned previously, natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under I-15 at a current cost of over $1,000,000. The use of natural gas for the proposed hot water heater or hot water boiler at this time is not economically feasible and has been eliminated at this time for consideration. Hence, BACT for PM10/PM2.5 for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is good combustion practices, use of low sulfur diesel fuel or propane, and proper equipment design and operation. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-10 4.9.3 BACT for SO2 SO2 emissions from the proposed 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater will be a result of oxidation of fuel sulfur. Using lower sulfur fuels can lower SO2 emissions. Only one control option was found which is to limit the amount of sulfur in the fuel. Since natural gas will not be available to the site for some time due to the extreme cost of bringing in a line since the line would need to be bored under I-15 at a current cost of over $1,000,000, GRP will be using low sulfur diesel fuel or propane as the primary fuel. The use of a lower sulfur content fuel is considered a control technology. The use of a lower sulfur content fuel for the boilers of the proposed sizes is a feasible SO2 control technology for the proposed hot oil and hot water boilers. Hence, BACT for SO2 for the 9.9 MMBtu/hr hot water boiler and 5.0 MMBtu/hr hot oil heater is the use of low sulfur diesel or propane as the primary fuels. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-1 5.0 REGULATORY REVIEW The air quality regulations, codified in Title R307 of the Utah Administrative Code, which are potentially applicable to this project, are as follows: ► R307-101 - General Requirements. ► R307-102 - General Requirements: Broadly Applicable Requirements. ► R307-107 - General Requirements: Breakdowns. ► R307-130 - General Penalty Policy. ► R307-150 - Emission Inventories. ► R307-165 - Stack Testing. ► R307-201 - General Emission Standards. ► R307-203 - Emission Standards: Sulfur Content of Fuels. ► R307-205 - Emission Standards: Fugitive Emissions and Fugitive Dust. ► R307-210 - Standards of Performance for New Stationary Sources. ► R307-214 - National Emission Standards for Hazardous Pollutants. ► R307-401 - Permit: New and Modified Sources. ► R307-410 - Permits: Emissions Impact Analysis. 5.1 R307-101 General Requirements Chapter 19‐2 and the rules adopted by the Air Quality Board constitute the basis for control of air pollution sources in the state. These rules apply and will be enforced throughout the state and are recommended for adoption in local jurisdictions where environmental specialists are available to cooperate in implementing rule requirements. National Ambient Air Quality Standards (NAAQS), National Standards of Performance for New Stationary Sources (NSPS), National Prevention of Significant Deterioration of Air Quality (PSD) standards, and the National Emission Standards for Hazardous Air Pollutants (NESHAPS) apply throughout the nation and are legally enforceable in Utah. 5.2 R307-102 General Requirements: Broadly Applicable Requirements Emission of air contaminants in sufficient quantities to cause air pollution as defined in R307-101-2 is prohibited. The State statute provides for penalties up to $50,000/day for violation of State statutes, regulations, rules or standards. In addition, the owner or operator of any stationary air pollutant source in Utah shall furnish to the director the periodic reports required under Section 19-2-104(1)(c) and any other information as the director may deem necessary to determine whether the source is in compliance with Utah and Federal regulations and standards. The information thus obtained will be correlated with applicable emission standards or limitations and will be available to the public during normal business hours at the Division of Air Quality. Any person submitting information pursuant to these regulations may request that such information be treated as a trade secret or on a confidential basis, in which case the director shall so treat such information. If no claim is made at the time of submission, the director may make the information available to the public without further notice. Information required to be disclosed to the public under State or Federal law may not be requested to be kept confidential. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-2 Justification supporting claims of confidentiality shall be provided at the time of submission on the information. Each page claimed "confidential" shall be marked "confidential business information" by the applicant and the confidential information on each page shall be clearly specified. Claims of confidentiality for the name and address of applicants for an approval order will be denied. Confidential information or any other information or report received by the director shall be available to EPA upon request and the person who submitted the information shall be notified simultaneously of its release to EPA. 5.3 R307-107 General Requirements: Breakdowns The breakdown provisions of R307-107 will apply to the Mona facility operations. The owner or operator of a source shall report breakdowns to the director within 24 hours of the incident via telephone, electronic mail, fax, or other similar method. A detailed written description of the circumstance including a corrective program directed at preventing future such incidents, shall be submitted within 14 days of the onset of the incident. The breakdown incident report shall include the cause and nature of the event, estimated quantity of emissions (total and excess), time of emissions and any relevant evidence, including, but not limited to, evidence that: a) There was an equipment malfunction beyond the reasonable control of the owner or operator, b) The excess emissions could not have been avoided by better operation, maintenance or improved design of the malfunctioning component, c) To the maximum extent practicable, the source maintained and operated the air pollution control equipment and process equipment in a manner consistent with good practice for minimizing emissions, including minimizing any bypass emissions, d) Any necessary repairs were made as quickly as practicable, using off-shift labor and overtime as needed and as possible, e) All practicable steps were taken to minimize the potential impact of the excess emissions on ambient air quality, and f) The excess emissions are not part of a recurring pattern that may have been caused by inadequate operation or maintenance, or inadequate design of the malfunctioning component. The burden of proof is on the owner or operator of the source to provide sufficient information to demonstrate the elements listed above. 5.4 R307-130 General Penalty Policy This policy provides guidance to the director of the Air Quality Board in negotiating with air pollution sources penalties for consent agreements to resolve non-compliance situations. It is designed to be used to determine a reasonable and appropriate penalty for the violations based on the nature and extent of the violations, consideration of the economic benefit to the sources of non-compliance, and adjustments for specific circumstances. Violations are grouped in four general categories based on the potential for harm and the nature and extent of the violations. Penalty ranges for each category are as follows. (1) Category A. $7,000 - $10,000 per day; (2) Category B. $2,000 - $7,000 per day; (3) Category C. Up to $2,000 per day; and (4) Category D. Up to $299. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-3 The amount of the penalty within each category may be adjusted and/or suspended in part based upon the following factors: (1) Good faith efforts to comply or lack of good faith. Good faith considers the openness in dealing with the violations, promptness in correction of problems, and the degree of cooperation with the State to include accessibility to information and the amount of State effort necessary to bring the source into compliance. (2) Degree of willfulness and/or negligence. In assessing willfulness and/or negligence, factors to be considered include how much control the violator had over and the foreseeability of the events constituting the violation, whether the violator made or could have made reasonable efforts to prevent the violation, and whether the violator knew of the legal requirements which were violated. (3) History of compliance or non-compliance. History of non-compliance includes consideration of previous violations and the resource costs to the State of past and current enforcement actions. (4) Economic benefit of non-compliance. The amount of economic benefit to the source of non-compliance would be added to any penalty amount determined under this policy. (5) Inability to pay. An adjustment downward may be made, or a delayed payment schedule may be used based on a documented inability of the source to pay. 5.5 R307-150 Emission Inventories The purpose of Rule R307-150 is: (a) to establish by rule the time frame, pollutants, and information that sources must include in inventory submittals; and (b) to establish consistent reporting requirements for stationary sources in Utah to determine whether sulfur dioxide emissions remain below the sulfur dioxide milestones established in the State Implementation Plan for Regional Haze, section XX.E.1.a, incorporated by reference in Section R307-110-28. The requirements of Rule R307-150 replace any annual inventory reporting requirements in approval orders or operating permits issued prior to December 4, 2003. Emission inventories shall be submitted on or before April 15 of each year following the calendar year for which an inventory is required. The inventory shall be submitted in a format specified by the Division of Air Quality following consultation with each source. The executive secretary may require at any time a full or partial year inventory upon reasonable notice to affected sources when it is determined that the inventory is necessary to develop a state implementation plan, to assess whether there is a threat to public health or safety or the environment, or to determine whether the source is in compliance with Title R307. Each owner or operator of a stationary source subject to this rule shall maintain a copy of the emission inventory submitted to the Division of Air Quality and records indicating how the information submitted in the inventory was determined, including any calculations, data, measurements, and estimates used. The records under Section R307-150-4 shall be kept for ten years. Other records shall be kept for a period of at least five years from the due date of each inventory. The owner or operator of the stationary source shall make these records available for inspection by any representative of the Division of Air Quality during normal business hours. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-4 5.6 R307-165 Stack Testing The purpose of Rule R307-165 is to establish the requirements for stack testing. Rule R307-165 applies to each emissions unit with established emission limitations specified in approval orders issued under Rule R307- 401 or in the Utah State Implementation Plan Section IX, Part H. Rule R307-165 does not apply to opacity limitations or emissions units with emissions monitored under Rule R307-170.R307-165-2. The owner or operator of an emissions unit under Subsection R307-165-1 shall conduct stack testing at least once every five years. More frequent testing may be required as specified in an applicable federal rule, approval order, Title V permit, or State Implementation Plan. If the director has reason to believe that an applicable emission limitation is being exceeded, the owner or operator shall perform such stack testing as is necessary to determine the actual compliance status and as required by the director. The owner or operator shall conduct stack testing of an emissions unit approved under Rule R307-401 within 180 days of startup. Unless otherwise specified by federal rule, the owner or operator shall notify the director of the date, time and place of stack testing no less than 30 days, before conducting a stack test, and provide a copy of the source test protocol to the director. The source shall obtain approval of the protocol from the director prior to conducting the test. The source test protocol shall: (a) identify the reason for the test; (b) outline each proposed test methodology; (c) identify each stack to be tested; and (d) identify each procedure to be used. The owner or operator shall attend a pretest conference if determined necessary by the director. The production rate during all stack testing shall be no less than 90% of the maximum production rate achieved in the previous three years. If the desired production rate is not achieved at the time of the test, the maximum production rate shall be 110% of the tested achieved rate, but not more than the maximum allowable production rate. This new allowable maximum production rate shall remain in effect until successfully tested at a higher rate. The owner or operator shall request a higher production rate when necessary. Testing at no less than 90% of the higher rate shall be conducted. A new maximum production rate of 110% of the new rate will then be allowed if the test is successful. This process may be repeated until the maximum allowable production rate is achieved. During the stack testing, the owner or operator shall burn fuels or combinations of fuels, use raw materials, and maintain process conditions representative of normal operations of the emissions unit. The owner or operator shall operate the emissions unit under such other relevant conditions as the director shall specify. The owner or operator shall submit a written report of the results from the stack testing to the director no later than 60 days after completion of the stack testing. report shall include validated results and supporting information. The director may reject stack testing results if determined to be incomplete, inadequate, not representative of operating conditions specified for the test, or if the director was not provided an opportunity to have an observer present at the test. 5.7 R307-201 Emission Standards: General Emission Standards R307-210 establishes emission standards for all areas of the state except for sources listed in Section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. (1) Visible emissions from installations constructed on or before April 25, 1971, except diesel engines, shall be of a shade or density no darker than 40% opacity, except as otherwise provided in these rules. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-5 (2) Visible emissions from installations constructed after April 25, 1971, except diesel engines shall be of a shade or density no darker than 20% opacity, except as otherwise provided in these rules. (3) Visible emissions for all incinerators, no matter when constructed, shall be of shade or density no darker than 20% opacity. (4) No owner or operator of a gasoline powered engine or vehicle shall allow, cause or permit visible emissions. (5) Emissions from diesel engines, except locomotives, manufactured after January 1, 1973, shall be of a shade or density no darker than 20% opacity, except for starting motion no farther than 100 yards or for stationary operation not exceeding three minutes in any hour. (6) Emissions from diesel engines manufactured before January 1, 1973, shall be of a shade or density no darker than 40% opacity, except for starting motion no farther than 100 yards or for stationary operation not exceeding three minutes in any hour. (7) Visible emissions exceeding the opacity standards for short time periods as the result of initial warm-up, soot blowing, cleaning of grates, building of boiler fires, cooling, etc., caused by start-up or shutdown of a facility, installation or operation, or unavoidable combustion irregularities which do not exceed three minutes in length (unavoidable combustion irregularities which exceed three minutes in length must be handled in accordance with R307-107), shall not be deemed in violation provided that the director finds that adequate control technology has been applied. The owner or operator shall minimize visible and non-visible emissions during startup or shutdown of a facility, installation, or operation through the use of adequate control technology and proper procedures. (8) Compliance Method. Emissions shall be brought into compliance with these requirements by reduction of the total weight of pollutants discharged per unit of time rather than by dilution of emissions with clean air. (9) Opacity Observation. Opacity observations of emissions from stationary sources shall be conducted in accordance with EPA Method 9. Opacity observers of mobile sources and intermittent sources shall use procedures similar to Method 9, but the requirement for observations to be made at 15 second intervals over a 6-minute period shall not apply. 5.8 R307-203 Emission Standards: Sulfur Content of Fuels Any coal, oil, or mixture thereof, burned in any fuel burning or process installation not covered by New Source Performance Standards for sulfur emissions shall contain no more than 1.0-pound sulfur per million gross BTU heat input for any mixture of coal nor .85 pounds sulfur per million gross BTU heat input for any oil. In the case of fuel oil, it shall be sufficient to record the following specifications for each purchase of fuel oil from the vendor: weight percent sulfur, gross heating value (btu per unit volume), and density. These parameters shall be ascertained in accordance with the methods of the American Society for Testing and Materials. Records of fuel sulfur content shall be kept for all periods when the plant is in operation and shall be made available to the director upon request and shall include a period of two years ending with the date of the request. Any person may apply to the director for approval of an alternative test method, an alternative method of control, an alternative compliance period, an alternative emission limit, or an alternative monitoring schedule. The application must include a demonstration that the proposed alternative produces an equal or greater air quality benefit than that required by R307-203, or that the alternative test method is equivalent to that required by R307-203. The director shall obtain concurrence from EPA when approving an alternative test method, an alternative method of control, an alternative compliance period, an alternative emission limit, or an alternative monitoring schedule. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-6 5.9 R307-205 Emission Standards: Fugitive Emissions and Fugitive Dust R307-205 establishes minimum work practices and emission standards for sources of fugitive emissions and fugitive dust for sources located in all areas in the state except those listed in section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. R307-205 applies statewide to all sources of fugitive emissions and fugitive dust, except for agricultural or horticultural activities specified in 19-2-114(1)-(3) and any source listed in section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. Fugitive emissions from sources which were constructed on or before April 25, 1971, shall not exceed 40% opacity. Fugitive emissions from sources constructed or modified after April 25, 1971, shall not exceed 20% opacity. Storage and Handling of Materials. Any person owning, operating or maintaining a new or existing material storage, handling or hauling operation shall minimize fugitive dust from such an operation. Such control may include the use of enclosures, covers, stabilization or other equivalent methods or techniques as approved by the director. Any person engaging in clearing or leveling of land greater than one-quarter acre in size, earthmoving, excavation, or movement of trucks or construction equipment over cleared land greater than one-quarter acre in size or access haul roads shall take steps to minimize fugitive dust from such activities. Such control may include watering and chemical stabilization of potential fugitive dust sources or other equivalent methods, or techniques approved by the director. The owner or operator of any land area greater than one-quarter acre in size that has been cleared or excavated shall take measures to prevent fugitive particulate matter from becoming airborne. Such measures may include: (i) planting vegetative cover, (ii) providing synthetic cover, (iii) watering, (iv) chemical stabilization, (v) wind breaks, or (vi) other equivalent methods or techniques approved by the director. Any person engaging in demolition activities including razing homes, buildings, or other structures or removing paving material from roads or parking areas shall take steps to minimize fugitive dust from such activities. Such control may include watering and chemical stabilization or other equivalent methods, or techniques approved by the director. The director may request GRP Corporation to supply traffic count information as determined necessary to ascertain whether or not control techniques are adequate or additional controls are necessary. Any person who deposits materials that may create fugitive dust on a public or private paved road shall clean the road promptly. Fugitive dust, construction activities, and roadways associated with mining activities are regulated under the provisions of R307-205-7 and not by R307-205-5 and 6. Any person who owns or operates a mining operation shall minimize fugitive dust as an integral part of site preparation, mining activities, and reclamation operations. The fugitive dust control measures to be used may include: (a) periodic watering of unpaved roads, (b) chemical stabilization of unpaved roads, (c) paving of roads, Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-7 (d) prompt removal of coal, rock minerals, soil, and other dust-forming debris from roads and frequent scraping and compaction of unpaved roads to stabilize the road surface, (e) restricting the speed of vehicles in and around the mining operation, (f) revegetating, mulching, or otherwise stabilizing the surface of all areas adjoining roads that are a source of fugitive dust, (g) restricting the travel of vehicles on other than established road (h) enclosing, covering, watering, or otherwise treating loaded haul trucks and railroad cars, to minimize loss of material to wind and spillage, (i) substitution of conveyor systems for haul trucks and covering of conveyor systems when conveyed loads are subject to wind erosion, (j) minimizing the area of disturbed land, (k) prompt revegetation of regraded lands, (l) planting of special windbreak vegetation at critical points in the permit area, (m) control of dust from drilling, using water sprays, hoods, dust collectors or other controls approved by the director, (n) restricting the areas to be blasted at any one time, (o) reducing the period of time between initially disturbing the soil and revegetating or other surface stabilization, (p) restricting fugitive dust at spoil and coal transfer and loading points, (q) control of dust from storage piles through use of enclosures, covers, or stabilization and other equivalent methods or techniques as approved by the director, or (r) other techniques as determined necessary by the director. 5.10 R307-210 Standards of Performance for New Stationary Sources The provisions of 40 Code of Federal Regulations (CFR) Part 60, effective on July 1, 2019, except for Subparts Cb, Cc, Cd, Ce, BBBB, DDDD, and HHHH, are incorporated by reference with the exception that references in 40 CFR to "Administrator" shall mean "director" unless by federal law the authority referenced is specific to the Administrator and cannot be delegated. The New Source Performance Standards as found in 40 CFR Part 60 that the Mona operation will be subject to include Subpart A, I, and OOO. The provisions of 40 CFR Part 60 Subpart A applies to each affected facility as specified in the relevant NSPS regulation for that source type. Subpart A contains general requirements for notifications, monitoring, performance testing, reporting, recordkeeping, and operation and maintenance provisions. 40 CFR Part 60 Subpart I apply to the drum mix asphalt plant equipment and includes limits on opacity in the exhaust stream and applicable test methods to determine compliance with the opacity limit. 40 CFR Part 60 Subpart OOO applies to the crushers, screens, and conveyor transfer points at the Mona facility. Subpart OOO contains an opacity limit of 7% for screens and conveyor transfer points and 12% for crushers manufactured after April 22, 2008, or 15% for any crusher manufactured prior to April 22, 2008. 5.11 R307-214 National Emissions Standards for Hazardous Air Pollutants The provisions of Title 40 of the Code of Federal Regulations (40 CFR) Part 61, National Emission Standards for Hazardous Air Pollutants, are incorporated by reference into this rule under Section R307-101-3. The provisions of 40 CFR Part 63, National Emission Standards for Hazardous Air Pollutants (NESHAP) for Source Categories, are incorporated by reference. The applicable NESHAPs that the Mona operation will be subject to include 40 CFR Part 63, General Provisions. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-8 5.12 R307-401 Permit: New and Modified Sources This rule establishes the application and permitting requirements for new installations and modifications to existing installations in Utah. R307-401 applies to any person intending to: (a) construct a new installation which will or might reasonably be expected to become a source or an indirect source of air pollution, or (b) make modifications or relocate an existing installation which will or might reasonably be expected to increase the amount or change the effect of, or the character of, air contaminants discharged, so that such installation may be expected to become a source or indirect source of air pollution, or (c) install a control apparatus or other equipment intended to control emissions of air contaminants. Any person subject to R307-401 shall submit a notice of intent to the director and receive an approval order prior to initiation of construction, modification, or relocation. The notice of intent shall be in a format specified by the director. Within 30 days after receipt of a notice of intent, or any additional information necessary to the review, the director will advise the applicant of any deficiency in the notice of intent, or the information submitted. Within 90 days of receipt of a complete application including all the information described in R307- 401-5, the director will (a) issue an approval order for the proposed construction, installation, modification, relocation, or establishment pursuant to the requirements of R307-401-8, or issue an order prohibiting the proposed construction, installation, modification, relocation or establishment if it is deemed that any part of the proposal is inadequate to meet the applicable requirements of R307. 5.13 R307-410 Permits Emissions Impact Analysis This rule establishes the procedures and requirements for evaluating the emissions impact of new or modified sources that require an approval order under R307-401 to ensure that the source will not interfere with the attainment or maintenance of any NAAQS. The rule also establishes the procedures and requirements for evaluating the emissions impact of hazardous air pollutants. The rule also establishes the procedures for establishing an emission rate based on the good engineering practice stack height as required by 40 CFR 51.118. All estimates of ambient concentrations derived in meeting the requirements of R307 shall be based on appropriate air quality models, data bases, and other requirements specified in 40 CFR Part 51, Appendix W, Guideline on Air Quality Models, which is hereby incorporated by reference. Where an air quality model specified in the Guideline on Air Quality Models or other EPA approved guidance documents is inappropriate, the director may authorize the modification of the model or substitution of another model. In meeting the requirements of federal law, any modification or substitution will be made only with the written approval of the Administrator, EPA. Prior to receiving an approval order under R307-401, a new source in an attainment area with a total controlled emission rate per pollutant greater than or equal to amounts specified in Table 1, or a modification to an existing source located in an attainment area which increases the total controlled emission rate per pollutant of the source in an amount greater than or equal to those specified in Table 1, shall conduct air quality modeling, as identified in R307-410-3, to estimate the impact of the new or modified source on air quality unless previously performed air quality modeling for the source indicates that the addition of the proposed emissions increase would not violate a National Ambient Air Quality Standard, as determined by the Director. • sulfur dioxide - 40 tons per year • oxides of nitrogen - 40 tons per year Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-9 • PM10 - fugitive emissions 5 tons per year and fugitive dust • PM10 - non-fugitive emissions 15 tons per year or non-fugitive dust • carbon monoxide - 100 tons per year • lead - 0.6 tons per year The ambient air impact from emissions of hazardous air pollutants is also to be reviewed based on the guidance in R307-410-5. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-1 6.0 DISPERSION MODELING In support of GRP’s Mona Facility, this air quality modeling analysis was conducted in accordance with 40 CFR Part 51 Appendix W, Guideline on Air Quality Models and Utah Title R307-410. The following sections describe the methods used and results of the dispersion modeling to demonstrate compliance with applicable State of Utah Regulation. 6.1 Dispersion Modeling Methodology Per Utah Title R307-410, a new or modified source located in an attainment area which increases the total controlled emission rate per pollutant of the source above the modeling threshold, as listed in Table 6-1, is required to conduct an air quality modeling analysis. As shown in Table 6-1, PM10 is the only criteria pollutant from the Mona facility whose controlled emission rate was above the required modeling thresholds; thus, PM10 emissions were modeled, and the results of this modeling are presented in this section. Table 6-1 Dispersion Modeling Thresholds and Controlled Emission Increases Pollutant Modeling Threshold (tons/year) Controlled Emissions (tons/year) Modeling Required (Y/N) NOx 40 23.1 N CO 100 35.5 N SO2 40 14.6 N PM10 15/5a 38.8 Y PM2.5 10 5.6 N a15 tons per year for non-fugitive emissions, 5 tons per year for fugitive emissions. Utah Administrative Code (UAC) R307-410-5 presents emission threshold values (ETVs) as a HAP-specific threshold to determine if dispersion modeling will be required. The ETV is the product of the threshold limit values (TLVs) listed in the American Conference of Governmental Industrial Hygienists (ACGIH) “Threshold Limit Values for Chemical Substances and Physical Agents” handbook and an emission threshold factor (defined in Table 2 of R307-410-5) which is based on the type of release point (vertically restricted or vertically unrestricted) and the distance to ambient air. Net emissions found to be greater than the ETV are required to conduct a dispersion modeling analysis to be compared to applicable toxic screening levels (TSLs). Emission calculations for the Mona facility show that the Hazardous Air Pollutant (HAP) formaldehyde exceeds the ETV, requiring an air quality analysis to ensure the facility does not pose an unacceptable risk to public health. Dispersion modeling was conducted for formaldehyde, which is classified as a, acute/chronic HAP. 6.2 Model Selection Consistent with the procedures presented in 40 CFR Part 51 Appendix W, Guideline on Air Quality Models, dispersion modeling was performed using the latest version of the AERMOD modeling system (22112) which is an EPA approved, steady-state Eulerian, Gaussian mathematical plume model. AERMOD is composed of three modular components: AERMAP, the terrain preprocessor; AERMET, the meteorological preprocessor; and AERMOD, the control module and modeling processor. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-2 6.3 Meteorological Data Meteorological data utilized for this analysis consisted of one year (May 9, 2001 through May 9, 2002) of surface and upper-air data processed through AERMET (version 21112). Surface and upper-air observations were collected from a 50-meter tower located at the Currant Creek power plant, near Mona, Utah. Figure 6.1 presents the one-year windrose for Currant Creek, located near Mona, Utah. Figure 6.1 Windrose for Mona, Utah (2001-2002) 6.4 Treatment of Calms or Near-Calms AERMOD contains algorithms for dealing with low wind speed (near calm) conditions. The model produces concentrations for conditions when the wind speed may be less than 1 meters per second (m/s) but still greater than the instrument threshold. The threshold wind speed is typically the threshold of the instrument used to collect wind information. A threshold of 0.5 m/s was used in AERMET to define calm periods. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-3 6.5 Surface Characteristics Stage 3 of AERMET processing requires the input of surface characteristics of the area from which the surface meteorological data were collected. These surface characteristics, which are used by AERMET to determine heat fluxes and atmospheric stability, include:  Midday Albedo – fraction of solar radiation reflected at the surface  Daytime Bowen Ratio – indicator of surface moisture  Surface Roughness Length – height of obstacles to the wind flow Surface characteristics for this dataset were entered for twelve sectors on a monthly basis and were determined using AERSURFACE version 20060. This program makes use of electronic land cover, tree canopy, and impervious surface data from the U.S. Geological Survey to calculate surface characteristics for a given monitoring station. The seasonal classifications for the year followed the standard AERMET/AERSURFACE breakdown (e.g., summer = June, July, August). An AERSURFACE user has the option of choosing Bowen ratios that are tailored for dry, average, or wet conditions. Trinity compiled climatological records of precipitation totals for 1991-2020 for the Cedar City area. Any yearly total in the upper 30th-percentile of the 30-year record could be classified as “wet”. Similarly, any yearly total in the lower 30th-percentile could be classified as “dry”, and any yearly total in the middle 40th- percentile could be classified as “average”. For the modeling period, 2016 was classified as “average”, 2017, 2018, and 2020 were classified as “dry”, and 2019 was classified as “wet”. 6.6 Regional Description The Mona facility is located off Interstate 15 just west of Mona, Utah in Juab County which is attainment for all criteria pollutants. The site is in an area with complex terrain and is situated west of Mt. Nebo. 6.7 Terrain Data Receptor terrain and source elevations were derived from 1/3-arc second National Elevation Dataset (NED) data obtained from the U.S. Geological Survey. AERMAP version 18081 was the preprocessor used to determine elevations at the defined receptor and source locations. 6.8 Building Downwash The Building Profile Input Program BPIP with Plume Rise Model Enhancements (PRIME) (Version 04274) was utilized to address downwash effects. The height, width, length, and base elevation of structures associated with the Mona facility were input to BPIP-Prime to determine in each of the 36 wind directions (10-degree sectors) which buildings will produce the greatest downwash effects for each stack. 6.9 Receptor Grid A modeling domain was developed for the near-field analysis encompassing the location of the maximum modeled-predicted concentration from the Mona facility. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-4 The receptor grid developed, consisted of 6,628 receptors with 25-meter spacing around the fence line, 50- meter spacing for receptors out to 1.5 kilometers; 100-meter spacing out from 1.5 kilometer to 3 kilometer; 500-meter spacing was used from 3 to 5 kilometers, and 1,000-meter spacing out to 10 kilometers. Figure 6.2 presents the receptor grid used in the near-field analysis. Figure 6.2 GRP Mona Receptor Grid Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-5 6.10 Model Options The U.S. EPA recommends various default options to be used in dispersion modeling for regulatory purposes. The recommended regulatory default options that were used for the modeling analyses are as follows: • Calms and missing meteorological data routine, • Actual receptor elevations, • Sequential date checking, • Complex/intermediate terrain algorithms. Other selected output variables to be used in AERMOD include: • 24-hour averaging periods for PM10, • 1-hour averaging periods for Formaldehyde, • Elevated terrain, • Rural mixing heights, and concentrations. 6.11 Source Parameters Emission source parameters (location, stack height, flue exit diameter, exit velocity, exit temperature, initial vertical dimension, and initial horizontal dimension) as well as emission rates for sources located at the Mona facility were input into AERMOD to demonstrate compliance with federal and state regulations and are included in Appendix B. Paved and unpaved road segments were modeled as volume sources per the procedures found in Table 3-1 of the User’s Guide for the AMS/EPA Regulatory Model - AERMOD. These procedures are presented in Table 6-2 below. Table 6-2 Procedures Used for Estimating Lateral and Initial Vertical Dimensions for Volume and Line Sources Type of Source Procedure for Obtaining Initial Dimension Initial Lateral Dimensions (σyo) Single volume source σyo = length of side divided by 4.3 Line source represented by adjacent volume sources σyo = length of side divided by 2.15 Line source represented by separated volume sources σyo = center to center distance divided by 2.15 Initial Vertical Dimensions (σzo) Surface-based source σzo = vertical dimension of source divided by 2.15 Elevated source (he > 0) on or adjacent to a building σzo = building height divided by 2.15 Elevated source (he > 0) not on or adjacent to a building σzo = vertical dimension of source divided by 4.3 Emissions from road segments that are used by different production plants with differing operating schedules have been ratioed to account for operational emissions. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-6 6.12 Background Concentrations Background concentrations for PM10 were obtained from the Lindon monitor located in Utah County. To represent seasonal variability, monthly PM10 background concentrations were extracted using the latest monitoring data collected by UDAQ in Lindon, Utah. The monthly background concentrations were derived using the maximum 24-hour concentration observed in each month from 2019 through 2021. The maximum concentration from each year was removed from the background concentration to meet the form of the PM10 standard. The monthly values are added to the model input file and AERMOD adds the corresponding background concentration to the model-predicted concentration. Table 6-3 presents the monthly maximum concentrations by year and the monthly background concentration added to the model input file. Table 6-3 Lindon, Utah Monthly Background Concentrations Month 2019 2020 2021 Monthly Background January 53 40 53 53 February 41 36 67 67 March 25 24 41 41 April 17 37 42 42 May 20 62 58 62 June 42 73 61 73 July 34 52 61 61 August 43 90 69 90 September 32 51 61 61 October 38 68 20 68 November 53 45 47 53 December 50 65 53 65 a. Removed concentration of 100 ug/m3 on April 5, 2021 due to high winds. b. Removed concentration of 92 ug/m3 on May 7, 2021 due to high winds. 6.13 Near-Field Dispersion Modeling Results for PM10 This section presents the near-field dispersion modeling results for PM10 and the formaldehyde modeling results. The results of these analyses demonstrate that the project will not cause or contribute to exceedances of the 24-hour PM10 NAAQS or an exceedance of the TSL for formaldehyde. The results of the PM10 and formaldehyde modeling are presented in Appendix C. 6.13.1 PM10 Modeling For the PM10 modeling, two analyses, consisting of a significant impact and a cumulative or full impact NAAQS analysis, were performed. The results from each of these analyses are presented in the following sections. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-7 6.1.13.1 Significant Impact Analysis A Significant Impact Analysis (SIA) considers the impact from potential emission increases from the proposed project. Model-predicted concentrations are compared to Significant Impact Levels (SIL). If the modeled impacts of the proposed project exceed the corresponding SILs, a cumulative impact analysis is required. Table 6-4 compares the concentration impact from the project to the 24-hour PM10 SIL. Table 6-4 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – SIL Analysis Pollutant Averaging Period Modeled Impact (µg/m3) SIL (µg/m3) Percent of SIL Impact Location UTM East (m) UTM North (m) PM10 24-hour 77.4 5 1,548% 429420.40 4408284.10 6.1.13.2 Full Impact NAAQS Analysis As shown in Table 6-4, model-predicted concentrations of PM10 show emissions from the Mona Facility to be above the respective SIL. By definition, a full impact analysis is required to demonstrate the cumulative impact of emissions from the facility and nearby sources as well as background concentrations will not cause or contribute to an exceedance of the NAAQS. A significant impact area was defined for areas above the SIL. The impact area is the geographical area for which the required air quality analyses for the NAAQS are carried out. The area includes all locations where the significant increase in the potential emissions of a pollutant from the Mona facility will cause a significant ambient impact (i.e., equals or exceeds the applicable significant impact level). Trinity worked with UDAQ to identify sources located within 50 km of the SIA to be included in a cumulative impact analysis. UDAQ provided Trinity with the required modeling inputs and emissions for Kilgore Companies Mona Pit, Sunroc Mona Pit, and PacifiCorp Currant Creek were included in the cumulative or full-impact impact analysis. Table 6-5 presents the results of the NAAQS analysis which includes the maximum second-high concentration for the one-year modeling period, background concentration, and emissions from nearby full-impact sources compared to 24-hour PM10 NAAQS (150 µg/m3). The modeling results indicate that the cumulative impact of facility emissions and background concentrations at the GRP’s Mona facility are below the 24-hour PM10 NAAQS. Figure 6.3 presents a 24-hour PM10 concentration isopleth plot for the Mona facility. Appendix C presents the model output information. Table 6-5 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – NAAQS Analysis Pollutant Averaging Period Modeled Impact (µg/m3) NAAQS (µg/m3) Percent of NAAQS PM10 24-hour 146.7 150 97.8 1 High Second High, including background concentration. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-8 Figure 6.3 GRP Mona 24-hour PM10 NAAQS Analysis Isopleth Plot 6.14 Near-Field Dispersion Modeling Results – Formaldehyde Dispersion modeling was conducted for formaldehyde emissions. Table 6-6 compares the maximum model- predicted concentration to the TSL for formaldehyde, which was obtained from UDAQ’s 2023 ACGIH Excel Spreadsheet. As can be seen in Table 6-6, formaldehyde was below its respective TSL. A model concentration isopleth plot for formaldehyde is presented in Figure 6.4. AERMOD output HAP summaries are provided in Appendix C. Table 6-6 HAP Analysis Results Pollutant Averaging Period Model-Predicted Concentration (µg/m3) TSL (µg/m3) Percent of TSL Formaldehyde 1-hour 35.4 37 95.7% Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-9 Figure 6.4 GRP Mona Formaldehyde Isopleth Plot Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants A-1 APPENDIX A. POTENTIAL TO EMIT CALCULATIONS Total Annual Emissions in Tons per Year Source Name PM10 PM2.5 NOx SOX CO VOC CO2e CH4 CO2 N20 MH‐Trucks/Loaders 0.146 0.022 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ MH‐Dozer 3.060 1.682 MH‐Conveyors 0.443 0.125 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Aggregate Throughput 3.300 0.350 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Storage Piles 8.623 0.647 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Exposed Area 4.750 0.713 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Asphalt Plant 5.750 0.725 13.75 14.50 32.50 8.00 3.00 8250.00 Asphalt Silo 0.143 0.143 0.29 3.05 0.0135 Asphalt Loadout 0.130 0.130 0.34 0.98 0.0676 Concrete Batch Plant 3.437 0.099 Roads 8.224 0.822 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ tanks 0.03 0.46 Total ‐ Fugitive 38.008 5.458 13.750 14.500 33.163 12.483 0.000 3.081 8250.000 0.000 ‐ Concrete Plant Heater 0.511 0.123 6.195 0.066 1.549 0.172 6931.8 0.07 6906.9 0.08 Hot Oil Heater Asphalt Plant 0.258 0.062 3.13 0.03 0.78 0.087 3500.9 0.03 3488.4 3500.89 Total 38.777 5.643 23.073 14.599 35.494 12.742 10432.6 3.182 18645.3 3500.968 Criteria Pollutants Greenhous Gas Emissions Total Hourly Emissions of HAPs (lb/hr) HAP Name Concrete Plant Heater Hot Oil Asphalt Heater Asphalt Plant Asphalt Silo Asphalt Loadout Concrete Batch Plant Column1 Total by Compound Benzene 1.51E‐05 7.64E‐06 1.66E‐01 1.66E‐03 1.23E‐04 1.68E‐01 Ethylbenzene 4.50E‐06 2.27E‐06 0.00E+00 1.97E‐03 6.65E‐04 2.64E‐03 Formaldehyde 2.33E‐03 1.18E‐03 1.32E+00 3.57E‐02 2.09E‐04 1.36E+00 Naphthalene 7.99E‐05 4.04E‐05 2.76E‐01 9.43E‐02 3.71E‐01 1,1,1-Trichloroethane 1.67E‐05 8.43E‐06 2.51E‐05 Toluene 4.38E‐04 2.21E‐04 1.23E+00 3.21E‐03 4.99E‐04 1.24E+00 o-Xylene 7.71E‐06 3.89E‐06 8.50E‐02 6.73E‐02 1.90E‐04 1.53E‐01 Acenaphthene 1.49E‐06 7.54E‐07 2.25E‐06 Anthracene 1.79E‐08 9.04E‐09 2.69E‐08 Benz(a)anthracene 8.63E‐08 4.36E‐08 1.30E‐07 Benzo(b,k)fluoranthene 2.84E‐07 1.43E‐07 4.27E‐07 Benzo(g,h,i)perylene 1.60E‐07 8.07E‐08 2.41E‐07 Chrysene 1.68E‐07 8.50E‐08 2.53E‐07 Dibenzo(a,h)anthracene 1.18E‐07 5.96E‐08 1.78E‐07 Fluoranthene 3.42E‐07 1.73E‐07 5.15E‐07 Fluorene 3.16E‐07 1.60E‐07 4.76E‐07 Indo(1,2,3-cd)pyrene 1.51E‐06 7.64E‐07 2.28E‐06 Phenanthrene 7.43E‐08 3.75E‐08 1.12E‐07 Pyrene 3.01E‐07 1.52E‐07 4.52E‐07 OCDD 2.19E‐10 1.11E‐10 3.30E‐10 Antimony 3.71E‐04 0.00E+00 3.71E‐04 Arsenic 9.33E‐05 1.88E‐04 6.80E‐05 3.49E‐04 Barium 1.82E‐04 4.71E‐05 2.29E‐04 Beryllium 1.97E‐06 9.18E‐05 8.25E‐06 1.02E‐04 Cadmium 2.81E‐05 9.93E‐07 3.92E‐07 2.95E‐05 Chloride 2.45E‐02 1.42E‐05 2.46E‐02 Chromium 5.98E‐05 1.24E‐02 2.27E‐04 1.27E‐02 Chromium VI 1.75E‐05 3.02E‐05 4.77E‐05 Cobalt 4.26E‐04 8.86E‐06 4.35E‐04 Copper 1.24E‐04 2.15E‐04 3.39E‐04 Fluoride 2.64E‐03 6.29E‐05 2.70E‐03 Lead 1.07E‐04 1.33E‐03 8.72E‐05 1.53E‐03 Manganese 2.12E‐04 5.39E‐05 8.96E‐04 1.16E‐03 Mercy 7.99E‐06 1.07E‐04 1.15E‐04 Moldbdenum 5.57E‐05 4.04E‐06 5.97E‐05 Nickel 5.98E‐03 2.81E‐05 3.00E‐04 6.30E‐03 Phosphorous 6.69E‐04 3.02E‐03 6.71E‐04 4.36E‐03 Selenium 4.83E‐05 3.38E‐04 7.85E‐06 3.94E‐04 Vanadium 2.25E‐03 2.44E‐05 2.27E‐03 Zinc 2.06E‐03 1.14E‐03 3.19E‐03 Acetaldehyde 1.04E‐03 5.53E‐01 5.54E‐01 Acrolein 0.00E+00 1.11E‐02 1.11E‐02 Hexane 0.00E+00 3.91E‐01 5.18E‐03 3.56E‐04 3.97E‐01 Isooctane 0.00E+00 1.70E‐02 1.61E‐05 4.27E‐07 1.70E‐02 Methyl Chloroform 0.00E+00 2.04E‐02 2.04E‐02 Bromomethane 0.00E+00 2.54E‐04 2.28E‐05 2.77E‐04 2‐Butanone 0.00E+00 2.02E‐03 1.16E‐04 2.14E‐03 Carbon disulfide 0.00E+00 8.29E‐04 3.09E‐05 8.60E‐04 Chloroethane 0.00E+00 2.07E‐04 4.99E‐06 2.12E‐04 Chloromethane 0.00E+00 1.19E‐03 3.56E‐05 1.23E‐03 Chrysene 0.00E+00 2.27E‐04 2.27E‐04 Isooctane 0.00E+00 1.61E‐05 4.27E‐07 1.65E‐05 Methylene Chloride 0.00E+00 1.40E‐05 1.40E‐05 Styrene 0.00E+00 2.80E‐04 1.73E‐05 2.97E‐04 m,p‐xylene 0.00E+00 1.04E‐02 9.73E‐04 1.13E‐02 TOTAL 0.03986 0.02013 0.99195 0.02059 0.00156 0.00226 1.07636 Total HAPs in TPY HAP Name Concrete Plant Heater Hot Oil Asphalt Heater Asphalt Plant Asphalt Silo Asphalt Loadout Concrete Batch Plant Column1 Total by Compound Benzene 6.63E‐05 3.35E‐05 9.75E‐02 9.75E‐04 5.41E‐04 9.91E‐02 Ethylbenzene 1.97E‐05 9.95E‐06 6.00E‐02 1.16E‐03 2.91E‐03 6.41E‐02 Formaldehyde 1.02E‐02 5.16E‐03 7.75E‐01 2.10E‐02 9.15E‐04 8.12E‐01 Naphthalene 3.50E‐04 1.77E‐04 1.63E‐01 5.54E‐02 2.18E‐01 1,1,1-Trichloroethane 7.31E‐05 3.69E‐05 1.10E‐04 Toluene 1.92E‐03 9.70E‐04 7.25E‐01 1.89E‐03 2.18E‐03 7.32E‐01 o-Xylene 3.38E‐05 1.71E‐05 5.00E‐02 3.96E‐02 8.32E‐04 9.05E‐02 Acenaphthene 6.54E‐06 3.30E‐06 9.84E‐06 Anthracene 7.84E‐08 3.96E‐08 1.18E‐07 Benz(a)anthracene 3.78E‐07 1.91E‐07 5.69E‐07 Benzo(b,k)fluoranthene 1.24E‐06 6.27E‐07 1.87E‐06 Benzo(g,h,i)perylene 7.00E‐07 3.54E‐07 1.05E‐06 Chrysene 7.37E‐07 3.72E‐07 1.11E‐06 Dibenzo(a,h)anthracene 5.17E‐07 2.61E‐07 7.78E‐07 Fluoranthene 1.50E‐06 7.57E‐07 2.26E‐06 Fluorene 1.38E‐06 6.99E‐07 2.08E‐06 Indo(1,2,3-cd)pyrene 6.63E‐06 3.35E‐06 9.98E‐06 Phenanthrene 3.25E‐07 1.64E‐07 4.89E‐07 Pyrene 1.32E‐06 6.65E‐07 1.98E‐06 OCDD 9.60E‐10 4.85E‐10 1.45E‐09 Antimony 1.63E‐03 8.21E‐04 2.45E‐03 Arsenic 4.09E‐04 2.06E‐04 6.80E‐05 6.83E‐04 Barium 7.96E‐04 4.02E‐04 1.20E‐03 Beryllium 8.61E‐06 4.35E‐06 8.25E‐06 2.12E‐05 Cadmium 1.23E‐04 6.23E‐05 3.92E‐07 1.86E‐04 Chloride 1.07E‐01 5.43E‐02 1.62E‐01 Chromium 2.62E‐04 1.32E‐04 2.27E‐04 6.20E‐04 Chromium VI 7.68E‐05 3.88E‐05 1.16E‐04 Cobalt 1.86E‐03 9.42E‐04 2.81E‐03 Copper 5.45E‐04 2.75E‐04 8.20E‐04 Fluoride 1.16E‐02 5.83E‐03 1.74E‐02 Lead 4.68E‐04 2.36E‐04 8.72E‐05 7.91E‐04 Manganese 9.29E‐04 4.69E‐04 8.96E‐04 2.29E‐03 Mercury 3.50E‐05 1.77E‐05 5.27E‐05 Moldbdenum 2.44E‐04 1.23E‐04 3.67E‐04 Nickel 2.62E‐02 1.32E‐02 3.00E‐04 3.97E‐02 Phosphorous 2.93E‐03 1.48E‐03 6.71E‐04 5.08E‐03 Selenium 2.12E‐04 1.07E‐04 7.85E‐06 3.26E‐04 Vanadium 9.85E‐03 4.97E‐03 1.48E‐02 Zinc 9.01E‐03 4.55E‐03 1.36E‐02 Acetaldehyde 3.25E‐01 3.25E‐01 Acrolein 6.50E‐03 6.50E‐03 Hexane 2.30E‐01 2.30E‐01 Isooctane 1.00E‐02 9.44E‐06 1.87E‐06 1.00E‐02 Methyl Chloroform 1.20E‐02 1.20E‐02 Bromomethane 1.49E‐04 9.98E‐05 2.49E‐04 2‐Butanone 1.19E‐03 5.09E‐04 1.70E‐03 Carbon disulfide 4.87E‐04 1.35E‐04 6.23E‐04 Chloroethane 1.22E‐04 2.18E‐05 1.44E‐04 Chloromethane 7.01E‐04 1.56E‐04 8.57E‐04 Chrysene 1.33E‐04 1.33E‐04 Methylene Chloride 8.23E‐06 8.23E‐06 Styrene 1.65E‐04 7.59E‐05 2.40E‐04 m,p‐xylene 6.09E‐03 4.26E‐03 1.04E‐02 TOTAL 0.18730 0.09459 2.45350 0.12916 0.01265 0.00226 2.88 Source:Concrete Plant Water Heater Company:Geneva Rock Products Site:Mona Pit Date:5/20/2024 Heater:9.9 MMBtu/hr Pollutant Emission Factor (lb/mmBtu) Fuel Consumed (mmBtu/yr) Fuel Consumed (mmBtu/hr) Emission Rates (ton/yr) Emission Rates (lb/yr) Emission Rates (lb/hr)PPMEFFC FC ER ER ER Criteria Pollutants PMCon 9.29E-03 86,724 9.9 0.40 805.29 0.0919 PMFilt 1.43E-02 86,724 9.9 0.62 1238.91 0.1414 PMTot 2.36E-02 86,724 9.9 1.02 2044.21 0.2334 PM10 1.18E-02 86,724 9.9 0.51 1022.10 0.1167 ` PM2.5 2.83E-03 86,724 9.9 0.12 245.31 0.0280 SO2 1.52E-03 86,724 9.9 0.07 131.94 0.0151 0.85 NOx 1.43E-01 86,724 9.9 6.19 12389.14 1.4143 111.43 CO 3.57E-02 86,724 9.9 1.55 3097.29 0.3536 45.79 VOC 3.97E-03 86,724 9.9 0.17 344.42 0.0393 8.91 GHG CO2 1.6E+02 86,724 9.9 6906.95 13813894.29 1576.9 CH4 1.54E-03 86,724 9.9 0.07 133.80 0.0153 N2O 1.86E-03 86,724 9.9 0.08 161.06 0.0184 CO2e 6,932 HAPs Benzene 1.53E-06 86,724 9.9 6.63E-05 1.33E-01 1.51E-05 Ethylbenzene 4.54E-07 86,724 9.9 1.97E-05 3.94E-02 4.50E-06 Formaldehyde 2.36E-04 86,724 9.9 1.02E-02 2.04E+01 2.33E-03 Naphthalene 8.07E-06 86,724 9.9 3.50E-04 7.00E-01 7.99E-05 1,1,1-Trichloroethane 1.69E-06 86,724 9.9 7.31E-05 1.46E-01 1.67E-05 Toluene 4.43E-05 86,724 9.9 1.92E-03 3.84E+00 4.38E-04 o-Xylene 7.79E-07 86,724 9.9 3.38E-05 6.75E-02 7.71E-06 Acenaphthene 1.51E-07 86,724 9.9 6.54E-06 1.31E-02 1.49E-06 Anthracene 1.81E-09 86,724 9.9 7.84E-08 1.57E-04 1.79E-08 Benz(a)anthracene 8.71E-09 86,724 9.9 3.78E-07 7.56E-04 8.63E-08 Benzo(b,k)fluoranthene 2.86E-08 86,724 9.9 1.24E-06 2.48E-03 2.84E-07 Benzo(g,h,i)perylene 1.61E-08 86,724 9.9 7.00E-07 1.40E-03 1.60E-07 Chrysene 1.70E-08 86,724 9.9 7.37E-07 1.47E-03 1.68E-07 Dibenzo(a,h)anthracene 1.19E-08 86,724 9.9 5.17E-07 1.03E-03 1.18E-07 Fluoranthene 3.46E-08 86,724 9.9 1.50E-06 3.00E-03 3.42E-07 Fluorene 3.19E-08 86,724 9.9 1.38E-06 2.77E-03 3.16E-07 Indo(1,2,3-cd)pyrene 1.53E-07 86,724 9.9 6.63E-06 1.33E-02 1.51E-06 Phenanthrene 7.50E-09 86,724 9.9 3.25E-07 6.50E-04 7.43E-08 Pyrene 3.04E-08 86,724 9.9 1.32E-06 2.63E-03 3.01E-07 OCDD 2.21E-11 86,724 9.9 9.60E-10 1.92E-06 2.19E-10 Metals Antimony 3.75E-05 86,724 9.9 1.63E-03 3.25E+00 3.71E-04 Arsenic 9.43E-06 86,724 9.9 4.09E-04 8.18E-01 9.33E-05 Barium 1.84E-05 86,724 9.9 7.96E-04 1.59E+00 1.82E-04 Beryllium 1.99E-07 86,724 9.9 8.61E-06 1.72E-02 1.97E-06 Cadmium 2.84E-06 86,724 9.9 1.23E-04 2.47E-01 2.81E-05 Chloride 2.48E-03 86,724 9.9 1.07E-01 2.15E+02 2.45E-02 Chromium 6.04E-06 86,724 9.9 2.62E-04 5.23E-01 5.98E-05 Chromium VI 1.77E-06 86,724 9.9 7.68E-05 1.54E-01 1.75E-05 Cobalt 4.30E-05 86,724 9.9 1.86E-03 3.73E+00 4.26E-04 Copper 1.26E-05 86,724 9.9 5.45E-04 1.09E+00 1.24E-04 Fluoride 2.66E-04 86,724 9.9 1.16E-02 2.31E+01 2.64E-03 Lead 1.08E-05 86,724 9.9 4.68E-04 9.35E-01 1.07E-04 Manganese 2.14E-05 86,724 9.9 9.29E-04 1.86E+00 2.12E-04 Mercy 8.07E-07 86,724 9.9 3.50E-05 7.00E-02 7.99E-06 Moldbdenum 5.62E-06 86,724 9.9 2.44E-04 4.88E-01 5.57E-05 Nickel 6.04E-04 86,724 9.9 2.62E-02 5.23E+01 5.98E-03 Phosphorous 6.76E-05 86,724 9.9 2.93E-03 5.86E+00 6.69E-04 Selenium 4.88E-06 86,724 9.9 2.12E-04 4.23E-01 4.83E-05 Vanadium 2.27E-04 86,724 9.9 9.85E-03 1.97E+01 2.25E-03 Zinc 2.08E-04 86,724 9.9 9.01E-03 1.80E+01 2.06E-03 Source of Data: Equations: Emission Factor: AP-42, Fifth Edition, Section 1.3, Fuel Oil Combustion Emission Rates: Table 1.3-1,2,3,9 Max Rating per Hour: Based off of Proposed Yardage Emission Rate: Calculated Assumptions: The emissions are assumed to be uncontrolled and are based on diesel GWPs are averages from EPAs Website To convert to lb/MMBtu of No.2 oil, divide by 140 MMBtu/10^3 gal Heater will be fired on diesel, Propane or natural gas. Conversion Factor to ppm EF lb mmcf FCmmBtu yr HC Btu cf ER ton yr EF lb mmcf FCmmBtu yr HC Btu cf ER lb yr EF lb mmcf FCmmBtu hr HC Btu cf                                   1 ton 2,000 lb 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf              1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 hr 3,600 sec ER lb hr ER lb hr g lb ER g45359.sec Source:Material Handling -Trucks/Loaders Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Hourly Annual PM10 PM2.5 PM10 PM10 PM2.5 PM2.5 Source Description Throughput Throughput Emission Factor Emission Factor Emissions Emissions Emissions Emissions (TPH) (TPY) (lb/ton) (lb/ton) (lb/hr) (TPY) (lb/hr) (TPY) Asphalt Plant Loader (to hopper) 425 500,000 0.00010 0.00002 0.0425 0.025 0.006 0.0038 Aggregate Plant Loader to hopper 1,000 1,000,000 0.00010 0.00002 0.1000 0.050 0.015 0.0075 Trucks 1,000 1,000,000 0.00010 0.00002 0.1000 0.050 0.015 0.0075 Concrete Plant Trucks 420 420,000 0.00010 0.00002 0.0420 0.021 0.006 0.0032 Total 0.285 0.146 0.043 0.022 Source of Data:Equations: Emission Factor:AP‐42, Section 11.19.2 Crushed Stone Processing and Pulverized Mineral Processing, Truck Loading Crushed Stone Emission Rates: Table 11.19.2-2 Production (Aggregate/Concrete) Geneva Rock Products Emission Rate: Calculated Assumptions: PM2.5/PM10 ratio ‐ 0.15, MRI, 2006. Background Document for Revisions to Fine Fraction Ratios Used for AP‐42 Fugitive Emission Factors, prepared for the WRAP by Midwest Research Institute, Feb. 1. EF lb ton PR ton yr 1ton 2,000 lb ER ton yr         EF lb ton PR ton yr 1ton 2,000 lb ER ton yr          Source:Material Handling-Dozer Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Source Pollutant Emission Factor (lb/hr) Dozer Hours (hr/yr) Emission Rate (lb/yr) Emission Rate (TPY) Emission Rate (lb/hr) Dozer PM10 0.7528 8130 6119.94 3.06 7.53E-01 PM2.5 0.4138 8130 3364.02 1.68 4.14E-01 Assumptions: Dozer Operates 8,130 hours/year Reference: AP-42 Section 11.9 Western Surface Coal Mining-Table 11.9-1 (Bulldozing Overburden) Silt and Moisture Content-Geometric Means-Table 11.9-3 (Bulldozing Overburden) ` Equations: 𝑇𝑆𝑃 ൌ 5.7ሺ𝑠ሻଵ.ଶ ሺ𝑀ሻଵ.ଷ 𝑃𝑀ଵହ ൌ 1.0ሺ𝑠ሻଵ.ହ ሺ𝑀ሻଵ.ସ 𝑃𝑀ଵ଴ ൌ𝑃𝑀ଵହ*0.75 𝑃𝑀ଶ.ହ ൌ𝑇𝑆𝑃*0.105 Source:Material Handling-Conveyors Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 Hourly Annual PM10 PM2.5 PM10 PM10 PM2.5 PM2.5 Source Description Throughput Throughput Number of EF EF Emissions Emissions Emissions Emissions (TPH) (TPY) Drops (lb/ton) (lb/ton) (lb/hr) (TPY) (lb/hr) (TPY) Aggregate Plant Conveyors 1,000 1,000,000 15 0.000046 0.000013 0.046 0.345 0.013 0.098 Asphalt Plant Conveyors 425 500,000 6 0.000046 0.000013 0.020 0.069 0.006 0.020 Concrete Plant Conveyors 420 420,000 3 0.000046 0.000013 0.019 0.029 0.005 0.008 Total 0.085 0.443 0.024 0.125 Source of Data:Equations: Emission Factor:AP‐42, Section 11.19.2 Crushed Stone Processing and Pulverized Mineral Processing, Conveyor Transfer Point Controlled Emission Rates: Table 11.19.2-2 Production (Aggregate/Concrete) Geneva Rock Products Emission Rate: Calculated Source:Aggregate Throughput Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 Hourly Uncontrolled PM10 Uncontrolled PM2.5 Controlled PM10 Controlled PM2.5 Uncontrolled PM10 Uncontrolled PM2.5 Controlled PM10 Controlled PM2.5 Controlled PM10 Controlled PM2.5 Source Description Throughput Emission Factor Emission Factor Emission Factor Emission Factor Emissions Emissions Emissions Emissions Emissions Emissions (TPH)(lb/ton) (lb/ton) (lb/ton) (lb/ton) (TPY) (TPY) (TPY) (TPY) (lb/hr) (lb/hr) Aggregate Plant Primary crusher1 1 1,000 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.54 0.10 Primary crusher2 1 1,000 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.54 0.10 Secondary crusher 2 600 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.32 0.06 Tertiary crusher 2 600 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.32 0.06 Screen 1 1 1,500 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 1.11 0.08 Screen 2 1 1,000 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.74 0.05 Screen 3 1 1,000 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.74 0.05 Screen 4 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Screen 5 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Screen 6 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Total 30.90 4.64 3.30 0.35 5.65 0.59 Source of Data: Emission Factors: AP-42, Section 11.19.2, Table 11.19.2-2, August 2004 Equations: Emission Rates: Assumptions: PM2.5/PM10 ratio ‐ 0.15, MRI 2006 Number of Crushers EF lb ton PR ton yr 1ton 2,000 lb ER ton yr          Source:Storage Piles Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 PM10 EF PM2.5 EF Pile Size Control Efficiency Uncontrolled PM10 Emissions Uncontrolled PM2.5 Emissions Controlled PM10 Emissions Controlled PM2.5 Emissions Controlled PM10 Emissions (lb/acre-day) (lb/acre-day) Days/year (acres) (TPY) (TPY) (TPY) (TPY) (lb/hr) Storage piles 6.30 0.473 365.000 15.00 50.00 17.246 1.293 8.623 0.647 1.969 17.246 1.293 8.623 0.647 Source of Data:Equations: Emission Factor:AP‐42, Fifth Edition, Section 11.9, 10/98 Emission Rates: Western Surface Coal Mining Table 11.9-4 Pile Size Estimated from GRP Emission Rate: Calculated Assumptions: PM10/TSP ratio of 0.5 used (WRAP Fugitive Dust Handbook, Chapter 9) PM2.5/PM10 ratio of 0.075 (UDAQ) 50% Control Efficiency for Watering Stockpiles (UDAQ) Source Description Source:Exposed Area (active Mining) Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Source Description PM10 EF PM2.5 EF Exposed Area PM10 Emissions PM2.5 Emissions PM10 Emissions T/acre/yr T/acre/yr acres TPY TPY lb/hr Disturbed Ground 0.19 0.029 25.0 4.75 0.71 1.08 Source of Data:Equations: Emission Factor:AP‐42, Section 11.9 Western Surface Coal Mining Emission Rates: Table 11.9-4 Exposed Acre Size Estimated by GRP Emission Rate: Calculated Assumptions: PM2.5/PM10 raƟo ‐ 0.15, MRI, 2006. Background Document for Revisions to Fine FracƟon RaƟos Used for AP‐42FugiƟve Emission Factors, prepared for the WRAP by Midwest Research InsƟtute, Feb. 1. Emission factor obtained from AP‐42, Table 11.9‐4, for TSP. It is assumed that PM10 is 50% of TSP, so 0.38 T/acre/yr x 50% = 0.19 T/acre/yr. The emissions are assumed to be uncontrolled. Source:Asphalt Plant Hot Oil Heater Company:Geneva Rock Products Site:Mona Pit Date:5/20/2024 Heater:5.0 MMBtu/hr Pollutant Emission Factor (lb/mmBtu) Fuel Consumed (mmBtu/yr) Fuel Consumed (mmBtu/hr) Emission Rates (ton/yr) Emission Rates (lb/yr) Emission Rates (lb/hr)PPM EF FC FC ER ER ER ER Criteria Pollutants PMCon 9.29E-03 43,800 5.0 0.2034 4.07E+02 0.0464 PMFilt 1.43E-02 43,800 5.0 0.3129 6.26E+02 0.0714 PMTot 2.36E-02 43,800 5.0 0.5162 1.03E+03 0.1179 PM10 1.18E-02 43,800 5.0 0.2581 5.16E+02 0.0589 PM2.5 2.83E-03 43,800 5.0 0.0619 1.24E+02 0.0141 SO2 1.52E-03 43,800 5.0 0.0333 6.66E+01 0.0076 0.85 NOx 1.43E-01 43,800 5.0 3.1286 6.26E+03 0.7143 111.43 CO 3.57E-02 43,800 5.0 0.7821 1.56E+03 0.1786 45.79 VOC 3.97E-03 43,800 5.0 0.0870 1.74E+02 0.0199 8.91 GHG CO2 1.6E+02 43,800 5.0 3488.4 6.98E+06 796.4 CH4 1.54E-03 43,800 5.0 0.0338 6.76E+01 0.0077 N2O 1.86E-03 43,800 5.0 0.0407 8.13E+01 0.0093 CO2e 3,501 HAPs Benzene 1.53E-06 43,800 5.0 3.35E-05 6.70E-02 7.64E-06 Ethylbenzene 4.54E-07 43,800 5.0 9.95E-06 1.99E-02 2.27E-06 Formaldehyde 2.36E-04 43,800 5.0 5.16E-03 1.03E+01 1.18E-03 Naphthalene 8.07E-06 43,800 5.0 1.77E-04 3.54E-01 4.04E-05 1,1,1-Trichloroethane 1.69E-06 43,800 5.0 3.69E-05 7.38E-02 8.43E-06 Toluene 4.43E-05 43,800 5.0 9.70E-04 1.94E+00 2.21E-04 o-Xylene 7.79E-07 43,800 5.0 1.71E-05 3.41E-02 3.89E-06 Acenaphthene 1.51E-07 43,800 5.0 3.30E-06 6.60E-03 7.54E-07 Anthracene 1.81E-09 43,800 5.0 3.96E-08 7.92E-05 9.04E-09 Benz(a)anthracene 8.71E-09 43,800 5.0 1.91E-07 3.82E-04 4.36E-08 Benzo(b,k)fluoranthene 2.86E-08 43,800 5.0 6.27E-07 1.25E-03 1.43E-07 Benzo(g,h,i)perylene 1.61E-08 43,800 5.0 3.54E-07 7.07E-04 8.07E-08 Chrysene 1.70E-08 43,800 5.0 3.72E-07 7.45E-04 8.50E-08 Dibenzo(a,h)anthracene 1.19E-08 43,800 5.0 2.61E-07 5.22E-04 5.96E-08 Fluoranthene 3.46E-08 43,800 5.0 7.57E-07 1.51E-03 1.73E-07 Fluorene 3.19E-08 43,800 5.0 6.99E-07 1.40E-03 1.60E-07 Indo(1,2,3-cd)pyrene 1.53E-07 43,800 5.0 3.35E-06 6.70E-03 7.64E-07 Phenanthrene 7.50E-09 43,800 5.0 1.64E-07 3.29E-04 3.75E-08 Pyrene 3.04E-08 43,800 5.0 6.65E-07 1.33E-03 1.52E-07 OCDD 2.21E-11 43,800 5.0 4.85E-10 9.70E-07 1.11E-10 Metals Antimony 3.75E-05 43,800 5.0 8.21E-04 1.64E+00 1.88E-04 Arsenic 9.43E-06 43,800 5.0 2.06E-04 4.13E-01 4.71E-05 Barium 1.84E-05 43,800 5.0 4.02E-04 8.04E-01 9.18E-05 Beryllium 1.99E-07 43,800 5.0 4.35E-06 8.70E-03 9.93E-07 Cadmium 2.84E-06 43,800 5.0 6.23E-05 1.25E-01 1.42E-05 Chloride 2.48E-03 43,800 5.0 5.43E-02 1.09E+02 1.24E-02 Chromium 6.04E-06 43,800 5.0 1.32E-04 2.64E-01 3.02E-05 Chromium VI 1.77E-06 43,800 5.0 3.88E-05 7.76E-02 8.86E-06 Cobalt 4.30E-05 43,800 5.0 9.42E-04 1.88E+00 2.15E-04 Copper 1.26E-05 43,800 5.0 2.75E-04 5.51E-01 6.29E-05 Fluoride 2.66E-04 43,800 5.0 5.83E-03 1.17E+01 1.33E-03 Lead 1.08E-05 43,800 5.0 2.36E-04 4.72E-01 5.39E-05 Manganese 2.14E-05 43,800 5.0 4.69E-04 9.39E-01 1.07E-04 Mercy 8.07E-07 43,800 5.0 1.77E-05 3.54E-02 4.04E-06 Moldbdenum 5.62E-06 43,800 5.0 1.23E-04 2.46E-01 2.81E-05 Nickel 6.04E-04 43,800 5.0 1.32E-02 2.64E+01 3.02E-03 Phosphorous 6.76E-05 43,800 5.0 1.48E-03 2.96E+00 3.38E-04 Selenium 4.88E-06 43,800 5.0 1.07E-04 2.14E-01 2.44E-05 Vanadium 2.27E-04 43,800 5.0 4.97E-03 9.95E+00 1.14E-03 Zinc 2.08E-04 43,800 5.0 4.55E-03 9.10E+00 1.04E-03 Source of Data: Equations: Emission Factor: AP-42, Fifth Edition, Section 1.3, Fuel Oil Combustion Emission Rates: Table 1.3-1,2,3,9 Max Rating per Hour: Based off of Proposed Yardage Emission Rate: Calculated Assumptions: The emissions are assumed to be uncontrolled and fired on diesel fuel. GWPs are averages from EPAs Website To convert to lb/MMBtu of No.2 oil, divide by 140 MMBtu/10^3 gal Conversion Factors: EF lb mmcf FC mmBtu yr HCBtu cf ER ton yr EF lb mmcf FCmmBtu yr HCBtu cf ER lb yr EF lb mmcf FCmmBtu hr HCBtu cf                         1 ton 2,000 lb 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf        1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 hr 3,600 sec ER lb hr ERlb hr g lb ER g45359.sec Source:Drum Mix Asphalt Plant (Baghouse) Company:Geneva Rock Products Site:Mona Pit Reference:AP-42, Fifth Edition, Section 11.1, 3/04 Throughput:500,000 TPY Emission Controlled Emission Source Pollutant Factor Rate (lb/ton) (ton/yr) (lb/hr) Drum mix (baghouse) (waste oil)PM10 0.0230 500,000 425 5.75 9.8 PM2.5 0.0029 500,000 425 0.73 1.2 SOx 0.0580 500,000 425 14.50 24.7 NOx 0.0550 500,000 425 13.75 23.4 CO 0.1300 500,000 425 32.50 55.3 VOC 0.0320 500,000 425 8.00 13.6 33.00 500,000 425 8250.00 14,025.0 0.0120 500,000 425 3.00 5.1 Acetaldehyde 1.3E-03 500,000 425 3.25E-01 5.53E-01 Acrolein 2.6E-05 500,000 425 6.50E-03 1.11E-02 Benzene 3.9E-04 500,000 425 9.75E-02 1.66E-01 Ethylbenzene 2.4E-04 500,000 425 6.00E-02 0.00E+00 Formaldehyde 3.1E-03 500,000 425 7.75E-01 1.32E+00 Hexane 9.2E-04 500,000 425 2.30E-01 3.91E-01 Isooctane 4.0E-05 500,000 425 1.00E-02 1.70E-02 Methyl Chloroform 4.8E-05 500,000 425 1.20E-02 2.04E-02 Toluene 2.9E-03 500,000 425 7.25E-01 1.23E+00 Xylene 2.0E-04 500,000 425 5.00E-02 8.50E-02 2-Methylnaphthalene 1.7E-04 500,000 425 4.25E-02 7.23E-02 Acenapthene 1.4E-06 500,000 425 3.50E-04 5.95E-04 Acenaphthylene 2.2E-05 500,000 425 5.50E-03 9.35E-03 Anthracene 3.1E-06 500,000 425 7.75E-04 1.32E-03 Benzo(a)anthracene 2.1E-07 500,000 425 5.25E-05 8.93E-05 Benzo(a)pyrene 9.8E-09 500,000 425 2.45E-06 4.17E-06 Benzo(b)fluoranthene 1.0E-07 500,000 425 2.50E-05 4.25E-05 Benzo(e)pyrene 1.1E-07 500,000 425 2.75E-05 4.68E-05 Benzo(g,h,i)perylene 4.0E-08 500,000 425 1.00E-05 1.70E-05 Benzo(k)fluoranthene 4.1E-08 500,000 425 1.03E-05 1.74E-05 Chrysene 1.8E-07 500,000 425 4.50E-05 7.65E-05 Fluoranthene 6.1E-07 500,000 425 1.53E-04 2.59E-04 Fluorene 1.1E-05 500,000 425 2.75E-03 4.68E-03 Indeno(1,2,3-cd)pyrene 7.0E-09 500,000 425 1.75E-06 2.98E-06 Naphthalene 6.5E-04 500,000 425 1.63E-01 2.76E-01 Perylene 8.8E-09 500,000 425 2.20E-06 3.74E-06 Phenanthrene 2.3E-05 500,000 425 5.75E-03 9.78E-03 Pyrene 3.0E-06 500,000 425 7.50E-04 1.28E-03 Butane 6.7E-04 500,000 425 1.68E-01 2.85E-01 Ethylene 7.0E-03 500,000 425 1.75E+00 2.98E+00 Heptane 9.4E-03 500,000 425 2.35E+00 4.00E+00 4.0E-03 500,000 425 1.00E+00 1.70E+00 5.8E-04 500,000 425 1.45E-01 2.47E-01 1.9E-04 500,000 425 4.75E-02 8.08E-02 2.2E-03 500,000 425 5.50E-01 9.35E-01 2.1E-04 500,000 425 5.25E-02 8.93E-02 Source of Data: Emission Factor: AP-42, Fifth Edition, Section 11.1, 3/04 Hot Mix Asphalt Plants Tables 11.1-3, 11.1-4, 11.1-7, 11.1-8, 11.1-10 and 11.1-12 Production Rate (asphalt): Geneva Rock Products Assumed material is saturated Calculated Notes: Nonmetalic HAP emission factors are based on asphalt plants controlled with fabric filters. To avoid double counting emissions, the polycyclics emissions total in the table does not include naphthalene emissions Proposed Production Rate (ton/yr) Proposed Production Rate (tn/hr) n-Pentane GHG CO2 CH4 Non-PAH HAP's PAH HAP's Non-HAP organic compounds 2-Methyl-1-pentene 2-Methyl-2-butene 3-Methylpentane 1-Pentene EF lb ton PR ton yr ER ton yr EF lb ton PR ton yr ER lb yr EF lb ton PR ton hr ER lb hr ER lb hr g lb ER g                                 1 45359 ton 2,000 lb 1 hr 3,600 sec.sec Source:Hot Mix Asphalt Plant Silo Loading Company:Geneva Rock Products Site:Mona Pit Reference:Reference: AP-42, Section 11.1 Hot Mix Asphalt Plants EF (Total PM)= 0.000332 + 0.00105 (-v)E^(((0.0251)(T+460)-20.43) EF (Organic PM)= 0.00105 (-V)e^(((0.0251)(T+460)-20.43) EF (TOC) = 0.0504 (-V)e^(((0.0251)(T+460)-20.43) EF (CO)= 0.00488(-V)e^(((0.0251)(T+460)-20.43) Emission Max Proposed Pollutant Factor Throughput Throughput (lb/ton) Max (TPH) (TPY) (lb/hr) (TPY) PM10 0.00057 425 500,000 0.2439 0.14 Total PM (PM2.5)0.00057 425 500,000 0.2439 0.14 VOC 0.01219 425 500,000 5.1793 3.05 CO 0.00118 425 500,000 0.5015 0.29 Greenhouse Gas CH4 3.17E-05 425 500,000 0.0135 7.92E-03 HAPS Benzene 3.90E-06 425 500,000 0.0017 9.75E-04 Bromomethane 5.97E-07 425 500,000 0.0003 1.49E-04 2-Butanone 4.75E-06 425 500,000 0.0020 1.19E-03 Carbon disulfude 1.95E-06 425 500,000 0.0008 4.87E-04 Chloroethane 4.87E-07 425 500,000 0.0002 1.22E-04 Chloromethane 2.80E-06 425 500,000 0.0012 7.01E-04 Chrysene 5.33E-07 425 500,000 0.0002 1.33E-04 Ethylbenzene 4.63E-06 425 500,000 0.0020 1.16E-03 Formaldehyde 8.41E-05 425 500,000 0.0357 2.10E-02 n-Hexane 1.22E-05 425 500,000 0.0052 3.05E-03 Isooctane 3.78E-08 425 500,000 0.0000 9.44E-06 Methylene Chloride 3.29E-08 425 500,000 0.0000 8.23E-06 Naphthalene 2.22E-04 425 500,000 0.0943 5.54E-02 Styrene 6.58E-07 425 500,000 0.0003 1.65E-04 Toluene 7.56E-06 425 500,000 0.0032 1.89E-03 m, p-Xylene 2.44E-05 425 500,000 0.0104 6.09E-03 o-Xylene 1.58E-04 425 500,000 0.0673 3.96E-02 Emissions Source:Hot Mix Asphalt Plant Loadout Company:Geneva Rock Products Site:Mona Reference:Reference: AP-42, Section 11.1 Hot Mix Asphalt Plants EF (Total PM)= 0.000181 + 0.00141 (-v)E^(((0.0251)(T+460)-20.43) EF (Organic PM)= 0.00141 (-V)e^(((0.0251)(T+460)-20.43) EF (TOC) = 0.0172 (-V)e^(((0.0251)(T+460)-20.43) EF (CO)= 0.00558(-V)e^(((0.0251)(T+460)-20.43) Emission Proposed Average Proposed Pollutant Factor Throughput Throughput Throughput (lb/ton)Max (TPH) Avg (TPH) (TPY)(lb/hr) (TPY) PM10 0.00052 425 57 500,000 0.0298 0.13 Total PM (PM2.5)0.00052 425 57 500,000 0.0298 0.13 TOC 0.00416 425 57 500,000 0.2374 1.04 CO 0.00135 425 57 500,000 0.0770 0.34 VOC 0.00391 425 57 500,000 0.2231 0.98 Greenhouse Gas CH4 2.70E-04 425 57 500,000 0.0154 6.76E-02 HAPS Benzene 2.16E-06 425 57 500,000 0.0001 5.41E-04 Bromomethane 3.99E-07 425 57 500,000 0.0000 9.98E-05 2-Butanone 2.04E-06 425 57 500,000 0.0001 5.09E-04 Carbon Disulfide 5.41E-07 425 57 500,000 0.0000 1.35E-04 Chloroethane 8.73E-08 425 57 500,000 0.0000 2.18E-05 Chloromethane 6.24E-07 425 57 500,000 0.0000 1.56E-04 Cumene 4.57E-06 425 57 500,000 0.0003 1.14E-03 Ethylbenzene 1.16E-05 425 57 500,000 0.0007 2.91E-03 Formaldehyde 3.66E-06 425 57 500,000 0.0002 9.15E-04 n-Hexane 6.24E-06 425 57 500,000 0.0004 1.56E-03 Isooctane 7.49E-09 425 57 500,000 0.0000 1.87E-06 Styrene 3.04E-07 425 57 500,000 0.0000 7.59E-05 Tetrachloroethene 3.20E-07 425 57 500,000 0.0000 8.01E-05 Toluene 8.73E-06 425 57 500,000 0.0005 2.18E-03 Trichlorofluoromethane 5.41E-08 425 57 500,000 0.0000 1.35E-05 m, p-Xylene 1.71E-05 425 57 500,000 0.0010 4.26E-03 o-Xylene 3.33E-06 425 57 500,000 0.0002 8.32E-04 Emissions Source: Wash Plant Company: Geneva Rock Product Site: Mona Production Rate:1,000,000 TPY Assumptions: Assumed material is saturated with no PM emissions 4 log washers 24 hour per day operation Source:Concrete Batch Plant Company:Geneva Rock Products Site:Mona Pit Reference:AP-42, Section 11.12 Concrete Batching, Tables 11.12-2 and 11.12-8 Concrete Production: 300,000 yd3/yr Hours Operation: 8760 hs/yr Pollutant Percent of PM2.5 of PM10 Emission Rate (lbs/hr) Emission Total (TPY) PM10 0.785 3.4 PM2.5 29.4 0.231 1.0 HAP 0.00 0.0 Emissions: Source PM10 Emission Factor (lb/yd3) lb/hr TPY Aggregate delivery to ground storage 0.0031 0.106 0.465 Aggregate transfer to conveyor 0.0031 0.106 0.465 Aggregate transfer to elevated storage 0.0031 0.106 0.465 Sand delivery to ground storage 0.0007 0.024 0.105 Sand transfer to conveyor 0.0007 0.024 0.105 Sand transfer to elevated storage 0.0007 0.024 0.105 0.0001 0.003 0.015 0.0002 0.007 0.030 Weigh hopper loading 0.0038 0.130 0.570 Truck mix loading (controlled) 0.0074 0.254 1.112 Total 0.785 3.437 PM2.5 Emission Factor (lb/yd3) lb/hr TPY Truck mix loading (controlled) 0.0007 0.023 0.099 1 98% control efficiency for all PM2.5 going to baghouse HAP (Controlled) Emission Factor (lb/ton) Emission Factor (lb/yd3) Emission Rate (lbs/hr) Emission Total (tons/year) Arsenic 1.16E-06 4.53E-07 5.95E-01 6.80E-05 Beryllium 1.95E-07 5.50E-08 7.23E-02 8.25E-06 Cadmium 9.26E-09 2.61E-09 3.43E-03 3.92E-07 Chromium 5.35E-06 1.51E-06 1.98E+00 2.27E-04 Lead 2.06E-06 5.81E-07 7.63E-01 8.72E-05 Manganese 2.12E-05 5.97E-06 7.84E+00 8.96E-04 Nickel 7.10E-06 2.00E-06 2.63E+00 3.00E-04 Phosphorus 1.58E-05 4.47E-06 5.87E+00 6.71E-04 Selenium 1.85E-07 5.23E-08 6.87E-02 7.85E-06 Assumptions: Wind speed assumed to be 6 mph at material drop point and a 4% mositure content PM2.5 Emissions Truck Mix/Central Mix PM10 Emissions Cement supplement unloading to elevated silo (controlled) Cement unloading to elevated silo (controlled) Source Truck Mix/Central Mix Roads Geneva Rock Products Mona Pit 10/27/2023 PM10 Emission Factor => E = k * (s/12)a * (W/3)b PM2.5 Emission Factor => E = k * (s/12)a * (W/3)b Annual PM10 Emission Factor => E = k * (s/12)a * (W/3)b *[(365‐P)/365] Annual PM2.5 Emission Factor => E = k * (s/12)a * (W/3)b *[(365‐P)/365] Where E = Emission factor (pounds per VMT) k, a, b = constants (AP‐42, Section 13.2.2 Unpaved Roads Table 13.2.2‐2) s = surface material silt content = 4.8 CF = Control Factor = 85% 90% 95% PM10 & PM2.5 a = 0.9 PM10 & PM2.5 b = 0.45 P = 89 Vehicle 24‐Hour Annual 24‐Hour Annual 24‐hour Annual Uncontrolled Controlled Uncontrolled Controlled Uncontrolled Controlled Uncontrolled Controlled Source Description PM10 PM2.5 Silt Content Weight Mean Speed PM10 EF PM10 EF PM2.5 EF PM2.5 EF 24‐hour PM10 24‐hour PM10 24‐hour PM10 24‐hour PM10 24‐hour PM2.5 24‐hour PM2.5 24‐hour PM2.5 24‐hour PM2.5 k k (%) (ton) (mph) (lb/VMT) (lb/VMT) (lb/VMT) (lb/VMT) VMT/hr VMT/yr lb/hr lb/hr tn/yr tn/yr lb/hr lb/hr tn/yr tn/yr RMC‐Trucks ‐ Unpaved 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.45 3,977.3 0.96 0.14 4.22 0.633 0.10 0.014 0.422 0.063 RMC‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 RMC‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.34 3,017.2 0.73 0.04 3.20 0.160 0.07 0.004 0.320 0.016 Aggregate‐Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 4.69 38,094.0 7.78 1.17 31.63 4.744 0.78 0.117 3.163 0.474 Aggregate‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 Aggregate‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.16 9,469.7 1.93 0.10 7.86 0.393 0.19 0.010 0.786 0.039 HMA ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 HMA ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.57 13,774.1 2.61 0.13 11.44 0.572 0.26 0.013 1.144 0.057 Wash Plant ‐ Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.58 13,860.2 2.63 0.39 11.51 1.726 0.26 0.039 1.151 0.173 Wash Plant ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 Wash Plant ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 1.79 0.09 7.86 0.393 0.18 0.009 0.786 0.039 RMC‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.24 2,062.3 0.42 0.06 1.84 0.275 0.04 0.006 0.184 0.028 Aggregate‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 1.38 11,223.3 2.46 0.37 9.99 1.499 0.25 0.037 0.999 0.150 HMA‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.40 3,507.3 0.71 0.11 3.12 0.468 0.07 0.011 0.312 0.047 Total 22.031 2.598 92.662 10.863 2.203 0.260 9.266 1.086 Vehicle 24‐Hour Annual 24‐Hour Annual 24‐hour Annual Uncontrolled Controlled Uncontrolled Controlled Source Description PM10 PM2.5 Silt Content Weight Mean Speed PM10 EF PM10 EF PM2.5 EF PM2.5 EF Annual PM10 Annual PM10 Annual PM2.5 Annual PM2.5 k k (%) (ton) (mph) (lb/VMT) (lb/VMT) (lb/VMT) (lb/VMT) VMT/hr VMT/yr tn/yr tn/yr tn/yr tn/yr RMC‐Trucks ‐ Unpaved 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.45 3,977.3 3.194 0.479 0.319 0.048 RMC‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.00 0.0 0.000 0.000 0.000 0.000 RMC‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.34 3,017.2 2.423 0.121 0.242 0.012 Aggregate‐Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 4.69 38,094.0 23.944 3.592 2.394 0.359 Aggregate‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 Aggregate‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.16 9,469.7 5.952 0.298 0.595 0.030 HMA ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 HMA ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.57 13,774.1 8.658 0.433 0.866 0.043 Wash Plant ‐ Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.58 13,860.2 8.712 1.307 0.871 0.131 Wash Plant ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 Wash Plant ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 5.952 0.298 0.595 0.030 RMC‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.24 2,062.3 1.390 0.209 0.139 0.021 Aggregate‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 1.38 11,223.3 7.565 1.135 0.757 0.113 HMA‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.40 3,507.3 2.364 0.355 0.236 0.035 Total 70.153 8.224 7.015 0.822 Notes: 85% control ‐ Unpaved w/ watering & chemical suppressant RMC Unpaved Road Length 0.275 miles round trip Aggs Unpaved Road Length 0.838 miles round trip HMA Unpaved Road Length 0.000 miles round trip Wash Plant Unpaved Road Length 0.305 miles round trip RMC Loader travel distance 0.066 miles round trip Aggs Loader travel distance 0.152 miles round trip HMA Loader travel distance 0.095 miles round trip 95% control ‐ Paved w/ Watering & Vacuuming RMC Paved Road Length 0.208 miles round trip Aggs Paved Road Length 0.208 miles round trip HMA Paved Road Length 0.606 miles round trip Wash Plant Paved Road Length 0.208 miles round trip Vehicle weights Empty Capacity Average Weight Throughput Trips/yr Trips/Day Trips/hr Operating Hours RMC‐Trucks 26 29 40.5 420,000 14,482.8 39.7 1.65 8760 Aggregate‐Trucks 12.5 22 23.5 1,000,000 45,454.5 134.1 5.59 8130 HMA ‐ Trucks 12.5 22 23.5 500,000 22,727.3 62.3 2.59 8760 Wash Plant ‐ Trucks 12.5 22 23.5 1,000,000 45,454.5 124.5 5.19 8760 RMC‐Loaders 20.7 13.5 27.5 420,000 31,111.1 85.2 3.55 8760 Aggregate‐Loaders 20.7 13.5 27.5 1,000,000 74,074.1 218.5 9.11 8130 HMA‐Loaders 20.7 13.5 27.5 500,000 37,037.0 101.5 4.23 8760 Source of Data: Emission Factor:AP‐42, Section 13.2.2 Unpaved Roads Road Lengths Estimated from Aerial Photography Emission Rate: Calculated Assumptions: Precipitation Days‐NOAA Global Summary of the Year Station Details, Calculated average for last 6 years Silt Content % Table 13.2.2‐1 Sand and Gravel Processing Plant Road Tanks Geneva Rock Products Mona Pit 10/20/2022 VOC actual emissionVOC potential emissions CO Emissions (tons/year) (tons/year) (tons/year) Horizontal tank 1 0.0239 0.0258 4‐12,000 gallon diesel storage tanks Horizontal tank 2 0.0399 0.0474 0.0046 25,000 gallon asphalt cement oil tank Horizontal tank 3 0.0525 0.0629 0.0061 35,000 gallon asphalt cement oil tank Horizontal tank 4 0.1501 0.1857 0.0180 2‐ 60,000 gallon asphalt cement oil tanks Vertical tank 1 0.005 0.006 0.0006 30,000 gallon asphalt cement oil tank Vertical tank 2 0.014 0.015 0.0015 250,000 gallon asphalt cement oil tank Vertical tank 3 0.041 0.052 60,000 gallon RFO tank Vertical tank 4 0.061 0.064 4,000 ton asphalt cement oil tank Total 0.387 0.459 0.031 Assumptions: For asphalt cement, CO Emissions are equal to 0.097 x VOC emissions based on AP-42, Setion 11.1. Section 4.4.5 Tank identification Description Location (city) Value Units Fuel type Diesel select one Storage tank position Above select one Actual throughput 1,152,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 1,497,600 gal/yr VOC actual emissions 0.0060 ton/yr VOC potential emissions 0.0064 ton/yr Physical properties of the tank Property Value Units Shell length HS 32 feet Shell diameter D 8 feet Shell effective height HE 6.28 feet Shell effective diameter DE 18.05 feet Shell radius RS 4 feet Working volume 12031.5 gallons Turnovers per year (actual)N 95.7 dimensionless Turnovers per year (potential)N 124.5 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) VOC emissions from horizontal tank #1 Enter tank specific information in all blue cells. Property Tank information Mona, UT 12000 gallon diesel storage tanks Tanks 1 - 4 p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 11.95 lb/yr Total losses (VOC potential emissions) LT 12.89 lb/yr Standing storage losses LS 1.55 lb/yr Working losses (actual)LW 10.40 lb/yr Working losses (potential)LW 11.34 lb/yr Annual net throughput (actual) Q 27428.57 bbl/yr Annual net throughput (potential) Q 35657.14 bbl/yr Working loss turnover factor (actual)KN 0.48 dimensionless Working loss turnover factor (potential)KN 0.41 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.006 psia Vapor space volume VV 804.25 ft3 Vapor space tank outage HVO 3.14 feet Vapor space expansion factor KE 0.038 dimensionless Vented vapor saturation factor KS 1.00 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 516.67 °R Daily average liquid surface temperature TLA 515.55 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 514.18 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 12.101 dimensionless Vapor pressure equation constant B 8907 °R Vapor pressure at TLX PVX 0.0068 psia Vapor pressure at TLN PVN 0.0047 psia Maximum TLA TLX 521.03 °R Minimum TLA TLN 510.07 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 124,269 gal/yr Actual hours operated 8760 hours/year Potential throughput 161,550 gal/yr VOC actual emissions 0.04 ton/yr VOC potential emissions 0.05 ton/yr Physical properties of the tank Property Value Units Shell length HS 54 feet Shell diameter D 11 feet Shell effective height HE 8.64 feet Shell effective diameter DE 27.50 feet Shell radius RS 5.5 feet Working volume 38385.8 gallons Turnovers per year (actual)N 3.2 dimensionless Turnovers per year (potential)N 4.2 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Mona, Utah VOC emissions from horizontal tank #2 Enter tank specific information in all blue cells. Tank information Tank 2 25,000 gallon portable asphalt cement oil Property p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 79.78 lb/yr Total losses (VOC potential emissions) LT 94.71 lb/yr Standing storage losses LS 49.06 lb/yr Working losses (actual)LW 30.72 lb/yr Working losses (potential)LW 45.65 lb/yr Annual net throughput (actual) Q 2958.79 bbl/yr Annual net throughput (potential) Q 3846.43 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 2565.90 ft3 Vapor space tank outage HVO 4.32 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 173,231 gal/yr Actual hours operated 8760 hours/year Potential throughput 225,200 gal/yr VOC actual emissions 0.05 ton/yr VOC potential emissions 0.06 ton/yr Physical properties of the tank Property Value Units Shell length HS 65.5 feet Shell diameter D 11.25 feet Shell effective height HE 8.84 feet Shell effective diameter DE 30.63 feet Shell radius RS 5.625 feet Working volume 48701.0 gallons Turnovers per year (actual)N 3.6 dimensionless Turnovers per year (potential)N 4.6 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Mona, UT VOC emissions from horizontal tank #3 Enter tank specific information in all blue cells. Tank information Tank 3 35,000 asphalt cement oil Property p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 105.04 lb/yr Total losses (VOC potential emissions) LT 125.85 lb/yr Standing storage losses LS 62.21 lb/yr Working losses (actual)LW 42.83 lb/yr Working losses (potential)LW 63.64 lb/yr Annual net throughput (actual) Q 4124.55 bbl/yr Annual net throughput (potential) Q 5361.91 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 3255.41 ft3 Vapor space tank outage HVO 4.42 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 297,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 386,100 gal/yr VOC actual emissions 0.08 ton/yr VOC potential emissions 0.09 ton/yr Physical properties of the tank Property Value Units Shell length HS 71 feet Shell diameter D 12 feet Shell effective height HE 9.42 feet Shell effective diameter DE 32.94 feet Shell radius RS 6 feet Working volume 60063.7 gallons Turnovers per year (actual)N 4.9 dimensionless Turnovers per year (potential)N 6.4 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 150.05 lb/yr Total losses (VOC potential emissions) LT 185.72 lb/yr Standing storage losses LS 76.62 lb/yr Working losses (actual)LW 73.43 lb/yr Working losses (potential)LW 109.10 lb/yr Annual net throughput (actual) Q 7071.43 bbl/yr Annual net throughput (potential) Q 9192.86 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 4014.96 ft3 Vapor space tank outage HVO 4.71 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, UT VOC emissions from horizontal tank #4 Enter tank specific information in all blue cells. Tank information Tanks 4 and 5 60,000 asphalt cement oil Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Description Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 1,038,368 gal/yr Actual hours operated 8760 hours/year Potential throughput 1,349,878 gal/yr VOC actual emissions 0.06 ton/yr VOC potential emissions 0.06 ton/yr Physical properties of the tank Property Value Units Description Shell height HS 44 feet Shell diameter D 65 feet Shell radius RS 32.5 feet Maximum liquid height HLX 40 feet Average liquid height HL 22 feet Working volume 992837.5 gallons Turnovers per year (actual)N 1.0 dimensionless Turnovers per year (potential)N 1.4 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.20 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Description Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Notes (equations are from AP-42, Chapter 7) Total losses (VOC actual emissions) LT 122.60 lb/yr Equation 1-1 Total losses (VOC potential emissions) LT 128.48 lb/yr Equation 1-1 Standing storage losses LS 102.98 lb/yr Equation 1-2 Working losses (actual)LW 19.62 lb/yr Equation 1-35 Working losses (potential)LW 25.50 lb/yr Equation 1-35 Annual net throughput (actual) Q 24723.05 bbl/yr Based on actual throughput entered by user (gal/year) / 42 bbl/gal Annual net throughput (potential) Q 32139.96 bbl/yr Based on calculated potential throughput (gal/year) / 42 bbl/gal Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Equation 1-22 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Table 7.1-2 Vapor pressure at 60 °F PVA 0.004772504 psia Equation 1-25, PVA based on TLA Vapor space volume VV 73227.44 ft3 Equation 1-3 Vapor space roof outage HRO 0.07 feet Vapor space tank outage HVO 22.07 feet Equation 1-16, vertical Vapor space expansion factor KE 0.03 Equation 1-5 Vented vapor saturation factor KS 0.99 dimensionless Equation 1-21 Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Constant, Equation 1-22 Average vapor temperature TV 597.91 °R Equation 1-33 Daily average liquid surface temperature TLA 678.04 °R Equation 1-28 Daily vapor temperature range ΔTV 21.91 °R Equation 1-7 Daily ambient temperature range ΔTA 21.00 °R Equation 1-11 Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Equation 1-30 Table 7-1-7. Conversion factor: Rankine = Fahrenheit + 459.7 Total for a horizontal surface. Equation 1-17 Cone; Equation 1-19 Dome Saturation; turnovers >36 = (180 + N) / 6 * N; turnovers at 36 or lower = 1; Equation 1 Saturation; turnovers >36 = (180 + N) / 6 * N; turnovers at 36 or lower = 1 Assume value of 1 for gasoline or diesel. Table 7-1-7. Conversion factor: Rankine = Fahrenheit + 459.7 Average for the location. Calculated radius. Only applies to a "Dome" roof. If unknown = 0.0625. If known, insert value. Only applies to a "Cone" roof. Vacuum setting is a value set for the tank at the facility. Breather vent pressure is a reading from the tank monitoring system. Nearest major city to the tank location. Average over a calendar year. Average over a calendar year. Tank condition is used to identify paint solar absorptance. Insert value from table 7.1-6. Paint effectiveness in absorbing radiant energy. Calculated roof height. Calculated number the tank is emptied and refilled, annually. Calculated number the tank could be emptied and refilled, annually. Tank shell color and shade are used to identify paint solar absorptance. Maximum height of the liquid within the tank shell. Average height of the liquid within the tank shell. Calculated volume This is actual length of the tank. This is the width of the cylindrical shell. Calculated radius Amount of VOCs potentially released over a 12-month period. Property Type of fuel stored in the tank. Fixed roof structure. Gallons stored in his tank over the period of 12 consecutive months. Number of hours the tank is being used. Calculated based on actual tank throughput divided by the hours operated and multiplied by 8760 hours/day. Amount of VOC actually released over the 12-month period. Mona, Utah VOC emissions from vertical, fixed roof tank #1 Enter tank specific information in all blue cells. Tank information AC Tank 4,000 ton p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 VOC emissions from vertical, fixed roof tank #1 Liquid bulk temperature TB 785.00 °R Equation 1-31 Daily vapor pressure range ΔPV 0.00 psia Equation 1-9 Breather vent pressure setting range ΔPB 0.06 psi Equation 1-10 Vapor pressure equation constant A 10.104 dimensionless Table 7.1-2 Vapor pressure equation constant B 10475 °R Table 7.1-2 Vapor pressure at TLX PVX 0.01 psia Equation 1-9, note 5 Vapor pressure at TLN PVN 0.00 psia Equation 1-9, note 5 Maximum TLA TLX 683.52 °R Equation 1-9, note to Figure 7.1-17 Minimum TLA TLN 672.57 °R Equation 1-9, note to Figure 7.1-17 p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 300,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 390,000 gal/yr VOC actual emissions 0.00 ton/yr VOC potential emissions 0.01 ton/yr Physical properties of the tank Property Value Units Shell height HS 45 feet Shell diameter D 12 feet Shell radius RS 6 feet Maximum liquid height HLX 40 feet Average liquid height HL 20 feet Working volume 33838.7 gallons Turnovers per year (actual)N 8.9 dimensionless Turnovers per year (potential)N 11.5 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.04 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Property Mona, Utah VOC emissions from vertical, fixed roof tank #1 Enter tank specific information in all blue cells. Tank information Asphalt Cement Oil Tank #1 30,000 gallon p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 VOC emissions from vertical, fixed roof tank #1 Variable Calculated value Total losses (VOC actual emissions) LT 9.64 lb/yr Total losses (VOC potential emissions) LT 11.34 lb/yr Standing storage losses LS 3.98 lb/yr Working losses (actual)LW 5.67 lb/yr Working losses (potential)LW 7.37 lb/yr Annual net throughput (actual) Q 7142.86 bbl/yr Annual net throughput (potential) Q 9285.71 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Vapor pressure at 60 °F PVA 0.004772504 psia Vapor space volume VV 2828.85 ft3 Vapor space roof outage HRO 0.01 feet Vapor space tank outage HVO 25.01 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.99 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.104 dimensionless Vapor pressure equation constant B 10475 °R Vapor pressure at TLX PVX 0.01 psia Vapor pressure at TLN PVN 0.00 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 297,500 gal/yr Actual hours operated 8760 hours/year Potential throughput 386,750 gal/yr VOC actual emissions 0.01 ton/yr VOC potential emissions 0.02 ton/yr Physical properties of the tank Property Value Units Shell height HS 48 feet Shell diameter D 30 feet Shell radius RS 15 feet Maximum liquid height HLX 35 feet Average liquid height HL 25 feet Working volume 185055.5 gallons Turnovers per year (actual)N 1.6 dimensionless Turnovers per year (potential)N 2.1 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.09 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 28.51 lb/yr Total losses (VOC potential emissions) LT 30.20 lb/yr Standing storage losses LS 22.89 lb/yr Working losses (actual)LW 5.62 lb/yr Working losses (potential)LW 7.31 lb/yr Annual net throughput (actual) Q 7083.33 bbl/yr Annual net throughput (potential) Q 9208.33 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Vapor pressure at 60 °F PVA 0.004772504 psia Vapor space volume VV 16279.83 ft3 Vapor space roof outage HRO 0.03 feet Vapor space tank outage HVO 23.03 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.99 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.104 dimensionless Vapor pressure equation constant B 10475 °R Vapor pressure at TLX PVX 0.01 psia Vapor pressure at TLN PVN 0.00 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, Utah VOC emissions from vertical, fixed roof tank #2 Enter tank specific information in all blue cells. Tank information Asphalt Cement Tank 250,000 gallon Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Fuel Oil No. 6 select one Type of roof Cone select one Actual throughput 300,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 390,000 gal/yr VOC actual emissions 0.04 ton/yr VOC potential emissions 0.05 ton/yr Physical properties of the tank Property Value Units Shell height HS 33 feet Shell diameter D 8 feet Shell radius RS 4 feet Maximum liquid height HLX 35 feet Average liquid height HL 25 feet Working volume 13159.5 gallons Turnovers per year (actual)N 22.8 dimensionless Turnovers per year (potential)N 29.6 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.03 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 81.74 lb/yr Total losses (VOC potential emissions) LT 103.99 lb/yr Standing storage losses LS 7.56 lb/yr Working losses (actual)LW 74.17 lb/yr Working losses (potential)LW 96.42 lb/yr Annual net throughput (actual) Q 7142.86 bbl/yr Annual net throughput (potential) Q 9285.71 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure at 60 °F PVA 0.091292159 psia Vapor space volume VV 402.54 ft3 Vapor space roof outage HRO 0.01 feet Vapor space tank outage HVO 8.01 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.96 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.10 psia Vapor pressure at TLN PVN 0.08 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, Utah VOC emissions from vertical, fixed roof tank #2 Enter tank specific information in all blue cells. Tank information RFO 60,000 gallon Property Geneva Rock Products - Mona Plant NOx Cost Analysis for 5.0 MMBtu/hr Hot Oil Boiler Fired on Natural Gas LNB Basis for Cost and Factor Direct Costs: Puchased Equipment: Primary and Auxiliary Equipment (PE) 102,820$ Sales Tax Freight 3,000$ Total Purchased Equipment Cost (PEC) 105,820$ Direct Installation Electrical, Piping, Insulation and Ductwork -$ Total Direct Installation (DI) -$ Total Direct Cost (DC) 105,820$ Indirect Installation Costs Engineering and Project Management, Construction and Field Expenses, Contractor Fees, Startup Expenses, Performance Tests, Contingencies Total Indirect Cost -$ Total Installed Cost (TIC) 105,820$ NOx Emissions Before Control, lb/MMBtu 0.143 NOx Emissions Before Control, tn/yr 3.13 NOx Emissions After Control, lb/MMBtu 0.049 NOx Emissions After Control, tn/yr 1.07 NOx Emission Reduction, tn/yr 2.06 Annual Costs, $/year (Direct + Indirect) Direct Costs Operating Labor 10,282$ Raw materials -$ Quarterly tuning 2,800$ Total Direct Costs, $/year 13,082$ Indirect Costs Overhead -$ Taxes, Insurance, and Administration -$ Capitol Recovery Total Indirect Costs, $/year -$ Total Annual Cost 13,082$ Cost Effectiveness, $ per ton NOx reduction 6,350.49$ Geneva Rock Products - Mona Plant NOx Cost Analysis for 9.9 MMBtu/hr Hot Water Boiler Fired on Natural Gas LNB Basis for Cost and Factor Direct Costs: Puchased Equipment: Primary and Auxiliary Equipment (PE) 203,584$ Sales Tax Freight 3,500$ Total Purchased Equipment Cost (PEC) 207,084$ Direct Installation Electrical, Piping, Insulation and Ductwork -$ Total Direct Installation (DI) -$ Total Direct Cost (DC) 207,084$ Indirect Installation Costs Engineering and Project Management, Construction and Field Expenses, Contractor Fees, Startup Expenses, Performance Tests, Contingencies Total Indirect Cost -$ Total Installed Cost (TIC) 207,084$ NOx Emissions Before Control, lb/MMBtu 0.143 NOx Emissions Before Control, tn/yr 6.18 NOx Emissions After Control, lb/MMBtu 0.049 NOx Emissions After Control, tn/yr 2.12 NOx Emission Reduction, tn/yr 4.06 Annual Costs, $/year (Direct + Indirect) Direct Costs Operating Labor 20,708$ Raw materials -$ Quarterly tuning 2,800$ Total Direct Costs, $/year 23,508$ Indirect Costs Overhead -$ Taxes, Insurance, and Administration -$ Capitol Recovery -$ Total Indirect Costs, $/year -$ Total Annual Cost 23,508$ Cost Effectiveness, $ per ton NOx reduction 5,790.15$ Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants B-2 APPENDIX B. MODELING PARAMETERS Modeling Inputs - PM10 Company:Geneva Rock Product Site:Mona Pit Date:10/27/2023 oint Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Stack Height Temperature Exit Velocity Stack Diameter (m) (m) (m) (lb/hr) (m) (K) (m/s) (m) CON_WH Concrete Plant Water Heater 429393 4408370.8 1617.99 1.17E-01 18.288 294.260 12.192 0.610 HMA_HTR Hot Mix Asphalt Plant Hot Oil Heater 429172.2 4408559.9 1601.12 5.89E-02 18.288 294.260 12.192 0.610 HMA_AP Drum Mix Asphalt Plant (Baghouse) 429166.1 4408564.7 1601.7 9.78 7.163 353.983 18.431 1.151 CTHRSG1 PCC Source1 423536.062 4408324.255 1539 13.30 50.292 365.000 26.200 5.130 CTHRSG2 PCC Source2 423536.062 4408363.855 1539 13.30 50.292 365.000 26.200 5.000 rea Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Release Height Easterly Length Northerly Length Angle from North Initial Vert. Dimensio n (m) (m) (m) lb/hr-ft2 (m) (m) (m) (m) HMA_MHC Hot Mix Asphalt Plant - Transfer Points 429150.8 4408513.4 1599.7 6.05E-06 5.0 30.0 60.0 0.0 5.0 HMA_LDR Hot Mix Asphalt Plant -Loaders Travel 429150.8 4408513.4 1599.7 5.52E-06 0.0 30.0 60.0 0.0 3.0 AGG_MHC Aggregate - Transfer Points 429840.9 4408544.2 1663.5 3.15E-06 5.0 110.0 185.0 0.0 5.0 AG_LDR1 Aggregate-Loaders Travel1 429841.6 4408543.2 1663.5 1.61E-06 0.0 110.0 185.0 0.0 3.0 AG_LDR2 Aggregate-Loaders Travel2 429786.0 4409514.3 1669.9 1.61E-06 0.0 30.0 30.0 0.0 3.0 RMC_MHC Concrete Plant - Transfer Points 429403.4 4408385.1 1618.2 5.98E-06 5.0 30.0 30.0 90.0 5.0 RMC_LDR Concrete Plant - Loader Travel 429403.4 4408385.1 1618.2 6.49E-06 0.0 30.0 30.0 90.0 3.0 reaPoly Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Release Height Initial Vert. Dimension(m)(m)(m)lb/hr-ft2 (m)(m) SP1 Storage Pile 1 429552.4256 4408626.57 1637.28 2.98123E-06 0 15 SP2 Storage Pile2 429341.7 4408636.1 1617.14 3.02095E-06 0 15 SP3 Storage Pile 3 429641.3 4408545.2 1643.27 2.98604E-06 0 15 SP4 Storage Pile 4 429829.9 4409543.3 1673.77 3.00588E-06 0 15 SP5 Storage Pile 5 429496.4 4408381.6 1626.7 2.996E-06 0 15 DIST1 Distrubed Grounds 1 429787.3 4408391.8 1651.41 1.0538E-06 0 0 DIST2 Disturbed Grounds 2 429750.5 4409558.4 1665.43 9.89446E-07 0 0DOZER1 Dozer1 429787.3 4408391.8 1651.41 7.31E-07 0 3 DOZER2 Dozer2 429750.5 4409558.4 1665.43 6.87E-07 0 3 KIGORE Kilgore Source1 429690.418 4411522.486 1626.24 4.07E-06 3.048 3.048 SUNROC Sunroc Source1 429713.726 4411494.677 1628.16 1.48E-06 3.048 3.048 olume Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr) Release Height Init. Horizontal Dimensio n Initial Vert. Dimension AGG_001 Aggregate - Primary Crusher1 429796.1 4409524.5 1670.9 5.400E-01 2.50 5.00 5.00 AGG_002 Aggregate - Primary Crusher2 429899.6 4408592.0 1671.0 5.400E-01 2.50 5.00 5.00 AGG_003 Aggregate - Secondary Crusher1 429875.7 4408594.6 1669.5 3.240E-01 2.50 5.00 5.00 AGG_004 Aggregate - Secondary Crusher2 429346.7 4408523.5 1616.6 3.240E-01 2.50 5.00 5.00 AGG_005 Aggregate - Tertiary Crusher1 429902.0 4408604.5 1672.9 3.240E-01 2.50 5.00 5.00 AGG_006 Aggregate - Tertiary Crusher2 429916.1 4408549.2 1670.7 3.240E-01 2.50 5.00 5.00 AGG_007 Aggregate - Screen 1 429930.4 4408611.9 1675.1 1.110E+00 2.50 5.00 5.00 AGG_008 Aggregate - Screen 2 429913.5 4408579.3 1672.4 7.400E-01 2.50 5.00 5.00 AGG_009 Aggregate - Screen 3 429897.0 4408627.8 1673.8 7.400E-01 2.50 5.00 5.00 AGG_010 Aggregate - Screen 4 429856.4 4408577.9 1665.6 4.440E-01 2.50 5.00 5.00 AGG_011 Aggregate - Screen 5 429891.2 4408559.3 1669.1 4.440E-01 2.50 5.00 5.00 AGG_012 Aggregate - Screen 6 429929.8 4408584.4 1674.2 4.440E-01 2.50 5.00 5.00 HMA_001 Hot Mix Asphalt Plant Silo Loading 429147.9 4408555.1 1600.6 2.439E-01 4.57 0.70 4.27 HMA_002 Hot Mix Asphalt Plant - Loadout 429145.2 4408554.9 1600.4 2.979E-02 4.57 0.70 4.27 RMC_CB Concrete Batch Plant 429393.3 4408377.4 1617.8 7.848E-01 6.10 9.54 2.84 LDR_ASP Loader to Hopper at Asphalt Plant 429147.6 4408552.0 1600.5 4.250E-02 2.47 0.58 1.15LDR_AG1 Loader to Hopper at Aggregate Plant1 429900.3 4408587.8 1670.6 1.000E-01 2.47 0.58 1.15LDR_AG2 Loader to Hopper at Aggregate Plant2 429801.9 4409524.6 1671.4 1.000E-01 2.47 0.58 1.15LDR_AGG Loader to Load Trucks at Aggregate Plant 429843.9 4408586.1 1666.0 1.000E-01 2.47 0.58 1.15LDR_CB Loader to Load Trucks at Concrete Plant 429424.9 4408386.4 1620.1 4.200E-02 2.47 0.58 1.15CO_0001 Concrete Haul Roads 429098.1 4408294.6 1594.0 9.61E-04 2.550 4.186 2.372CO_0002 Concrete Haul Roads 429106.2 4408298.6 1594.4 9.61E-04 2.550 4.186 2.372CO_0003 Concrete Haul Roads 429114.2 4408302.5 1594.9 9.61E-04 2.550 4.186 2.372CO_0004 Concrete Haul Roads 429122.3 4408306.5 1595.8 9.61E-04 2.550 4.186 2.372CO_0005 Concrete Haul Roads 429130.4 4408310.5 1596.2 9.61E-04 2.550 4.186 2.372CO_0006 Concrete Haul Roads 429138.5 4408314.4 1597.1 9.61E-04 2.550 4.186 2.372CO_0007 Concrete Haul Roads 429146.5 4408318.4 1597.7 9.61E-04 2.550 4.186 2.372 CO_0008 Concrete Haul Roads 429154.6 4408322.4 1598.5 9.61E-04 2.550 4.186 2.372 CO_0009 Concrete Haul Roads 429162.7 4408326.3 1599.4 9.61E-04 2.550 4.186 2.372 CO_0010 Concrete Haul Roads 429170.8 4408330.3 1599.9 9.61E-04 2.550 4.186 2.372CO_0011 Concrete Haul Roads 429178.9 4408334.3 1600.6 9.61E-04 2.550 4.186 2.372 CO_0012 Concrete Haul Roads 429186.9 4408338.3 1601.2 9.61E-04 2.550 4.186 2.372 CO_0013 Concrete Haul Roads 429195.0 4408342.2 1601.9 9.61E-04 2.550 4.186 2.372 CO_0014 Concrete Haul Roads 429203.1 4408346.2 1602.6 9.61E-04 2.550 4.186 2.372CO_0015 Concrete Haul Roads 429211.2 4408350.2 1603.0 9.61E-04 2.550 4.186 2.372 CO_0016 Concrete Haul Roads 429219.2 4408354.1 1603.7 9.61E-04 2.550 4.186 2.372 CO_0017 Concrete Haul Roads 429227.3 4408358.1 1604.3 9.61E-04 2.550 4.186 2.372 CO_0018 Concrete Haul Roads 429235.4 4408362.1 1605.1 9.61E-04 2.550 4.186 2.372CO_0019 Concrete Haul Roads 429243.5 4408366.0 1605.8 9.61E-04 2.550 4.186 2.372 CO_0020 Concrete Haul Roads 429251.5 4408370.0 1606.4 2.95E-03 2.550 4.186 2.372 CO_0021 Concrete Haul Roads 429259.6 4408374.0 1607.1 2.95E-03 2.550 4.186 2.372 CO_0022 Concrete Haul Roads 429267.7 4408378.0 1607.7 2.95E-03 2.550 4.186 2.372CO_0023 Concrete Haul Roads 429275.8 4408381.9 1608.1 2.95E-03 2.550 4.186 2.372 CO_0024 Concrete Haul Roads 429283.8 4408386.0 1608.7 2.95E-03 2.550 4.186 2.372 CO_0025 Concrete Haul Roads 429291.9 4408390.0 1609.4 2.95E-03 2.550 4.186 2.372CO_0026 Concrete Haul Roads 429299.9 4408394.1 1610.0 2.95E-03 2.550 4.186 2.372 CO_0027 Concrete Haul Roads 429307.9 4408398.1 1610.8 2.95E-03 2.550 4.186 2.372 CO_0028 Concrete Haul Roads 429316.0 4408402.1 1611.5 2.95E-03 2.550 4.186 2.372 CO_0029 Concrete Haul Roads 429324.0 4408406.2 1612.3 2.95E-03 2.550 4.186 2.372CO_0030 Concrete Haul Roads 429332.1 4408410.2 1612.9 2.95E-03 2.550 4.186 2.372 CO_0031 Concrete Haul Roads 429340.1 4408414.3 1613.5 2.95E-03 2.550 4.186 2.372 CO_0032 Concrete Haul Roads 429348.9 4408415.5 1614.3 2.95E-03 2.550 4.186 2.372 CO_0033 Concrete Haul Roads 429357.9 4408416.1 1615.1 2.95E-03 2.550 4.186 2.372CO_0034 Concrete Haul Roads 429366.9 4408416.7 1616.0 2.95E-03 2.550 4.186 2.372 CO_0035 Concrete Haul Roads 429375.9 4408417.3 1616.6 2.95E-03 2.550 4.186 2.372 CO_0036 Concrete Haul Roads 429384.8 4408417.8 1617.3 2.95E-03 2.550 4.186 2.372 CO_0037 Concrete Haul Roads 429393.6 4408417.3 1617.9 2.95E-03 2.550 4.186 2.372CO_0038 Concrete Haul Roads 429401.9 4408413.8 1618.4 2.95E-03 2.550 4.186 2.372 CO_0039 Concrete Haul Roads 429410.2 4408410.3 1618.9 2.95E-03 2.550 4.186 2.372 CO_0040 Concrete Haul Roads 429418.5 4408406.8 1619.4 2.95E-03 2.550 4.186 2.372 CO_0041 Concrete Haul Roads 429423.1 4408399.3 1619.1 2.95E-03 2.550 4.186 2.372CO_0042 Concrete Haul Roads 429427.2 4408391.3 1619.9 2.95E-03 2.550 4.186 2.372 CO_0043 Concrete Haul Roads 429431.3 4408383.3 1620.9 2.95E-03 2.550 4.186 2.372 CO_0044 Concrete Haul Roads 429431.8 4408374.6 1621.2 2.95E-03 2.550 4.186 2.372 CO_0045 Concrete Haul Roads 429430.8 4408365.6 1621.0 2.95E-03 2.550 4.186 2.372CO_0046 Concrete Haul Roads 429429.9 4408356.7 1621.2 2.95E-03 2.550 4.186 2.372 CO_0047 Concrete Haul Roads 429428.9 4408347.7 1621.5 2.95E-03 2.550 4.186 2.372 CO_0048 Concrete Haul Roads 429423.4 4408342.1 1621.1 2.95E-03 2.550 4.186 2.372CO_0049 Concrete Haul Roads 429415.2 4408338.3 1620.5 2.95E-03 2.550 4.186 2.372 CO_0050 Concrete Haul Roads 429407.0 4408334.6 1620.0 2.95E-03 2.550 4.186 2.372 CO_0051 Concrete Haul Roads 429398.8 4408331.3 1619.4 2.95E-03 2.550 4.186 2.372 CO_0052 Concrete Haul Roads 429389.8 4408332.3 1618.5 2.95E-03 2.550 4.186 2.372CO_0053 Concrete Haul Roads 429380.9 4408333.3 1617.6 2.95E-03 2.550 4.186 2.372 CO_0054 Concrete Haul Roads 429371.9 4408334.3 1616.7 2.95E-03 2.550 4.186 2.372 CO_0055 Concrete Haul Roads 429363.0 4408335.3 1615.9 2.95E-03 2.550 4.186 2.372 CO_0056 Concrete Haul Roads 429354.6 4408338.2 1615.1 2.95E-03 2.550 4.186 2.372CO_0057 Concrete Haul Roads 429346.3 4408341.8 1614.3 2.95E-03 2.550 4.186 2.372 CO_0058 Concrete Haul Roads 429338.0 4408345.4 1613.6 2.95E-03 2.550 4.186 2.372 CO_0059 Concrete Haul Roads 429329.8 4408349.0 1612.9 2.95E-03 2.550 4.186 2.372 CO_0060 Concrete Haul Roads 429321.0 4408350.9 1612.1 2.95E-03 2.550 4.186 2.372CO_0061 Concrete Haul Roads 429312.2 4408352.5 1611.3 2.95E-03 2.550 4.186 2.372 CO_0062 Concrete Haul Roads 429303.3 4408354.2 1610.5 2.95E-03 2.550 4.186 2.372 CO_0063 Concrete Haul Roads 429294.5 4408355.8 1609.7 2.95E-03 2.550 4.186 2.372 CO_0064 Concrete Haul Roads 429285.6 4408357.5 1609.0 2.95E-03 2.550 4.186 2.372CO_0065 Concrete Haul Roads 429276.8 4408359.1 1608.4 2.95E-03 2.550 4.186 2.372 CO_0066 Concrete Haul Roads 429267.9 4408360.8 1607.7 2.95E-03 2.550 4.186 2.372 CO_0067 Concrete Haul Roads 429259.1 4408362.4 1607.0 2.95E-03 2.550 4.186 2.372 CO_0068 Concrete Haul Roads 429250.2 4408364.1 1606.3 2.95E-03 2.550 4.186 2.372CO_0069 Concrete Haul Roads 429241.6 4408363.7 1605.6 9.61E-04 2.550 4.186 2.372 CO_0070 Concrete Haul Roads 429233.5 4408359.8 1604.9 9.61E-04 2.550 4.186 2.372 CO_0071 Concrete Haul Roads 429225.4 4408355.9 1604.1 9.61E-04 2.550 4.186 2.372 CO_0072 Concrete Haul Roads 429217.3 4408352.0 1603.5 9.61E-04 2.550 4.186 2.372CO_0073 Concrete Haul Roads 429209.2 4408348.1 1602.8 9.61E-04 2.550 4.186 2.372 CO_0074 Concrete Haul Roads 429201.1 4408344.2 1602.4 9.61E-04 2.550 4.186 2.372 CO_0075 Concrete Haul Roads 429193.0 4408340.3 1601.8 9.61E-04 2.550 4.186 2.372 CO_0076 Concrete Haul Roads 429184.9 4408336.4 1601.0 9.61E-04 2.550 4.186 2.372CO_0077 Concrete Haul Roads 429176.8 4408332.5 1600.4 9.61E-04 2.550 4.186 2.372 CO_0078 Concrete Haul Roads 429168.7 4408328.6 1599.8 9.61E-04 2.550 4.186 2.372 CO_0079 Concrete Haul Roads 429160.6 4408324.7 1599.2 9.61E-04 2.550 4.186 2.372 CO_0080 Concrete Haul Roads 429152.5 4408320.8 1598.3 9.61E-04 2.550 4.186 2.372CO_0081 Concrete Haul Roads 429144.4 4408316.8 1597.6 9.61E-04 2.550 4.186 2.372 CO_0082 Concrete Haul Roads 429136.2 4408312.9 1596.9 9.61E-04 2.550 4.186 2.372 CO_0083 Concrete Haul Roads 429128.1 4408309.0 1596.0 9.61E-04 2.550 4.186 2.372 CO_0084 Concrete Haul Roads 429120.0 4408305.1 1595.5 9.61E-04 2.550 4.186 2.372CO_0085 Concrete Haul Roads 429111.9 4408301.2 1594.8 9.61E-04 2.550 4.186 2.372 CO_0086 Concrete Haul Roads 429103.8 4408297.3 1594.3 9.61E-04 2.550 4.186 2.372 CO_0087 Concrete Haul Roads 429095.7 4408293.4 1593.7 9.61E-04 2.550 4.186 2.372 WP_0001 WP Haul Roads 429099.3 4408291.4 1593.8 2.36E-03 2.550 4.186 2.372WP_0002 WP Haul Roads 429107.4 4408295.4 1594.3 2.36E-03 2.550 4.186 2.372 WP_0003 WP Haul Roads 429115.5 4408299.3 1594.9 2.36E-03 2.550 4.186 2.372 WP_0004 WP Haul Roads 429123.6 4408303.3 1595.7 2.36E-03 2.550 4.186 2.372WP_0005 WP Haul Roads 429131.6 4408307.2 1596.2 2.36E-03 2.550 4.186 2.372 WP_0006 WP Haul Roads 429139.7 4408311.2 1597.0 2.36E-03 2.550 4.186 2.372 WP_0007 WP Haul Roads 429147.8 4408315.2 1597.8 2.36E-03 2.550 4.186 2.372 WP_0008 WP Haul Roads 429155.8 4408319.2 1598.5 2.36E-03 2.550 4.186 2.372WP_0009 WP Haul Roads 429163.8 4408323.3 1599.4 2.36E-03 2.550 4.186 2.372 WP_0010 WP Haul Roads 429171.9 4408327.4 1600.0 2.36E-03 2.550 4.186 2.372 WP_0011 WP Haul Roads 429179.9 4408331.5 1600.6 2.36E-03 2.550 4.186 2.372 WP_0012 WP Haul Roads 429187.9 4408335.6 1601.3 2.36E-03 2.550 4.186 2.372WP_0013 WP Haul Roads 429195.9 4408339.6 1602.0 2.36E-03 2.550 4.186 2.372 WP_0014 WP Haul Roads 429203.9 4408343.7 1602.6 2.36E-03 2.550 4.186 2.372 WP_0015 WP Haul Roads 429212.0 4408347.8 1603.1 2.36E-03 2.550 4.186 2.372 WP_0016 WP Haul Roads 429220.0 4408351.9 1603.7 2.36E-03 2.550 4.186 2.372WP_0017 WP Haul Roads 429228.0 4408356.0 1604.3 2.36E-03 2.550 4.186 2.372 WP_0018 WP Haul Roads 429236.0 4408360.0 1605.1 2.36E-03 2.550 4.186 2.372 WP_0019 WP Haul Roads 429244.1 4408364.1 1605.8 2.36E-03 2.550 4.186 2.372 WP_0020 WP Haul Roads 429252.1 4408368.2 1606.4 4.24E-03 2.550 4.186 2.372WP_0021 WP Haul Roads 429260.1 4408372.3 1607.1 4.24E-03 2.550 4.186 2.372 WP_0022 WP Haul Roads 429268.1 4408376.4 1607.8 4.24E-03 2.550 4.186 2.372 WP_0023 WP Haul Roads 429276.1 4408380.5 1608.2 4.24E-03 2.550 4.186 2.372 WP_0024 WP Haul Roads 429284.2 4408384.5 1608.7 4.24E-03 2.550 4.186 2.372WP_0025 WP Haul Roads 429292.2 4408388.6 1609.4 4.24E-03 2.550 4.186 2.372 WP_0026 WP Haul Roads 429300.2 4408392.7 1610.0 4.24E-03 2.550 4.186 2.372 WP_0027 WP Haul Roads 429308.2 4408396.7 1610.7 4.24E-03 2.550 4.186 2.372WP_0028 WP Haul Roads 429316.3 4408400.8 1611.5 4.24E-03 2.550 4.186 2.372 WP_0029 WP Haul Roads 429324.3 4408404.8 1612.3 4.24E-03 2.550 4.186 2.372 WP_0030 WP Haul Roads 429332.4 4408408.9 1613.0 4.24E-03 2.550 4.186 2.372 WP_0031 WP Haul Roads 429340.4 4408412.9 1613.5 4.24E-03 2.550 4.186 2.372WP_0032 WP Haul Roads 429348.4 4408417.0 1614.3 4.24E-03 2.550 4.186 2.372 WP_0033 WP Haul Roads 429356.5 4408421.0 1615.0 4.24E-03 2.550 4.186 2.372 WP_0034 WP Haul Roads 429364.5 4408425.1 1615.8 4.24E-03 2.550 4.186 2.372 WP_0035 WP Haul Roads 429372.6 4408429.1 1616.6 4.24E-03 2.550 4.186 2.372WP_0036 WP Haul Roads 429380.6 4408433.2 1617.3 4.24E-03 2.550 4.186 2.372 WP_0037 WP Haul Roads 429388.6 4408437.2 1618.1 4.24E-03 2.550 4.186 2.372 WP_0038 WP Haul Roads 429396.7 4408441.2 1619.0 4.24E-03 2.550 4.186 2.372 WP_0039 WP Haul Roads 429404.7 4408445.3 1619.9 4.24E-03 2.550 4.186 2.372WP_0040 WP Haul Roads 429413.5 4408447.2 1620.7 4.24E-03 2.550 4.186 2.372 WP_0041 WP Haul Roads 429422.3 4408449.1 1621.3 4.24E-03 2.550 4.186 2.372 WP_0042 WP Haul Roads 429431.1 4408451.0 1622.3 4.24E-03 2.550 4.186 2.372 WP_0043 WP Haul Roads 429439.9 4408452.8 1623.0 4.24E-03 2.550 4.186 2.372WP_0044 WP Haul Roads 429448.7 4408454.7 1623.7 4.24E-03 2.550 4.186 2.372 WP_0045 WP Haul Roads 429457.5 4408456.6 1624.3 4.24E-03 2.550 4.186 2.372 WP_0046 WP Haul Roads 429466.3 4408458.5 1625.1 4.24E-03 2.550 4.186 2.372 WP_0047 WP Haul Roads 429475.1 4408460.3 1626.0 4.24E-03 2.550 4.186 2.372WP_0048 WP Haul Roads 429483.9 4408462.2 1626.9 4.24E-03 2.550 4.186 2.372 WP_0049 WP Haul Roads 429492.7 4408464.1 1627.8 4.24E-03 2.550 4.186 2.372 WP_0050 WP Haul Roads 429501.5 4408465.9 1628.6 4.24E-03 2.550 4.186 2.372 WP_0051 WP Haul Roads 429510.3 4408467.8 1629.4 4.24E-03 2.550 4.186 2.372WP_0052 WP Haul Roads 429519.1 4408469.7 1630.1 4.24E-03 2.550 4.186 2.372 WP_0053 WP Haul Roads 429527.9 4408470.8 1630.8 4.24E-03 2.550 4.186 2.372 WP_0054 WP Haul Roads 429536.8 4408469.1 1631.5 4.24E-03 2.550 4.186 2.372WP_0055 WP Haul Roads 429545.6 4408467.4 1632.2 4.24E-03 2.550 4.186 2.372 WP_0056 WP Haul Roads 429554.4 4408465.7 1632.9 4.24E-03 2.550 4.186 2.372 WP_0057 WP Haul Roads 429563.3 4408463.9 1633.5 4.24E-03 2.550 4.186 2.372 WP_0058 WP Haul Roads 429572.1 4408462.2 1634.3 4.24E-03 2.550 4.186 2.372WP_0059 WP Haul Roads 429580.9 4408460.5 1635.0 4.24E-03 2.550 4.186 2.372 WP_0060 WP Haul Roads 429589.8 4408458.8 1635.6 4.24E-03 2.550 4.186 2.372 WP_0061 WP Haul Roads 429598.6 4408457.0 1636.1 4.24E-03 2.550 4.186 2.372 WP_0062 WP Haul Roads 429607.4 4408455.3 1637.0 4.24E-03 2.550 4.186 2.372WP_0063 WP Haul Roads 429616.3 4408453.6 1637.7 4.24E-03 2.550 4.186 2.372 WP_0064 WP Haul Roads 429619.8 4408448.1 1637.7 4.24E-03 2.550 4.186 2.372 WP_0065 WP Haul Roads 429618.6 4408439.1 1636.9 4.24E-03 2.550 4.186 2.372 WP_0066 WP Haul Roads 429617.5 4408430.2 1635.8 4.24E-03 2.550 4.186 2.372WP_0067 WP Haul Roads 429616.3 4408421.3 1636.1 4.24E-03 2.550 4.186 2.372 WP_0068 WP Haul Roads 429615.1 4408412.4 1636.8 4.24E-03 2.550 4.186 2.372 WP_0069 WP Haul Roads 429607.7 4408409.7 1636.1 4.24E-03 2.550 4.186 2.372 WP_0070 WP Haul Roads 429598.8 4408408.5 1635.3 4.24E-03 2.550 4.186 2.372WP_0071 WP Haul Roads 429589.9 4408407.3 1634.5 4.24E-03 2.550 4.186 2.372 WP_0072 WP Haul Roads 429580.9 4408406.1 1633.7 4.24E-03 2.550 4.186 2.372 WP_0073 WP Haul Roads 429572.0 4408405.0 1632.7 4.24E-03 2.550 4.186 2.372 WP_0074 WP Haul Roads 429563.1 4408403.8 1631.6 4.24E-03 2.550 4.186 2.372 WP_0075 WP Haul Roads 429554.2 4408402.6 1630.8 4.24E-03 2.550 4.186 2.372WP_0076 WP Haul Roads 429545.3 4408401.4 1629.6 4.24E-03 2.550 4.186 2.372 WP_0077 WP Haul Roads 429536.3 4408400.2 1628.5 4.24E-03 2.550 4.186 2.372 WP_0078 WP Haul Roads 429527.4 4408399.1 1627.5 4.24E-03 2.550 4.186 2.372 WP_0079 WP Haul Roads 429518.5 4408397.9 1627.3 4.24E-03 2.550 4.186 2.372WP_0080 WP Haul Roads 429509.7 4408397.9 1626.5 4.24E-03 2.550 4.186 2.372 WP_0081 WP Haul Roads 429501.6 4408401.6 1625.6 4.24E-03 2.550 4.186 2.372 WP_0082 WP Haul Roads 429493.4 4408405.3 1624.8 4.24E-03 2.550 4.186 2.372 WP_0083 WP Haul Roads 429485.2 4408409.1 1624.4 4.24E-03 2.550 4.186 2.372WP_0084 WP Haul Roads 429477 4408412.8 1624.1 4.24E-03 2.550 4.186 2.372WP_0085 WP Haul Roads 429468.8 4408416.5 1623.7 4.24E-03 2.550 4.186 2.372 WP_0086 WP Haul Roads 429460.6 4408420.3 1623.1 4.24E-03 2.550 4.186 2.372 WP_0087 WP Haul Roads 429452.4 4408424 1622.4 4.24E-03 2.550 4.186 2.372WP_0088 WP Haul Roads 429444.2 4408427.7 1622.0 4.24E-03 2.550 4.186 2.372WP_0089 WP Haul Roads 429436 4408431.4 1621.6 4.24E-03 2.550 4.186 2.372 WP_0090 WP Haul Roads 429427.8 4408435.2 1621.2 4.24E-03 2.550 4.186 2.372 WP_0091 WP Haul Roads 429419.6 4408438.9 1620.7 4.24E-03 2.550 4.186 2.372WP_0092 WP Haul Roads 429411.5 4408442.6 1620.3 4.24E-03 2.550 4.186 2.372WP_0093 WP Haul Roads 429403.3 4408444.8 1619.7 4.24E-03 2.550 4.186 2.372 WP_0094 WP Haul Roads 429395.3 4408440.8 1618.9 4.24E-03 2.550 4.186 2.372 WP_0095 WP Haul Roads 429387.2 4408436.7 1618.0 4.24E-03 2.550 4.186 2.372WP_0096 WP Haul Roads 429379.2 4408432.7 1617.2 4.24E-03 2.550 4.186 2.372 WP_0097 WP Haul Roads 429371.2 4408428.6 1616.4 4.24E-03 2.550 4.186 2.372 WP_0098 WP Haul Roads 429363.1 4408424.6 1615.6 4.24E-03 2.550 4.186 2.372WP_0099 WP Haul Roads 429355.1 4408420.5 1614.9 4.24E-03 2.550 4.186 2.372WP_0100 WP Haul Roads 429347.1 4408416.4 1614.2 4.24E-03 2.550 4.186 2.372 WP_0101 WP Haul Roads 429339 4408412.4 1613.4 4.24E-03 2.550 4.186 2.372 WP_0102 WP Haul Roads 429331 4408408.3 1612.9 4.24E-03 2.550 4.186 2.372WP_0103 WP Haul Roads 429322.9 4408404.3 1612.2 4.24E-03 2.550 4.186 2.372WP_0104 WP Haul Roads 429314.9 4408400.2 1611.4 4.24E-03 2.550 4.186 2.372 WP_0105 WP Haul Roads 429306.9 4408396.2 1610.6 4.24E-03 2.550 4.186 2.372 WP_0106 WP Haul Roads 429298.9 4408392.1 1609.9 4.24E-03 2.550 4.186 2.372WP_0107 WP Haul Roads 429290.9 4408387.9 1609.3 4.24E-03 2.550 4.186 2.372WP_0108 WP Haul Roads 429282.9 4408383.7 1608.6 4.24E-03 2.550 4.186 2.372 WP_0109 WP Haul Roads 429274.9 4408379.6 1608.2 4.24E-03 2.550 4.186 2.372 WP_0110 WP Haul Roads 429267 4408375.4 1607.7 4.24E-03 2.550 4.186 2.372WP_0111 WP Haul Roads 429259 4408371.2 1607.0 4.24E-03 2.550 4.186 2.372WP_0112 WP Haul Roads 429251 4408367.1 1606.4 4.24E-03 2.550 4.186 2.372 WP_0113 WP Haul Roads 429242.9 4408363.1 1605.7 2.36E-03 2.550 4.186 2.372 WP_0114 WP Haul Roads 429234.8 4408359.1 1604.9 2.36E-03 2.550 4.186 2.372WP_0115 WP Haul Roads 429226.8 4408355.1 1604.2 2.36E-03 2.550 4.186 2.372WP_0116 WP Haul Roads 429218.7 4408351.1 1603.6 2.36E-03 2.550 4.186 2.372 WP_0117 WP Haul Roads 429210.7 4408347.1 1603.0 2.36E-03 2.550 4.186 2.372 WP_0118 WP Haul Roads 429202.6 4408343.1 1602.5 2.36E-03 2.550 4.186 2.372WP_0119 WP Haul Roads 429194.6 4408339.1 1601.9 2.36E-03 2.550 4.186 2.372WP_0120 WP Haul Roads 429186.5 4408335.1 1601.2 2.36E-03 2.550 4.186 2.372 WP_0121 WP Haul Roads 429178.5 4408331 1600.5 2.36E-03 2.550 4.186 2.372WP_0122 WP Haul Roads 429170.4 4408327 1599.9 2.36E-03 2.550 4.186 2.372WP_0123 WP Haul Roads 429162.4 4408323 1599.2 2.36E-03 2.550 4.186 2.372 WP_0124 WP Haul Roads 429154.3 4408319 1598.4 2.36E-03 2.550 4.186 2.372 WP_0125 WP Haul Roads 429146.3 4408314.9 1597.6 2.36E-03 2.550 4.186 2.372WP_0126 WP Haul Roads 429138.2 4408310.9 1596.9 2.36E-03 2.550 4.186 2.372WP_0127 WP Haul Roads 429130.2 4408306.9 1596.1 2.36E-03 2.550 4.186 2.372 WP_0128 WP Haul Roads 429122.1 4408302.9 1595.6 2.36E-03 2.550 4.186 2.372 WP_0129 WP Haul Roads 429114.1 4408298.8 1594.8 2.36E-03 2.550 4.186 2.372WP_0130 WP Haul Roads 429106 4408294.8 1594.2 2.36E-03 2.550 4.186 2.372WP_0131 WP Haul Roads 429098 4408290.8 1593.7 2.36E-03 2.550 4.186 2.372 HM_0001 HMA Haulroads 429097.6 4408293.3 1593.8 1.20E-03 2.55 4.186 2.372 HM_0002 HMA Haulroads 429105.7 4408297.1 1594.3 1.20E-03 2.55 4.186 2.372 HM_0003 HMA Haulroads 429113.9 4408300.9 1594.9 1.20E-03 2.55 4.186 2.372HM_0004 HMA Haulroads 429122 4408304.7 1595.7 1.20E-03 2.55 4.186 2.372 HM_0005 HMA Haulroads 429130.2 4408308.5 1596.1 1.20E-03 2.55 4.186 2.372 HM_0006 HMA Haulroads 429138.4 4408312.3 1597 1.20E-03 2.55 4.186 2.372 HM_0007 HMA Haulroads 429144.5 4408317.3 1597.6 1.20E-03 2.55 4.186 2.372HM_0008 HMA Haulroads 429143.6 4408326.3 1597.7 1.20E-03 2.55 4.186 2.372 HM_0009 HMA Haulroads 429142.8 4408335.2 1597.9 1.20E-03 2.55 4.186 2.372 HM_0010 HMA Haulroads 429141.9 4408344.2 1597.9 1.20E-03 2.55 4.186 2.372 HM_0011 HMA Haulroads 429141.1 4408353.1 1597.7 1.20E-03 2.55 4.186 2.372HM_0012 HMA Haulroads 429140.2 4408362.1 1597.4 1.20E-03 2.55 4.186 2.372 HM_0013 HMA Haulroads 429139.4 4408371.1 1597.4 1.20E-03 2.55 4.186 2.372 HM_0014 HMA Haulroads 429138.5 4408380 1597.6 1.20E-03 2.55 4.186 2.372HM_0015 HMA Haulroads 429137.7 4408389 1597.7 1.20E-03 2.55 4.186 2.372 HM_0016 HMA Haulroads 429136.8 4408397.9 1597.8 1.20E-03 2.55 4.186 2.372 HM_0017 HMA Haulroads 429136 4408406.9 1597.6 1.20E-03 2.55 4.186 2.372 HM_0018 HMA Haulroads 429135.1 4408415.9 1597.2 1.20E-03 2.55 4.186 2.372HM_0019 HMA Haulroads 429135.5 4408424.8 1597 1.20E-03 2.55 4.186 2.372 HM_0020 HMA Haulroads 429136 4408433.8 1597.3 1.20E-03 2.55 4.186 2.372 HM_0021 HMA Haulroads 429136.6 4408442.8 1597.9 1.20E-03 2.55 4.186 2.372 HM_0022 HMA Haulroads 429137.1 4408451.8 1598.2 1.20E-03 2.55 4.186 2.372HM_0023 HMA Haulroads 429137.6 4408460.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0024 HMA Haulroads 429138.1 4408469.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0025 HMA Haulroads 429138.6 4408478.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0026 HMA Haulroads 429139.1 4408487.7 1598.4 1.20E-03 2.55 4.186 2.372HM_0027 HMA Haulroads 429139.7 4408496.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0028 HMA Haulroads 429140.2 4408505.7 1598.6 1.20E-03 2.55 4.186 2.372 HM_0029 HMA Haulroads 429140.7 4408514.7 1598.8 1.20E-03 2.55 4.186 2.372 HM_0030 HMA Haulroads 429141.2 4408523.7 1598.6 1.20E-03 2.55 4.186 2.372HM_0031 HMA Haulroads 429141.5 4408532.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0032 HMA Haulroads 429140.8 4408541.6 1599 1.20E-03 2.55 4.186 2.372 HM_0033 HMA Haulroads 429140.1 4408550.6 1599.8 1.20E-03 2.55 4.186 2.372 HM_0034 HMA Haulroads 429139.4 4408559.6 1599.8 1.20E-03 2.55 4.186 2.372HM_0035 HMA Haulroads 429138.7 4408568.6 1600.1 1.20E-03 2.55 4.186 2.372 HM_0036 HMA Haulroads 429138 4408577.5 1600.9 1.20E-03 2.55 4.186 2.372 HM_0037 HMA Haulroads 429137.3 4408586.5 1601.2 1.20E-03 2.55 4.186 2.372 HM_0038 HMA Haulroads 429136.6 4408595.5 1601.4 1.20E-03 2.55 4.186 2.372 HM_0039 HMA Haulroads 429135.9 4408604.4 1601.5 1.20E-03 2.55 4.186 2.372HM_0040 HMA Haulroads 429135.2 4408613.4 1601.9 1.20E-03 2.55 4.186 2.372 HM_0041 HMA Haulroads 429134.4 4408622.4 1602.1 1.20E-03 2.55 4.186 2.372 HM_0042 HMA Haulroads 429133.9 4408631.3 1602.3 1.20E-03 2.55 4.186 2.372 HM_0043 HMA Haulroads 429139.3 4408638.5 1602.9 1.20E-03 2.55 4.186 2.372HM_0044 HMA Haulroads 429144.8 4408645.6 1603.8 1.20E-03 2.55 4.186 2.372 HM_0045 HMA Haulroads 429150.2 4408652.8 1604.6 1.20E-03 2.55 4.186 2.372 HM_0046 HMA Haulroads 429157.4 4408656.3 1605.2 1.20E-03 2.55 4.186 2.372 HM_0047 HMA Haulroads 429166.4 4408656.1 1605.9 1.20E-03 2.55 4.186 2.372HM_0048 HMA Haulroads 429175.4 4408655.8 1606.7 1.20E-03 2.55 4.186 2.372 HM_0049 HMA Haulroads 429184.4 4408655.6 1607.2 1.20E-03 2.55 4.186 2.372 HM_0050 HMA Haulroads 429191.9 4408651.6 1607.7 1.20E-03 2.55 4.186 2.372 HM_0051 HMA Haulroads 429198.6 4408645.6 1607.8 1.20E-03 2.55 4.186 2.372HM_0052 HMA Haulroads 429205.3 4408639.6 1607.7 1.20E-03 2.55 4.186 2.372 HM_0053 HMA Haulroads 429212 4408633.5 1608 1.20E-03 2.55 4.186 2.372 HM_0054 HMA Haulroads 429219.9 4408629.3 1608.5 1.20E-03 2.55 4.186 2.372 HM_0055 HMA Haulroads 429228 4408625.3 1608.8 1.20E-03 2.55 4.186 2.372HM_0056 HMA Haulroads 429236 4408621.3 1609 1.20E-03 2.55 4.186 2.372 HM_0057 HMA Haulroads 429244.1 4408617.3 1609.5 1.20E-03 2.55 4.186 2.372 HM_0058 HMA Haulroads 429252.1 4408613.1 1609.8 1.20E-03 2.55 4.186 2.372HM_0059 HMA Haulroads 429259.6 4408608.2 1610 1.20E-03 2.55 4.186 2.372 HM_0060 HMA Haulroads 429267.2 4408603.4 1610.5 1.20E-03 2.55 4.186 2.372 HM_0061 HMA Haulroads 429274.8 4408598.5 1611.5 1.20E-03 2.55 4.186 2.372 HM_0062 HMA Haulroads 429282.4 4408593.6 1612.2 1.20E-03 2.55 4.186 2.372HM_0063 HMA Haulroads 429289.7 4408588.4 1612.8 1.20E-03 2.55 4.186 2.372 HM_0064 HMA Haulroads 429296.7 4408582.9 1613.4 1.20E-03 2.55 4.186 2.372 HM_0065 HMA Haulroads 429301.2 4408576.1 1613.8 1.20E-03 2.55 4.186 2.372 HM_0066 HMA Haulroads 429300.7 4408567.1 1613.6 1.20E-03 2.55 4.186 2.372HM_0067 HMA Haulroads 429300.2 4408558.1 1613.4 1.20E-03 2.55 4.186 2.372 HM_0068 HMA Haulroads 429299.7 4408549.2 1613.2 1.20E-03 2.55 4.186 2.372 HM_0069 HMA Haulroads 429299.2 4408540.2 1612.9 1.20E-03 2.55 4.186 2.372 HM_0070 HMA Haulroads 429298.7 4408531.2 1612.8 1.20E-03 2.55 4.186 2.372HM_0071 HMA Haulroads 429298.1 4408522.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0072 HMA Haulroads 429297.6 4408513.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0073 HMA Haulroads 429297.1 4408504.2 1612.5 1.20E-03 2.55 4.186 2.372 HM_0074 HMA Haulroads 429296.5 4408495.3 1612 1.20E-03 2.55 4.186 2.372HM_0075 HMA Haulroads 429295.4 4408486.3 1611.6 1.20E-03 2.55 4.186 2.372 HM_0076 HMA Haulroads 429294.2 4408477.4 1611.4 1.20E-03 2.55 4.186 2.372 HM_0077 HMA Haulroads 429293.1 4408468.5 1611.2 1.20E-03 2.55 4.186 2.372 HM_0078 HMA Haulroads 429292 4408459.5 1611.3 1.20E-03 2.55 4.186 2.372HM_0079 HMA Haulroads 429290.9 4408450.6 1611.3 1.20E-03 2.55 4.186 2.372 HM_0080 HMA Haulroads 429289.7 4408441.7 1611 1.20E-03 2.55 4.186 2.372 HM_0081 HMA Haulroads 429288.6 4408432.7 1610.4 1.20E-03 2.55 4.186 2.372 HM_0082 HMA Haulroads 429287.5 4408423.8 1609.4 1.20E-03 2.55 4.186 2.372HM_0083 HMA Haulroads 429286.4 4408414.9 1609 1.20E-03 2.55 4.186 2.372 HM_0084 HMA Haulroads 429285.3 4408406 1609.2 1.20E-03 2.55 4.186 2.372 HM_0085 HMA Haulroads 429284.1 4408397 1608.9 1.20E-03 2.55 4.186 2.372HM_0086 HMA Haulroads 429276.9 4408391.7 1608.1 1.20E-03 2.55 4.186 2.372 HM_0087 HMA Haulroads 429269.7 4408386.3 1607.6 1.20E-03 2.55 4.186 2.372 HM_0088 HMA Haulroads 429262.5 4408380.9 1607.4 1.20E-03 2.55 4.186 2.372 HM_0089 HMA Haulroads 429255.2 4408375.5 1606.9 1.20E-03 2.55 4.186 2.372HM_0090 HMA Haulroads 429248 4408370.1 1606.2 1.20E-03 2.55 4.186 2.372 HM_0091 HMA Haulroads 429240.8 4408364.7 1605.6 1.20E-03 2.55 4.186 2.372 HM_0092 HMA Haulroads 429233.6 4408359.4 1604.9 1.20E-03 2.55 4.186 2.372 HM_0093 HMA Haulroads 429225.8 4408355 1604.1 1.20E-03 2.55 4.186 2.372HM_0094 HMA Haulroads 429217.7 4408351.1 1603.5 1.20E-03 2.55 4.186 2.372 HM_0095 HMA Haulroads 429209.6 4408347.2 1602.9 1.20E-03 2.55 4.186 2.372 HM_0096 HMA Haulroads 429201.5 4408343.3 1602.4 1.20E-03 2.55 4.186 2.372 HM_0097 HMA Haulroads 429193.4 4408339.4 1601.8 1.20E-03 2.55 4.186 2.372HM_0098 HMA Haulroads 429185.2 4408335.5 1601 1.20E-03 2.55 4.186 2.372 HM_0099 HMA Haulroads 429177.1 4408331.6 1600.4 1.20E-03 2.55 4.186 2.372 HM_0100 HMA Haulroads 429169 4408327.7 1599.8 1.20E-03 2.55 4.186 2.372 HM_0101 HMA Haulroads 429160.9 4408323.8 1599.2 1.20E-03 2.55 4.186 2.372HM_0102 HMA Haulroads 429152.8 4408319.9 1598.3 1.20E-03 2.55 4.186 2.372 HM_0103 HMA Haulroads 429144.7 4408316 1597.5 1.20E-03 2.55 4.186 2.372 HM_0104 HMA Haulroads 429136.6 4408312.1 1596.9 1.20E-03 2.55 4.186 2.372 HM_0105 HMA Haulroads 429128.5 4408308.2 1596 1.20E-03 2.55 4.186 2.372HM_0106 HMA Haulroads 429120.3 4408304.3 1595.5 1.20E-03 2.55 4.186 2.372 HM_0107 HMA Haulroads 429112.2 4408300.4 1594.8 1.20E-03 2.55 4.186 2.372 HM_0108 HMA Haulroads 429104.1 4408296.5 1594.2 1.20E-03 2.55 4.186 2.372HM_0109 HMA Haulroads 429096 4408292.6 1593.6 1.20E-03 2.55 4.186 2.372 AG_0001 Aggregate Haulroads 429098.3 4408294.5 1593.96 2.54E-03 2.55 4.186 2.372 AG_0002 Aggregate Haulroads 429106.4 4408298.5 1594.38 2.54E-03 2.55 4.186 2.372 AG_0003 Aggregate Haulroads 429114.5 4408302.5 1594.96 2.54E-03 2.55 4.186 2.372AG_0004 Aggregate Haulroads 429122.5 4408306.5 1595.78 2.54E-03 2.55 4.186 2.372 AG_0005 Aggregate Haulroads 429130.6 4408310.4 1596.24 2.54E-03 2.55 4.186 2.372 AG_0006 Aggregate Haulroads 429138.7 4408314.4 1597.11 2.54E-03 2.55 4.186 2.372 AG_0007 Aggregate Haulroads 429146.7 4408318.4 1597.76 2.54E-03 2.55 4.186 2.372AG_0008 Aggregate Haulroads 429154.8 4408322.4 1598.5 2.54E-03 2.55 4.186 2.372 AG_0009 Aggregate Haulroads 429162.9 4408326.4 1599.44 2.54E-03 2.55 4.186 2.372 AG_0010 Aggregate Haulroads 429170.9 4408330.4 1599.92 2.54E-03 2.55 4.186 2.372 AG_0011 Aggregate Haulroads 429179 4408334.4 1600.57 2.54E-03 2.55 4.186 2.372AG_0012 Aggregate Haulroads 429187.1 4408338.4 1601.25 2.54E-03 2.55 4.186 2.372 AG_0013 Aggregate Haulroads 429195.2 4408342.3 1601.94 2.54E-03 2.55 4.186 2.372 AG_0014 Aggregate Haulroads 429203.2 4408346.3 1602.6 2.54E-03 2.55 4.186 2.372 AG_0015 Aggregate Haulroads 429211.3 4408350.3 1603.04 2.54E-03 2.55 4.186 2.372AG_0016 Aggregate Haulroads 429219.4 4408354.3 1603.69 2.54E-03 2.55 4.186 2.372 AG_0017 Aggregate Haulroads 429227.4 4408358.3 1604.26 2.54E-03 2.55 4.186 2.372 AG_0018 Aggregate Haulroads 429235.5 4408362.3 1605.07 2.54E-03 2.55 4.186 2.372 AG_0019 Aggregate Haulroads 429243.6 4408366.3 1605.81 2.54E-03 2.55 4.186 2.372AG_0020 Aggregate Haulroads 429251.6 4408370.3 1606.46 7.83E-03 2.55 4.186 2.372 AG_0021 Aggregate Haulroads 429259.7 4408374.3 1607.15 7.83E-03 2.55 4.186 2.372 AG_0022 Aggregate Haulroads 429267.8 4408378.2 1607.75 7.83E-03 2.55 4.186 2.372 AG_0023 Aggregate Haulroads 429275.8 4408382.2 1608.12 7.83E-03 2.55 4.186 2.372 AG_0024 Aggregate Haulroads 429283.9 4408386.2 1608.69 7.83E-03 2.55 4.186 2.372AG_0025 Aggregate Haulroads 429292 4408390.2 1609.37 7.83E-03 2.55 4.186 2.372 AG_0026 Aggregate Haulroads 429300 4408394.2 1610.05 7.83E-03 2.55 4.186 2.372 AG_0027 Aggregate Haulroads 429308.1 4408398.2 1610.77 7.83E-03 2.55 4.186 2.372 AG_0028 Aggregate Haulroads 429316.2 4408402.2 1611.52 7.83E-03 2.55 4.186 2.372AG_0029 Aggregate Haulroads 429324.2 4408406.2 1612.32 7.83E-03 2.55 4.186 2.372 AG_0030 Aggregate Haulroads 429332.3 4408410.1 1612.92 7.83E-03 2.55 4.186 2.372 AG_0031 Aggregate Haulroads 429340.4 4408414.1 1613.49 7.83E-03 2.55 4.186 2.372 AG_0032 Aggregate Haulroads 429348.4 4408418.1 1614.31 7.83E-03 2.55 4.186 2.372AG_0033 Aggregate Haulroads 429356.5 4408422.1 1615.06 7.83E-03 2.55 4.186 2.372 AG_0034 Aggregate Haulroads 429364.6 4408426.1 1615.82 7.83E-03 2.55 4.186 2.372 AG_0035 Aggregate Haulroads 429372.7 4408430.1 1616.59 7.83E-03 2.55 4.186 2.372 AG_0036 Aggregate Haulroads 429380.7 4408434.1 1617.31 7.83E-03 2.55 4.186 2.372AG_0037 Aggregate Haulroads 429388.8 4408438.1 1618.18 7.83E-03 2.55 4.186 2.372 AG_0038 Aggregate Haulroads 429396.9 4408442 1619.07 7.83E-03 2.55 4.186 2.372 AG_0039 Aggregate Haulroads 429404.9 4408446 1619.92 7.83E-03 2.55 4.186 2.372 AG_0040 Aggregate Haulroads 429413 4408450 1620.8 7.83E-03 2.55 4.186 2.372AG_0041 Aggregate Haulroads 429421.1 4408454 1621.51 7.83E-03 2.55 4.186 2.372 AG_0042 Aggregate Haulroads 429429.2 4408457.9 1622.3 7.83E-03 2.55 4.186 2.372 AG_0043 Aggregate Haulroads 429437.2 4408461.9 1623.15 7.83E-03 2.55 4.186 2.372AG_0044 Aggregate Haulroads 429445.3 4408465.9 1623.95 7.83E-03 2.55 4.186 2.372 AG_0045 Aggregate Haulroads 429453.4 4408469.8 1624.78 7.83E-03 2.55 4.186 2.372 AG_0046 Aggregate Haulroads 429461.5 4408473.8 1625.45 7.83E-03 2.55 4.186 2.372 AG_0047 Aggregate Haulroads 429469.6 4408477.7 1626.19 7.83E-03 2.55 4.186 2.372AG_0048 Aggregate Haulroads 429477.7 4408481.7 1626.92 7.83E-03 2.55 4.186 2.372 AG_0049 Aggregate Haulroads 429485.7 4408485.7 1627.64 7.83E-03 2.55 4.186 2.372 AG_0050 Aggregate Haulroads 429493.8 4408489.6 1628.51 7.83E-03 2.55 4.186 2.372 AG_0051 Aggregate Haulroads 429501.9 4408493.6 1629.34 7.83E-03 2.55 4.186 2.372AG_0052 Aggregate Haulroads 429510 4408497.5 1630.13 7.83E-03 2.55 4.186 2.372 AG_0053 Aggregate Haulroads 429518.1 4408501.5 1630.95 7.83E-03 2.55 4.186 2.372 AG_0054 Aggregate Haulroads 429526.1 4408505.5 1631.72 7.83E-03 2.55 4.186 2.372 AG_0055 Aggregate Haulroads 429534.2 4408509.5 1632.49 7.83E-03 2.55 4.186 2.372AG_0056 Aggregate Haulroads 429542.2 4408513.6 1633.15 7.83E-03 2.55 4.186 2.372 AG_0057 Aggregate Haulroads 429550.2 4408517.8 1634.09 7.83E-03 2.55 4.186 2.372 AG_0058 Aggregate Haulroads 429558.2 4408521.9 1635.08 7.83E-03 2.55 4.186 2.372 AG_0059 Aggregate Haulroads 429566.2 4408526 1636.05 7.83E-03 2.55 4.186 2.372AG_0060 Aggregate Haulroads 429574.2 4408530.2 1636.91 7.83E-03 2.55 4.186 2.372 AG_0061 Aggregate Haulroads 429582.1 4408534.3 1637.68 7.83E-03 2.55 4.186 2.372 AG_0062 Aggregate Haulroads 429590.1 4408538.5 1638.65 7.83E-03 2.55 4.186 2.372 AG_0063 Aggregate Haulroads 429598.1 4408542.6 1639.44 7.83E-03 2.55 4.186 2.372AG_0064 Aggregate Haulroads 429606.1 4408546.7 1640.24 7.83E-03 2.55 4.186 2.372 AG_0065 Aggregate Haulroads 429614 4408551 1641.08 7.83E-03 2.55 4.186 2.372 AG_0066 Aggregate Haulroads 429622 4408555.3 1641.85 7.83E-03 2.55 4.186 2.372 AG_0067 Aggregate Haulroads 429629.9 4408559.6 1642.46 7.83E-03 2.55 4.186 2.372 AG_0068 Aggregate Haulroads 429637.8 4408563.8 1643.79 7.83E-03 2.55 4.186 2.372 AG_0069 Aggregate Haulroads 429645.7 4408568.1 1644.65 7.83E-03 2.55 4.186 2.372 AG_0070 Aggregate Haulroads 429653.6 4408572.4 1645.35 7.83E-03 2.55 4.186 2.372AG_0071 Aggregate Haulroads 429661.6 4408576.7 1646.43 7.83E-03 2.55 4.186 2.372 AG_0072 Aggregate Haulroads 429669.5 4408580.9 1647.56 7.83E-03 2.55 4.186 2.372 AG_0073 Aggregate Haulroads 429677.4 4408585.2 1648.98 7.83E-03 2.55 4.186 2.372 AG_0074 Aggregate Haulroads 429685.3 4408589.5 1650.55 7.83E-03 2.55 4.186 2.372AG_0075 Aggregate Haulroads 429693.2 4408593.8 1652.05 7.83E-03 2.55 4.186 2.372 AG_0076 Aggregate Haulroads 429701.2 4408598 1653.34 7.83E-03 2.55 4.186 2.372 AG_0077 Aggregate Haulroads 429709.1 4408602.3 1654.04 7.83E-03 2.55 4.186 2.372 AG_0078 Aggregate Haulroads 429717 4408606.6 1656.02 7.83E-03 2.55 4.186 2.372AG_0079 Aggregate Haulroads 429725.2 4408610.3 1660.97 7.83E-03 2.55 4.186 2.372 AG_0080 Aggregate Haulroads 429733.7 4408613.3 1663.77 7.83E-03 2.55 4.186 2.372 AG_0081 Aggregate Haulroads 429742.2 4408616.2 1662.99 7.83E-03 2.55 4.186 2.372 AG_0082 Aggregate Haulroads 429750.7 4408619.2 1661.15 7.83E-03 2.55 4.186 2.372AG_0083 Aggregate Haulroads 429759.2 4408622.2 1658.79 7.83E-03 2.55 4.186 2.372 AG_0084 Aggregate Haulroads 429767.6 4408625.1 1657.86 7.83E-03 2.55 4.186 2.372 AG_0085 Aggregate Haulroads 429776.5 4408624.9 1658.03 7.83E-03 2.55 4.186 2.372 AG_0086 Aggregate Haulroads 429785.4 4408623.7 1658.97 7.83E-03 2.55 4.186 2.372AG_0087 Aggregate Haulroads 429794.3 4408622.4 1661.88 7.83E-03 2.55 4.186 2.372 AG_0088 Aggregate Haulroads 429803.2 4408621.1 1663.31 7.83E-03 2.55 4.186 2.372 AG_0089 Aggregate Haulroads 429812.1 4408619.8 1664.21 7.83E-03 2.55 4.186 2.372 AG_0090 Aggregate Haulroads 429820.2 4408616.9 1665.04 7.83E-03 2.55 4.186 2.372AG_0091 Aggregate Haulroads 429827 4408610.9 1665.56 7.83E-03 2.55 4.186 2.372 AG_0092 Aggregate Haulroads 429833.8 4408605 1665.99 7.83E-03 2.55 4.186 2.372 AG_0093 Aggregate Haulroads 429840.5 4408599.1 1666.16 7.83E-03 2.55 4.186 2.372AG_0094 Aggregate Haulroads 429840.6 4408590.1 1665.85 7.83E-03 2.55 4.186 2.372 AG_0095 Aggregate Haulroads 429840.7 4408581.1 1665.25 7.83E-03 2.55 4.186 2.372 AG_0096 Aggregate Haulroads 429840.8 4408572.1 1664.25 7.83E-03 2.55 4.186 2.372 AG_0097 Aggregate Haulroads 429835.4 4408565.3 1663.28 7.83E-03 2.55 4.186 2.372AG_0098 Aggregate Haulroads 429829 4408559.1 1663.07 7.83E-03 2.55 4.186 2.372 AG_0099 Aggregate Haulroads 429821.3 4408554.8 1662.11 7.83E-03 2.55 4.186 2.372 AG_0100 Aggregate Haulroads 429812.9 4408551.4 1660.71 7.83E-03 2.55 4.186 2.372 AG_0101 Aggregate Haulroads 429804.5 4408548.1 1659.75 7.83E-03 2.55 4.186 2.372AG_0102 Aggregate Haulroads 429796.1 4408544.8 1659.08 7.83E-03 2.55 4.186 2.372 AG_0103 Aggregate Haulroads 429787.6 4408542.6 1658.82 7.83E-03 2.55 4.186 2.372 AG_0104 Aggregate Haulroads 429778.7 4408543.5 1658.66 7.83E-03 2.55 4.186 2.372 AG_0105 Aggregate Haulroads 429769.7 4408544.4 1657.4 7.83E-03 2.55 4.186 2.372AG_0106 Aggregate Haulroads 429760.8 4408545.2 1655.98 7.83E-03 2.55 4.186 2.372 AG_0107 Aggregate Haulroads 429751.8 4408546.1 1656.55 7.83E-03 2.55 4.186 2.372 AG_0108 Aggregate Haulroads 429742.8 4408547 1657.18 7.83E-03 2.55 4.186 2.372 AG_0109 Aggregate Haulroads 429733.9 4408548.3 1656.65 7.83E-03 2.55 4.186 2.372AG_0110 Aggregate Haulroads 429725 4408549.5 1654.22 7.83E-03 2.55 4.186 2.372 AG_0111 Aggregate Haulroads 429716.1 4408550.8 1653.37 7.83E-03 2.55 4.186 2.372 AG_0112 Aggregate Haulroads 429707.2 4408552.1 1652.38 7.83E-03 2.55 4.186 2.372 AG_0113 Aggregate Haulroads 429698.3 4408553.4 1650.99 7.83E-03 2.55 4.186 2.372AG_0114 Aggregate Haulroads 429689.4 4408554.7 1649.45 7.83E-03 2.55 4.186 2.372 AG_0115 Aggregate Haulroads 429680.5 4408555.9 1648.13 7.83E-03 2.55 4.186 2.372 AG_0116 Aggregate Haulroads 429671.6 4408557.2 1646.92 7.83E-03 2.55 4.186 2.372 AG_0117 Aggregate Haulroads 429662.7 4408558.5 1645.82 7.83E-03 2.55 4.186 2.372 AG_0118 Aggregate Haulroads 429653.8 4408559.8 1644.84 7.83E-03 2.55 4.186 2.372AG_0119 Aggregate Haulroads 429644.8 4408561.1 1644.01 7.83E-03 2.55 4.186 2.372 AG_0120 Aggregate Haulroads 429636 4408562.1 1643.39 7.83E-03 2.55 4.186 2.372 AG_0121 Aggregate Haulroads 429627.9 4408558.1 1642.31 7.83E-03 2.55 4.186 2.372 AG_0122 Aggregate Haulroads 429619.9 4408554 1641.66 7.83E-03 2.55 4.186 2.372AG_0123 Aggregate Haulroads 429611.9 4408550 1640.86 7.83E-03 2.55 4.186 2.372 AG_0124 Aggregate Haulroads 429603.8 4408545.9 1640 7.83E-03 2.55 4.186 2.372 AG_0125 Aggregate Haulroads 429595.8 4408541.9 1639.25 7.83E-03 2.55 4.186 2.372 AG_0126 Aggregate Haulroads 429587.8 4408537.8 1638.38 7.83E-03 2.55 4.186 2.372AG_0127 Aggregate Haulroads 429579.7 4408533.8 1637.49 7.83E-03 2.55 4.186 2.372 AG_0128 Aggregate Haulroads 429571.7 4408529.7 1636.66 7.83E-03 2.55 4.186 2.372 AG_0129 Aggregate Haulroads 429563.7 4408525.6 1635.81 7.83E-03 2.55 4.186 2.372 AG_0130 Aggregate Haulroads 429555.6 4408521.6 1634.81 7.83E-03 2.55 4.186 2.372AG_0131 Aggregate Haulroads 429547.6 4408517.5 1633.8 7.83E-03 2.55 4.186 2.372 AG_0132 Aggregate Haulroads 429539.5 4408513.5 1633.06 7.83E-03 2.55 4.186 2.372 AG_0133 Aggregate Haulroads 429531.5 4408509.4 1632.29 7.83E-03 2.55 4.186 2.372 AG_0134 Aggregate Haulroads 429523.5 4408505.4 1631.55 7.83E-03 2.55 4.186 2.372AG_0135 Aggregate Haulroads 429515.4 4408501.3 1630.77 7.83E-03 2.55 4.186 2.372 AG_0136 Aggregate Haulroads 429507.4 4408497.3 1629.91 7.83E-03 2.55 4.186 2.372 AG_0137 Aggregate Haulroads 429499.4 4408493.2 1629.24 7.83E-03 2.55 4.186 2.372AG_0138 Aggregate Haulroads 429491.3 4408489.2 1628.27 7.83E-03 2.55 4.186 2.372 AG_0139 Aggregate Haulroads 429483.3 4408485.1 1627.47 7.83E-03 2.55 4.186 2.372 AG_0140 Aggregate Haulroads 429475.3 4408481.1 1626.74 7.83E-03 2.55 4.186 2.372 AG_0141 Aggregate Haulroads 429467.2 4408477 1625.96 7.83E-03 2.55 4.186 2.372AG_0142 Aggregate Haulroads 429459.2 4408472.9 1625.31 7.83E-03 2.55 4.186 2.372 AG_0143 Aggregate Haulroads 429451.2 4408468.9 1624.56 7.83E-03 2.55 4.186 2.372 AG_0144 Aggregate Haulroads 429443.1 4408464.8 1623.74 7.83E-03 2.55 4.186 2.372 AG_0145 Aggregate Haulroads 429435.1 4408460.8 1622.93 7.83E-03 2.55 4.186 2.372AG_0146 Aggregate Haulroads 429427.1 4408456.7 1622.06 7.83E-03 2.55 4.186 2.372 AG_0147 Aggregate Haulroads 429419 4408452.7 1621.34 7.83E-03 2.55 4.186 2.372 AG_0148 Aggregate Haulroads 429411 4408448.6 1620.58 7.83E-03 2.55 4.186 2.372 AG_0149 Aggregate Haulroads 429402.9 4408444.6 1619.67 7.83E-03 2.55 4.186 2.372AG_0150 Aggregate Haulroads 429394.9 4408440.6 1618.85 7.83E-03 2.55 4.186 2.372 AG_0151 Aggregate Haulroads 429386.8 4408436.6 1617.91 7.83E-03 2.55 4.186 2.372 AG_0152 Aggregate Haulroads 429378.7 4408432.6 1617.12 7.83E-03 2.55 4.186 2.372 AG_0153 Aggregate Haulroads 429370.7 4408428.6 1616.38 7.83E-03 2.55 4.186 2.372AG_0154 Aggregate Haulroads 429362.6 4408424.6 1615.59 7.83E-03 2.55 4.186 2.372 AG_0155 Aggregate Haulroads 429354.5 4408420.6 1614.89 7.83E-03 2.55 4.186 2.372 AG_0156 Aggregate Haulroads 429346.5 4408416.6 1614.1 7.83E-03 2.55 4.186 2.372 AG_0157 Aggregate Haulroads 429338.4 4408412.6 1613.34 7.83E-03 2.55 4.186 2.372AG_0158 Aggregate Haulroads 429330.4 4408408.6 1612.87 7.83E-03 2.55 4.186 2.372 AG_0159 Aggregate Haulroads 429322.3 4408404.6 1612.11 7.83E-03 2.55 4.186 2.372 AG_0160 Aggregate Haulroads 429314.2 4408400.6 1611.33 7.83E-03 2.55 4.186 2.372 AG_0161 Aggregate Haulroads 429306.2 4408396.6 1610.54 7.83E-03 2.55 4.186 2.372 AG_0162 Aggregate Haulroads 429298.1 4408392.6 1609.88 7.83E-03 2.55 4.186 2.372 AG_0163 Aggregate Haulroads 429290.1 4408388.6 1609.2 7.83E-03 2.55 4.186 2.372 AG_0164 Aggregate Haulroads 429282 4408384.6 1608.53 7.83E-03 2.55 4.186 2.372AG_0165 Aggregate Haulroads 429273.9 4408380.6 1608.07 7.83E-03 2.55 4.186 2.372 AG_0166 Aggregate Haulroads 429265.9 4408376.6 1607.58 7.83E-03 2.55 4.186 2.372 AG_0167 Aggregate Haulroads 429257.8 4408372.6 1606.99 7.83E-03 2.55 4.186 2.372 AG_0168 Aggregate Haulroads 429249.8 4408368.6 1606.26 7.83E-03 2.55 4.186 2.372AG_0169 Aggregate Haulroads 429241.7 4408364.6 1605.63 2.54E-03 2.55 4.186 2.372 AG_0170 Aggregate Haulroads 429233.6 4408360.6 1604.88 2.54E-03 2.55 4.186 2.372 AG_0171 Aggregate Haulroads 429225.6 4408356.6 1604.09 2.54E-03 2.55 4.186 2.372 AG_0172 Aggregate Haulroads 429217.5 4408352.6 1603.54 2.54E-03 2.55 4.186 2.372AG_0173 Aggregate Haulroads 429209.5 4408348.6 1602.87 2.54E-03 2.55 4.186 2.372 AG_0174 Aggregate Haulroads 429201.4 4408344.5 1602.46 2.54E-03 2.55 4.186 2.372 AG_0175 Aggregate Haulroads 429193.3 4408340.5 1601.79 2.54E-03 2.55 4.186 2.372 AG_0176 Aggregate Haulroads 429185.3 4408336.5 1601.07 2.54E-03 2.55 4.186 2.372AG_0177 Aggregate Haulroads 429177.2 4408332.5 1600.43 2.54E-03 2.55 4.186 2.372 AG_0178 Aggregate Haulroads 429169.2 4408328.5 1599.79 2.54E-03 2.55 4.186 2.372 AG_0179 Aggregate Haulroads 429161.1 4408324.5 1599.22 2.54E-03 2.55 4.186 2.372 AG_0180 Aggregate Haulroads 429153 4408320.5 1598.28 2.54E-03 2.55 4.186 2.372AG_0181 Aggregate Haulroads 429145 4408316.5 1597.58 2.54E-03 2.55 4.186 2.372 AG_0182 Aggregate Haulroads 429136.9 4408312.5 1596.9 2.54E-03 2.55 4.186 2.372 AG_0183 Aggregate Haulroads 429129 4408308.3 1596.02 2.54E-03 2.55 4.186 2.372 AG_0184 Aggregate Haulroads 429121 4408304.2 1595.58 2.54E-03 2.55 4.186 2.372AG_0185 Aggregate Haulroads 429113 4408300 1594.78 2.54E-03 2.55 4.186 2.372 AG_0186 Aggregate Haulroads 429105 4408295.9 1594.23 2.54E-03 2.55 4.186 2.372 AG_0187 Aggregate Haulroads 429097 4408291.7 1593.66 2.54E-03 2.55 4.186 2.372 Modeling Inputs - Formaldehyde Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 Point Sources - Formaldehyde Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Stack Height Temperature Exit Velocity Stack Diameter (m) (m) (m) (lb/hr) (m) (K) (m/s) (m) CON_WH Concrete Plant Water Heater 429393 4408370.8 1617.99 0.002334 18.288 294.260 12.192 0.610 HMA_HTR Asphalt Plant Hot Oil Heater 429172.2 4408559.9 1601.12 0.001179 18.288 294.260 12.192 0.610 HMA_AP Drum Mix Asphalt Plants (Baghouse) 429166.1 4408564.7 1601.7 1.32 7.163 353.983 18.431 1.151 Volume Sources - Formaldehyde Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr) Release Height Init. Horizontal Dimension Initial Vert. Dimension HMA_001 Hot Mix Asphalt Plant Silo Loading 429147.9 4408555.1 1600.6 3.574E-02 4.57 0.70 4.27HMA_002 Asphalt Plant - Loadout 429145.2 4408554.9 1600.4 2.089E-04 4.57 0.70 4.27 Modeled Buildings Source ID Source Description X Coordinate Y Coordinate Elevation Height X Length Y Length Angle (m)(m)(m)(m)(m)(m) 1DKKN00G HMA Loadout 429141.5 4408559.5 1600.19 18.288 8.5344 3.048 90 1DKKN00I HMA Heater 429165.4 4408562.2 1601.12 4.572 3.6576 8.5344 90 1DKKN00J HMA Baghouse 429159.1 4408566.5 1601.7 4.572 3.6576 8.5344 90 1DKKN00L Concrete Batch 429393 4408385.6 1618.32 12.192 25 15 0 1DKKN00N Concrete Plant Water Heater 429390.5 4408372.2 1617.76 12.192 4 6 90 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants C-1 APPENDIX C. DISPERSION MODELING RESULTS *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 1 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** MODEL SETUP OPTIONS SUMMARY *** - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ** Model Options Selected: * Model Uses Regulatory DEFAULT Options * Model Is Setup For Calculation of Average CONCentration Values. * NO GAS DEPOSITION Data Provided. * NO PARTICLE DEPOSITION Data Provided. * Model Uses NO DRY DEPLETION. DDPLETE = F * Model Uses NO WET DEPLETION. WETDPLT = F * Stack-tip Downwash. * Model Accounts for ELEVated Terrain Effects. * Use Calms Processing Routine. * Use Missing Data Processing Routine. * No Exponential Decay. * Model Uses RURAL Dispersion Only. * Model Assumes No FLAGPOLE Receptor Heights. * The User Specified a Pollutant Type of: PM10 **Model Calculates 1 Short Term Average(s) of: 24-HR **This Run Includes: 557 Source(s); 1 Source Group(s); and 2317 Receptor(s) with: 5 POINT(s), including 0 POINTCAP(s) and 0 POINTHOR(s) and: 534 VOLUME source(s) and: 18 AREA type source(s) and: 0 LINE source(s) and: 0 RLINE/RLINEXT source(s) and: 0 OPENPIT source(s) and: 0 BUOYANT LINE source(s) with a total of 0 line(s) and: 0 SWPOINT source(s) **This Run Includes BACKGRND Values for 1 Source Group(s) for a Single Sector Non-HOURLY BACKGRND Values are Available Varying by: MONTH **Model Set To Continue RUNning After the Setup Testing. **The AERMET Input Meteorological Data Version Date: 21112 **Output Options Selected: Model Outputs Tables of Highest Short Term Values by Receptor (RECTABLE Keyword) Model Outputs External File(s) of High Values for Plotting (PLOTFILE Keyword) Model Outputs Separate Summary File of High Ranked Values (SUMMFILE Keyword) **NOTE: The Following Flags May Appear Following CONC Values: c for Calm Hours m for Missing Hours b for Both Calm and Missing Hours **Misc. Inputs: Base Elev. for Pot. Temp. Profile (m MSL) = 1569.00 ; Decay Coef. = 0.000 ; Rot. Angle = 0.0 Emission Units = GRAMS/SEC ; Emission Rate Unit Factor = 0.10000E+07 Output Units = MICROGRAMS/M**3 **Approximate Storage Requirements of Model = 8.7 MB of RAM. **Input Runstream File: aermod.inp **Output Print File: aermod.out **File for Summary of Results: SUMMARYFILE.SUM *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 2 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** METEOROLOGICAL DAYS SELECTED FOR PROCESSING *** (1=YES; 0=NO) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOTE: METEOROLOGICAL DATA ACTUALLY PROCESSED WILL ALSO DEPEND ON WHAT IS INCLUDED IN THE DATA FILE. *** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEED CATEGORIES *** (METERS/SEC) 1.54, 3.09, 5.14, 8.23, 10.80, *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 3 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** UP TO THE FIRST 24 HOURS OF METEOROLOGICAL DATA *** Surface file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Met Version: 21112 Profile file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Surface format: FREE Profile format: FREE Surface station no.: 25720 Upper air station no.: 24127 Name: UNKNOWN Name: UNKNOWN Year: 2001 Year: 2001 First 24 hours of scalar data YR MO DY JDY HR H0 U* W* DT/DZ ZICNV ZIMCH M-O LEN Z0 BOWEN ALBEDO REF WS WD HT REF TA HT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 01 05 09 129 01 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 02 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 03 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 04 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 05 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 06 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.69 999.00 999. -9.0 999.0 -9.0 01 05 09 129 07 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.34 999.00 999. -9.0 999.0 -9.0 01 05 09 129 08 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.22 999.00 999. -9.0 999.0 -9.0 01 05 09 129 09 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.18 999.00 999. -9.0 999.0 -9.0 01 05 09 129 10 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.17 999.00 999. -9.0 999.0 -9.0 01 05 09 129 11 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 12 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 13 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 14 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 15 180.2 0.558 -9.000 -9.000 -999. 1001. -72.4 0.30 0.67 0.16 4.40 233. 10.0 300.4 2.0 01 05 09 129 16 161.8 0.513 -9.000 -9.000 -999. 886. -62.6 0.30 0.67 0.17 4.00 224. 10.0 300.8 2.0 01 05 09 129 17 113.7 0.555 -9.000 -9.000 -999. 991. -112.6 0.30 0.67 0.18 4.50 235. 10.0 300.9 2.0 01 05 09 129 18 38.7 0.569 -9.000 -9.000 -999. 1029. -355.5 0.41 0.67 0.23 4.40 240. 10.0 299.4 2.0 01 05 09 129 19 10.0 0.681 -9.000 -9.000 -999. 1345. -2357.2 0.41 0.67 0.38 5.40 260. 10.0 297.9 2.0 01 05 09 129 20 -19.2 0.430 -9.000 -9.000 -999. 743. 309.8 0.41 0.67 1.00 3.60 259. 10.0 296.0 2.0 01 05 09 129 21 -20.7 0.304 -9.000 -9.000 -999. 421. 101.7 0.41 0.67 1.00 2.80 261. 10.0 292.8 2.0 01 05 09 129 22 -14.6 0.214 -9.000 -9.000 -999. 242. 50.0 0.30 0.67 1.00 2.40 230. 10.0 291.9 2.0 01 05 09 129 23 -18.8 0.273 -9.000 -9.000 -999. 343. 81.5 0.41 0.67 1.00 2.60 245. 10.0 290.4 2.0 01 05 09 129 24 -24.2 0.350 -9.000 -9.000 -999. 498. 133.4 0.30 0.67 1.00 3.40 352. 10.0 289.6 2.0 First hour of profile data YR MO DY HR HEIGHT F WDIR WSPD AMB_TMP sigmaA sigmaW sigmaV 01 05 09 01 6.1 1 -999. -99.00 -999.0 999.0 -99.00 -99.00 F indicates top of profile (=1) or below (=0) *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 4 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** THE SUMMARY OF HIGHEST 24-HR RESULTS *** ** CONC OF PM10 IN MICROGRAMS/M**3 ** DATE NETWORK GROUP ID AVERAGE CONC (YYMMDDHH) RECEPTOR (XR, YR, ZELEV, ZHILL, ZFLAG) OF TYPE GRID-ID - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ALL HIGH 2ND HIGH VALUE IS 146.71789m ON 01123124: AT ( 429395.40, 4408283.50, 1619.28, 3635.95, 0.00) DC *** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 5 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** Message Summary : AERMOD Model Execution *** --------- Summary of Total Messages -------- A Total of 0 Fatal Error Message(s) A Total of 1185 Warning Message(s) A Total of 125 Informational Message(s) A Total of 8784 Hours Were Processed A Total of 1 Calm Hours Identified A Total of 124 Missing Hours Identified ( 1.41 Percent) ******** FATAL ERROR MESSAGES ******** *** NONE *** ******** WARNING MESSAGES ******** SO W298 8943 SOGRP: Results reported for source group ALL include BACKGROUND OU W565 13600 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE MX W403 15 PFLCNV: Turbulence data is being used w/o ADJ_U* option SigA Data MX W479 21 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 22 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 23 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 29 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.639 MX W479 45 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 46 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 47 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.672 MX W479 48 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 49 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 50 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 51 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.796 MX W479 53 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 68 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 69 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 70 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 71 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.331 MX W479 72 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 73 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.351 MX W479 92 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 93 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 94 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 96 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 98 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.823 MX W479 99 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 123 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.617 MX W479 140 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 141 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.642 MX W479 263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 264 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.137 MX W479 265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 266 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.912 MX W479 268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 337 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.615 MX W479 357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 360 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 383 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 385 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.855 MX W479 389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 390 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.084 MX W479 412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.241 MX W479 413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 460 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.015 MX W479 462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 532 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.894 MX W479 554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 577 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 578 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 579 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.005 MX W479 581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 649 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 650 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.872 MX W479 722 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.844 MX W479 748 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 749 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.349 MX W479 750 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 767 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 768 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 769 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 770 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 771 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 773 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.514 MX W479 796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 797 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.232 MX W479 815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 818 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 842 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 885 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 887 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 888 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.659 MX W479 913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.917 MX W479 916 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.927 MX W479 934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 935 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 938 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 939 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 957 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 962 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.147 MX W479 963 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.230 MX W479 964 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 987 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 989 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1008 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 1011 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 1012 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 1013 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 1014 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.066 MX W479 1036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1038 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 1055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 1058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 1059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 1060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 1061 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 1077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 1151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.808 MX W479 1153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.828 MX W479 1154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.967 MX W479 1155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 1156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 1202 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 1203 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1204 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 1205 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.028 MX W479 1206 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.830 MX W479 1220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 1221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 1223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.087 MX W479 1225 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.924 MX W479 1244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 1245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.641 MX W479 1246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 1247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.045 MX W479 1248 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.098 MX W479 1249 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 1250 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 1251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.925 MX W479 1252 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1253 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 1268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 1269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 1270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 1271 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.335 MX W479 1273 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 1274 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.317 MX W479 1275 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.383 MX W479 1276 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.950 MX W479 1295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 1296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 1317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 1318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 1323 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 1324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 1344 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 1347 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 1349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 1367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 1373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 1374 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 1444 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 1508 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 1509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 1516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 1518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1536 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 1541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.721 MX W479 1557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.792 MX W479 1560 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 1565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 1631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1633 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 1634 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 1635 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.366 MX W479 1636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 1637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 1638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1658 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 1659 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 1660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 1661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 1681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.687 MX W479 1682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 1683 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 1684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.400 MX W479 1685 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.268 MX W479 1686 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.200 MX W479 1705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.001 MX W479 1706 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1707 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.450 MX W479 1708 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.594 MX W479 1709 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.965 MX W479 1710 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.885 MX W479 1726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 1727 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1729 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 1731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1732 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.868 MX W479 1733 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1755 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1756 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 1757 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 1774 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 1775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1776 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 1777 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 1778 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 1779 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 1780 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.304 MX W479 1781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.968 MX W479 1782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 1798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 1800 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 1829 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 1844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 1845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 1847 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 1848 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1849 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 1850 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 1852 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 1853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 1918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.591 MX W479 1941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.019 MX W479 1947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 1948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 1949 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 1950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 2016 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 2017 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 2018 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 2036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 2040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2041 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 2042 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 2043 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 2070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.725 MX W479 2114 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.620 MX W479 2115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 2118 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2136 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2137 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 2138 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.905 MX W479 2139 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2143 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 2254 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 2256 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 2258 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 2259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 2260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 2280 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.169 MX W479 2283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2305 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 2326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 2350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 2351 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2352 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2353 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 2354 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 2372 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 2377 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 2378 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 2400 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.952 MX W479 2401 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 2402 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 2404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 2421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 2423 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.987 MX W479 2424 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.756 MX W479 2426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 2429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.603 MX W479 2445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 2446 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 2540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 2541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 2545 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 2547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 2550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2564 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 2565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2566 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 2570 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 2573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2575 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 2588 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 2589 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 2590 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 2591 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.988 MX W479 2592 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 2593 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 2595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.807 MX W479 2597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2616 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.261 MX W479 2619 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 2636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.737 MX W479 2637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 2638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 2639 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 2640 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 2641 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 2642 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 2646 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 2661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 2662 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 2663 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 2664 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2665 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2667 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2759 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 2761 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.609 MX W479 2763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2765 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 2766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 2791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2806 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 2807 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.969 MX W479 2812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 2813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 2814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 2832 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 2833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.156 MX W479 2835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 2854 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2855 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 2861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 2862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 2863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 2904 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 2905 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 2906 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 2907 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2952 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 2953 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 2973 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 2974 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2975 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 2976 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.753 MX W479 2977 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 2997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.910 MX W479 2999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.883 MX W479 3000 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.135 MX W479 3001 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3002 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.858 MX W479 3003 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 3006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 3026 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3054 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3095 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 3098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 3117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3121 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 3127 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 3149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3169 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3170 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.815 MX W479 3171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.803 MX W479 3192 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 3198 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 3214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 3216 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 3217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 3223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 3243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 3262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.904 MX W479 3265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.025 MX W479 3269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 3270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 3288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.938 MX W479 3289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.112 MX W479 3292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 3309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 3310 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3311 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 3319 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 3332 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.909 MX W479 3333 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.852 MX W479 3334 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 3335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 3338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 3358 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 3359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 3362 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.943 MX W479 3363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 3364 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3365 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.334 MX W479 3366 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.388 MX W479 3367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.217 MX W479 3379 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 3380 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.267 MX W479 3382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3384 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.730 MX W479 3386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.053 MX W479 3387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3388 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 3389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.954 MX W479 3403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 3404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 3405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.812 MX W479 3406 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.887 MX W479 3407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 3408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 3409 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.959 MX W479 3410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.754 MX W479 3411 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.759 MX W479 3412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 3413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 3414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.879 MX W479 3429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 3433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3434 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.821 MX W479 3435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.758 MX W479 3436 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 3455 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 3458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 3459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 3480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3481 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 3483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 3505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3524 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 3525 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 3527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 3528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 3547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 3551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 3554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 3555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 3557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.588 MX W479 3558 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 3572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 3573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 3583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 3598 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3599 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 3644 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 3696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 3718 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3788 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 3789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 3791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 3793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3794 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.841 MX W479 3799 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 3811 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.717 MX W479 3812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.716 MX W479 3813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 3823 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 3838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.834 MX W479 3839 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.941 MX W479 3840 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 3841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 3846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3858 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3859 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.387 MX W479 3860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 3862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3865 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.630 MX W479 3866 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 3868 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.058 MX W479 3869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.052 MX W479 3870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3871 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 3883 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 3886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 3909 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3910 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.692 MX W479 3911 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.797 MX W479 3912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 3913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 3918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 3931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.831 MX W479 3932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 3933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.165 MX W479 3959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 3960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 3965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3979 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 3980 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 3981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.893 MX W479 3985 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 4004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 4005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 4007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 4039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 4058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 4059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.915 MX W479 4060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 4075 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 4076 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 4078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.958 MX W479 4080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 4081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 4082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 4098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4099 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 4100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 4101 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 4111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 4132 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.622 MX W479 4133 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4147 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4148 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 4149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 4151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 4152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 4153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.907 MX W479 4154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.851 MX W479 4155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.060 MX W479 4156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 4173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 4207 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 4221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 4224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 4229 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 4246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 4251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 4269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 4270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4277 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 4296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.901 MX W479 4299 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 4300 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 4301 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 4316 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 4317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 4318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 4320 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.728 MX W479 4321 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 4324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 4341 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 4342 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 4345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4346 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 4350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 4416 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.710 MX W479 4417 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 4418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 4437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 4438 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.746 MX W479 4439 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 4459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 4463 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.632 MX W479 4471 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 4482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4484 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.094 MX W479 4485 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 4489 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4490 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.996 MX W479 4492 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 4519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 4520 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 4530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 4531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 4534 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 4581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4584 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4586 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 4602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.922 MX W479 4605 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.982 MX W479 4606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 4628 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 4630 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 4632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 4660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 4674 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 4675 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 4676 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4677 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 4678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 4680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 4681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 4698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 4699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 4700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4701 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.683 MX W479 4702 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 4705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 4724 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 4725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4820 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4821 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 4826 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 4828 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4830 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 4831 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4940 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 4941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 4942 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 4943 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4944 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.989 MX W479 4945 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 4946 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 4947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 4948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5037 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 5045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 5112 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 5113 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 5119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5120 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 5130 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 5155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 5156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 5157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 5158 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 5159 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5160 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 5193 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5231 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.033 MX W479 5232 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 5233 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 5255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5304 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 5307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 5309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 5371 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 5394 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5396 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.923 MX W479 5418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 5419 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 5420 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.670 MX W479 5421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.065 MX W479 5422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 5425 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 5426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.282 MX W479 5427 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 5428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 5430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 5431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 5451 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 5452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.162 MX W479 5453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 5454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 5495 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5497 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 5498 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 5499 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 5515 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 5516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 5519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5539 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 5541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 5542 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 5543 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 5546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5610 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 5611 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 5612 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 5613 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 5615 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 5617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 5731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.593 MX W479 5766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 5782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5783 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 5785 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 5860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 5875 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 5878 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5925 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5927 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 5928 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 5950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 5951 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 5954 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 5970 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.843 MX W479 5971 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 5981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 5982 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 5983 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 5984 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 5996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.551 MX W479 5998 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.602 MX W479 5999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 6019 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6020 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6021 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 6027 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 6028 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 6030 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6031 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 6045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 6071 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.636 MX W479 6072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 6073 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 6077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 6080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 6117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.680 MX W479 6119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 6126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 6151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 6186 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.881 MX W479 6187 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 6188 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 6213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.701 MX W479 6214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6215 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.649 MX W479 6217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6218 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 6219 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 6221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 6223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 6235 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.590 MX W479 6236 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 6237 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 6240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 6243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 6244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 6259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 6282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.684 MX W479 6283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6284 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 6285 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 6286 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6287 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 6288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 6289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6290 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6291 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 6292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 6307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6308 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 6435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 6452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6478 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6479 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.791 MX W479 6480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 6482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 6502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 6503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6504 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 6505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6507 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 6527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 6528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.598 MX W479 6529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 6530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 6531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6548 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.762 MX W479 6550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 6551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 6553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 6557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 6559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 6571 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 6572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.155 MX W479 6576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 6582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 6594 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.921 MX W479 6595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.295 MX W479 6596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.129 MX W479 6597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 6600 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6601 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.739 MX W479 6647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 6651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.778 MX W479 6668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 6669 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 6670 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 6678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.697 MX W479 6680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 6693 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 6694 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6695 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6697 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 6700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6719 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 6720 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 6721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 6725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 6726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.826 MX W479 6739 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6741 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 6772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6790 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 6791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 6792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 6813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 6814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 6815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 6816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 6819 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.689 MX W479 6824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6834 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.003 MX W479 6836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.601 MX W479 6837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 6869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 6932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6955 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6956 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.272 MX W479 6959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 6960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.192 MX W479 6961 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 6986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 7004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 7005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 7006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 7052 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 7078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 7081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 7082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 7135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 7171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 7173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 7174 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 7175 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 7177 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 More Than 999 Warning Messages Found. See ERRORFIL Output for the Remainder. *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 1 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** MODEL SETUP OPTIONS SUMMARY *** - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ** Model Options Selected: * Model Uses Regulatory DEFAULT Options * Model Is Setup For Calculation of Average CONCentration Values. * NO GAS DEPOSITION Data Provided. * NO PARTICLE DEPOSITION Data Provided. * Model Uses NO DRY DEPLETION. DDPLETE = F * Model Uses NO WET DEPLETION. WETDPLT = F * Stack-tip Downwash. * Model Accounts for ELEVated Terrain Effects. * Use Calms Processing Routine. * Use Missing Data Processing Routine. * No Exponential Decay. * Model Uses RURAL Dispersion Only. * Model Assumes No FLAGPOLE Receptor Heights. * The User Specified a Pollutant Type of: OTHER **Model Calculates 1 Short Term Average(s) of: 1-HR **This Run Includes: 5 Source(s); 1 Source Group(s); and 6628 Receptor(s) with: 3 POINT(s), including 0 POINTCAP(s) and 0 POINTHOR(s) and: 2 VOLUME source(s) and: 0 AREA type source(s) and: 0 LINE source(s) and: 0 RLINE/RLINEXT source(s) and: 0 OPENPIT source(s) and: 0 BUOYANT LINE source(s) with a total of 0 line(s) and: 0 SWPOINT source(s) **Model Set To Continue RUNning After the Setup Testing. **The AERMET Input Meteorological Data Version Date: 21112 **Output Options Selected: Model Outputs Tables of Highest Short Term Values by Receptor (RECTABLE Keyword) Model Outputs External File(s) of High Values for Plotting (PLOTFILE Keyword) Model Outputs Separate Summary File of High Ranked Values (SUMMFILE Keyword) **NOTE: The Following Flags May Appear Following CONC Values: c for Calm Hours m for Missing Hours b for Both Calm and Missing Hours **Misc. Inputs: Base Elev. for Pot. Temp. Profile (m MSL) = 1569.00 ; Decay Coef. = 0.000 ; Rot. Angle = 0.0 Emission Units = GRAMS/SEC ; Emission Rate Unit Factor = 0.10000E+07 Output Units = MICROGRAMS/M**3 **Approximate Storage Requirements of Model = 4.3 MB of RAM. **Input Runstream File: aermod.inp **Output Print File: aermod.out **File for Summary of Results: SUMMARYFILE.SUM *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 2 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** METEOROLOGICAL DAYS SELECTED FOR PROCESSING *** (1=YES; 0=NO) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOTE: METEOROLOGICAL DATA ACTUALLY PROCESSED WILL ALSO DEPEND ON WHAT IS INCLUDED IN THE DATA FILE. *** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEED CATEGORIES *** (METERS/SEC) 1.54, 3.09, 5.14, 8.23, 10.80, *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 3 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** UP TO THE FIRST 24 HOURS OF METEOROLOGICAL DATA *** Surface file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Met Version: 21112 Profile file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Surface format: FREE Profile format: FREE Surface station no.: 25720 Upper air station no.: 24127 Name: UNKNOWN Name: UNKNOWN Year: 2001 Year: 2001 First 24 hours of scalar data YR MO DY JDY HR H0 U* W* DT/DZ ZICNV ZIMCH M-O LEN Z0 BOWEN ALBEDO REF WS WD HT REF TA HT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 01 05 09 129 01 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 02 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 03 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 04 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 05 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 06 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.69 999.00 999. -9.0 999.0 -9.0 01 05 09 129 07 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.34 999.00 999. -9.0 999.0 -9.0 01 05 09 129 08 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.22 999.00 999. -9.0 999.0 -9.0 01 05 09 129 09 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.18 999.00 999. -9.0 999.0 -9.0 01 05 09 129 10 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.17 999.00 999. -9.0 999.0 -9.0 01 05 09 129 11 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 12 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 13 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 14 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 15 180.2 0.558 -9.000 -9.000 -999. 1001. -72.4 0.30 0.67 0.16 4.40 233. 10.0 300.4 2.0 01 05 09 129 16 161.8 0.513 -9.000 -9.000 -999. 886. -62.6 0.30 0.67 0.17 4.00 224. 10.0 300.8 2.0 01 05 09 129 17 113.7 0.555 -9.000 -9.000 -999. 991. -112.6 0.30 0.67 0.18 4.50 235. 10.0 300.9 2.0 01 05 09 129 18 38.7 0.569 -9.000 -9.000 -999. 1029. -355.5 0.41 0.67 0.23 4.40 240. 10.0 299.4 2.0 01 05 09 129 19 10.0 0.681 -9.000 -9.000 -999. 1345. -2357.2 0.41 0.67 0.38 5.40 260. 10.0 297.9 2.0 01 05 09 129 20 -19.2 0.430 -9.000 -9.000 -999. 743. 309.8 0.41 0.67 1.00 3.60 259. 10.0 296.0 2.0 01 05 09 129 21 -20.7 0.304 -9.000 -9.000 -999. 421. 101.7 0.41 0.67 1.00 2.80 261. 10.0 292.8 2.0 01 05 09 129 22 -14.6 0.214 -9.000 -9.000 -999. 242. 50.0 0.30 0.67 1.00 2.40 230. 10.0 291.9 2.0 01 05 09 129 23 -18.8 0.273 -9.000 -9.000 -999. 343. 81.5 0.41 0.67 1.00 2.60 245. 10.0 290.4 2.0 01 05 09 129 24 -24.2 0.350 -9.000 -9.000 -999. 498. 133.4 0.30 0.67 1.00 3.40 352. 10.0 289.6 2.0 First hour of profile data YR MO DY HR HEIGHT F WDIR WSPD AMB_TMP sigmaA sigmaW sigmaV 01 05 09 01 6.1 1 -999. -99.00 -999.0 999.0 -99.00 -99.00 F indicates top of profile (=1) or below (=0) *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 4 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** THE SUMMARY OF HIGHEST 1-HR RESULTS *** ** CONC OF OTHER IN MICROGRAMS/M**3 ** DATE NETWORK GROUP ID AVERAGE CONC (YYMMDDHH) RECEPTOR (XR, YR, ZELEV, ZHILL, ZFLAG) OF TYPE GRID-ID- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ALL HIGH 1ST HIGH VALUE IS 35.43488 ON 01070105: AT ( 429210.00, 4408682.20, 1610.61, 3635.95, 0.00) DC *** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 5 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** Message Summary : AERMOD Model Execution *** --------- Summary of Total Messages -------- A Total of 0 Fatal Error Message(s) A Total of 1184 Warning Message(s) A Total of 125 Informational Message(s) A Total of 8784 Hours Were Processed A Total of 1 Calm Hours Identified A Total of 124 Missing Hours Identified ( 1.41 Percent) ******** FATAL ERROR MESSAGES ******** *** NONE *** ******** WARNING MESSAGES ******** OU W565 13399 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE MX W403 15 PFLCNV: Turbulence data is being used w/o ADJ_U* option SigA Data MX W479 21 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 22 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 23 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 29 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.639 MX W479 45 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 46 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 47 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.672 MX W479 48 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 49 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 50 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 51 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.796 MX W479 53 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 68 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 69 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 70 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 71 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.331 MX W479 72 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 73 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.351 MX W479 92 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 93 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 94 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 96 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 98 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.823 MX W479 99 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 123 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.617 MX W479 140 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 141 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.642 MX W479 263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 264 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.137 MX W479 265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 266 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.912 MX W479 268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 337 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.615 MX W479 357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 360 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 383 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 385 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.855 MX W479 389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 390 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.084 MX W479 412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.241 MX W479 413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 460 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.015 MX W479 462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 532 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.894 MX W479 554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 577 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 578 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 579 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.005 MX W479 581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 649 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 650 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.872 MX W479 722 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.844 MX W479 748 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 749 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.349 MX W479 750 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 767 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 768 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 769 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 770 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 771 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 773 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.514 MX W479 796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 797 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.232 MX W479 815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 818 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 842 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 885 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 887 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 888 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.659 MX W479 913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.917 MX W479 916 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.927 MX W479 934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 935 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 938 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 939 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 957 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 962 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.147 MX W479 963 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.230 MX W479 964 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 987 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 989 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1008 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 1011 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 1012 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 1013 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 1014 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.066 MX W479 1036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1038 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 1055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 1058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 1059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 1060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 1061 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 1077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 1151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.808 MX W479 1153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.828 MX W479 1154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.967 MX W479 1155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 1156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 1202 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 1203 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1204 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 1205 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.028 MX W479 1206 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.830 MX W479 1220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 1221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 1223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.087 MX W479 1225 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.924 MX W479 1244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 1245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.641 MX W479 1246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 1247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.045 MX W479 1248 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.098 MX W479 1249 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 1250 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 1251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.925 MX W479 1252 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1253 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 1268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 1269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 1270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 1271 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.335 MX W479 1273 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 1274 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.317 MX W479 1275 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.383 MX W479 1276 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.950 MX W479 1295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 1296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 1317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 1318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 1323 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 1324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 1344 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 1347 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 1349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 1367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 1373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 1374 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 1444 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 1508 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 1509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 1516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 1518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1536 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 1541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.721 MX W479 1557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.792 MX W479 1560 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 1565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 1631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1633 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 1634 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 1635 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.366 MX W479 1636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 1637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 1638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1658 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 1659 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 1660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 1661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 1681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.687 MX W479 1682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 1683 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 1684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.400 MX W479 1685 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.268 MX W479 1686 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.200 MX W479 1705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.001 MX W479 1706 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1707 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.450 MX W479 1708 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.594 MX W479 1709 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.965 MX W479 1710 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.885 MX W479 1726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 1727 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1729 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 1731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1732 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.868 MX W479 1733 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1755 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1756 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 1757 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 1774 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 1775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1776 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 1777 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 1778 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 1779 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 1780 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.304 MX W479 1781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.968 MX W479 1782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 1798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 1800 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 1829 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 1844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 1845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 1847 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 1848 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1849 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 1850 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 1852 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 1853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 1918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.591 MX W479 1941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.019 MX W479 1947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 1948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 1949 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 1950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 2016 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 2017 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 2018 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 2036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 2040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2041 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 2042 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 2043 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 2070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.725 MX W479 2114 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.620 MX W479 2115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 2118 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2136 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2137 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 2138 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.905 MX W479 2139 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2143 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 2254 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 2256 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 2258 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 2259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 2260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 2280 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.169 MX W479 2283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2305 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 2326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 2350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 2351 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2352 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2353 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 2354 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 2372 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 2377 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 2378 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 2400 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.952 MX W479 2401 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 2402 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 2404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 2421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 2423 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.987 MX W479 2424 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.756 MX W479 2426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 2429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.603 MX W479 2445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 2446 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 2540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 2541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 2545 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 2547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 2550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2564 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 2565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2566 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 2570 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 2573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2575 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 2588 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 2589 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 2590 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 2591 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.988 MX W479 2592 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 2593 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 2595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.807 MX W479 2597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2616 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.261 MX W479 2619 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 2636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.737 MX W479 2637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 2638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 2639 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 2640 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 2641 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 2642 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 2646 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 2661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 2662 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 2663 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 2664 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2665 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2667 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2759 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 2761 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.609 MX W479 2763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2765 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 2766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 2791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2806 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 2807 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.969 MX W479 2812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 2813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 2814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 2832 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 2833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.156 MX W479 2835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 2854 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2855 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 2861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 2862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 2863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 2904 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 2905 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 2906 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 2907 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2952 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 2953 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 2973 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 2974 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2975 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 2976 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.753 MX W479 2977 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 2997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.910 MX W479 2999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.883 MX W479 3000 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.135 MX W479 3001 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3002 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.858 MX W479 3003 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 3006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 3026 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3054 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3095 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 3098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 3117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3121 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 3127 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 3149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3169 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3170 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.815 MX W479 3171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.803 MX W479 3192 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 3198 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 3214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 3216 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 3217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 3223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 3243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 3262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.904 MX W479 3265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.025 MX W479 3269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 3270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 3288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.938 MX W479 3289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.112 MX W479 3292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 3309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 3310 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3311 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 3319 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 3332 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.909 MX W479 3333 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.852 MX W479 3334 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 3335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 3338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 3358 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 3359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 3362 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.943 MX W479 3363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 3364 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3365 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.334 MX W479 3366 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.388 MX W479 3367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.217 MX W479 3379 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 3380 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.267 MX W479 3382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3384 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.730 MX W479 3386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.053 MX W479 3387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3388 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 3389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.954 MX W479 3403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 3404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 3405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.812 MX W479 3406 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.887 MX W479 3407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 3408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 3409 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.959 MX W479 3410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.754 MX W479 3411 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.759 MX W479 3412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 3413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 3414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.879 MX W479 3429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 3433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3434 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.821 MX W479 3435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.758 MX W479 3436 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 3455 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 3458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 3459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 3480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3481 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 3483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 3505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3524 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 3525 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 3527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 3528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 3547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 3551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 3554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 3555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 3557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.588 MX W479 3558 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 3572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 3573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 3583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 3598 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3599 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 3644 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 3696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 3718 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3788 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 3789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 3791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 3793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3794 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.841 MX W479 3799 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 3811 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.717 MX W479 3812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.716 MX W479 3813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 3823 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 3838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.834 MX W479 3839 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.941 MX W479 3840 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 3841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 3846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3858 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3859 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.387 MX W479 3860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 3862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3865 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.630 MX W479 3866 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 3868 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.058 MX W479 3869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.052 MX W479 3870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3871 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 3883 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 3886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 3909 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3910 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.692 MX W479 3911 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.797 MX W479 3912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 3913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 3918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 3931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.831 MX W479 3932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 3933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.165 MX W479 3959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 3960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 3965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3979 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 3980 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 3981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.893 MX W479 3985 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 4004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 4005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 4007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 4039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 4058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 4059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.915 MX W479 4060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 4075 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 4076 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 4078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.958 MX W479 4080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 4081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 4082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 4098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4099 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 4100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 4101 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 4111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 4132 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.622 MX W479 4133 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4147 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4148 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 4149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 4151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 4152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 4153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.907 MX W479 4154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.851 MX W479 4155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.060 MX W479 4156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 4173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 4207 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 4221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 4224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 4229 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 4246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 4251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 4269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 4270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4277 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 4296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.901 MX W479 4299 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 4300 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 4301 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 4316 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 4317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 4318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 4320 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.728 MX W479 4321 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 4324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 4341 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 4342 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 4345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4346 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 4350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 4416 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.710 MX W479 4417 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 4418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 4437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 4438 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.746 MX W479 4439 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 4459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 4463 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.632 MX W479 4471 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 4482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4484 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.094 MX W479 4485 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 4489 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4490 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.996 MX W479 4492 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 4519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 4520 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 4530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 4531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 4534 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 4581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4584 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4586 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 4602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.922 MX W479 4605 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.982 MX W479 4606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 4628 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 4630 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 4632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 4660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 4674 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 4675 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 4676 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4677 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 4678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 4680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 4681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 4698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 4699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 4700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4701 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.683 MX W479 4702 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 4705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 4724 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 4725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4820 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4821 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 4826 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 4828 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4830 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 4831 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4940 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 4941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 4942 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 4943 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4944 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.989 MX W479 4945 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 4946 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 4947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 4948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5037 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 5045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 5112 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 5113 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 5119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5120 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 5130 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 5155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 5156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 5157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 5158 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 5159 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5160 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 5193 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5231 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.033 MX W479 5232 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 5233 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 5255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5304 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 5307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 5309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 5371 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 5394 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5396 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.923 MX W479 5418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 5419 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 5420 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.670 MX W479 5421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.065 MX W479 5422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 5425 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 5426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.282 MX W479 5427 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 5428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 5430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 5431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 5451 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 5452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.162 MX W479 5453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 5454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 5495 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5497 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 5498 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 5499 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 5515 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 5516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 5519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5539 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 5541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 5542 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 5543 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 5546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5610 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 5611 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 5612 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 5613 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 5615 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 5617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 5731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.593 MX W479 5766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 5782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5783 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 5785 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 5860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 5875 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 5878 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5925 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5927 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 5928 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 5950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 5951 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 5954 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 5970 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.843 MX W479 5971 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 5981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 5982 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 5983 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 5984 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 5996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.551 MX W479 5998 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.602 MX W479 5999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 6019 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6020 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6021 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 6027 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 6028 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 6030 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6031 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 6045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 6071 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.636 MX W479 6072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 6073 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 6077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 6080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 6117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.680 MX W479 6119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 6126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 6151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 6186 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.881 MX W479 6187 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 6188 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 6213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.701 MX W479 6214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6215 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.649 MX W479 6217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6218 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 6219 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 6221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 6223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 6235 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.590 MX W479 6236 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 6237 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 6240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 6243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 6244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 6259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 6282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.684 MX W479 6283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6284 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 6285 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 6286 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6287 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 6288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 6289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6290 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6291 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 6292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 6307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6308 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 6435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 6452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6478 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6479 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.791 MX W479 6480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 6482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 6502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 6503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6504 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 6505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6507 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 6527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 6528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.598 MX W479 6529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 6530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 6531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6548 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.762 MX W479 6550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 6551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 6553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 6557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 6559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 6571 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 6572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.155 MX W479 6576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 6582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 6594 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.921 MX W479 6595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.295 MX W479 6596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.129 MX W479 6597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 6600 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6601 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.739 MX W479 6647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 6651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.778 MX W479 6668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 6669 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 6670 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 6678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.697 MX W479 6680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 6693 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 6694 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6695 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6697 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 6700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6719 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 6720 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 6721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 6725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 6726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.826 MX W479 6739 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6741 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 6772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6790 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 6791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 6792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 6813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 6814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 6815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 6816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 6819 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.689 MX W479 6824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6834 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.003 MX W479 6836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.601 MX W479 6837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 6869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 6932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6955 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6956 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.272 MX W479 6959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 6960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.192 MX W479 6961 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 6986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 7004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 7005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 7006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 7052 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 7078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 7081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 7082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 7135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 7171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 7173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 7174 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 7175 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 7177 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 7195 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.057 More Than 999 Warning Messages Found. See ERRORFIL Output for the Remainder. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants NOTICE OF INTENT Geneva Rock Products Proposed Mona, Utah Facility Geneva Rock Product Prepared By: Linda Conger Otto AhChing TRINITY CONSULTANTS 4525 South Wasatch Blvd., Suite 100 Salt Lake City, Utah 84124 October 2023 Project 224501.0094 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants i TABLE OF CONTENTS 1.0 INTRODUCTION 1-1 1.1 Facility Description ..................................................................................................... 1-1 2.0 SOURCE DESCRIPTION 2-1 2.1 Aggregate Operations ................................................................................................. 2-1 2.2 Concrete Plant ............................................................................................................ 2-1 2.3 Hot Mix Asphalt Plant ................................................................................................. 2-1 2.4 Wash Plant .................................................................................................................. 2-2 2.5 Storage Piles and Mining Area .................................................................................... 2-2 2.6 Unpaved and Paved Roads .......................................................................................... 2-2 2.7 Heavy Duty Construction Equipment .......................................................................... 2-3 2.8 Storage Tanks ............................................................................................................. 2-3 2.9 Schedule ..................................................................................................................... 2-3 3.0 AIR EMISSIONS 3-1 4.0 BEST AVAILABLE CONTROL TECHNOLOGY 4-1 4.1 BACT for Material Handling ......................................................................................... 4-1 4.1.1 BACT for PM10/PM2.5 .................................................................................................. 4-1 4.2 BACT for Concrete Plant .............................................................................................. 4-2 4.2.1 BACT for PM10/PM2.5 .................................................................................................. 4-2 4.3 BACT for Hot Mix Asphalt Plant Dryer ......................................................................... 4-2 4.3.1 BACT for NOx, VOC, CO, SO2, and HAP ....................................................................... 4-2 4.3.2 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.4 BACT for Lime Silo ....................................................................................................... 4-3 4.4.1 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.5 BACT for Loader, Bulldozer, and Haul Truck Operations ............................................. 4-3 4.5.1 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.6 BACT for Exposed or Disturbed Area ........................................................................... 4-4 4.6.1 BACT for PM10/PM2.5 .................................................................................................. 4-4 4.7 BACT for Storage Piles ................................................................................................ 4-5 4.7.1 BACT for PM10/PM2.5 ............................................................................................... 4-5 4.8 BACT from Above Ground Storage Tanks .................................................................... 4-5 4.8.1 BACT for VOC and HAPs ............................................................................................ 4-6 5.0 REGULATORY REVIEW 5-1 5.1 R307-101 General Requirements ............................................................................... 5-1 5.2 R307-102 General Requirements: Broadly Applicable Requirements ........................ 5-1 5.3 R307-107 General Requirements: Breakdowns .......................................................... 5-2 5.4 R307-130 General Penalty Policy ............................................................................... 5-2 5.5 R307-150 Emission Inventories .................................................................................. 5-3 5.6 R307-165 Stack Testing .............................................................................................. 5-4 5.7 R307-201 Emission Standards: General Emission Standards ..................................... 5-4 5.8 R307-203 Emission Standards: Sulfur Content of Fuels ............................................. 5-5 5.9 R307-205 Emission Standards: Fugitive Emissions and Fugitive Dust ....................... 5-6 5.10 R307-210 Standards of Performance for New Stationary Sources ............................. 5-7 5.11 R307-214 National Emissions Standards for Hazardous Air Pollutants ...................... 5-7 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants ii 5.12 R307-401 Permit: New and Modified Sources ............................................................ 5-8 5.13 R307-410 Permits Emissions Impact Analysis ............................................................ 5-8 6.0 DISPERSION MODELING 6-1 6.1 Dispersion Modeling Methodology .............................................................................. 6-1 6.2 Model Selection ........................................................................................................... 6-1 6.3 Meteorological Data .................................................................................................... 6-2 6.4 Treatment of Calms or Near-Calms ............................................................................. 6-2 6.5 Surface Characteristics ............................................................................................... 6-3 6.6 Regional Description ................................................................................................... 6-3 6.7 Terrain Data ................................................................................................................ 6-3 6.8 Building Downwash .................................................................................................... 6-3 6.9 Receptor Grid .............................................................................................................. 6-3 6.10 Model Options ............................................................................................................. 6-5 6.11 Source Parameters ...................................................................................................... 6-5 6.12 Background Concentrations ........................................................................................ 6-6 6.13 Near-Field Dispersion Modeling Results for PM10 ....................................................... 6-6 6.14 Near-Field Dispersion Modeling Results – Formaldehyde ........................................... 6-8 APPENDIX A. POTENTIAL TO EMIT CALCULATIONS A-1 APPENDIX B. MODELING PARAMETERS B-2 APPENDIX C. DISPERSION MODELING RESULTS C-1 LIST OF FIGURES Figure 1.1 Location of Geneva Rock Products Mona, Utah Facility 1-2 Figure 1.2 Current Aggregate and Hot Mix Asphalt Operations at Mona Site 1-2 Figure 1.3 Facility Layout and Locations of Hot Mix Asphalt, Concrete Plant, Wash Plant, and Southern Aggregate Emission Sources 1-3 Figure 1.4 Facility Layout and Locations of Aggregate Operations 1-3 Figure 6.1 Windrose for Mona, Utah (2001-2002) 6-2 Figure 6.2 GRP Mona Receptor Grid 6-4 Figure 6.3 GRP Mona 24-hour PM10 NAAQS Analysis Isopleth Plot 6-8 Figure 6.5 GRP Mona Formaldehyde Isopleth Plot 6-9 LIST OF TABLES Table 3-1 Potential to Emit Emissions from Geneva Rock Products Mona, Utah Facility 3-1 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants iii Table 4-1 Paved and Unpaved Road Control Efficiencies 4-4 Table 6-1 Dispersion Modeling Thresholds and Controlled Emission Increases 6-1 Table 6-2 Procedures Used for Estimating Lateral and Initial Vertical Dimensions for Volume and Line Sources 6-5 Table 6-3 Lindon, Utah Monthly Background Concentrations 6-6 Table 6-4 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – SIL Analysis 6-7 Table 6-5 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – NAAQS Analysis 6-7 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-1 1.0 INTRODUCTION Trinity Consultants (Trinity) was retained by Geneva Rock Products (GRP) to prepare a Notice of Intent for a new asphalt, concrete, and aggregate facility in Mona, Utah. At this facility, GRP is proposing: (1) Hot Mix Asphalt (HMA) Plant with a production limit of 500,000 tons per year (TPY); (2) a truck mix that be converted to a 12-cubic yard central mix concrete batch plant with a production limit of 300,000 cubic yards per year; (3) aggregate operations at a production rate of 1,000,000 TPY; and (4) various fuel and asphalt cement oil storage tanks. Aggregate and hot mix asphalt operations are currently being conducted at the site under a temporary permit. Any correspondence or communication regarding this NOI should be directed to: Mr. Grant Ensign Environmental Specialist Clyde Companies 730 North 1500 West Orem, Utah 84057 801-802-6954 (office) 801-633-7830 (mobile) gensign@clydeinc.com The SIC code for ready-mix concrete is 3273; 1442 for construction sand & gravel; and 2951 for asphalt paving mixtures and blocks. 1.1 Facility Description The proposed GRP Mona facility will be located approximately 1.5 miles northeast of Mona, Utah. Juab County is in attainment of the National Ambient Air Quality Standards (NAAQS) for particulate matter less than 2.5 microns (PM2.5), 8-hour ozone (O3), particulate matter less than or equal to 10 microns (PM10), carbon monoxide (CO), sulfur dioxide (SO2), and nitrogen dioxide (NO2). The Facility is considered a minor source for both criteria and hazardous air pollutants (HAPs). The Universal Transverse Mercator (UTM) coordinates of the GRP Mona facility are 429,887 meters (m) east and 4,408,585 m north at an elevation of approximately 4,060 feet. Figure 1.1 presents a Google Earth image showing the location of the Mona facility in relation to Mona, Utah. Figure 1.2 shows the location of current aggregate and hot mix asphalt operations at the site. Figures 1.3 and 1.4 present the facility layout with property boundary and proposed locations of emission sources. The red line indicates the section of the property where operations will be performed. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-2 Figure 1.1 Location of Geneva Rock Products Mona, Utah Facility Figure 1.2 Current Aggregate and Hot Mix Asphalt Operations at Mona Site Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-3 Figure 1.3 Facility Layout and Locations of Hot Mix Asphalt, Concrete Plant, Wash Plant, and Southern Aggregate Emission Sources Figure 1.4 Facility Layout and Locations of Aggregate Operations Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-1 2.0 SOURCE DESCRIPTION The following sections describe the operations and emission sources at the proposed Mona, Utah facility. 2.1 Aggregate Operations The proposed production rate of aggregate sand and gravel operations at the Mona site is 1,000,000 TPY. The proposed equipment at the site includes two (2) crushers with a feed rate of 1,000 tons per hour (TPH), two (2) crushers with a feed rate of 600 TPH, and two (2) crushers with a feed rate of 600 TPH, six (6) triple deck screens with a maximum size of 20 feet by 30 feet, 15 conveyor transfers, four (4) aggregate feeder bins, and one wash plant. On-site roads will be paved and unpaved. The active mining area is 25 acres. There will be 15 acres of stockpiles. Four (4) diesel storage tanks with a 12,000-gallon capacity each and a maximum annual throughput of 288,000 gallons will be associated with the aggregate operations. 2.2 Concrete Plant Concrete is made by combining sand, aggregate, Portland cement and/or flyash, and water. Small amounts of supplementary materials are sometimes added to reduce cost, reduce permeability by liquids, increase strength, alter color, alter concrete viscosity, retard or accelerate setting time, entrain air, or reduce water requirements. Concrete batch plants put these components together in the desired proportions. The solid components are gravity feed from bins through a weigh hopper. In a truck mix operation, as is initially proposed at Mona, the dry components are dropped into mixer trucks (in–transit mixers), water is added volumetrically, and the concrete is mixed on the way to the place where the concrete is to be used. Eventually, the truck mix plant may be converted to a 12-cubic yard central mix plant. The 150 cubic yards per hour (yd3/hr) or 300,000 cubic yards per year concrete plant will consist of: one (1) 60-ton cement supplement (flyash) silo with dust collector; two (2) 80-ton cement storage silos with dust collectors; 9.9 MMbtu hot water heater; weigh batcher; conveyors; and other miscellaneous equipment. Approximately 73,650 tons of cement and 11,000 tons of flyash be transported to the plant by truck and stored in silos adjacent to the plant. Aggregate is loaded into the plant hopper where the cement, cement supplement, aggregate, and water are loaded into concrete trucks, mixed, and transported offsite. All aggregate will be stored in enclosed storage silos that are fed from a drive over a grizzly feeder. The batch plant will be completely enclosed. 2.3 Hot Mix Asphalt Plant At the proposed Mona operation, HMA paving material will be manufactured by a drum-mix asphalt plant having a capacity of 425 TPH with a maximum of 500,000 TPY of finished asphalt. The asphalt plant consists of a drum mix dryer, a fabric filter baghouse, and a 200-ton lime silo with dust collector. Liquid asphalt is transported to the site which will be stored in storage tanks located near the asphalt plant. A 5.0 MMBtu/hr diesel-fired heater will be used to heat the asphalt oil. Processed and sized aggregate products from the Aggregate Plant will be stockpiled near the HMA Plant and are then transferred by a wheel loader into feeder bins. The feeder bins meter desired proportions of the various products onto a transfer conveyor, which transfers the combined aggregate products through a scalping screen onto a transfer conveyor. The scalping screen removes only grossly oversized aggregate particles or agglomerations which allows almost all the material to pass through it onto the transfer conveyor. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-2 The transfer conveyor transports the aggregate to a lime pugmill system which can either be used to mix the aggregate with a metered quantity of hydrated lime or that can be bypassed when not needed. A second transfer conveyor weighs the aggregate as it is conveyed from the lime pugmill system to the drum mixer. The hydrated lime is pneumatically transferred from the delivery vehicles into the lime storage silo using compressed air. The lime silo is vented to the atmosphere through a baghouse or small filter enclosure to allow the compressed air to escape while preventing discharge of hydrated lime into the atmosphere. The 150 MMBtu/hr drum mixer heats and dries the aggregate and mixes the hot aggregates and baghouse fines returned from the baghouse. The drum mixer burner will be fired with burner fuel, which is either recycled fuel oil, diesel, propane, or natural gas where recycled fuel oil (RFO) most closely resembles #5 fuel oil. The exhaust gases and airborne dust from the heating and drying process are evacuated from the drum mixer through ducting to the baghouse. The larger particles are removed from the gas stream in a knockout box and are fed with gravity through a closed system back into the recycle collar of the drum mixer. The dust that accumulates on the filter media in the baghouse is periodically removed from the filter media and conveyed through enclosed augers back to the recycle collar on the dryer drum. The HMA is discharged from the drum mixer into an enclosed drag slat conveyor that transports the mixture to the top of the storage silos where it is stored and discharged into haul vehicles. 2.4 Wash Plant Material to be processed at the Wash Plant will be conveyed from the Aggregate Plant into a feeder. The material is split by volume (50/50) onto transfer conveyors. The transfer conveyors each feed to one of four log washers where the material is washed followed by dewatering. Four (4) log washers send fine material to the washer clarifier where it is stacked as cyclone sand. The remaining material is discharged to triple deck wet screens. Material is sized by the triple-deck wet screens where material from each screen is conveyed to a different storage pile. Material that passes through the triple deck screen is conveyed to the classifier where material is discharged into two screw washers or the clarifier. The screw washers wash and dewater the material before it is stacked stockpiled. The proposed amount of material to be washed is 1,000,000 TPY. 2.5 Storage Piles and Mining Area Storage piles associated with aggregate operations, concrete and asphalt plants will occupy 15 acres. 25 acres is proposed at the Mona site for active mining operations. 2.6 Unpaved and Paved Roads Haul trucks with a capacity of 22 tons will be utilized at the Mona site for the HMA and aggregate operations. Concrete trucks will have a capacity of 29 tons with an average weight of 40.5 tons. The entire length of the road to the HMA plant will be paved, watered and vacuum swept. The first 550 feet of the road to the aggregate/wash plant/concrete plant will be paved, watered and vacuum sweeping. The remaining roads will be unpaved with low silt content road base, watered, and chemical suppressants to minimize fugitive dust emissions. The round-trip haul road distances to the HMA and Concrete Batch Plants were estimated to be 0.61 miles and 0.48 miles, respectively. The round-trip haul road distance to the Wash Plant was estimated to be 0.51 miles and the round-trip haul road distance for aggregate operations was estimated to be 1.05 miles. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-3 2.7 Heavy Duty Construction Equipment Three (3) 9-yard loaders, one for each operation (aggregate, concrete, and asphalt) will be used at the Mona site. One dozer will also be present onsite. 2.8 Storage Tanks Four (4) 12,000-gallon horizontal diesel fuel, one (1) 50,000-gallon RFO, two (2) 60,000-gallon asphalt oil, one (1) 30,000-gallon asphalt oil, one (1) 35,000-gallon asphalt oil (portable), one (1) 25,000-gallon asphalt oil (portable), one (1) 250,000-gallon asphalt oil tanks, and (1) 4,000-ton asphalt oil tank are proposed to be at the site. 2.9 Schedule Operations at the aggregate plant are proposed to be 7 days per week, and 24 hours per day, except during the winter months (December 1 - March 1) where the operations will take place between 06:00 AM – 11:00 PM only, 7 days per week. Total operation for aggregate operation is proposed to be 8,130 hours per year. Operation of the HMA, Concrete, and Wash Plants is proposed to be 7 days per week, 24 hours per day, or 8,760 hours per year. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-1 3.0 AIR EMISSIONS The Geneva Rock Products Mona facility will generate criteria, hazardous air pollutant (HAP), and greenhouse gas (GHG) emissions. Criteria pollutant emissions include PM10 and PM2.5 (particulate matter with aerodynamic diameters less than or equal to 10 micrometers and 2.5 micrometers respectively), volatile organic compounds (VOCs), nitrogen oxides (NOx), sulfur oxides (SOx), and carbon monoxide (CO). HAPs, as presented in Section 112 of the Clean Air Act, were derived for applicable sources and pollutants. Greenhouse gas (GHG) emissions will also be emitted from the combustion of fossil fuels and mass and CO2e estimates are presented in the NOI. Potential to emit (PTE) emission estimates were developed for the proposed changes at the Mona facility. These emission estimates are based on EPA guidance as published in Compilation of Air Pollution Emission Factors, Volume I: Stationary Point and Area Sources or AP-42, fuel type, material throughput, and anticipated operating hours. A summary of Mona PTE controlled emissions in tons per year is presented in Table 3-1. PTE emission calculations are presented in Appendix A. Table 3-1 Potential to Emit Emissions from Geneva Rock Products Mona, Utah Facility Pollutant Projected Facility-Wide PTE Emissions (tons/year) NOx 23.07 VOC 12.74 CO 35.49 SO2 14.60 PM10 38.77 PM2.5 5.64 CO2e 10432.6 HAPs 2.88 3.1 Aggregate Operations Fugitive emissions for aggregate operations are generally controlled by residual moisture content or by water sprays as necessary for feeders, conveyor drop points, screens, and crushers. Operations for washing aggregate have reduced fugitive emissions because the processed material is saturated. Haul vehicle traffic on unpaved roads and front-end loader operation areas are controlled by wet suppression. Ripping and dozing, feeding, stockpiling, and load-out of materials generally rely on residual moisture content for fugitive emission control. Hourly PM10 and PM2.5 emissions for feeders, conveyors, drop points, screens, and crushers were derived from AP-42, Section 11.19, Crushed Stone Processing and Pulverized Mineral Processing, August 2004, Table 11.19.2-2 and an annual throughput of 1,000,000 TPY. Crushing emissions were based on the proposed throughput of 1,000,000 TPY and 1,000 TPH for two crushers and 600 TPH for the other four crushers. PM10/PM2.5 emissions from the aggregate operations will be controlled through wet suppression. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-2 PM10/PM2.5 emissions from storage piles were based on AP-42, Section 11.9, Western Surface Coal Mining, Table 11.9-4 and 15 acres. Per the Utah Division of Air Quality (UDAQ), a 50% control factor was applied through wet suppression. Exposed area emissions were also based on AP-42, Section 11.9, Western Surface Coal Mining, and 25 acres. A PM2.5/PM10 ratio of 0.15, based on the Midwest Research Institute’s Background Document for Revisions to Fine Fraction Ratios Used for AP-42 Fugitive Emission Factors, prepared for the WRAP, was applied to determine PM2.5 emissions. Fugitive emissions from loader and conveyor operations are based on Table 11.19.2-2 and a throughput of 1,000,000 TPY and 1,000 TPH. Fugitive emissions from dozer operations are based AP-42, Section 11.9, Western Surface Coal Mining. 3.2 Concrete Plant Concrete batch plants emit particulate matter (PM) and any toxic metals contained in the particulate matter. PM emissions result from moving sand and aggregate from the piles to the feed bins, loading the sand, aggregate, and cementitious material bins and silos, and from loading the concrete trucks (in-transit mixing). Each of these activities generates PM. Most of the PM is larger than 10 microns in aerodynamic diameter. About 14% by weight of the PM is Portland cement. Concrete plant emissions were derived from emission factors presented in AP-42, Section 11.12 Concrete Batching, Table 11.12-2. Since GRP wants the option to have either a truck mix or central mix batch plant operations, emissions were based on the emission factors for truck-mix which were more conservative. Emissions were based on the projected maximum annual throughput of 300,000 cubic yards per year and 8,760 proposed operating hours. A 98% control efficiency was assumed for PM10/PM2.5 and HAP emissions since the concrete batch plant will be enclosed with all emissions controlled through a baghouse. 3.3 Asphalt Plant Criteria, HAP, and GHG emissions for the new asphalt plant were derived using equipment information provided by GRP and emission factors as found in AP-42, Section 11.1 Hot Mix Asphalt Plants. The asphalt plant is proposed to be fueled on RFO, diesel, natural gas, or propane. Emissions for the dryer were based on the emission factors found in AP-42, Section 11.1 Drum Mix, Tables 11.1-3, 11.1-4, 11.1-7, 11.1-8, and 11.1-10 based on fabric filter usage for the control device, fuel type, aggregate throughput, and hours of operation. Emissions from the dryer were estimated based on waste oil with an hourly maximum throughput of 425 tons with a maximum annual throughput of 500,000 tons per year. Particulate emissions from the dryer will be controlled using a primary collector and a baghouse. 3.4 Hot Water and Hot Oil Heaters A 9.9 MMBtu/hr hot water heater is proposed at the Concrete plant and will be fueled by diesel, propane, or natural gas. A hot oil heater rated at 5.0 MMBtu/hr and fueled by diesel will be operated at the asphalt plant. Emissions from the proposed hot water and hot oil heaters were based on AP-42, Section 1.3, Fuel Oil Combustion based on fuel type, equipment rating, amount of fuel consumed, and 8,760 operating hours. 3.5 Wash Plant Wash plant PM10/PM2.5 emissions were based on AP-42, Section 11.19.2, and a production rate of 1,000,000 TPY. As part of the normal washing process, aggregate material is fully saturated and PM10/PM2.5 emissions are assumed to be zero. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-3 3.6 Unpaved Roads PM10 and PM2.5 unpaved road emissions from increased aggregate production were based AP-42, Section 13.2.2, Unpaved Roads and an 85% control efficiency through frequent watering and chemical suppressants per UDAQ’s January 12, 2015 memo, Emission Factors for Paved and Unpaved Haul Roads. Emissions were projected based on the plant road layouts, vehicle weights, hauling capacity, and increased aggregate plant throughput. 3.7 Paved Roads PM10 and PM2.5 paved road emissions were based AP-42, Section 13.2.2, Unpaved Roads and a 95% control efficiency through frequent vacuum sweeping and watering of pavement as per UDAQ’s January 12, 2015 memo, Emission Factors for Paved and Unpaved Haul Roads. Emissions were projected based on the plant road layouts, vehicle weights, and hauling capacity. 3.8 Storage Tanks Storage tank emission calculations were based on AP-42 Section 7.1, Organic Liquid Storage Tanks June 2020. Diesel and asphalt cement will be stored in fixed roof tanks. Emissions from fixed roof tanks are caused by changes in temperature, pressure, and liquid level. Four (4) 12,000-gallon diesel storage tanks, and two (2) 25,000 gallon, one (1) 30,000 gallon, one (1) 35,000 gallon, two (2) 60,000-gallon asphalt cement oil tanks, (1) 4,000-ton asphalt cement oil tank, and one (1) 60,000-gallon RFO tank are proposed to be installed at the site. The liquid bulk temperature of the asphalt cement was assumed to be 325˚F. The VOC emissions from the proposed storage tanks were estimated to be 0.46 tons per year. VOC emissions from the proposed AC tanks will not be controlled with add-on control equipment due to the low vapor pressure of the products stored. CO emissions, based on AP-42, Section 11.1, Hot Mix Asphalt Plants from the proposed asphalt storage tanks were estimated to be 0.031 tons. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-1 4.0 BEST AVAILABLE CONTROL TECHNOLOGY Per Utah Air Rules R307-400, best available control technology (BACT) is defined as an emissions limitation (including a visible emissions standard) based on the maximum degree of reduction for each air contaminant which would be emitted from any proposed stationary source or modification which the director, on a case- by-case basis, taking into account energy, environmental, and economic impacts and other costs, determines is achievable for such source or modification through application of production processes or available methods, systems, and techniques, including fuel cleaning or treatment or innovative fuel combustion techniques for control of such pollutant. BACT analyses for the emissions from the proposed equipment at the Mona Facility are discussed in the following sections. 4.1 BACT for Material Handling Fugitive particulate (PM10/PM2.5) emissions will be emitted from the material handling processes which includes crushing, screening, conveying, and transfer of aggregate material. 4.1.1 BACT for PM10/PM2.5 Five control technologies were identified for particulate control. These are: (1) total equipment enclosure; (2) Electrostatic Precipitator (ESP); (3) Wet Scrubbers; (4) Baghouses (Fabric Filters), and (5) Wet Suppression. Cyclones were not considered. a control technology for material handling since a cyclone does not remove fine particulate matter. Total enclosure of the equipment provides the highest percentage of control at 100%; ESP’s and baghouses typically reduce PM10 and PM2.5 emissions by up to 99.9%. Wet scrubbers offer approximately 95% control and wet suppression offers approximately 75% control. Because the emissions from crushing, screening, conveying, and transfer points are fugitive in nature, wet scrubbers, ESPs, and baghouses are eliminated from the BACT analysis. ESP’s and wet scrubbers were eliminated from review since these emission control technologies are either infeasible in a temperature variable outdoor environment, due to cost, or because they are not considered effective for fugitive control for aggregate operations. Although the emissions from the crushers could be captured and vented to a baghouse (fabric filters), this option was determined to be economically infeasible due to the cost of the ducting and capture system. Wet suppression using water sprays nozzles or fog bars are effective in minimizing emissions from crushing, screening, conveying, and transfer points. The most common control technology used to control fugitive PM10 and PM2.5 is the application of water to maintain moisture throughout the material handling process and to meet the required State of Utah opacity limits. Wet suppression will be employed on the crushers, screens, and conveyor transfer points. Spray systems at transfer points have been estimated to reduce PM emissions by 70 to 95%. Factors affecting emissions from screening include the stone size distribution and the surface moisture content of the stone processed as well as the process throughput rate. The Mona facility will apply water as necessary to maintain relatively high material moisture content to effectively control PM emissions from material crushing, screening, conveying, and transfer points. The material at the wash plant will be saturated with water. Therefore, the application of water for material handling operations is considered to meet BACT. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-2 4.2 BACT for Concrete Plant Loading the sand, aggregate, flyash, and cementitious into material bins and silos cause PM emissions at the top of the bins and may best be characterized as point emission sources. Loading the concrete trucks (in- transit mixing) has properties of both fugitive and point sources. PM emissions from the concrete plant operations are in the PM10 or larger range. 4.2.1 BACT for PM10/PM2.5 The following control technologies were identified for controlling PM emissions at a concrete plant: (1) Dry material storage silos with fabric filters; (2) Aggregate storage piles and handling operations with water sprays; (3) truck filling with enclosed drop chutes; and (4) enclosure of concrete plant within structure. At the Mona facility, GRP is proposing to enclose the cement plant in a four-sided structure and capture PM emissions which will be vented to a baghouse that is at least 98% effective in removing PM10/PM2.5. Dust collectors are also proposed on all dry material storage silo vents. Drop chutes will be enclosed for truck fillings. These controls represent BACT for PM10/PM2.5 emissions from the proposed concrete plant. 4.3 BACT for Hot Mix Asphalt Plant Dryer The dryer operations are the main source of pollution at the proposed hot mix asphalt plant. Combustion emissions from the dryer include products of complete and incomplete combustion. Products of complete combustion include oxides of nitrogen (NOx) and, if sulfur is present in the fuel, sulfur dioxide (SO2) and other substances such as carbon dioxide (CO2) and water. Products of incomplete combustion include carbon monoxide (CO), volatile organic compounds (VOCs) (including benzene, toluene, and xylenes), and other organic particulate matter. The drum dryer at the Mona facility will be fired by natural gas, propane, diesel, or RFO. 4.3.1 BACT for NOx, VOC, CO, SO2, and HAP For the drum dryer, two control technologies were identified for reduction of criteria combustion and HAP emissions. These include: (1) work practice requirements of good combustion practice; and (2) use of low sulfur gaseous fuels. Incomplete combustion emissions result from improper air and fuel mixtures, such as poor mixing of fuel and air, inadequate fuel air residence time and temperature, and quenching of the burner flame. Thus, NOx, VOC, CO, and HAP emissions will be reduced by ensuring good combustion practices are utilized which include periodic dryer burner tune-up and proper burner maintenance to increase the efficiency of the burners and operation of the dryer burner in accordance with manufacturer specifications. In addition, natural gas and propane are low sulfur fuels which will be utilized on-site along with RFO and diesel. Thus, BACT for minimizing drum dryer emissions is good combustion practices and use of low sulfur fuels as much as possible. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-3 4.3.2 BACT for PM10/PM2.5 Emissions from the asphalt plant dryer also include PM10/PM2.5 from the aggregate and a small amount from fuel combustion. Several add-on technologies were identified for reduction on PM10 and PM2.5 and include: (1) Cyclones; (2) Multiple cyclones; (3) Settling chambers; (4) Fabric filter baghouses; (5) Wet gas venturi scrubbers, and (6) good combustion practices. Venturi wet gas scrubber and fabric filter baghouses are most efficient in reducing PM10/PM2.5 emissions with control efficiencies ranging from 90 - 99.5%. Multiple cyclones have a control efficiency of approximately 90%, and cyclones have a control efficiency from 50 to 75%. Settling chambers are least efficient with a control efficiency of less than 50%. For the proposed asphalt plant dryer at Mona, PM10/PM2.5 emissions will be controlled using a fabric filter baghouse with a control efficiency of 98% or greater. In addition, GRP will maintain the HMA plant in good working order and will utilize good combustion practices. All these proposed controls represent BACT for PM10/PM2.5 emissions from the proposed Mona HMA plant dryer. 4.4 BACT for Lime Silo Lime to be used in the HMA process will be stored in enclosed bins. PM10 and PM2.5 emissions are anticipated from lime handling. 4.4.1 BACT for PM10/PM2.5 The only control technology to reduce particulate emissions from lime handling was the installation and operation of fabric filters on dust collectors. Dust collectors are proposed to be utilized on the lime silos at the Mona facility. The control efficiency of fabric filters on dust collectors is 99%. This represents BACT for minimizing PM10/PM2.5 emissions from lime silos. 4.5 BACT for Loader, Bulldozer, and Haul Truck Operations Loader, bulldozer, and haul truck operations will create fugitive PM10 and PM2.5 emissions. 4.5.1 BACT for PM10/PM2.5 Three front end loaders will be used to transport and load material at the site. A bulldozer will be utilized to move and smooth overburden. The factors that affect PM10 and PM2.5 emissions include the amount and size of material being transported, moisture content of the material, and climatic/seasonal conditions. Several control technologies were identified to minimize particulate emissions from loader and dozer operations which include water application and minimizing drop distances. Other control technologies to minimize particulate emissions such as electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones are not feasible for use in such a dynamic environment as loading operations to storage piles, dozing overburden, conveyors, haul trucks, etc. Thus, electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones were determined to be technically infeasible. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-4 For unpaved areas where the loaders, bulldozers, and haul trucks will be operating, control technologies include watering, application of chemical dust suppressants, and use of a low silt content road base. The unpaved road control options, presented in Table 4-1, are ranked in order of efficiency. These efficiencies were obtained from a UDAQ January 12, 2015 Memorandum, Emission factors for Paved and Unpaved Haul Roads. Table 4-1 Paved and Unpaved Road Control Efficiencies Control Control Efficiency (%) Paved road surface with vacuum sweeping and watering 95 Paved road with sweeping and watering 90 Chemical Suppressant and Watering 85 Basic Watering and Low Silt Content Road Base 75 Basic Watering 70 Paving followed by vacuuming sweeping and water has the highest control efficiency of 95%. Paved road followed by sweeping and water has a control efficiency of 90%. Paving, however, costs on average $500,000 per mile1 which makes it economically infeasible to pave all roads on-site since road locations at the site will change due to the location of aggregate activities. The section of roadway from the entrance of the Mona facility to the HMA plant will be paved. This section of pavement will be vacuum swept and watered which represents BACT with a 95% control efficiency for paved road segments. Studies have shown that on heavily traveled unpaved roads, chemical suppression methods are as effective as watering at regular intervals. Based on information from the UDAQ, basic watering and the use of low silt content road base will reduce PM10 and PM2.5 emissions on unpaved roads by 85%. Thus, road base, chemical suppressants and water applications are proposed to be utilized at the Mona facility to suppress PM10 and PM2.5 emissions from unpaved roads which is considered BACT. 4.6 BACT for Exposed or Disturbed Area Fugitive particulate (PM10/PM2.5) emissions will be emitted from exposed or disturbed areas. 4.6.1 BACT for PM10/PM2.5 During the mining process, stripped overburden, or graded overburden from initial removal until when vegetation starts to grow has the potential to emit fugitive PM10 and PM2.5 from wind and dry climatic conditions. For exposed or disturbed areas, the following control options were identified: (1) watering exposed areas, (2) minimal disturbance of the area, and (3) planting vegetation. Watering large, exposed areas is technically not feasible in an arid climate such as GRP’s Mona facility due to the size of the exposed area, which at proposed at 25 acres. Copious amounts of water and a several water trucks would be required to maintain the exposed and disturbed areas with enough moisture to suppress fugitive dust emissions. 1 https://documents.deq.utah.gov/air-quality/pm25-serious-sip/DAQ-2018-007161.pdf Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-5 Minimally disturbing the area will minimize emissions by reducing the availability of smaller particulate matter at the surface. Planting vegetation on exposed or disturbed areas that is not quickly reclaimed can also reduce particulate emissions. According to an article published in 2016 by Phatak titled “A Detailed Look at the Cost of Hydroseeding”, the cost to hydro-seed can cost overall $3,000 per acre. For GRP to hydro-seed just 25 acres, the cost would be over $75,000 which is burdensome for the company. Thus, planting vegetation to reduce particulate emissions from exposed or disturbed areas was not considered further. The remaining control option, minimal disturbance of the area, will be employed by GRP at Mona. Minimal disturbance will help reduce fugitive particulate emissions and will give time for natural vegetation to grow which will further reduce emissions. This option is considered BACT for exposed and disturbed areas. 4.7 BACT for Storage Piles Fugitive particulate (PM10/PM2.5) emissions will be emitted from the outdoor storage piles from material loading and unloading as well as wind. 4.7.1 BACT for PM10/PM2.5 Three control options were identified for controlling PM10 and PM2.5 emissions from storage piles. They are: (1) water sprays; (2) full enclosure; and (3) partial enclosure. Full enclosure of piles, the most effective control option, is typically used at coal processing plants where the coal needs to be kept dry. These enclosures are usually for piles smaller than what is typically at aggregate operations. The Mona site will have up to 15 acres of storage piles throughout the property. It is practically not feasible at aggregate, sand, or gravel operations to enclose the piles due to cost and the dynamic nature and the location change of mining operations. Partial enclosures are easier to implement but are still costly and to maintain a required opacity limit, water sprays are still needed. In very windy areas, barriers can be installed to reduce the impact of wind on storage piles. Water systems are designed to spray storage piles. These systems are relatively inexpensive and can be modified to maintain the UDAQ required opacity limit. The DAQ assumes a 50% control efficiency of fugitive emissions when water sprays are utilized to maintain an opacity limit. This control technology is commonly implemented on storage piles. Thus, GRP will maintain water systems to reduce PM10 and PM2.5 emissions from aggregate, gravel, or sand storage piles. The use of these water spray systems is considered BACT. 4.8 BACT from Above Ground Storage Tanks VOC and HAP emissions will be emitted from above ground storage tanks. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-6 4.8.1 BACT for VOC and HAPs Four (4) horizontal diesel, seven (7) above-ground fixed roof asphalt cement oil, and one (1) RFO storage tanks are proposed at the Mona facility. Floating roof tanks are commonly used for storing crude oil, gasoline, and naphtha. Internal floating roofs are most often used for storing low flash point fuels while external floating roofs are used for medium flash point fuels. Fixed roof tanks are most often used for high flash point fuels like diesel, kerosene, jet fuel, fuel oils, and asphalt cement. There are two general types of atmospheric storage tanks: fixed roof tanks and floating roof tanks. There are three types of floating roof tanks: external floating roof, internal floating roof, and covered or domed floating roof. Emissions from storage tanks result from displacement of headspace vapor during filling operations (working losses) in the case of fixed roof or internal floating roof tanks, and from diurnal temperature and heating variations (breathing losses). Lower vapor pressure liquids such as heating oils, diesel, and kerosene are stored in fixed roof tanks. Typically, filling losses constitute 80-90% of the total losses for fixed roof tanks. Crude oils and lighter products such as gasoline are stored in floating roof tanks. Most of the emissions from floating roof tanks are due to standing losses. Compliance options for VOC emission controls on these tanks includes using a fixed roof with an internal floating roof or an external floating roof meeting certain design specification and/or using a closed-vent system and control device that meet the requirements of 40 CFR Part 60 Subpart Kb. Asphalt is produced in refinery distillation towers and solvent extraction units and is typically stored in fixed roof tanks due to its low volatility. The proposed aboveground storage tanks have the potential to create VOCs and HAPs resulting from evaporative losses during storage, filling and emptying. Two add-on control technologies as well as best management practices were identified to reduce VOC emissions from fixed roof diesel and asphalt cement tanks. These include: ► Carbon adsorption ► Incinerator ► Best Management Practices Both carbon adsorption and incineration are effective control technologies having greater 95% and 98% control efficiencies. Best management practices are considered the baseline for controlling VOC emissions from fixed roof tanks. Vapor losses from fixed roof vertical tanks are primarily due to changes in the atmospheric temperature and pressure as well as liquid level changes inside the tank. Due to the low volatility of the products to be stored, GRP is proposing fixed roof diesel, asphalt cement, and RFO storage tanks with no additional add on vapor recovery technology. The cost of a vapor control system is a function of the vapor flow rate to the system. The flow rate is controlled by the rate at which liquids are pumped into the tank. The volume of VOC vapors expected from the proposed tanks is 0.40 tons. Due to the low volatility of the products being stored, additional emission controls are not required. Thus, the only control technology identified for the fixed roof tanks is best management practices. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-7 Best management practices include regular inspection of the tanks and associated piping and reducing breathing and working losses from the tank. Breathing losses can be by minimizing the vapor space in the tank. In fixed-roof tanks, breathing losses can account for 10 to 95 percent of total annual emissions. For fixed-roof tanks, liquid level matters significantly for emission generation: the emptier the tank is, the more room there is for vapors to build up. However, it’s not until those vapors are pushed outwards with enough force to pass through the roof vent that these vapors become fugitive emissions. To prevent breathing losses, the tank head space will be reduced by operating at a full level and constant rate. Tanks that operate conservation vents at 2.5 psig or higher will often have low breathing losses, or none. Reducing the number of tank turnovers per year will reduce working loss emissions. Regular inspection of the above ground storage tank and associated piping for leaks will also reduce VOC emissions. Thus, BACT for VOC and HAPS from the diesel, asphalt cement, and RFO storage tanks is best management practices which includes regular inspection of the aboveground storage tanks and associated piping for leaks and reducing breathing and working losses from the tank. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-1 5.0 REGULATORY REVIEW The air quality regulations, codified in Title R307 of the Utah Administrative Code, which are potentially applicable to this project, are as follows: ► R307-101 - General Requirements. ► R307-102 - General Requirements: Broadly Applicable Requirements. ► R307-107 - General Requirements: Breakdowns. ► R307-130 - General Penalty Policy. ► R307-150 - Emission Inventories. ► R307-165 - Stack Testing. ► R307-201 - General Emission Standards. ► R307-203 - Emission Standards: Sulfur Content of Fuels. ► R307-205 - Emission Standards: Fugitive Emissions and Fugitive Dust. ► R307-210 - Standards of Performance for New Stationary Sources. ► R307-214 - National Emission Standards for Hazardous Pollutants. ► R307-401 - Permit: New and Modified Sources. ► R307-410 - Permits: Emissions Impact Analysis. 5.1 R307-101 General Requirements Chapter 19‐2 and the rules adopted by the Air Quality Board constitute the basis for control of air pollution sources in the state. These rules apply and will be enforced throughout the state and are recommended for adoption in local jurisdictions where environmental specialists are available to cooperate in implementing rule requirements. National Ambient Air Quality Standards (NAAQS), National Standards of Performance for New Stationary Sources (NSPS), National Prevention of Significant Deterioration of Air Quality (PSD) standards, and the National Emission Standards for Hazardous Air Pollutants (NESHAPS) apply throughout the nation and are legally enforceable in Utah. 5.2 R307-102 General Requirements: Broadly Applicable Requirements Emission of air contaminants in sufficient quantities to cause air pollution as defined in R307-101-2 is prohibited. The State statute provides for penalties up to $50,000/day for violation of State statutes, regulations, rules or standards. In addition, the owner or operator of any stationary air pollutant source in Utah shall furnish to the director the periodic reports required under Section 19-2-104(1)(c) and any other information as the director may deem necessary to determine whether the source is in compliance with Utah and Federal regulations and standards. The information thus obtained will be correlated with applicable emission standards or limitations and will be available to the public during normal business hours at the Division of Air Quality. Any person submitting information pursuant to these regulations may request that such information be treated as a trade secret or on a confidential basis, in which case the director shall so treat such information. If no claim is made at the time of submission, the director may make the information available to the public without further notice. Information required to be disclosed to the public under State or Federal law may not be requested to be kept confidential. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-2 Justification supporting claims of confidentiality shall be provided at the time of submission on the information. Each page claimed "confidential" shall be marked "confidential business information" by the applicant and the confidential information on each page shall be clearly specified. Claims of confidentiality for the name and address of applicants for an approval order will be denied. Confidential information or any other information or report received by the director shall be available to EPA upon request and the person who submitted the information shall be notified simultaneously of its release to EPA. 5.3 R307-107 General Requirements: Breakdowns The breakdown provisions of R307-107 will apply to the Mona facility operations. The owner or operator of a source shall report breakdowns to the director within 24 hours of the incident via telephone, electronic mail, fax, or other similar method. A detailed written description of the circumstance including a corrective program directed at preventing future such incidents, shall be submitted within 14 days of the onset of the incident. The breakdown incident report shall include the cause and nature of the event, estimated quantity of emissions (total and excess), time of emissions and any relevant evidence, including, but not limited to, evidence that: a) There was an equipment malfunction beyond the reasonable control of the owner or operator, b) The excess emissions could not have been avoided by better operation, maintenance or improved design of the malfunctioning component, c) To the maximum extent practicable, the source maintained and operated the air pollution control equipment and process equipment in a manner consistent with good practice for minimizing emissions, including minimizing any bypass emissions, d) Any necessary repairs were made as quickly as practicable, using off-shift labor and overtime as needed and as possible, e) All practicable steps were taken to minimize the potential impact of the excess emissions on ambient air quality, and f) The excess emissions are not part of a recurring pattern that may have been caused by inadequate operation or maintenance, or inadequate design of the malfunctioning component. The burden of proof is on the owner or operator of the source to provide sufficient information to demonstrate the elements listed above. 5.4 R307-130 General Penalty Policy This policy provides guidance to the director of the Air Quality Board in negotiating with air pollution sources penalties for consent agreements to resolve non-compliance situations. It is designed to be used to determine a reasonable and appropriate penalty for the violations based on the nature and extent of the violations, consideration of the economic benefit to the sources of non-compliance, and adjustments for specific circumstances. Violations are grouped in four general categories based on the potential for harm and the nature and extent of the violations. Penalty ranges for each category are as follows. (1) Category A. $7,000 - $10,000 per day; (2) Category B. $2,000 - $7,000 per day; (3) Category C. Up to $2,000 per day; and (4) Category D. Up to $299. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-3 The amount of the penalty within each category may be adjusted and/or suspended in part based upon the following factors: (1) Good faith efforts to comply or lack of good faith. Good faith considers the openness in dealing with the violations, promptness in correction of problems, and the degree of cooperation with the State to include accessibility to information and the amount of State effort necessary to bring the source into compliance. (2) Degree of willfulness and/or negligence. In assessing willfulness and/or negligence, factors to be considered include how much control the violator had over and the foreseeability of the events constituting the violation, whether the violator made or could have made reasonable efforts to prevent the violation, and whether the violator knew of the legal requirements which were violated. (3) History of compliance or non-compliance. History of non-compliance includes consideration of previous violations and the resource costs to the State of past and current enforcement actions. (4) Economic benefit of non-compliance. The amount of economic benefit to the source of non-compliance would be added to any penalty amount determined under this policy. (5) Inability to pay. An adjustment downward may be made, or a delayed payment schedule may be used based on a documented inability of the source to pay. 5.5 R307-150 Emission Inventories The purpose of Rule R307-150 is: (a) to establish by rule the time frame, pollutants, and information that sources must include in inventory submittals; and (b) to establish consistent reporting requirements for stationary sources in Utah to determine whether sulfur dioxide emissions remain below the sulfur dioxide milestones established in the State Implementation Plan for Regional Haze, section XX.E.1.a, incorporated by reference in Section R307-110-28. The requirements of Rule R307-150 replace any annual inventory reporting requirements in approval orders or operating permits issued prior to December 4, 2003. Emission inventories shall be submitted on or before April 15 of each year following the calendar year for which an inventory is required. The inventory shall be submitted in a format specified by the Division of Air Quality following consultation with each source. The executive secretary may require at any time a full or partial year inventory upon reasonable notice to affected sources when it is determined that the inventory is necessary to develop a state implementation plan, to assess whether there is a threat to public health or safety or the environment, or to determine whether the source is in compliance with Title R307. Each owner or operator of a stationary source subject to this rule shall maintain a copy of the emission inventory submitted to the Division of Air Quality and records indicating how the information submitted in the inventory was determined, including any calculations, data, measurements, and estimates used. The records under Section R307-150-4 shall be kept for ten years. Other records shall be kept for a period of at least five years from the due date of each inventory. The owner or operator of the stationary source shall make these records available for inspection by any representative of the Division of Air Quality during normal business hours. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-4 5.6 R307-165 Stack Testing The purpose of Rule R307-165 is to establish the requirements for stack testing. Rule R307-165 applies to each emissions unit with established emission limitations specified in approval orders issued under Rule R307- 401 or in the Utah State Implementation Plan Section IX, Part H. Rule R307-165 does not apply to opacity limitations or emissions units with emissions monitored under Rule R307-170.R307-165-2. The owner or operator of an emissions unit under Subsection R307-165-1 shall conduct stack testing at least once every five years. More frequent testing may be required as specified in an applicable federal rule, approval order, Title V permit, or State Implementation Plan. If the director has reason to believe that an applicable emission limitation is being exceeded, the owner or operator shall perform such stack testing as is necessary to determine the actual compliance status and as required by the director. The owner or operator shall conduct stack testing of an emissions unit approved under Rule R307-401 within 180 days of startup. Unless otherwise specified by federal rule, the owner or operator shall notify the director of the date, time and place of stack testing no less than 30 days, before conducting a stack test, and provide a copy of the source test protocol to the director. The source shall obtain approval of the protocol from the director prior to conducting the test. The source test protocol shall: (a) identify the reason for the test; (b) outline each proposed test methodology; (c) identify each stack to be tested; and (d) identify each procedure to be used. The owner or operator shall attend a pretest conference if determined necessary by the director. The production rate during all stack testing shall be no less than 90% of the maximum production rate achieved in the previous three years. If the desired production rate is not achieved at the time of the test, the maximum production rate shall be 110% of the tested achieved rate, but not more than the maximum allowable production rate. This new allowable maximum production rate shall remain in effect until successfully tested at a higher rate. The owner or operator shall request a higher production rate when necessary. Testing at no less than 90% of the higher rate shall be conducted. A new maximum production rate of 110% of the new rate will then be allowed if the test is successful. This process may be repeated until the maximum allowable production rate is achieved. During the stack testing, the owner or operator shall burn fuels or combinations of fuels, use raw materials, and maintain process conditions representative of normal operations of the emissions unit. The owner or operator shall operate the emissions unit under such other relevant conditions as the director shall specify. The owner or operator shall submit a written report of the results from the stack testing to the director no later than 60 days after completion of the stack testing. report shall include validated results and supporting information. The director may reject stack testing results if determined to be incomplete, inadequate, not representative of operating conditions specified for the test, or if the director was not provided an opportunity to have an observer present at the test. 5.7 R307-201 Emission Standards: General Emission Standards R307-210 establishes emission standards for all areas of the state except for sources listed in Section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. (1) Visible emissions from installations constructed on or before April 25, 1971, except diesel engines, shall be of a shade or density no darker than 40% opacity, except as otherwise provided in these rules. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-5 (2) Visible emissions from installations constructed after April 25, 1971, except diesel engines shall be of a shade or density no darker than 20% opacity, except as otherwise provided in these rules. (3) Visible emissions for all incinerators, no matter when constructed, shall be of shade or density no darker than 20% opacity. (4) No owner or operator of a gasoline powered engine or vehicle shall allow, cause or permit visible emissions. (5) Emissions from diesel engines, except locomotives, manufactured after January 1, 1973, shall be of a shade or density no darker than 20% opacity, except for starting motion no farther than 100 yards or for stationary operation not exceeding three minutes in any hour. (6) Emissions from diesel engines manufactured before January 1, 1973, shall be of a shade or density no darker than 40% opacity, except for starting motion no farther than 100 yards or for stationary operation not exceeding three minutes in any hour. (7) Visible emissions exceeding the opacity standards for short time periods as the result of initial warm-up, soot blowing, cleaning of grates, building of boiler fires, cooling, etc., caused by start-up or shutdown of a facility, installation or operation, or unavoidable combustion irregularities which do not exceed three minutes in length (unavoidable combustion irregularities which exceed three minutes in length must be handled in accordance with R307-107), shall not be deemed in violation provided that the director finds that adequate control technology has been applied. The owner or operator shall minimize visible and non-visible emissions during startup or shutdown of a facility, installation, or operation through the use of adequate control technology and proper procedures. (8) Compliance Method. Emissions shall be brought into compliance with these requirements by reduction of the total weight of pollutants discharged per unit of time rather than by dilution of emissions with clean air. (9) Opacity Observation. Opacity observations of emissions from stationary sources shall be conducted in accordance with EPA Method 9. Opacity observers of mobile sources and intermittent sources shall use procedures similar to Method 9, but the requirement for observations to be made at 15 second intervals over a 6-minute period shall not apply. 5.8 R307-203 Emission Standards: Sulfur Content of Fuels Any coal, oil, or mixture thereof, burned in any fuel burning or process installation not covered by New Source Performance Standards for sulfur emissions shall contain no more than 1.0-pound sulfur per million gross BTU heat input for any mixture of coal nor .85 pounds sulfur per million gross BTU heat input for any oil. In the case of fuel oil, it shall be sufficient to record the following specifications for each purchase of fuel oil from the vendor: weight percent sulfur, gross heating value (btu per unit volume), and density. These parameters shall be ascertained in accordance with the methods of the American Society for Testing and Materials. Records of fuel sulfur content shall be kept for all periods when the plant is in operation and shall be made available to the director upon request and shall include a period of two years ending with the date of the request. Any person may apply to the director for approval of an alternative test method, an alternative method of control, an alternative compliance period, an alternative emission limit, or an alternative monitoring schedule. The application must include a demonstration that the proposed alternative produces an equal or greater air quality benefit than that required by R307-203, or that the alternative test method is equivalent to that required by R307-203. The director shall obtain concurrence from EPA when approving an alternative test method, an alternative method of control, an alternative compliance period, an alternative emission limit, or an alternative monitoring schedule. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-6 5.9 R307-205 Emission Standards: Fugitive Emissions and Fugitive Dust R307-205 establishes minimum work practices and emission standards for sources of fugitive emissions and fugitive dust for sources located in all areas in the state except those listed in section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. R307-205 applies statewide to all sources of fugitive emissions and fugitive dust, except for agricultural or horticultural activities specified in 19-2-114(1)-(3) and any source listed in section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. Fugitive emissions from sources which were constructed on or before April 25, 1971, shall not exceed 40% opacity. Fugitive emissions from sources constructed or modified after April 25, 1971, shall not exceed 20% opacity. Storage and Handling of Materials. Any person owning, operating or maintaining a new or existing material storage, handling or hauling operation shall minimize fugitive dust from such an operation. Such control may include the use of enclosures, covers, stabilization or other equivalent methods or techniques as approved by the director. Any person engaging in clearing or leveling of land greater than one-quarter acre in size, earthmoving, excavation, or movement of trucks or construction equipment over cleared land greater than one-quarter acre in size or access haul roads shall take steps to minimize fugitive dust from such activities. Such control may include watering and chemical stabilization of potential fugitive dust sources or other equivalent methods, or techniques approved by the director. The owner or operator of any land area greater than one-quarter acre in size that has been cleared or excavated shall take measures to prevent fugitive particulate matter from becoming airborne. Such measures may include: (i) planting vegetative cover, (ii) providing synthetic cover, (iii) watering, (iv) chemical stabilization, (v) wind breaks, or (vi) other equivalent methods or techniques approved by the director. Any person engaging in demolition activities including razing homes, buildings, or other structures or removing paving material from roads or parking areas shall take steps to minimize fugitive dust from such activities. Such control may include watering and chemical stabilization or other equivalent methods, or techniques approved by the director. The director may request GRP Corporation to supply traffic count information as determined necessary to ascertain whether or not control techniques are adequate or additional controls are necessary. Any person who deposits materials that may create fugitive dust on a public or private paved road shall clean the road promptly. Fugitive dust, construction activities, and roadways associated with mining activities are regulated under the provisions of R307-205-7 and not by R307-205-5 and 6. Any person who owns or operates a mining operation shall minimize fugitive dust as an integral part of site preparation, mining activities, and reclamation operations. The fugitive dust control measures to be used may include: (a) periodic watering of unpaved roads, (b) chemical stabilization of unpaved roads, (c) paving of roads, Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-7 (d) prompt removal of coal, rock minerals, soil, and other dust-forming debris from roads and frequent scraping and compaction of unpaved roads to stabilize the road surface, (e) restricting the speed of vehicles in and around the mining operation, (f) revegetating, mulching, or otherwise stabilizing the surface of all areas adjoining roads that are a source of fugitive dust, (g) restricting the travel of vehicles on other than established road (h) enclosing, covering, watering, or otherwise treating loaded haul trucks and railroad cars, to minimize loss of material to wind and spillage, (i) substitution of conveyor systems for haul trucks and covering of conveyor systems when conveyed loads are subject to wind erosion, (j) minimizing the area of disturbed land, (k) prompt revegetation of regraded lands, (l) planting of special windbreak vegetation at critical points in the permit area, (m) control of dust from drilling, using water sprays, hoods, dust collectors or other controls approved by the director, (n) restricting the areas to be blasted at any one time, (o) reducing the period of time between initially disturbing the soil and revegetating or other surface stabilization, (p) restricting fugitive dust at spoil and coal transfer and loading points, (q) control of dust from storage piles through use of enclosures, covers, or stabilization and other equivalent methods or techniques as approved by the director, or (r) other techniques as determined necessary by the director. 5.10 R307-210 Standards of Performance for New Stationary Sources The provisions of 40 Code of Federal Regulations (CFR) Part 60, effective on July 1, 2019, except for Subparts Cb, Cc, Cd, Ce, BBBB, DDDD, and HHHH, are incorporated by reference with the exception that references in 40 CFR to "Administrator" shall mean "director" unless by federal law the authority referenced is specific to the Administrator and cannot be delegated. The New Source Performance Standards as found in 40 CFR Part 60 that the Mona operation will be subject to include Subpart A, I, and OOO. The provisions of 40 CFR Part 60 Subpart A applies to each affected facility as specified in the relevant NSPS regulation for that source type. Subpart A contains general requirements for notifications, monitoring, performance testing, reporting, recordkeeping, and operation and maintenance provisions. 40 CFR Part 60 Subpart I apply to the drum mix asphalt plant equipment and includes limits on opacity in the exhaust stream and applicable test methods to determine compliance with the opacity limit. 40 CFR Part 60 Subpart OOO applies to the crushers, screens, and conveyor transfer points at the Mona facility. Subpart OOO contains an opacity limit of 7% for screens and conveyor transfer points and 12% for crushers manufactured after April 22, 2008, or 15% for any crusher manufactured prior to April 22, 2008. 5.11 R307-214 National Emissions Standards for Hazardous Air Pollutants The provisions of Title 40 of the Code of Federal Regulations (40 CFR) Part 61, National Emission Standards for Hazardous Air Pollutants, are incorporated by reference into this rule under Section R307-101-3. The provisions of 40 CFR Part 63, National Emission Standards for Hazardous Air Pollutants (NESHAP) for Source Categories, are incorporated by reference. The applicable NESHAPs that the Mona operation will be subject to include 40 CFR Part 63, General Provisions. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-8 5.12 R307-401 Permit: New and Modified Sources This rule establishes the application and permitting requirements for new installations and modifications to existing installations in Utah. R307-401 applies to any person intending to: (a) construct a new installation which will or might reasonably be expected to become a source or an indirect source of air pollution, or (b) make modifications or relocate an existing installation which will or might reasonably be expected to increase the amount or change the effect of, or the character of, air contaminants discharged, so that such installation may be expected to become a source or indirect source of air pollution, or (c) install a control apparatus or other equipment intended to control emissions of air contaminants. Any person subject to R307-401 shall submit a notice of intent to the director and receive an approval order prior to initiation of construction, modification, or relocation. The notice of intent shall be in a format specified by the director. Within 30 days after receipt of a notice of intent, or any additional information necessary to the review, the director will advise the applicant of any deficiency in the notice of intent, or the information submitted. Within 90 days of receipt of a complete application including all the information described in R307- 401-5, the director will (a) issue an approval order for the proposed construction, installation, modification, relocation, or establishment pursuant to the requirements of R307-401-8, or issue an order prohibiting the proposed construction, installation, modification, relocation or establishment if it is deemed that any part of the proposal is inadequate to meet the applicable requirements of R307. 5.13 R307-410 Permits Emissions Impact Analysis This rule establishes the procedures and requirements for evaluating the emissions impact of new or modified sources that require an approval order under R307-401 to ensure that the source will not interfere with the attainment or maintenance of any NAAQS. The rule also establishes the procedures and requirements for evaluating the emissions impact of hazardous air pollutants. The rule also establishes the procedures for establishing an emission rate based on the good engineering practice stack height as required by 40 CFR 51.118. All estimates of ambient concentrations derived in meeting the requirements of R307 shall be based on appropriate air quality models, data bases, and other requirements specified in 40 CFR Part 51, Appendix W, Guideline on Air Quality Models, which is hereby incorporated by reference. Where an air quality model specified in the Guideline on Air Quality Models or other EPA approved guidance documents is inappropriate, the director may authorize the modification of the model or substitution of another model. In meeting the requirements of federal law, any modification or substitution will be made only with the written approval of the Administrator, EPA. Prior to receiving an approval order under R307-401, a new source in an attainment area with a total controlled emission rate per pollutant greater than or equal to amounts specified in Table 1, or a modification to an existing source located in an attainment area which increases the total controlled emission rate per pollutant of the source in an amount greater than or equal to those specified in Table 1, shall conduct air quality modeling, as identified in R307-410-3, to estimate the impact of the new or modified source on air quality unless previously performed air quality modeling for the source indicates that the addition of the proposed emissions increase would not violate a National Ambient Air Quality Standard, as determined by the Director. • sulfur dioxide - 40 tons per year • oxides of nitrogen - 40 tons per year Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-9 • PM10 - fugitive emissions 5 tons per year and fugitive dust • PM10 - non-fugitive emissions 15 tons per year or non-fugitive dust • carbon monoxide - 100 tons per year • lead - 0.6 tons per year The ambient air impact from emissions of hazardous air pollutants is also to be reviewed based on the guidance in R307-410-5. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-1 6.0 DISPERSION MODELING In support of GRP’s Mona Facility, this air quality modeling analysis was conducted in accordance with 40 CFR Part 51 Appendix W, Guideline on Air Quality Models and Utah Title R307-410. The following sections describe the methods used and results of the dispersion modeling to demonstrate compliance with applicable State of Utah Regulation. 6.1 Dispersion Modeling Methodology Per Utah Title R307-410, a new or modified source located in an attainment area which increases the total controlled emission rate per pollutant of the source above the modeling threshold, as listed in Table 6-1, is required to conduct an air quality modeling analysis. As shown in Table 6-1, PM10 is the only criteria pollutant from the Mona facility whose controlled emission rate was above the required modeling thresholds; thus, PM10 emissions were modeled, and the results of this modeling are presented in this section. Table 6-1 Dispersion Modeling Thresholds and Controlled Emission Increases Pollutant Modeling Threshold (tons/year) Controlled Emissions (tons/year) Modeling Required (Y/N) NOx 40 23.1 N CO 100 35.5 N SO2 40 14.6 N PM10 15/5a 38.8 Y PM2.5 10 5.6 N a15 tons per year for non-fugitive emissions, 5 tons per year for fugitive emissions. Utah Administrative Code (UAC) R307-410-5 presents emission threshold values (ETVs) as a HAP-specific threshold to determine if dispersion modeling will be required. The ETV is the product of the threshold limit values (TLVs) listed in the American Conference of Governmental Industrial Hygienists (ACGIH) “Threshold Limit Values for Chemical Substances and Physical Agents” handbook and an emission threshold factor (defined in Table 2 of R307-410-5) which is based on the type of release point (vertically restricted or vertically unrestricted) and the distance to ambient air. Net emissions found to be greater than the ETV are required to conduct a dispersion modeling analysis to be compared to applicable toxic screening levels (TSLs). Emission calculations for the Mona facility show that the Hazardous Air Pollutant (HAP) formaldehyde exceeds the ETV, requiring an air quality analysis to ensure the facility does not pose an unacceptable risk to public health. Dispersion modeling was conducted for formaldehyde, which is classified as a, acute/chronic HAP. 6.2 Model Selection Consistent with the procedures presented in 40 CFR Part 51 Appendix W, Guideline on Air Quality Models, dispersion modeling was performed using the latest version of the AERMOD modeling system (22112) which is an EPA approved, steady-state Eulerian, Gaussian mathematical plume model. AERMOD is composed of three modular components: AERMAP, the terrain preprocessor; AERMET, the meteorological preprocessor; and AERMOD, the control module and modeling processor. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-2 6.3 Meteorological Data Meteorological data utilized for this analysis consisted of one year (May 9, 2001 through May 9, 2002) of surface and upper-air data processed through AERMET (version 21112). Surface and upper-air observations were collected from a 50-meter tower located at the Currant Creek power plant, near Mona, Utah. Figure 6.1 presents the one-year windrose for Currant Creek, located near Mona, Utah. Figure 6.1 Windrose for Mona, Utah (2001-2002) 6.4 Treatment of Calms or Near-Calms AERMOD contains algorithms for dealing with low wind speed (near calm) conditions. The model produces concentrations for conditions when the wind speed may be less than 1 meters per second (m/s) but still greater than the instrument threshold. The threshold wind speed is typically the threshold of the instrument used to collect wind information. A threshold of 0.5 m/s was used in AERMET to define calm periods. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-3 6.5 Surface Characteristics Stage 3 of AERMET processing requires the input of surface characteristics of the area from which the surface meteorological data were collected. These surface characteristics, which are used by AERMET to determine heat fluxes and atmospheric stability, include:  Midday Albedo – fraction of solar radiation reflected at the surface  Daytime Bowen Ratio – indicator of surface moisture  Surface Roughness Length – height of obstacles to the wind flow Surface characteristics for this dataset were entered for twelve sectors on a monthly basis and were determined using AERSURFACE version 20060. This program makes use of electronic land cover, tree canopy, and impervious surface data from the U.S. Geological Survey to calculate surface characteristics for a given monitoring station. The seasonal classifications for the year followed the standard AERMET/AERSURFACE breakdown (e.g., summer = June, July, August). An AERSURFACE user has the option of choosing Bowen ratios that are tailored for dry, average, or wet conditions. Trinity compiled climatological records of precipitation totals for 1991-2020 for the Cedar City area. Any yearly total in the upper 30th-percentile of the 30-year record could be classified as “wet”. Similarly, any yearly total in the lower 30th-percentile could be classified as “dry”, and any yearly total in the middle 40th- percentile could be classified as “average”. For the modeling period, 2016 was classified as “average”, 2017, 2018, and 2020 were classified as “dry”, and 2019 was classified as “wet”. 6.6 Regional Description The Mona facility is located off Interstate 15 just west of Mona, Utah in Juab County which is attainment for all criteria pollutants. The site is in an area with complex terrain and is situated west of Mt. Nebo. 6.7 Terrain Data Receptor terrain and source elevations were derived from 1/3-arc second National Elevation Dataset (NED) data obtained from the U.S. Geological Survey. AERMAP version 18081 was the preprocessor used to determine elevations at the defined receptor and source locations. 6.8 Building Downwash The Building Profile Input Program BPIP with Plume Rise Model Enhancements (PRIME) (Version 04274) was utilized to address downwash effects. The height, width, length, and base elevation of structures associated with the Mona facility were input to BPIP-Prime to determine in each of the 36 wind directions (10-degree sectors) which buildings will produce the greatest downwash effects for each stack. 6.9 Receptor Grid A modeling domain was developed for the near-field analysis encompassing the location of the maximum modeled-predicted concentration from the Mona facility. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-4 The receptor grid developed, consisted of 6,628 receptors with 25-meter spacing around the fence line, 50- meter spacing for receptors out to 1.5 kilometers; 100-meter spacing out from 1.5 kilometer to 3 kilometer; 500-meter spacing was used from 3 to 5 kilometers, and 1,000-meter spacing out to 10 kilometers. Figure 6.2 presents the receptor grid used in the near-field analysis. Figure 6.2 GRP Mona Receptor Grid Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-5 6.10 Model Options The U.S. EPA recommends various default options to be used in dispersion modeling for regulatory purposes. The recommended regulatory default options that were used for the modeling analyses are as follows: • Calms and missing meteorological data routine, • Actual receptor elevations, • Sequential date checking, • Complex/intermediate terrain algorithms. Other selected output variables to be used in AERMOD include: • 24-hour averaging periods for PM10, • 1-hour averaging periods for Formaldehyde, • Elevated terrain, • Rural mixing heights, and concentrations. 6.11 Source Parameters Emission source parameters (location, stack height, flue exit diameter, exit velocity, exit temperature, initial vertical dimension, and initial horizontal dimension) as well as emission rates for sources located at the Mona facility were input into AERMOD to demonstrate compliance with federal and state regulations and are included in Appendix B. Paved and unpaved road segments were modeled as volume sources per the procedures found in Table 3-1 of the User’s Guide for the AMS/EPA Regulatory Model - AERMOD. These procedures are presented in Table 6-2 below. Table 6-2 Procedures Used for Estimating Lateral and Initial Vertical Dimensions for Volume and Line Sources Type of Source Procedure for Obtaining Initial Dimension Initial Lateral Dimensions (σyo) Single volume source σyo = length of side divided by 4.3 Line source represented by adjacent volume sources σyo = length of side divided by 2.15 Line source represented by separated volume sources σyo = center to center distance divided by 2.15 Initial Vertical Dimensions (σzo) Surface-based source σzo = vertical dimension of source divided by 2.15 Elevated source (he > 0) on or adjacent to a building σzo = building height divided by 2.15 Elevated source (he > 0) not on or adjacent to a building σzo = vertical dimension of source divided by 4.3 Emissions from road segments that are used by different production plants with differing operating schedules have been ratioed to account for operational emissions. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-6 6.12 Background Concentrations Background concentrations for PM10 were obtained from the Lindon monitor located in Utah County. To represent seasonal variability, monthly PM10 background concentrations were extracted using the latest monitoring data collected by UDAQ in Lindon, Utah. The monthly background concentrations were derived using the maximum 24-hour concentration observed in each month from 2019 through 2021. The maximum concentration from each year was removed from the background concentration to meet the form of the PM10 standard. The monthly values are added to the model input file and AERMOD adds the corresponding background concentration to the model-predicted concentration. Table 6-3 presents the monthly maximum concentrations by year and the monthly background concentration added to the model input file. Table 6-3 Lindon, Utah Monthly Background Concentrations Month 2019 2020 2021 Monthly Background January 53 40 53 53 February 41 36 67 67 March 25 24 41 41 April 17 37 42 42 May 20 62 58 62 June 42 73 61 73 July 34 52 61 61 August 43 90 69 90 September 32 51 61 61 October 38 68 20 68 November 53 45 47 53 December 50 65 53 65 a. Removed concentration of 100 ug/m3 on April 5, 2021 due to high winds. b. Removed concentration of 92 ug/m3 on May 7, 2021 due to high winds. 6.13 Near-Field Dispersion Modeling Results for PM10 This section presents the near-field dispersion modeling results for PM10 and the formaldehyde modeling results. The results of these analyses demonstrate that the project will not cause or contribute to exceedances of the 24-hour PM10 NAAQS or an exceedance of the TSL for formaldehyde. The results of the PM10 and formaldehyde modeling are presented in Appendix C. 6.13.1 PM10 Modeling For the PM10 modeling, two analyses, consisting of a significant impact and a cumulative or full impact NAAQS analysis, were performed. The results from each of these analyses are presented in the following sections. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-7 6.1.13.1 Significant Impact Analysis A Significant Impact Analysis (SIA) considers the impact from potential emission increases from the proposed project. Model-predicted concentrations are compared to Significant Impact Levels (SIL). If the modeled impacts of the proposed project exceed the corresponding SILs, a cumulative impact analysis is required. Table 6-4 compares the concentration impact from the project to the 24-hour PM10 SIL. Table 6-4 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – SIL Analysis Pollutant Averaging Period Modeled Impact (µg/m3) SIL (µg/m3) Percent of SIL Impact Location UTM East (m) UTM North (m) PM10 24-hour 77.4 5 1,548% 429420.40 4408284.10 6.1.13.2 Full Impact NAAQS Analysis As shown in Table 6-4, model-predicted concentrations of PM10 show emissions from the Mona Facility to be above the respective SIL. By definition, a full impact analysis is required to demonstrate the cumulative impact of emissions from the facility and nearby sources as well as background concentrations will not cause or contribute to an exceedance of the NAAQS. A significant impact area was defined for areas above the SIL. The impact area is the geographical area for which the required air quality analyses for the NAAQS are carried out. The area includes all locations where the significant increase in the potential emissions of a pollutant from the Mona facility will cause a significant ambient impact (i.e., equals or exceeds the applicable significant impact level). Trinity worked with UDAQ to identify sources located within 50 km of the SIA to be included in a cumulative impact analysis. UDAQ provided Trinity with the required modeling inputs and emissions for Kilgore Companies Mona Pit, Sunroc Mona Pit, and PacifiCorp Currant Creek were included in the cumulative or full-impact impact analysis. Table 6-5 presents the results of the NAAQS analysis which includes the maximum second-high concentration for the one-year modeling period, background concentration, and emissions from nearby full-impact sources compared to 24-hour PM10 NAAQS (150 µg/m3). The modeling results indicate that the cumulative impact of facility emissions and background concentrations at the GRP’s Mona facility are below the 24-hour PM10 NAAQS. Figure 6.3 presents a 24-hour PM10 concentration isopleth plot for the Mona facility. Appendix C presents the model output information. Table 6-5 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – NAAQS Analysis Pollutant Averaging Period Modeled Impact (µg/m3) NAAQS (µg/m3) Percent of NAAQS PM10 24-hour 146.7 150 97.8 1 High Second High, including background concentration. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-8 Figure 6.3 GRP Mona 24-hour PM10 NAAQS Analysis Isopleth Plot 6.14 Near-Field Dispersion Modeling Results – Formaldehyde Dispersion modeling was conducted for formaldehyde emissions. Table 6-6 compares the maximum model- predicted concentration to the TSL for formaldehyde, which was obtained from UDAQ’s 2023 ACGIH Excel Spreadsheet. As can be seen in Table 6-6, formaldehyde was below its respective TSL. A model concentration isopleth plot for formaldehyde is presented in Figure 6.4. AERMOD output HAP summaries are provided in Appendix C. Table 6-6 HAP Analysis Results Pollutant Averaging Period Model-Predicted Concentration (µg/m3) TSL (µg/m3) Percent of TSL Formaldehyde 1-hour 35.4 37 95.7% Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-9 Figure 6.4 GRP Mona Formaldehyde Isopleth Plot Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants A-1 APPENDIX A. POTENTIAL TO EMIT CALCULATIONS Total Annual Emissions in Tons per Year Source Name PM10 PM2.5 NOx SOX CO VOC CO2e CH4 CO2 N20 MH‐Trucks/Loaders 0.146 0.022 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ MH‐Dozer 3.060 1.682 MH‐Conveyors 0.443 0.125 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Aggregate Throughput 3.300 0.350 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Storage Piles 8.623 0.647 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Exposed Area 4.750 0.713 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ Asphalt Plant 5.750 0.725 13.75 14.50 32.50 8.00 3.00 8250.00 Asphalt Silo 0.143 0.143 0.29 3.05 0.0135 Asphalt Loadout 0.130 0.130 0.34 0.98 0.0676 Concrete Batch Plant 3.437 0.099 Roads 8.224 0.822 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ tanks 0.03 0.46 Total ‐ Fugitive 38.008 5.458 13.750 14.500 33.163 12.483 0.000 3.081 8250.000 0.000 ‐ Concrete Plant Heater 0.511 0.123 6.195 0.066 1.549 0.172 6931.8 0.07 6906.9 0.08 Hot Oil Heater Asphalt Plant 0.258 0.062 3.13 0.03 0.78 0.087 3500.9 0.03 3488.4 3500.89 Total 38.777 5.643 23.073 14.599 35.494 12.742 10432.6 3.182 18645.3 3500.968 Criteria Pollutants Greenhous Gas Emissions Total Hourly Emissions of HAPs (lb/hr) HAP Name Concrete Plant Heater Hot Oil Asphalt Heater Asphalt Plant Asphalt Silo Asphalt Loadout Concrete Batch Plant Column1 Total by Compound Benzene 1.51E‐05 7.64E‐06 1.66E‐01 1.66E‐03 1.23E‐04 1.68E‐01 Ethylbenzene 4.50E‐06 2.27E‐06 0.00E+00 1.97E‐03 6.65E‐04 2.64E‐03 Formaldehyde 2.33E‐03 1.18E‐03 1.32E+00 3.57E‐02 2.09E‐04 1.36E+00 Naphthalene 7.99E‐05 4.04E‐05 2.76E‐01 9.43E‐02 3.71E‐01 1,1,1-Trichloroethane 1.67E‐05 8.43E‐06 2.51E‐05 Toluene 4.38E‐04 2.21E‐04 1.23E+00 3.21E‐03 4.99E‐04 1.24E+00 o-Xylene 7.71E‐06 3.89E‐06 8.50E‐02 6.73E‐02 1.90E‐04 1.53E‐01 Acenaphthene 1.49E‐06 7.54E‐07 2.25E‐06 Anthracene 1.79E‐08 9.04E‐09 2.69E‐08 Benz(a)anthracene 8.63E‐08 4.36E‐08 1.30E‐07 Benzo(b,k)fluoranthene 2.84E‐07 1.43E‐07 4.27E‐07 Benzo(g,h,i)perylene 1.60E‐07 8.07E‐08 2.41E‐07 Chrysene 1.68E‐07 8.50E‐08 2.53E‐07 Dibenzo(a,h)anthracene 1.18E‐07 5.96E‐08 1.78E‐07 Fluoranthene 3.42E‐07 1.73E‐07 5.15E‐07 Fluorene 3.16E‐07 1.60E‐07 4.76E‐07 Indo(1,2,3-cd)pyrene 1.51E‐06 7.64E‐07 2.28E‐06 Phenanthrene 7.43E‐08 3.75E‐08 1.12E‐07 Pyrene 3.01E‐07 1.52E‐07 4.52E‐07 OCDD 2.19E‐10 1.11E‐10 3.30E‐10 Antimony 3.71E‐04 0.00E+00 3.71E‐04 Arsenic 9.33E‐05 1.88E‐04 6.80E‐05 3.49E‐04 Barium 1.82E‐04 4.71E‐05 2.29E‐04 Beryllium 1.97E‐06 9.18E‐05 8.25E‐06 1.02E‐04 Cadmium 2.81E‐05 9.93E‐07 3.92E‐07 2.95E‐05 Chloride 2.45E‐02 1.42E‐05 2.46E‐02 Chromium 5.98E‐05 1.24E‐02 2.27E‐04 1.27E‐02 Chromium VI 1.75E‐05 3.02E‐05 4.77E‐05 Cobalt 4.26E‐04 8.86E‐06 4.35E‐04 Copper 1.24E‐04 2.15E‐04 3.39E‐04 Fluoride 2.64E‐03 6.29E‐05 2.70E‐03 Lead 1.07E‐04 1.33E‐03 8.72E‐05 1.53E‐03 Manganese 2.12E‐04 5.39E‐05 8.96E‐04 1.16E‐03 Mercy 7.99E‐06 1.07E‐04 1.15E‐04 Moldbdenum 5.57E‐05 4.04E‐06 5.97E‐05 Nickel 5.98E‐03 2.81E‐05 3.00E‐04 6.30E‐03 Phosphorous 6.69E‐04 3.02E‐03 6.71E‐04 4.36E‐03 Selenium 4.83E‐05 3.38E‐04 7.85E‐06 3.94E‐04 Vanadium 2.25E‐03 2.44E‐05 2.27E‐03 Zinc 2.06E‐03 1.14E‐03 3.19E‐03 Acetaldehyde 1.04E‐03 5.53E‐01 5.54E‐01 Acrolein 0.00E+00 1.11E‐02 1.11E‐02 Hexane 0.00E+00 3.91E‐01 5.18E‐03 3.56E‐04 3.97E‐01 Isooctane 0.00E+00 1.70E‐02 1.61E‐05 4.27E‐07 1.70E‐02 Methyl Chloroform 0.00E+00 2.04E‐02 2.04E‐02 Bromomethane 0.00E+00 2.54E‐04 2.28E‐05 2.77E‐04 2‐Butanone 0.00E+00 2.02E‐03 1.16E‐04 2.14E‐03 Carbon disulfide 0.00E+00 8.29E‐04 3.09E‐05 8.60E‐04 Chloroethane 0.00E+00 2.07E‐04 4.99E‐06 2.12E‐04 Chloromethane 0.00E+00 1.19E‐03 3.56E‐05 1.23E‐03 Chrysene 0.00E+00 2.27E‐04 2.27E‐04 Isooctane 0.00E+00 1.61E‐05 4.27E‐07 1.65E‐05 Methylene Chloride 0.00E+00 1.40E‐05 1.40E‐05 Styrene 0.00E+00 2.80E‐04 1.73E‐05 2.97E‐04 m,p‐xylene 0.00E+00 1.04E‐02 9.73E‐04 1.13E‐02 TOTAL 0.03986 0.02013 0.99195 0.02059 0.00156 0.00226 1.07636 Total HAPs in TPY HAP Name Concrete Plant Heater Hot Oil Asphalt Heater Asphalt Plant Asphalt Silo Asphalt Loadout Concrete Batch Plant Column1 Total by Compound Benzene 6.63E‐05 3.35E‐05 9.75E‐02 9.75E‐04 5.41E‐04 9.91E‐02 Ethylbenzene 1.97E‐05 9.95E‐06 6.00E‐02 1.16E‐03 2.91E‐03 6.41E‐02 Formaldehyde 1.02E‐02 5.16E‐03 7.75E‐01 2.10E‐02 9.15E‐04 8.12E‐01 Naphthalene 3.50E‐04 1.77E‐04 1.63E‐01 5.54E‐02 2.18E‐01 1,1,1-Trichloroethane 7.31E‐05 3.69E‐05 1.10E‐04 Toluene 1.92E‐03 9.70E‐04 7.25E‐01 1.89E‐03 2.18E‐03 7.32E‐01 o-Xylene 3.38E‐05 1.71E‐05 5.00E‐02 3.96E‐02 8.32E‐04 9.05E‐02 Acenaphthene 6.54E‐06 3.30E‐06 9.84E‐06 Anthracene 7.84E‐08 3.96E‐08 1.18E‐07 Benz(a)anthracene 3.78E‐07 1.91E‐07 5.69E‐07 Benzo(b,k)fluoranthene 1.24E‐06 6.27E‐07 1.87E‐06 Benzo(g,h,i)perylene 7.00E‐07 3.54E‐07 1.05E‐06 Chrysene 7.37E‐07 3.72E‐07 1.11E‐06 Dibenzo(a,h)anthracene 5.17E‐07 2.61E‐07 7.78E‐07 Fluoranthene 1.50E‐06 7.57E‐07 2.26E‐06 Fluorene 1.38E‐06 6.99E‐07 2.08E‐06 Indo(1,2,3-cd)pyrene 6.63E‐06 3.35E‐06 9.98E‐06 Phenanthrene 3.25E‐07 1.64E‐07 4.89E‐07 Pyrene 1.32E‐06 6.65E‐07 1.98E‐06 OCDD 9.60E‐10 4.85E‐10 1.45E‐09 Antimony 1.63E‐03 8.21E‐04 2.45E‐03 Arsenic 4.09E‐04 2.06E‐04 6.80E‐05 6.83E‐04 Barium 7.96E‐04 4.02E‐04 1.20E‐03 Beryllium 8.61E‐06 4.35E‐06 8.25E‐06 2.12E‐05 Cadmium 1.23E‐04 6.23E‐05 3.92E‐07 1.86E‐04 Chloride 1.07E‐01 5.43E‐02 1.62E‐01 Chromium 2.62E‐04 1.32E‐04 2.27E‐04 6.20E‐04 Chromium VI 7.68E‐05 3.88E‐05 1.16E‐04 Cobalt 1.86E‐03 9.42E‐04 2.81E‐03 Copper 5.45E‐04 2.75E‐04 8.20E‐04 Fluoride 1.16E‐02 5.83E‐03 1.74E‐02 Lead 4.68E‐04 2.36E‐04 8.72E‐05 7.91E‐04 Manganese 9.29E‐04 4.69E‐04 8.96E‐04 2.29E‐03 Mercury 3.50E‐05 1.77E‐05 5.27E‐05 Moldbdenum 2.44E‐04 1.23E‐04 3.67E‐04 Nickel 2.62E‐02 1.32E‐02 3.00E‐04 3.97E‐02 Phosphorous 2.93E‐03 1.48E‐03 6.71E‐04 5.08E‐03 Selenium 2.12E‐04 1.07E‐04 7.85E‐06 3.26E‐04 Vanadium 9.85E‐03 4.97E‐03 1.48E‐02 Zinc 9.01E‐03 4.55E‐03 1.36E‐02 Acetaldehyde 3.25E‐01 3.25E‐01 Acrolein 6.50E‐03 6.50E‐03 Hexane 2.30E‐01 2.30E‐01 Isooctane 1.00E‐02 9.44E‐06 1.87E‐06 1.00E‐02 Methyl Chloroform 1.20E‐02 1.20E‐02 Bromomethane 1.49E‐04 9.98E‐05 2.49E‐04 2‐Butanone 1.19E‐03 5.09E‐04 1.70E‐03 Carbon disulfide 4.87E‐04 1.35E‐04 6.23E‐04 Chloroethane 1.22E‐04 2.18E‐05 1.44E‐04 Chloromethane 7.01E‐04 1.56E‐04 8.57E‐04 Chrysene 1.33E‐04 1.33E‐04 Methylene Chloride 8.23E‐06 8.23E‐06 Styrene 1.65E‐04 7.59E‐05 2.40E‐04 m,p‐xylene 6.09E‐03 4.26E‐03 1.04E‐02 TOTAL 0.18730 0.09459 2.45350 0.12916 0.01265 0.00226 2.88 Source:Concrete Plant Water Heater Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Heater:9.9 MMBtu/hr Pollutant Emission Factor (lb/mmBtu) Fuel Consumed (mmBtu/yr) Fuel Consumed (mmBtu/hr) Emission Rates (ton/yr) Emission Rates (lb/yr) Emission Rates (lb/hr)EF FC FC ER ER ER Criteria Pollutants PMCon 9.29E-03 86,724 9.9 0.4026 8.05E+02 0.0919 PMFilt 1.43E-02 86,724 9.9 0.6195 1.24E+03 0.1414 PMTot 2.36E-02 86,724 9.9 1.0221 2.04E+03 0.2334 PM10 1.18E-02 86,724 9.9 0.5111 1.02E+03 0.1167 PM2.5 2.83E-03 86,724 9.9 0.1227 2.45E+02 0.0280 SO2 1.52E-03 86,724 9.9 0.0660 1.32E+02 0.0151 NOx 1.43E-01 86,724 9.9 6.1946 1.24E+04 1.4143 CO 3.57E-02 86,724 9.9 1.5486 3.10E+03 0.3536 VOC 3.97E-03 86,724 9.9 0.1722 3.44E+02 0.0393 GHG CO2 1.6E+02 86,724 9.9 6906.9 1.38E+07 1576.9 CH4 1.54E-03 86,724 9.9 0.0669 1.34E+02 0.0153 N2O 1.86E-03 86,724 9.9 0.0805 1.61E+02 0.0184 CO2e 6,932 HAPs Benzene 1.53E-06 86,724 9.9 6.63E-05 1.33E-01 1.51E-05 Ethylbenzene 4.54E-07 86,724 9.9 1.97E-05 3.94E-02 4.50E-06 Formaldehyde 2.36E-04 86,724 9.9 1.02E-02 2.04E+01 2.33E-03 Naphthalene 8.07E-06 86,724 9.9 3.50E-04 7.00E-01 7.99E-05 1,1,1-Trichloroethane 1.69E-06 86,724 9.9 7.31E-05 1.46E-01 1.67E-05 Toluene 4.43E-05 86,724 9.9 1.92E-03 3.84E+00 4.38E-04 o-Xylene 7.79E-07 86,724 9.9 3.38E-05 6.75E-02 7.71E-06 Acenaphthene 1.51E-07 86,724 9.9 6.54E-06 1.31E-02 1.49E-06 Anthracene 1.81E-09 86,724 9.9 7.84E-08 1.57E-04 1.79E-08 Benz(a)anthracene 8.71E-09 86,724 9.9 3.78E-07 7.56E-04 8.63E-08 Benzo(b,k)fluoranthene 2.86E-08 86,724 9.9 1.24E-06 2.48E-03 2.84E-07 Benzo(g,h,i)perylene 1.61E-08 86,724 9.9 7.00E-07 1.40E-03 1.60E-07 Chrysene 1.70E-08 86,724 9.9 7.37E-07 1.47E-03 1.68E-07 Dibenzo(a,h)anthracene 1.19E-08 86,724 9.9 5.17E-07 1.03E-03 1.18E-07 Fluoranthene 3.46E-08 86,724 9.9 1.50E-06 3.00E-03 3.42E-07 Fluorene 3.19E-08 86,724 9.9 1.38E-06 2.77E-03 3.16E-07 Indo(1,2,3-cd)pyrene 1.53E-07 86,724 9.9 6.63E-06 1.33E-02 1.51E-06 Phenanthrene 7.50E-09 86,724 9.9 3.25E-07 6.50E-04 7.43E-08 Pyrene 3.04E-08 86,724 9.9 1.32E-06 2.63E-03 3.01E-07 OCDD 2.21E-11 86,724 9.9 9.60E-10 1.92E-06 2.19E-10 Metals Antimony 3.75E-05 86,724 9.9 1.63E-03 3.25E+00 3.71E-04 Arsenic 9.43E-06 86,724 9.9 4.09E-04 8.18E-01 9.33E-05 Barium 1.84E-05 86,724 9.9 7.96E-04 1.59E+00 1.82E-04 Beryllium 1.99E-07 86,724 9.9 8.61E-06 1.72E-02 1.97E-06 Cadmium 2.84E-06 86,724 9.9 1.23E-04 2.47E-01 2.81E-05 Chloride 2.48E-03 86,724 9.9 1.07E-01 2.15E+02 2.45E-02 Chromium 6.04E-06 86,724 9.9 2.62E-04 5.23E-01 5.98E-05 Chromium VI 1.77E-06 86,724 9.9 7.68E-05 1.54E-01 1.75E-05 Cobalt 4.30E-05 86,724 9.9 1.86E-03 3.73E+00 4.26E-04 Copper 1.26E-05 86,724 9.9 5.45E-04 1.09E+00 1.24E-04 Fluoride 2.66E-04 86,724 9.9 1.16E-02 2.31E+01 2.64E-03 Lead 1.08E-05 86,724 9.9 4.68E-04 9.35E-01 1.07E-04 Manganese 2.14E-05 86,724 9.9 9.29E-04 1.86E+00 2.12E-04 Mercy 8.07E-07 86,724 9.9 3.50E-05 7.00E-02 7.99E-06 Moldbdenum 5.62E-06 86,724 9.9 2.44E-04 4.88E-01 5.57E-05 Nickel 6.04E-04 86,724 9.9 2.62E-02 5.23E+01 5.98E-03 Phosphorous 6.76E-05 86,724 9.9 2.93E-03 5.86E+00 6.69E-04 Selenium 4.88E-06 86,724 9.9 2.12E-04 4.23E-01 4.83E-05 Vanadium 2.27E-04 86,724 9.9 9.85E-03 1.97E+01 2.25E-03 Zinc 2.08E-04 86,724 9.9 9.01E-03 1.80E+01 2.06E-03 Source of Data: Equations: Emission Factor: AP-42, Fifth Edition, Section 1.3, Fuel Oil Combustion Emission Rates: Table 1.3-1,2,3,9 Max Rating per Hour: Based off of Proposed Yardage Emission Rate: Calculated Assumptions: The emissions are assumed to be uncontrolled and are based on diesel GWPs are averages from EPAs Website To convert to lb/MMBtu of No.2 oil, divide by 140 MMBtu/10^3 gal Heater will be fired on diesel, Propane or natural gas. EF lb mmcf FCmmBtu yr HC Btu cf ER ton yr EF lb mmcf FCmmBtu yr HC Btu cf ER lb yr EF lb mmcf FCmmBtu hr HC Btu cf                                 1 ton 2,000 lb 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf          1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 hr 3,600 sec ER lb hr ER lb hr g lb ER g45359.sec Source:Material Handling -Trucks/Loaders Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Hourly Annual PM10 PM2.5 PM10 PM10 PM2.5 PM2.5 Source Description Throughput Throughput Emission Factor Emission Factor Emissions Emissions Emissions Emissions (TPH) (TPY) (lb/ton) (lb/ton) (lb/hr) (TPY) (lb/hr) (TPY) Asphalt Plant Loader (to hopper) 425 500,000 0.00010 0.00002 0.0425 0.025 0.006 0.0038 Aggregate Plant Loader to hopper 1,000 1,000,000 0.00010 0.00002 0.1000 0.050 0.015 0.0075 Trucks 1,000 1,000,000 0.00010 0.00002 0.1000 0.050 0.015 0.0075 Concrete Plant Trucks 420 420,000 0.00010 0.00002 0.0420 0.021 0.006 0.0032 Total 0.285 0.146 0.043 0.022 Source of Data:Equations: Emission Factor:AP‐42, Section 11.19.2 Crushed Stone Processing and Pulverized Mineral Processing, Truck Loading Crushed Stone Emission Rates: Table 11.19.2-2 Production (Aggregate/Concrete) Geneva Rock Products Emission Rate: Calculated Assumptions: PM2.5/PM10 ratio ‐ 0.15, MRI, 2006. Background Document for Revisions to Fine Fraction Ratios Used for AP‐42 Fugitive Emission Factors, prepared for the WRAP by Midwest Research Institute, Feb. 1. EF lb ton PR ton yr 1ton 2,000 lb ER ton yr         EF lb ton PR ton yr 1ton 2,000 lb ER ton yr          Source:Material Handling-Dozer Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Source Pollutant Emission Factor (lb/hr) Dozer Hours (hr/yr) Emission Rate (lb/yr) Emission Rate (TPY) Emission Rate (lb/hr) Dozer PM10 0.7528 8130 6119.94 3.06 7.53E-01 PM2.5 0.4138 8130 3364.02 1.68 4.14E-01 Assumptions: Dozer Operates 8,130 hours/year Reference: AP-42 Section 11.9 Western Surface Coal Mining-Table 11.9-1 (Bulldozing Overburden) Silt and Moisture Content-Geometric Means-Table 11.9-3 (Bulldozing Overburden) ` Equations: 𝑇𝑆𝑃 ൌ 5.7ሺ𝑠ሻଵ.ଶ ሺ𝑀ሻଵ.ଷ 𝑃𝑀ଵହ ൌ 1.0ሺ𝑠ሻଵ.ହ ሺ𝑀ሻଵ.ସ 𝑃𝑀ଵ଴ ൌ𝑃𝑀ଵହ*0.75 𝑃𝑀ଶ.ହ ൌ𝑇𝑆𝑃*0.105 Source:Material Handling-Conveyors Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 Hourly Annual PM10 PM2.5 PM10 PM10 PM2.5 PM2.5 Source Description Throughput Throughput Number of EF EF Emissions Emissions Emissions Emissions (TPH) (TPY) Drops (lb/ton) (lb/ton) (lb/hr) (TPY) (lb/hr) (TPY) Aggregate Plant Conveyors 1,000 1,000,000 15 0.000046 0.000013 0.046 0.345 0.013 0.098 Asphalt Plant Conveyors 425 500,000 6 0.000046 0.000013 0.020 0.069 0.006 0.020 Concrete Plant Conveyors 420 420,000 3 0.000046 0.000013 0.019 0.029 0.005 0.008 Total 0.085 0.443 0.024 0.125 Source of Data:Equations: Emission Factor:AP‐42, Section 11.19.2 Crushed Stone Processing and Pulverized Mineral Processing, Conveyor Transfer Point Controlled Emission Rates: Table 11.19.2-2 Production (Aggregate/Concrete) Geneva Rock Products Emission Rate: Calculated Source:Aggregate Throughput Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 Hourly Uncontrolled PM10 Uncontrolled PM2.5 Controlled PM10 Controlled PM2.5 Uncontrolled PM10 Uncontrolled PM2.5 Controlled PM10 Controlled PM2.5 Controlled PM10 Controlled PM2.5 Source Description Throughput Emission Factor Emission Factor Emission Factor Emission Factor Emissions Emissions Emissions Emissions Emissions Emissions (TPH)(lb/ton) (lb/ton) (lb/ton) (lb/ton) (TPY) (TPY) (TPY) (TPY) (lb/hr) (lb/hr) Aggregate Plant Primary crusher1 1 1,000 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.54 0.10 Primary crusher2 1 1,000 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.54 0.10 Secondary crusher 2 600 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.32 0.06 Tertiary crusher 2 600 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.32 0.06 Screen 1 1 1,500 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 1.11 0.08 Screen 2 1 1,000 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.74 0.05 Screen 3 1 1,000 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.74 0.05 Screen 4 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Screen 5 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Screen 6 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Total 30.90 4.64 3.30 0.35 5.65 0.59 Source of Data: Emission Factors: AP-42, Section 11.19.2, Table 11.19.2-2, August 2004 Equations: Emission Rates: Assumptions: PM2.5/PM10 ratio ‐ 0.15, MRI 2006 Number of Crushers EF lb ton PR ton yr 1ton 2,000 lb ER ton yr          Source:Storage Piles Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 PM10 EF PM2.5 EF Pile Size Control Efficiency Uncontrolled PM10 Emissions Uncontrolled PM2.5 Emissions Controlled PM10 Emissions Controlled PM2.5 Emissions Controlled PM10 Emissions (lb/acre-day) (lb/acre-day) Days/year (acres) (TPY) (TPY) (TPY) (TPY) (lb/hr) Storage piles 6.30 0.473 365.000 15.00 50.00 17.246 1.293 8.623 0.647 1.969 17.246 1.293 8.623 0.647 Source of Data:Equations: Emission Factor:AP‐42, Fifth Edition, Section 11.9, 10/98 Emission Rates: Western Surface Coal Mining Table 11.9-4 Pile Size Estimated from GRP Emission Rate: Calculated Assumptions: PM10/TSP ratio of 0.5 used (WRAP Fugitive Dust Handbook, Chapter 9) PM2.5/PM10 ratio of 0.075 (UDAQ) 50% Control Efficiency for Watering Stockpiles (UDAQ) Source Description Source:Exposed Area (active Mining) Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Source Description PM10 EF PM2.5 EF Exposed Area PM10 Emissions PM2.5 Emissions PM10 Emissions T/acre/yr T/acre/yr acres TPY TPY lb/hr Disturbed Ground 0.19 0.029 25.0 4.75 0.71 1.08 Source of Data:Equations: Emission Factor:AP‐42, Section 11.9 Western Surface Coal Mining Emission Rates: Table 11.9-4 Exposed Acre Size Estimated by GRP Emission Rate: Calculated Assumptions: PM2.5/PM10 raƟo ‐ 0.15, MRI, 2006. Background Document for Revisions to Fine FracƟon RaƟos Used for AP‐42FugiƟve Emission Factors, prepared for the WRAP by Midwest Research InsƟtute, Feb. 1. Emission factor obtained from AP‐42, Table 11.9‐4, for TSP. It is assumed that PM10 is 50% of TSP, so 0.38 T/acre/yr x 50% = 0.19 T/acre/yr. The emissions are assumed to be uncontrolled. Source:Asphalt Plant Hot Oil Heater Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Heater:5.0 MMBtu/hr Pollutant Emission Factor (lb/mmBtu) Fuel Consumed (mmBtu/yr) Fuel Consumed (mmBtu/hr) Emission Rates (ton/yr) Emission Rates (lb/yr) Emission Rates (lb/hr)EF FC FC ER ER ER Criteria Pollutants PMCon 9.29E-03 43,800 5.00 0.20 4.07E+02 4.64E-02 PMFilt 1.43E-02 43,800 5.00 0.31 6.26E+02 7.14E-02 PMTot 2.36E-02 43,800 5.00 0.52 1.03E+03 1.18E-01 PM10 1.18E-02 43,800 5.00 0.26 5.16E+02 5.89E-02 PM2.5 2.83E-03 43,800 5.00 0.06 1.24E+02 1.41E-02 SO2 1.52E-03 43,800 5.00 0.03 6.66E+01 7.61E-03 NOx 1.43E-01 43,800 5.00 3.13 6.26E+03 7.14E-01 CO 3.57E-02 43,800 5.00 0.78 1.56E+03 1.79E-01 VOC 3.97E-03 43,800 5.00 0.09 1.74E+02 1.99E-02 GHG CO2 1.6E+02 43,800 5.0 3,488 6.98E+06 796.4 CH4 1.54E-03 43,800 5.0 0 6.76E+01 0.0077 N2O 1.86E-03 43,800 5.0 0 8.13E+01 0.0093 CO2e 3,501 HAPs Benzene 1.53E-06 43,800 5.0 3.35E-05 6.70E-02 7.64E-06 Ethylbenzene 4.54E-07 43,800 5.0 9.95E-06 1.99E-02 2.27E-06 Formaldehyde 2.36E-04 43,800 5.0 5.16E-03 1.03E+01 1.18E-03 Naphthalene 8.07E-06 43,800 5.0 1.77E-04 3.54E-01 4.04E-05 1,1,1-Trichloroethane 1.69E-06 43,800 5.0 3.69E-05 7.38E-02 8.43E-06 Toluene 4.43E-05 43,800 5.0 9.70E-04 1.94E+00 2.21E-04 o-Xylene 7.79E-07 43,800 5.0 1.71E-05 3.41E-02 3.89E-06 Acenaphthene 1.51E-07 43,800 5.0 3.30E-06 6.60E-03 7.54E-07 Anthracene 1.81E-09 43,800 5.0 3.96E-08 7.92E-05 9.04E-09 Benz(a)anthracene 8.71E-09 43,800 5.0 1.91E-07 3.82E-04 4.36E-08 Benzo(b,k)fluoranthene 2.86E-08 43,800 5.0 6.27E-07 1.25E-03 1.43E-07 Benzo(g,h,i)perylene 1.61E-08 43,800 5.0 3.54E-07 7.07E-04 8.07E-08 Chrysene 1.70E-08 43,800 5.0 3.72E-07 7.45E-04 8.50E-08 Dibenzo(a,h)anthracene 1.19E-08 43,800 5.0 2.61E-07 5.22E-04 5.96E-08 Fluoranthene 3.46E-08 43,800 5.0 7.57E-07 1.51E-03 1.73E-07 Fluorene 3.19E-08 43,800 5.0 6.99E-07 1.40E-03 1.60E-07 Indo(1,2,3-cd)pyrene 1.53E-07 43,800 5.0 3.35E-06 6.70E-03 7.64E-07 Phenanthrene 7.50E-09 43,800 5.0 1.64E-07 3.29E-04 3.75E-08 Pyrene 3.04E-08 43,800 5.0 6.65E-07 1.33E-03 1.52E-07 OCDD 2.21E-11 43,800 5.0 4.85E-10 9.70E-07 1.11E-10 Metals Antimony 3.75E-05 43,800 5.0 8.21E-04 1.64E+00 1.88E-04 Arsenic 9.43E-06 43,800 5.0 2.06E-04 4.13E-01 4.71E-05 Barium 1.84E-05 43,800 5.0 4.02E-04 8.04E-01 9.18E-05 Beryllium 1.99E-07 43,800 5.0 4.35E-06 8.70E-03 9.93E-07 Cadmium 2.84E-06 43,800 5.0 6.23E-05 1.25E-01 1.42E-05 Chloride 2.48E-03 43,800 5.0 5.43E-02 1.09E+02 1.24E-02 Chromium 6.04E-06 43,800 5.0 1.32E-04 2.64E-01 3.02E-05 Chromium VI 1.77E-06 43,800 5.0 3.88E-05 7.76E-02 8.86E-06 Cobalt 4.30E-05 43,800 5.0 9.42E-04 1.88E+00 2.15E-04 Copper 1.26E-05 43,800 5.0 2.75E-04 5.51E-01 6.29E-05 Fluoride 2.66E-04 43,800 5.0 5.83E-03 1.17E+01 1.33E-03 Lead 1.08E-05 43,800 5.0 2.36E-04 4.72E-01 5.39E-05 Manganese 2.14E-05 43,800 5.0 4.69E-04 9.39E-01 1.07E-04 Mercy 8.07E-07 43,800 5.0 1.77E-05 3.54E-02 4.04E-06 Moldbdenum 5.62E-06 43,800 5.0 1.23E-04 2.46E-01 2.81E-05 Nickel 6.04E-04 43,800 5.0 1.32E-02 2.64E+01 3.02E-03 Phosphorous 6.76E-05 43,800 5.0 1.48E-03 2.96E+00 3.38E-04 Selenium 4.88E-06 43,800 5.0 1.07E-04 2.14E-01 2.44E-05 Vanadium 2.27E-04 43,800 5.0 4.97E-03 9.95E+00 1.14E-03 Zinc 2.08E-04 43,800 5.0 4.55E-03 9.10E+00 1.04E-03 Source of Data: Equations: Emission Factor: AP-42, Fifth Edition, Section 1.3, Fuel Oil Combustion Emission Rates: Table 1.3-1,2,3,9 Max Rating per Hour: Based off of Proposed Yardage Emission Rate: Calculated Assumptions: The emissions are assumed to be uncontrolled and fired on diesel fuel. GWPs are averages from EPAs Website To convert to lb/MMBtu of No.2 oil, divide by 140 MMBtu/10^3 gal EF lb mmcf FCmmBtu yr HCBtu cf ER ton yr EF lb mmcf FC mmBtu yr HCBtu cf ER lb yr EF lb mmcf FC mmBtu hr HCBtu cf                         1 ton 2,000 lb 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf            1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 hr 3,600 sec ER lb hr ERlb hr g lb ER g45359.sec Source:Drum Mix Asphalt Plant (Baghouse) Company:Geneva Rock Products Site:Mona Pit Reference:AP-42, Fifth Edition, Section 11.1, 3/04 Throughput:500,000 TPY Emission Controlled Emission Source Pollutant Factor Rate (lb/ton) (ton/yr) (lb/hr) Drum mix (baghouse) (waste oil)PM10 0.0230 500,000 425 5.75 9.8 PM2.5 0.0029 500,000 425 0.73 1.2 SOx 0.0580 500,000 425 14.50 24.7 NOx 0.0550 500,000 425 13.75 23.4 CO 0.1300 500,000 425 32.50 55.3 VOC 0.0320 500,000 425 8.00 13.6 33.00 500,000 425 8250.00 14,025.0 0.0120 500,000 425 3.00 5.1 Acetaldehyde 1.3E-03 500,000 425 3.25E-01 5.53E-01 Acrolein 2.6E-05 500,000 425 6.50E-03 1.11E-02 Benzene 3.9E-04 500,000 425 9.75E-02 1.66E-01 Ethylbenzene 2.4E-04 500,000 425 6.00E-02 0.00E+00 Formaldehyde 3.1E-03 500,000 425 7.75E-01 1.32E+00 Hexane 9.2E-04 500,000 425 2.30E-01 3.91E-01 Isooctane 4.0E-05 500,000 425 1.00E-02 1.70E-02 Methyl Chloroform 4.8E-05 500,000 425 1.20E-02 2.04E-02 Toluene 2.9E-03 500,000 425 7.25E-01 1.23E+00 Xylene 2.0E-04 500,000 425 5.00E-02 8.50E-02 2-Methylnaphthalene 1.7E-04 500,000 425 4.25E-02 7.23E-02 Acenapthene 1.4E-06 500,000 425 3.50E-04 5.95E-04 Acenaphthylene 2.2E-05 500,000 425 5.50E-03 9.35E-03 Anthracene 3.1E-06 500,000 425 7.75E-04 1.32E-03 Benzo(a)anthracene 2.1E-07 500,000 425 5.25E-05 8.93E-05 Benzo(a)pyrene 9.8E-09 500,000 425 2.45E-06 4.17E-06 Benzo(b)fluoranthene 1.0E-07 500,000 425 2.50E-05 4.25E-05 Benzo(e)pyrene 1.1E-07 500,000 425 2.75E-05 4.68E-05 Benzo(g,h,i)perylene 4.0E-08 500,000 425 1.00E-05 1.70E-05 Benzo(k)fluoranthene 4.1E-08 500,000 425 1.03E-05 1.74E-05 Chrysene 1.8E-07 500,000 425 4.50E-05 7.65E-05 Fluoranthene 6.1E-07 500,000 425 1.53E-04 2.59E-04 Fluorene 1.1E-05 500,000 425 2.75E-03 4.68E-03 Indeno(1,2,3-cd)pyrene 7.0E-09 500,000 425 1.75E-06 2.98E-06 Naphthalene 6.5E-04 500,000 425 1.63E-01 2.76E-01 Perylene 8.8E-09 500,000 425 2.20E-06 3.74E-06 Phenanthrene 2.3E-05 500,000 425 5.75E-03 9.78E-03 Pyrene 3.0E-06 500,000 425 7.50E-04 1.28E-03 Butane 6.7E-04 500,000 425 1.68E-01 2.85E-01 Ethylene 7.0E-03 500,000 425 1.75E+00 2.98E+00 Heptane 9.4E-03 500,000 425 2.35E+00 4.00E+00 4.0E-03 500,000 425 1.00E+00 1.70E+00 5.8E-04 500,000 425 1.45E-01 2.47E-01 1.9E-04 500,000 425 4.75E-02 8.08E-02 2.2E-03 500,000 425 5.50E-01 9.35E-01 2.1E-04 500,000 425 5.25E-02 8.93E-02 Source of Data: Emission Factor: AP-42, Fifth Edition, Section 11.1, 3/04 Hot Mix Asphalt Plants Tables 11.1-3, 11.1-4, 11.1-7, 11.1-8, 11.1-10 and 11.1-12 Production Rate (asphalt): Geneva Rock Products Assumed material is saturated Calculated Notes: Nonmetalic HAP emission factors are based on asphalt plants controlled with fabric filters. To avoid double counting emissions, the polycyclics emissions total in the table does not include naphthalene emissions Proposed Production Rate (ton/yr) Proposed Production Rate (tn/hr) n-Pentane GHG CO2 CH4 Non-PAH HAP's PAH HAP's Non-HAP organic compounds 2-Methyl-1-pentene 2-Methyl-2-butene 3-Methylpentane 1-Pentene EF lb ton PR ton yr ER ton yr EF lb ton PR ton yr ER lb yr EF lb ton PR ton hr ER lb hr ER lb hr g lb ER g                                 1 45359 ton 2,000 lb 1 hr 3,600 sec.sec Source:Hot Mix Asphalt Plant Silo Loading Company:Geneva Rock Products Site:Mona Pit Reference:Reference: AP-42, Section 11.1 Hot Mix Asphalt Plants EF (Total PM)= 0.000332 + 0.00105 (-v)E^(((0.0251)(T+460)-20.43) EF (Organic PM)= 0.00105 (-V)e^(((0.0251)(T+460)-20.43) EF (TOC) = 0.0504 (-V)e^(((0.0251)(T+460)-20.43) EF (CO)= 0.00488(-V)e^(((0.0251)(T+460)-20.43) Emission Max Proposed Pollutant Factor Throughput Throughput (lb/ton) Max (TPH) (TPY) (lb/hr) (TPY) PM10 0.00057 425 500,000 0.2439 0.14 Total PM (PM2.5)0.00057 425 500,000 0.2439 0.14 VOC 0.01219 425 500,000 5.1793 3.05 CO 0.00118 425 500,000 0.5015 0.29 Greenhouse Gas CH4 3.17E-05 425 500,000 0.0135 7.92E-03 HAPS Benzene 3.90E-06 425 500,000 0.0017 9.75E-04 Bromomethane 5.97E-07 425 500,000 0.0003 1.49E-04 2-Butanone 4.75E-06 425 500,000 0.0020 1.19E-03 Carbon disulfude 1.95E-06 425 500,000 0.0008 4.87E-04 Chloroethane 4.87E-07 425 500,000 0.0002 1.22E-04 Chloromethane 2.80E-06 425 500,000 0.0012 7.01E-04 Chrysene 5.33E-07 425 500,000 0.0002 1.33E-04 Ethylbenzene 4.63E-06 425 500,000 0.0020 1.16E-03 Formaldehyde 8.41E-05 425 500,000 0.0357 2.10E-02 n-Hexane 1.22E-05 425 500,000 0.0052 3.05E-03 Isooctane 3.78E-08 425 500,000 0.0000 9.44E-06 Methylene Chloride 3.29E-08 425 500,000 0.0000 8.23E-06 Naphthalene 2.22E-04 425 500,000 0.0943 5.54E-02 Styrene 6.58E-07 425 500,000 0.0003 1.65E-04 Toluene 7.56E-06 425 500,000 0.0032 1.89E-03 m, p-Xylene 2.44E-05 425 500,000 0.0104 6.09E-03 o-Xylene 1.58E-04 425 500,000 0.0673 3.96E-02 Emissions Source:Hot Mix Asphalt Plant Loadout Company:Geneva Rock Products Site:Mona Reference:Reference: AP-42, Section 11.1 Hot Mix Asphalt Plants EF (Total PM)= 0.000181 + 0.00141 (-v)E^(((0.0251)(T+460)-20.43) EF (Organic PM)= 0.00141 (-V)e^(((0.0251)(T+460)-20.43) EF (TOC) = 0.0172 (-V)e^(((0.0251)(T+460)-20.43) EF (CO)= 0.00558(-V)e^(((0.0251)(T+460)-20.43) Emission Proposed Average Proposed Pollutant Factor Throughput Throughput Throughput (lb/ton)Max (TPH) Avg (TPH) (TPY)(lb/hr) (TPY) PM10 0.00052 425 57 500,000 0.0298 0.13 Total PM (PM2.5)0.00052 425 57 500,000 0.0298 0.13 TOC 0.00416 425 57 500,000 0.2374 1.04 CO 0.00135 425 57 500,000 0.0770 0.34 VOC 0.00391 425 57 500,000 0.2231 0.98 Greenhouse Gas CH4 2.70E-04 425 57 500,000 0.0154 6.76E-02 HAPS Benzene 2.16E-06 425 57 500,000 0.0001 5.41E-04 Bromomethane 3.99E-07 425 57 500,000 0.0000 9.98E-05 2-Butanone 2.04E-06 425 57 500,000 0.0001 5.09E-04 Carbon Disulfide 5.41E-07 425 57 500,000 0.0000 1.35E-04 Chloroethane 8.73E-08 425 57 500,000 0.0000 2.18E-05 Chloromethane 6.24E-07 425 57 500,000 0.0000 1.56E-04 Cumene 4.57E-06 425 57 500,000 0.0003 1.14E-03 Ethylbenzene 1.16E-05 425 57 500,000 0.0007 2.91E-03 Formaldehyde 3.66E-06 425 57 500,000 0.0002 9.15E-04 n-Hexane 6.24E-06 425 57 500,000 0.0004 1.56E-03 Isooctane 7.49E-09 425 57 500,000 0.0000 1.87E-06 Styrene 3.04E-07 425 57 500,000 0.0000 7.59E-05 Tetrachloroethene 3.20E-07 425 57 500,000 0.0000 8.01E-05 Toluene 8.73E-06 425 57 500,000 0.0005 2.18E-03 Trichlorofluoromethane 5.41E-08 425 57 500,000 0.0000 1.35E-05 m, p-Xylene 1.71E-05 425 57 500,000 0.0010 4.26E-03 o-Xylene 3.33E-06 425 57 500,000 0.0002 8.32E-04 Emissions Source: Wash Plant Company: Geneva Rock Product Site: Mona Production Rate:1,000,000 TPY Assumptions: Assumed material is saturated with no PM emissions 4 log washers 24 hour per day operation Source:Concrete Batch Plant Company:Geneva Rock Products Site:Mona Pit Reference:AP-42, Section 11.12 Concrete Batching, Tables 11.12-2 and 11.12-8 Concrete Production: 300,000 yd3/yr Hours Operation: 8760 hs/yr Pollutant Percent of PM2.5 of PM10 Emission Rate (lbs/hr) Emission Total (TPY) PM10 0.785 3.4 PM2.5 29.4 0.231 1.0 HAP 0.00 0.0 Emissions: Source PM10 Emission Factor (lb/yd3) lb/hr TPY Aggregate delivery to ground storage 0.0031 0.106 0.465 Aggregate transfer to conveyor 0.0031 0.106 0.465 Aggregate transfer to elevated storage 0.0031 0.106 0.465 Sand delivery to ground storage 0.0007 0.024 0.105 Sand transfer to conveyor 0.0007 0.024 0.105 Sand transfer to elevated storage 0.0007 0.024 0.105 0.0001 0.003 0.015 0.0002 0.007 0.030 Weigh hopper loading 0.0038 0.130 0.570 Truck mix loading (controlled) 0.0074 0.254 1.112 Total 0.785 3.437 PM2.5 Emission Factor (lb/yd3) lb/hr TPY Truck mix loading (controlled) 0.0007 0.023 0.099 1 98% control efficiency for all PM2.5 going to baghouse HAP (Controlled) Emission Factor (lb/ton) Emission Factor (lb/yd3) Emission Rate (lbs/hr) Emission Total (tons/year) Arsenic 1.16E-06 4.53E-07 5.95E-01 6.80E-05 Beryllium 1.95E-07 5.50E-08 7.23E-02 8.25E-06 Cadmium 9.26E-09 2.61E-09 3.43E-03 3.92E-07 Chromium 5.35E-06 1.51E-06 1.98E+00 2.27E-04 Lead 2.06E-06 5.81E-07 7.63E-01 8.72E-05 Manganese 2.12E-05 5.97E-06 7.84E+00 8.96E-04 Nickel 7.10E-06 2.00E-06 2.63E+00 3.00E-04 Phosphorus 1.58E-05 4.47E-06 5.87E+00 6.71E-04 Selenium 1.85E-07 5.23E-08 6.87E-02 7.85E-06 Assumptions: Wind speed assumed to be 6 mph at material drop point and a 4% mositure content PM2.5 Emissions Truck Mix/Central Mix PM10 Emissions Cement supplement unloading to elevated silo (controlled) Cement unloading to elevated silo (controlled) Source Truck Mix/Central Mix Roads Geneva Rock Products Mona Pit 10/27/2023 PM10 Emission Factor => E = k * (s/12)a * (W/3)b PM2.5 Emission Factor => E = k * (s/12)a * (W/3)b Annual PM10 Emission Factor => E = k * (s/12)a * (W/3)b *[(365‐P)/365] Annual PM2.5 Emission Factor => E = k * (s/12)a * (W/3)b *[(365‐P)/365] Where E = Emission factor (pounds per VMT) k, a, b = constants (AP‐42, Section 13.2.2 Unpaved Roads Table 13.2.2‐2) s = surface material silt content = 4.8 CF = Control Factor = 85% 90% 95% PM10 & PM2.5 a = 0.9 PM10 & PM2.5 b = 0.45 P = 89 Vehicle 24‐Hour Annual 24‐Hour Annual 24‐hour Annual Uncontrolled Controlled Uncontrolled Controlled Uncontrolled Controlled Uncontrolled Controlled Source Description PM10 PM2.5 Silt Content Weight Mean Speed PM10 EF PM10 EF PM2.5 EF PM2.5 EF 24‐hour PM10 24‐hour PM10 24‐hour PM10 24‐hour PM10 24‐hour PM2.5 24‐hour PM2.5 24‐hour PM2.5 24‐hour PM2.5 k k (%) (ton) (mph) (lb/VMT) (lb/VMT) (lb/VMT) (lb/VMT) VMT/hr VMT/yr lb/hr lb/hr tn/yr tn/yr lb/hr lb/hr tn/yr tn/yr RMC‐Trucks ‐ Unpaved 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.45 3,977.3 0.96 0.14 4.22 0.633 0.10 0.014 0.422 0.063 RMC‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 RMC‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.34 3,017.2 0.73 0.04 3.20 0.160 0.07 0.004 0.320 0.016 Aggregate‐Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 4.69 38,094.0 7.78 1.17 31.63 4.744 0.78 0.117 3.163 0.474 Aggregate‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 Aggregate‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.16 9,469.7 1.93 0.10 7.86 0.393 0.19 0.010 0.786 0.039 HMA ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 HMA ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.57 13,774.1 2.61 0.13 11.44 0.572 0.26 0.013 1.144 0.057 Wash Plant ‐ Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.58 13,860.2 2.63 0.39 11.51 1.726 0.26 0.039 1.151 0.173 Wash Plant ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 Wash Plant ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 1.79 0.09 7.86 0.393 0.18 0.009 0.786 0.039 RMC‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.24 2,062.3 0.42 0.06 1.84 0.275 0.04 0.006 0.184 0.028 Aggregate‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 1.38 11,223.3 2.46 0.37 9.99 1.499 0.25 0.037 0.999 0.150 HMA‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.40 3,507.3 0.71 0.11 3.12 0.468 0.07 0.011 0.312 0.047 Total 22.031 2.598 92.662 10.863 2.203 0.260 9.266 1.086 Vehicle 24‐Hour Annual 24‐Hour Annual 24‐hour Annual Uncontrolled Controlled Uncontrolled Controlled Source Description PM10 PM2.5 Silt Content Weight Mean Speed PM10 EF PM10 EF PM2.5 EF PM2.5 EF Annual PM10 Annual PM10 Annual PM2.5 Annual PM2.5 k k (%) (ton) (mph) (lb/VMT) (lb/VMT) (lb/VMT) (lb/VMT) VMT/hr VMT/yr tn/yr tn/yr tn/yr tn/yr RMC‐Trucks ‐ Unpaved 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.45 3,977.3 3.194 0.479 0.319 0.048 RMC‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.00 0.0 0.000 0.000 0.000 0.000 RMC‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.34 3,017.2 2.423 0.121 0.242 0.012 Aggregate‐Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 4.69 38,094.0 23.944 3.592 2.394 0.359 Aggregate‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 Aggregate‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.16 9,469.7 5.952 0.298 0.595 0.030 HMA ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 HMA ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.57 13,774.1 8.658 0.433 0.866 0.043 Wash Plant ‐ Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.58 13,860.2 8.712 1.307 0.871 0.131 Wash Plant ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 Wash Plant ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 5.952 0.298 0.595 0.030 RMC‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.24 2,062.3 1.390 0.209 0.139 0.021 Aggregate‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 1.38 11,223.3 7.565 1.135 0.757 0.113 HMA‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.40 3,507.3 2.364 0.355 0.236 0.035 Total 70.153 8.224 7.015 0.822 Notes: 85% control ‐ Unpaved w/ watering & chemical suppressant RMC Unpaved Road Length 0.275 miles round trip Aggs Unpaved Road Length 0.838 miles round trip HMA Unpaved Road Length 0.000 miles round trip Wash Plant Unpaved Road Length 0.305 miles round trip RMC Loader travel distance 0.066 miles round trip Aggs Loader travel distance 0.152 miles round trip HMA Loader travel distance 0.095 miles round trip 95% control ‐ Paved w/ Watering & Vacuuming RMC Paved Road Length 0.208 miles round trip Aggs Paved Road Length 0.208 miles round trip HMA Paved Road Length 0.606 miles round trip Wash Plant Paved Road Length 0.208 miles round trip Vehicle weights Empty Capacity Average Weight Throughput Trips/yr Trips/Day Trips/hr Operating Hours RMC‐Trucks 26 29 40.5 420,000 14,482.8 39.7 1.65 8760 Aggregate‐Trucks 12.5 22 23.5 1,000,000 45,454.5 134.1 5.59 8130 HMA ‐ Trucks 12.5 22 23.5 500,000 22,727.3 62.3 2.59 8760 Wash Plant ‐ Trucks 12.5 22 23.5 1,000,000 45,454.5 124.5 5.19 8760 RMC‐Loaders 20.7 13.5 27.5 420,000 31,111.1 85.2 3.55 8760 Aggregate‐Loaders 20.7 13.5 27.5 1,000,000 74,074.1 218.5 9.11 8130 HMA‐Loaders 20.7 13.5 27.5 500,000 37,037.0 101.5 4.23 8760 Source of Data: Emission Factor:AP‐42, Section 13.2.2 Unpaved Roads Road Lengths Estimated from Aerial Photography Emission Rate: Calculated Assumptions: Precipitation Days‐NOAA Global Summary of the Year Station Details, Calculated average for last 6 years Silt Content % Table 13.2.2‐1 Sand and Gravel Processing Plant Road Tanks Geneva Rock Products Mona Pit 10/20/2022 VOC actual emissionVOC potential emissions CO Emissions (tons/year) (tons/year) (tons/year) Horizontal tank 1 0.0239 0.0258 4‐12,000 gallon diesel storage tanks Horizontal tank 2 0.0399 0.0474 0.0046 25,000 gallon asphalt cement oil tank Horizontal tank 3 0.0525 0.0629 0.0061 35,000 gallon asphalt cement oil tank Horizontal tank 4 0.1501 0.1857 0.0180 2‐ 60,000 gallon asphalt cement oil tanks Vertical tank 1 0.005 0.006 0.0006 30,000 gallon asphalt cement oil tank Vertical tank 2 0.014 0.015 0.0015 250,000 gallon asphalt cement oil tank Vertical tank 3 0.041 0.052 60,000 gallon RFO tank Vertical tank 4 0.061 0.064 4,000 ton asphalt cement oil tank Total 0.387 0.459 0.031 Assumptions: For asphalt cement, CO Emissions are equal to 0.097 x VOC emissions based on AP-42, Setion 11.1. Section 4.4.5 Tank identification Description Location (city) Value Units Fuel type Diesel select one Storage tank position Above select one Actual throughput 1,152,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 1,497,600 gal/yr VOC actual emissions 0.0060 ton/yr VOC potential emissions 0.0064 ton/yr Physical properties of the tank Property Value Units Shell length HS 32 feet Shell diameter D 8 feet Shell effective height HE 6.28 feet Shell effective diameter DE 18.05 feet Shell radius RS 4 feet Working volume 12031.5 gallons Turnovers per year (actual)N 95.7 dimensionless Turnovers per year (potential)N 124.5 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) VOC emissions from horizontal tank #1 Enter tank specific information in all blue cells. Property Tank information Mona, UT 12000 gallon diesel storage tanks Tanks 1 - 4 p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 11.95 lb/yr Total losses (VOC potential emissions) LT 12.89 lb/yr Standing storage losses LS 1.55 lb/yr Working losses (actual)LW 10.40 lb/yr Working losses (potential)LW 11.34 lb/yr Annual net throughput (actual) Q 27428.57 bbl/yr Annual net throughput (potential) Q 35657.14 bbl/yr Working loss turnover factor (actual)KN 0.48 dimensionless Working loss turnover factor (potential)KN 0.41 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.006 psia Vapor space volume VV 804.25 ft3 Vapor space tank outage HVO 3.14 feet Vapor space expansion factor KE 0.038 dimensionless Vented vapor saturation factor KS 1.00 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 516.67 °R Daily average liquid surface temperature TLA 515.55 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 514.18 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 12.101 dimensionless Vapor pressure equation constant B 8907 °R Vapor pressure at TLX PVX 0.0068 psia Vapor pressure at TLN PVN 0.0047 psia Maximum TLA TLX 521.03 °R Minimum TLA TLN 510.07 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 124,269 gal/yr Actual hours operated 8760 hours/year Potential throughput 161,550 gal/yr VOC actual emissions 0.04 ton/yr VOC potential emissions 0.05 ton/yr Physical properties of the tank Property Value Units Shell length HS 54 feet Shell diameter D 11 feet Shell effective height HE 8.64 feet Shell effective diameter DE 27.50 feet Shell radius RS 5.5 feet Working volume 38385.8 gallons Turnovers per year (actual)N 3.2 dimensionless Turnovers per year (potential)N 4.2 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Mona, Utah VOC emissions from horizontal tank #2 Enter tank specific information in all blue cells. Tank information Tank 2 25,000 gallon portable asphalt cement oil Property p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 79.78 lb/yr Total losses (VOC potential emissions) LT 94.71 lb/yr Standing storage losses LS 49.06 lb/yr Working losses (actual)LW 30.72 lb/yr Working losses (potential)LW 45.65 lb/yr Annual net throughput (actual) Q 2958.79 bbl/yr Annual net throughput (potential) Q 3846.43 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 2565.90 ft3 Vapor space tank outage HVO 4.32 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 173,231 gal/yr Actual hours operated 8760 hours/year Potential throughput 225,200 gal/yr VOC actual emissions 0.05 ton/yr VOC potential emissions 0.06 ton/yr Physical properties of the tank Property Value Units Shell length HS 65.5 feet Shell diameter D 11.25 feet Shell effective height HE 8.84 feet Shell effective diameter DE 30.63 feet Shell radius RS 5.625 feet Working volume 48701.0 gallons Turnovers per year (actual)N 3.6 dimensionless Turnovers per year (potential)N 4.6 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Mona, UT VOC emissions from horizontal tank #3 Enter tank specific information in all blue cells. Tank information Tank 3 35,000 asphalt cement oil Property p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 105.04 lb/yr Total losses (VOC potential emissions) LT 125.85 lb/yr Standing storage losses LS 62.21 lb/yr Working losses (actual)LW 42.83 lb/yr Working losses (potential)LW 63.64 lb/yr Annual net throughput (actual) Q 4124.55 bbl/yr Annual net throughput (potential) Q 5361.91 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 3255.41 ft3 Vapor space tank outage HVO 4.42 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 297,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 386,100 gal/yr VOC actual emissions 0.08 ton/yr VOC potential emissions 0.09 ton/yr Physical properties of the tank Property Value Units Shell length HS 71 feet Shell diameter D 12 feet Shell effective height HE 9.42 feet Shell effective diameter DE 32.94 feet Shell radius RS 6 feet Working volume 60063.7 gallons Turnovers per year (actual)N 4.9 dimensionless Turnovers per year (potential)N 6.4 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 150.05 lb/yr Total losses (VOC potential emissions) LT 185.72 lb/yr Standing storage losses LS 76.62 lb/yr Working losses (actual)LW 73.43 lb/yr Working losses (potential)LW 109.10 lb/yr Annual net throughput (actual) Q 7071.43 bbl/yr Annual net throughput (potential) Q 9192.86 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 4014.96 ft3 Vapor space tank outage HVO 4.71 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, UT VOC emissions from horizontal tank #4 Enter tank specific information in all blue cells. Tank information Tanks 4 and 5 60,000 asphalt cement oil Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Description Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 1,038,368 gal/yr Actual hours operated 8760 hours/year Potential throughput 1,349,878 gal/yr VOC actual emissions 0.06 ton/yr VOC potential emissions 0.06 ton/yr Physical properties of the tank Property Value Units Description Shell height HS 44 feet Shell diameter D 65 feet Shell radius RS 32.5 feet Maximum liquid height HLX 40 feet Average liquid height HL 22 feet Working volume 992837.5 gallons Turnovers per year (actual)N 1.0 dimensionless Turnovers per year (potential)N 1.4 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.20 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Description Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Notes (equations are from AP-42, Chapter 7) Total losses (VOC actual emissions) LT 122.60 lb/yr Equation 1-1 Total losses (VOC potential emissions) LT 128.48 lb/yr Equation 1-1 Standing storage losses LS 102.98 lb/yr Equation 1-2 Working losses (actual)LW 19.62 lb/yr Equation 1-35 Working losses (potential)LW 25.50 lb/yr Equation 1-35 Annual net throughput (actual) Q 24723.05 bbl/yr Based on actual throughput entered by user (gal/year) / 42 bbl/gal Annual net throughput (potential) Q 32139.96 bbl/yr Based on calculated potential throughput (gal/year) / 42 bbl/gal Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Equation 1-22 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Table 7.1-2 Vapor pressure at 60 °F PVA 0.004772504 psia Equation 1-25, PVA based on TLA Vapor space volume VV 73227.44 ft3 Equation 1-3 Vapor space roof outage HRO 0.07 feet Vapor space tank outage HVO 22.07 feet Equation 1-16, vertical Vapor space expansion factor KE 0.03 Equation 1-5 Vented vapor saturation factor KS 0.99 dimensionless Equation 1-21 Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Constant, Equation 1-22 Average vapor temperature TV 597.91 °R Equation 1-33 Daily average liquid surface temperature TLA 678.04 °R Equation 1-28 Daily vapor temperature range ΔTV 21.91 °R Equation 1-7 Daily ambient temperature range ΔTA 21.00 °R Equation 1-11 Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Equation 1-30 Table 7-1-7. Conversion factor: Rankine = Fahrenheit + 459.7 Total for a horizontal surface. Equation 1-17 Cone; Equation 1-19 Dome Saturation; turnovers >36 = (180 + N) / 6 * N; turnovers at 36 or lower = 1; Equation 1 Saturation; turnovers >36 = (180 + N) / 6 * N; turnovers at 36 or lower = 1 Assume value of 1 for gasoline or diesel. Table 7-1-7. Conversion factor: Rankine = Fahrenheit + 459.7 Average for the location. Calculated radius. Only applies to a "Dome" roof. If unknown = 0.0625. If known, insert value. Only applies to a "Cone" roof. Vacuum setting is a value set for the tank at the facility. Breather vent pressure is a reading from the tank monitoring system. Nearest major city to the tank location. Average over a calendar year. Average over a calendar year. Tank condition is used to identify paint solar absorptance. Insert value from table 7.1-6. Paint effectiveness in absorbing radiant energy. Calculated roof height. Calculated number the tank is emptied and refilled, annually. Calculated number the tank could be emptied and refilled, annually. Tank shell color and shade are used to identify paint solar absorptance. Maximum height of the liquid within the tank shell. Average height of the liquid within the tank shell. Calculated volume This is actual length of the tank. This is the width of the cylindrical shell. Calculated radius Amount of VOCs potentially released over a 12-month period. Property Type of fuel stored in the tank. Fixed roof structure. Gallons stored in his tank over the period of 12 consecutive months. Number of hours the tank is being used. Calculated based on actual tank throughput divided by the hours operated and multiplied by 8760 hours/day. Amount of VOC actually released over the 12-month period. Mona, Utah VOC emissions from vertical, fixed roof tank #1 Enter tank specific information in all blue cells. Tank information AC Tank 4,000 ton p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 VOC emissions from vertical, fixed roof tank #1 Liquid bulk temperature TB 785.00 °R Equation 1-31 Daily vapor pressure range ΔPV 0.00 psia Equation 1-9 Breather vent pressure setting range ΔPB 0.06 psi Equation 1-10 Vapor pressure equation constant A 10.104 dimensionless Table 7.1-2 Vapor pressure equation constant B 10475 °R Table 7.1-2 Vapor pressure at TLX PVX 0.01 psia Equation 1-9, note 5 Vapor pressure at TLN PVN 0.00 psia Equation 1-9, note 5 Maximum TLA TLX 683.52 °R Equation 1-9, note to Figure 7.1-17 Minimum TLA TLN 672.57 °R Equation 1-9, note to Figure 7.1-17 p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 300,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 390,000 gal/yr VOC actual emissions 0.00 ton/yr VOC potential emissions 0.01 ton/yr Physical properties of the tank Property Value Units Shell height HS 45 feet Shell diameter D 12 feet Shell radius RS 6 feet Maximum liquid height HLX 40 feet Average liquid height HL 20 feet Working volume 33838.7 gallons Turnovers per year (actual)N 8.9 dimensionless Turnovers per year (potential)N 11.5 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.04 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Property Mona, Utah VOC emissions from vertical, fixed roof tank #1 Enter tank specific information in all blue cells. Tank information Asphalt Cement Oil Tank #1 30,000 gallon p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 VOC emissions from vertical, fixed roof tank #1 Variable Calculated value Total losses (VOC actual emissions) LT 9.64 lb/yr Total losses (VOC potential emissions) LT 11.34 lb/yr Standing storage losses LS 3.98 lb/yr Working losses (actual)LW 5.67 lb/yr Working losses (potential)LW 7.37 lb/yr Annual net throughput (actual) Q 7142.86 bbl/yr Annual net throughput (potential) Q 9285.71 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Vapor pressure at 60 °F PVA 0.004772504 psia Vapor space volume VV 2828.85 ft3 Vapor space roof outage HRO 0.01 feet Vapor space tank outage HVO 25.01 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.99 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.104 dimensionless Vapor pressure equation constant B 10475 °R Vapor pressure at TLX PVX 0.01 psia Vapor pressure at TLN PVN 0.00 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 297,500 gal/yr Actual hours operated 8760 hours/year Potential throughput 386,750 gal/yr VOC actual emissions 0.01 ton/yr VOC potential emissions 0.02 ton/yr Physical properties of the tank Property Value Units Shell height HS 48 feet Shell diameter D 30 feet Shell radius RS 15 feet Maximum liquid height HLX 35 feet Average liquid height HL 25 feet Working volume 185055.5 gallons Turnovers per year (actual)N 1.6 dimensionless Turnovers per year (potential)N 2.1 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.09 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 28.51 lb/yr Total losses (VOC potential emissions) LT 30.20 lb/yr Standing storage losses LS 22.89 lb/yr Working losses (actual)LW 5.62 lb/yr Working losses (potential)LW 7.31 lb/yr Annual net throughput (actual) Q 7083.33 bbl/yr Annual net throughput (potential) Q 9208.33 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Vapor pressure at 60 °F PVA 0.004772504 psia Vapor space volume VV 16279.83 ft3 Vapor space roof outage HRO 0.03 feet Vapor space tank outage HVO 23.03 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.99 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.104 dimensionless Vapor pressure equation constant B 10475 °R Vapor pressure at TLX PVX 0.01 psia Vapor pressure at TLN PVN 0.00 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, Utah VOC emissions from vertical, fixed roof tank #2 Enter tank specific information in all blue cells. Tank information Asphalt Cement Tank 250,000 gallon Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Fuel Oil No. 6 select one Type of roof Cone select one Actual throughput 300,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 390,000 gal/yr VOC actual emissions 0.04 ton/yr VOC potential emissions 0.05 ton/yr Physical properties of the tank Property Value Units Shell height HS 33 feet Shell diameter D 8 feet Shell radius RS 4 feet Maximum liquid height HLX 35 feet Average liquid height HL 25 feet Working volume 13159.5 gallons Turnovers per year (actual)N 22.8 dimensionless Turnovers per year (potential)N 29.6 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.03 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 81.74 lb/yr Total losses (VOC potential emissions) LT 103.99 lb/yr Standing storage losses LS 7.56 lb/yr Working losses (actual)LW 74.17 lb/yr Working losses (potential)LW 96.42 lb/yr Annual net throughput (actual) Q 7142.86 bbl/yr Annual net throughput (potential) Q 9285.71 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure at 60 °F PVA 0.091292159 psia Vapor space volume VV 402.54 ft3 Vapor space roof outage HRO 0.01 feet Vapor space tank outage HVO 8.01 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.96 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.10 psia Vapor pressure at TLN PVN 0.08 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, Utah VOC emissions from vertical, fixed roof tank #2 Enter tank specific information in all blue cells. Tank information RFO 60,000 gallon Property Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants B-2 APPENDIX B. MODELING PARAMETERS Modeling Inputs - PM10 Company:Geneva Rock Product Site:Mona Pit Date:10/27/2023 oint Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Stack Height Temperature Exit Velocity Stack Diameter (m) (m) (m) (lb/hr) (m) (K) (m/s) (m) CON_WH Concrete Plant Water Heater 429393 4408370.8 1617.99 1.17E-01 18.288 294.260 12.192 0.610 HMA_HTR Hot Mix Asphalt Plant Hot Oil Heater 429172.2 4408559.9 1601.12 5.89E-02 18.288 294.260 12.192 0.610 HMA_AP Drum Mix Asphalt Plant (Baghouse) 429166.1 4408564.7 1601.7 9.78 7.163 353.983 18.431 1.151 CTHRSG1 PCC Source1 423536.062 4408324.255 1539 13.30 50.292 365.000 26.200 5.130 CTHRSG2 PCC Source2 423536.062 4408363.855 1539 13.30 50.292 365.000 26.200 5.000 rea Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Release Height Easterly Length Northerly Length Angle from North Initial Vert. Dimensio n (m) (m) (m) lb/hr-ft2 (m) (m) (m) (m) HMA_MHC Hot Mix Asphalt Plant - Transfer Points 429150.8 4408513.4 1599.7 6.05E-06 5.0 30.0 60.0 0.0 5.0 HMA_LDR Hot Mix Asphalt Plant -Loaders Travel 429150.8 4408513.4 1599.7 5.52E-06 0.0 30.0 60.0 0.0 3.0 AGG_MHC Aggregate - Transfer Points 429840.9 4408544.2 1663.5 3.15E-06 5.0 110.0 185.0 0.0 5.0 AG_LDR1 Aggregate-Loaders Travel1 429841.6 4408543.2 1663.5 1.61E-06 0.0 110.0 185.0 0.0 3.0 AG_LDR2 Aggregate-Loaders Travel2 429786.0 4409514.3 1669.9 1.61E-06 0.0 30.0 30.0 0.0 3.0 RMC_MHC Concrete Plant - Transfer Points 429403.4 4408385.1 1618.2 5.98E-06 5.0 30.0 30.0 90.0 5.0 RMC_LDR Concrete Plant - Loader Travel 429403.4 4408385.1 1618.2 6.49E-06 0.0 30.0 30.0 90.0 3.0 reaPoly Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Release Height Initial Vert. Dimension(m)(m)(m)lb/hr-ft2 (m)(m) SP1 Storage Pile 1 429552.4256 4408626.57 1637.28 2.98123E-06 0 15 SP2 Storage Pile2 429341.7 4408636.1 1617.14 3.02095E-06 0 15 SP3 Storage Pile 3 429641.3 4408545.2 1643.27 2.98604E-06 0 15 SP4 Storage Pile 4 429829.9 4409543.3 1673.77 3.00588E-06 0 15 SP5 Storage Pile 5 429496.4 4408381.6 1626.7 2.996E-06 0 15 DIST1 Distrubed Grounds 1 429787.3 4408391.8 1651.41 1.0538E-06 0 0 DIST2 Disturbed Grounds 2 429750.5 4409558.4 1665.43 9.89446E-07 0 0DOZER1 Dozer1 429787.3 4408391.8 1651.41 7.31E-07 0 3 DOZER2 Dozer2 429750.5 4409558.4 1665.43 6.87E-07 0 3 KIGORE Kilgore Source1 429690.418 4411522.486 1626.24 4.07E-06 3.048 3.048 SUNROC Sunroc Source1 429713.726 4411494.677 1628.16 1.48E-06 3.048 3.048 olume Sources - PM10 Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr) Release Height Init. Horizontal Dimensio n Initial Vert. Dimension AGG_001 Aggregate - Primary Crusher1 429796.1 4409524.5 1670.9 5.400E-01 2.50 5.00 5.00 AGG_002 Aggregate - Primary Crusher2 429899.6 4408592.0 1671.0 5.400E-01 2.50 5.00 5.00 AGG_003 Aggregate - Secondary Crusher1 429875.7 4408594.6 1669.5 3.240E-01 2.50 5.00 5.00 AGG_004 Aggregate - Secondary Crusher2 429346.7 4408523.5 1616.6 3.240E-01 2.50 5.00 5.00 AGG_005 Aggregate - Tertiary Crusher1 429902.0 4408604.5 1672.9 3.240E-01 2.50 5.00 5.00 AGG_006 Aggregate - Tertiary Crusher2 429916.1 4408549.2 1670.7 3.240E-01 2.50 5.00 5.00 AGG_007 Aggregate - Screen 1 429930.4 4408611.9 1675.1 1.110E+00 2.50 5.00 5.00 AGG_008 Aggregate - Screen 2 429913.5 4408579.3 1672.4 7.400E-01 2.50 5.00 5.00 AGG_009 Aggregate - Screen 3 429897.0 4408627.8 1673.8 7.400E-01 2.50 5.00 5.00 AGG_010 Aggregate - Screen 4 429856.4 4408577.9 1665.6 4.440E-01 2.50 5.00 5.00 AGG_011 Aggregate - Screen 5 429891.2 4408559.3 1669.1 4.440E-01 2.50 5.00 5.00 AGG_012 Aggregate - Screen 6 429929.8 4408584.4 1674.2 4.440E-01 2.50 5.00 5.00 HMA_001 Hot Mix Asphalt Plant Silo Loading 429147.9 4408555.1 1600.6 2.439E-01 4.57 0.70 4.27 HMA_002 Hot Mix Asphalt Plant - Loadout 429145.2 4408554.9 1600.4 2.979E-02 4.57 0.70 4.27 RMC_CB Concrete Batch Plant 429393.3 4408377.4 1617.8 7.848E-01 6.10 9.54 2.84 LDR_ASP Loader to Hopper at Asphalt Plant 429147.6 4408552.0 1600.5 4.250E-02 2.47 0.58 1.15LDR_AG1 Loader to Hopper at Aggregate Plant1 429900.3 4408587.8 1670.6 1.000E-01 2.47 0.58 1.15LDR_AG2 Loader to Hopper at Aggregate Plant2 429801.9 4409524.6 1671.4 1.000E-01 2.47 0.58 1.15LDR_AGG Loader to Load Trucks at Aggregate Plant 429843.9 4408586.1 1666.0 1.000E-01 2.47 0.58 1.15LDR_CB Loader to Load Trucks at Concrete Plant 429424.9 4408386.4 1620.1 4.200E-02 2.47 0.58 1.15CO_0001 Concrete Haul Roads 429098.1 4408294.6 1594.0 9.61E-04 2.550 4.186 2.372CO_0002 Concrete Haul Roads 429106.2 4408298.6 1594.4 9.61E-04 2.550 4.186 2.372CO_0003 Concrete Haul Roads 429114.2 4408302.5 1594.9 9.61E-04 2.550 4.186 2.372CO_0004 Concrete Haul Roads 429122.3 4408306.5 1595.8 9.61E-04 2.550 4.186 2.372CO_0005 Concrete Haul Roads 429130.4 4408310.5 1596.2 9.61E-04 2.550 4.186 2.372CO_0006 Concrete Haul Roads 429138.5 4408314.4 1597.1 9.61E-04 2.550 4.186 2.372CO_0007 Concrete Haul Roads 429146.5 4408318.4 1597.7 9.61E-04 2.550 4.186 2.372 CO_0008 Concrete Haul Roads 429154.6 4408322.4 1598.5 9.61E-04 2.550 4.186 2.372 CO_0009 Concrete Haul Roads 429162.7 4408326.3 1599.4 9.61E-04 2.550 4.186 2.372 CO_0010 Concrete Haul Roads 429170.8 4408330.3 1599.9 9.61E-04 2.550 4.186 2.372CO_0011 Concrete Haul Roads 429178.9 4408334.3 1600.6 9.61E-04 2.550 4.186 2.372 CO_0012 Concrete Haul Roads 429186.9 4408338.3 1601.2 9.61E-04 2.550 4.186 2.372 CO_0013 Concrete Haul Roads 429195.0 4408342.2 1601.9 9.61E-04 2.550 4.186 2.372 CO_0014 Concrete Haul Roads 429203.1 4408346.2 1602.6 9.61E-04 2.550 4.186 2.372CO_0015 Concrete Haul Roads 429211.2 4408350.2 1603.0 9.61E-04 2.550 4.186 2.372 CO_0016 Concrete Haul Roads 429219.2 4408354.1 1603.7 9.61E-04 2.550 4.186 2.372 CO_0017 Concrete Haul Roads 429227.3 4408358.1 1604.3 9.61E-04 2.550 4.186 2.372 CO_0018 Concrete Haul Roads 429235.4 4408362.1 1605.1 9.61E-04 2.550 4.186 2.372CO_0019 Concrete Haul Roads 429243.5 4408366.0 1605.8 9.61E-04 2.550 4.186 2.372 CO_0020 Concrete Haul Roads 429251.5 4408370.0 1606.4 2.95E-03 2.550 4.186 2.372 CO_0021 Concrete Haul Roads 429259.6 4408374.0 1607.1 2.95E-03 2.550 4.186 2.372 CO_0022 Concrete Haul Roads 429267.7 4408378.0 1607.7 2.95E-03 2.550 4.186 2.372CO_0023 Concrete Haul Roads 429275.8 4408381.9 1608.1 2.95E-03 2.550 4.186 2.372 CO_0024 Concrete Haul Roads 429283.8 4408386.0 1608.7 2.95E-03 2.550 4.186 2.372 CO_0025 Concrete Haul Roads 429291.9 4408390.0 1609.4 2.95E-03 2.550 4.186 2.372CO_0026 Concrete Haul Roads 429299.9 4408394.1 1610.0 2.95E-03 2.550 4.186 2.372 CO_0027 Concrete Haul Roads 429307.9 4408398.1 1610.8 2.95E-03 2.550 4.186 2.372 CO_0028 Concrete Haul Roads 429316.0 4408402.1 1611.5 2.95E-03 2.550 4.186 2.372 CO_0029 Concrete Haul Roads 429324.0 4408406.2 1612.3 2.95E-03 2.550 4.186 2.372CO_0030 Concrete Haul Roads 429332.1 4408410.2 1612.9 2.95E-03 2.550 4.186 2.372 CO_0031 Concrete Haul Roads 429340.1 4408414.3 1613.5 2.95E-03 2.550 4.186 2.372 CO_0032 Concrete Haul Roads 429348.9 4408415.5 1614.3 2.95E-03 2.550 4.186 2.372 CO_0033 Concrete Haul Roads 429357.9 4408416.1 1615.1 2.95E-03 2.550 4.186 2.372CO_0034 Concrete Haul Roads 429366.9 4408416.7 1616.0 2.95E-03 2.550 4.186 2.372 CO_0035 Concrete Haul Roads 429375.9 4408417.3 1616.6 2.95E-03 2.550 4.186 2.372 CO_0036 Concrete Haul Roads 429384.8 4408417.8 1617.3 2.95E-03 2.550 4.186 2.372 CO_0037 Concrete Haul Roads 429393.6 4408417.3 1617.9 2.95E-03 2.550 4.186 2.372CO_0038 Concrete Haul Roads 429401.9 4408413.8 1618.4 2.95E-03 2.550 4.186 2.372 CO_0039 Concrete Haul Roads 429410.2 4408410.3 1618.9 2.95E-03 2.550 4.186 2.372 CO_0040 Concrete Haul Roads 429418.5 4408406.8 1619.4 2.95E-03 2.550 4.186 2.372 CO_0041 Concrete Haul Roads 429423.1 4408399.3 1619.1 2.95E-03 2.550 4.186 2.372CO_0042 Concrete Haul Roads 429427.2 4408391.3 1619.9 2.95E-03 2.550 4.186 2.372 CO_0043 Concrete Haul Roads 429431.3 4408383.3 1620.9 2.95E-03 2.550 4.186 2.372 CO_0044 Concrete Haul Roads 429431.8 4408374.6 1621.2 2.95E-03 2.550 4.186 2.372 CO_0045 Concrete Haul Roads 429430.8 4408365.6 1621.0 2.95E-03 2.550 4.186 2.372CO_0046 Concrete Haul Roads 429429.9 4408356.7 1621.2 2.95E-03 2.550 4.186 2.372 CO_0047 Concrete Haul Roads 429428.9 4408347.7 1621.5 2.95E-03 2.550 4.186 2.372 CO_0048 Concrete Haul Roads 429423.4 4408342.1 1621.1 2.95E-03 2.550 4.186 2.372CO_0049 Concrete Haul Roads 429415.2 4408338.3 1620.5 2.95E-03 2.550 4.186 2.372 CO_0050 Concrete Haul Roads 429407.0 4408334.6 1620.0 2.95E-03 2.550 4.186 2.372 CO_0051 Concrete Haul Roads 429398.8 4408331.3 1619.4 2.95E-03 2.550 4.186 2.372 CO_0052 Concrete Haul Roads 429389.8 4408332.3 1618.5 2.95E-03 2.550 4.186 2.372CO_0053 Concrete Haul Roads 429380.9 4408333.3 1617.6 2.95E-03 2.550 4.186 2.372 CO_0054 Concrete Haul Roads 429371.9 4408334.3 1616.7 2.95E-03 2.550 4.186 2.372 CO_0055 Concrete Haul Roads 429363.0 4408335.3 1615.9 2.95E-03 2.550 4.186 2.372 CO_0056 Concrete Haul Roads 429354.6 4408338.2 1615.1 2.95E-03 2.550 4.186 2.372CO_0057 Concrete Haul Roads 429346.3 4408341.8 1614.3 2.95E-03 2.550 4.186 2.372 CO_0058 Concrete Haul Roads 429338.0 4408345.4 1613.6 2.95E-03 2.550 4.186 2.372 CO_0059 Concrete Haul Roads 429329.8 4408349.0 1612.9 2.95E-03 2.550 4.186 2.372 CO_0060 Concrete Haul Roads 429321.0 4408350.9 1612.1 2.95E-03 2.550 4.186 2.372CO_0061 Concrete Haul Roads 429312.2 4408352.5 1611.3 2.95E-03 2.550 4.186 2.372 CO_0062 Concrete Haul Roads 429303.3 4408354.2 1610.5 2.95E-03 2.550 4.186 2.372 CO_0063 Concrete Haul Roads 429294.5 4408355.8 1609.7 2.95E-03 2.550 4.186 2.372 CO_0064 Concrete Haul Roads 429285.6 4408357.5 1609.0 2.95E-03 2.550 4.186 2.372CO_0065 Concrete Haul Roads 429276.8 4408359.1 1608.4 2.95E-03 2.550 4.186 2.372 CO_0066 Concrete Haul Roads 429267.9 4408360.8 1607.7 2.95E-03 2.550 4.186 2.372 CO_0067 Concrete Haul Roads 429259.1 4408362.4 1607.0 2.95E-03 2.550 4.186 2.372 CO_0068 Concrete Haul Roads 429250.2 4408364.1 1606.3 2.95E-03 2.550 4.186 2.372CO_0069 Concrete Haul Roads 429241.6 4408363.7 1605.6 9.61E-04 2.550 4.186 2.372 CO_0070 Concrete Haul Roads 429233.5 4408359.8 1604.9 9.61E-04 2.550 4.186 2.372 CO_0071 Concrete Haul Roads 429225.4 4408355.9 1604.1 9.61E-04 2.550 4.186 2.372 CO_0072 Concrete Haul Roads 429217.3 4408352.0 1603.5 9.61E-04 2.550 4.186 2.372CO_0073 Concrete Haul Roads 429209.2 4408348.1 1602.8 9.61E-04 2.550 4.186 2.372 CO_0074 Concrete Haul Roads 429201.1 4408344.2 1602.4 9.61E-04 2.550 4.186 2.372 CO_0075 Concrete Haul Roads 429193.0 4408340.3 1601.8 9.61E-04 2.550 4.186 2.372 CO_0076 Concrete Haul Roads 429184.9 4408336.4 1601.0 9.61E-04 2.550 4.186 2.372CO_0077 Concrete Haul Roads 429176.8 4408332.5 1600.4 9.61E-04 2.550 4.186 2.372 CO_0078 Concrete Haul Roads 429168.7 4408328.6 1599.8 9.61E-04 2.550 4.186 2.372 CO_0079 Concrete Haul Roads 429160.6 4408324.7 1599.2 9.61E-04 2.550 4.186 2.372 CO_0080 Concrete Haul Roads 429152.5 4408320.8 1598.3 9.61E-04 2.550 4.186 2.372CO_0081 Concrete Haul Roads 429144.4 4408316.8 1597.6 9.61E-04 2.550 4.186 2.372 CO_0082 Concrete Haul Roads 429136.2 4408312.9 1596.9 9.61E-04 2.550 4.186 2.372 CO_0083 Concrete Haul Roads 429128.1 4408309.0 1596.0 9.61E-04 2.550 4.186 2.372 CO_0084 Concrete Haul Roads 429120.0 4408305.1 1595.5 9.61E-04 2.550 4.186 2.372CO_0085 Concrete Haul Roads 429111.9 4408301.2 1594.8 9.61E-04 2.550 4.186 2.372 CO_0086 Concrete Haul Roads 429103.8 4408297.3 1594.3 9.61E-04 2.550 4.186 2.372 CO_0087 Concrete Haul Roads 429095.7 4408293.4 1593.7 9.61E-04 2.550 4.186 2.372 WP_0001 WP Haul Roads 429099.3 4408291.4 1593.8 2.36E-03 2.550 4.186 2.372WP_0002 WP Haul Roads 429107.4 4408295.4 1594.3 2.36E-03 2.550 4.186 2.372 WP_0003 WP Haul Roads 429115.5 4408299.3 1594.9 2.36E-03 2.550 4.186 2.372 WP_0004 WP Haul Roads 429123.6 4408303.3 1595.7 2.36E-03 2.550 4.186 2.372WP_0005 WP Haul Roads 429131.6 4408307.2 1596.2 2.36E-03 2.550 4.186 2.372 WP_0006 WP Haul Roads 429139.7 4408311.2 1597.0 2.36E-03 2.550 4.186 2.372 WP_0007 WP Haul Roads 429147.8 4408315.2 1597.8 2.36E-03 2.550 4.186 2.372 WP_0008 WP Haul Roads 429155.8 4408319.2 1598.5 2.36E-03 2.550 4.186 2.372WP_0009 WP Haul Roads 429163.8 4408323.3 1599.4 2.36E-03 2.550 4.186 2.372 WP_0010 WP Haul Roads 429171.9 4408327.4 1600.0 2.36E-03 2.550 4.186 2.372 WP_0011 WP Haul Roads 429179.9 4408331.5 1600.6 2.36E-03 2.550 4.186 2.372 WP_0012 WP Haul Roads 429187.9 4408335.6 1601.3 2.36E-03 2.550 4.186 2.372WP_0013 WP Haul Roads 429195.9 4408339.6 1602.0 2.36E-03 2.550 4.186 2.372 WP_0014 WP Haul Roads 429203.9 4408343.7 1602.6 2.36E-03 2.550 4.186 2.372 WP_0015 WP Haul Roads 429212.0 4408347.8 1603.1 2.36E-03 2.550 4.186 2.372 WP_0016 WP Haul Roads 429220.0 4408351.9 1603.7 2.36E-03 2.550 4.186 2.372WP_0017 WP Haul Roads 429228.0 4408356.0 1604.3 2.36E-03 2.550 4.186 2.372 WP_0018 WP Haul Roads 429236.0 4408360.0 1605.1 2.36E-03 2.550 4.186 2.372 WP_0019 WP Haul Roads 429244.1 4408364.1 1605.8 2.36E-03 2.550 4.186 2.372 WP_0020 WP Haul Roads 429252.1 4408368.2 1606.4 4.24E-03 2.550 4.186 2.372WP_0021 WP Haul Roads 429260.1 4408372.3 1607.1 4.24E-03 2.550 4.186 2.372 WP_0022 WP Haul Roads 429268.1 4408376.4 1607.8 4.24E-03 2.550 4.186 2.372 WP_0023 WP Haul Roads 429276.1 4408380.5 1608.2 4.24E-03 2.550 4.186 2.372 WP_0024 WP Haul Roads 429284.2 4408384.5 1608.7 4.24E-03 2.550 4.186 2.372WP_0025 WP Haul Roads 429292.2 4408388.6 1609.4 4.24E-03 2.550 4.186 2.372 WP_0026 WP Haul Roads 429300.2 4408392.7 1610.0 4.24E-03 2.550 4.186 2.372 WP_0027 WP Haul Roads 429308.2 4408396.7 1610.7 4.24E-03 2.550 4.186 2.372WP_0028 WP Haul Roads 429316.3 4408400.8 1611.5 4.24E-03 2.550 4.186 2.372 WP_0029 WP Haul Roads 429324.3 4408404.8 1612.3 4.24E-03 2.550 4.186 2.372 WP_0030 WP Haul Roads 429332.4 4408408.9 1613.0 4.24E-03 2.550 4.186 2.372 WP_0031 WP Haul Roads 429340.4 4408412.9 1613.5 4.24E-03 2.550 4.186 2.372WP_0032 WP Haul Roads 429348.4 4408417.0 1614.3 4.24E-03 2.550 4.186 2.372 WP_0033 WP Haul Roads 429356.5 4408421.0 1615.0 4.24E-03 2.550 4.186 2.372 WP_0034 WP Haul Roads 429364.5 4408425.1 1615.8 4.24E-03 2.550 4.186 2.372 WP_0035 WP Haul Roads 429372.6 4408429.1 1616.6 4.24E-03 2.550 4.186 2.372WP_0036 WP Haul Roads 429380.6 4408433.2 1617.3 4.24E-03 2.550 4.186 2.372 WP_0037 WP Haul Roads 429388.6 4408437.2 1618.1 4.24E-03 2.550 4.186 2.372 WP_0038 WP Haul Roads 429396.7 4408441.2 1619.0 4.24E-03 2.550 4.186 2.372 WP_0039 WP Haul Roads 429404.7 4408445.3 1619.9 4.24E-03 2.550 4.186 2.372WP_0040 WP Haul Roads 429413.5 4408447.2 1620.7 4.24E-03 2.550 4.186 2.372 WP_0041 WP Haul Roads 429422.3 4408449.1 1621.3 4.24E-03 2.550 4.186 2.372 WP_0042 WP Haul Roads 429431.1 4408451.0 1622.3 4.24E-03 2.550 4.186 2.372 WP_0043 WP Haul Roads 429439.9 4408452.8 1623.0 4.24E-03 2.550 4.186 2.372WP_0044 WP Haul Roads 429448.7 4408454.7 1623.7 4.24E-03 2.550 4.186 2.372 WP_0045 WP Haul Roads 429457.5 4408456.6 1624.3 4.24E-03 2.550 4.186 2.372 WP_0046 WP Haul Roads 429466.3 4408458.5 1625.1 4.24E-03 2.550 4.186 2.372 WP_0047 WP Haul Roads 429475.1 4408460.3 1626.0 4.24E-03 2.550 4.186 2.372WP_0048 WP Haul Roads 429483.9 4408462.2 1626.9 4.24E-03 2.550 4.186 2.372 WP_0049 WP Haul Roads 429492.7 4408464.1 1627.8 4.24E-03 2.550 4.186 2.372 WP_0050 WP Haul Roads 429501.5 4408465.9 1628.6 4.24E-03 2.550 4.186 2.372 WP_0051 WP Haul Roads 429510.3 4408467.8 1629.4 4.24E-03 2.550 4.186 2.372WP_0052 WP Haul Roads 429519.1 4408469.7 1630.1 4.24E-03 2.550 4.186 2.372 WP_0053 WP Haul Roads 429527.9 4408470.8 1630.8 4.24E-03 2.550 4.186 2.372 WP_0054 WP Haul Roads 429536.8 4408469.1 1631.5 4.24E-03 2.550 4.186 2.372WP_0055 WP Haul Roads 429545.6 4408467.4 1632.2 4.24E-03 2.550 4.186 2.372 WP_0056 WP Haul Roads 429554.4 4408465.7 1632.9 4.24E-03 2.550 4.186 2.372 WP_0057 WP Haul Roads 429563.3 4408463.9 1633.5 4.24E-03 2.550 4.186 2.372 WP_0058 WP Haul Roads 429572.1 4408462.2 1634.3 4.24E-03 2.550 4.186 2.372WP_0059 WP Haul Roads 429580.9 4408460.5 1635.0 4.24E-03 2.550 4.186 2.372 WP_0060 WP Haul Roads 429589.8 4408458.8 1635.6 4.24E-03 2.550 4.186 2.372 WP_0061 WP Haul Roads 429598.6 4408457.0 1636.1 4.24E-03 2.550 4.186 2.372 WP_0062 WP Haul Roads 429607.4 4408455.3 1637.0 4.24E-03 2.550 4.186 2.372WP_0063 WP Haul Roads 429616.3 4408453.6 1637.7 4.24E-03 2.550 4.186 2.372 WP_0064 WP Haul Roads 429619.8 4408448.1 1637.7 4.24E-03 2.550 4.186 2.372 WP_0065 WP Haul Roads 429618.6 4408439.1 1636.9 4.24E-03 2.550 4.186 2.372 WP_0066 WP Haul Roads 429617.5 4408430.2 1635.8 4.24E-03 2.550 4.186 2.372WP_0067 WP Haul Roads 429616.3 4408421.3 1636.1 4.24E-03 2.550 4.186 2.372 WP_0068 WP Haul Roads 429615.1 4408412.4 1636.8 4.24E-03 2.550 4.186 2.372 WP_0069 WP Haul Roads 429607.7 4408409.7 1636.1 4.24E-03 2.550 4.186 2.372 WP_0070 WP Haul Roads 429598.8 4408408.5 1635.3 4.24E-03 2.550 4.186 2.372WP_0071 WP Haul Roads 429589.9 4408407.3 1634.5 4.24E-03 2.550 4.186 2.372 WP_0072 WP Haul Roads 429580.9 4408406.1 1633.7 4.24E-03 2.550 4.186 2.372 WP_0073 WP Haul Roads 429572.0 4408405.0 1632.7 4.24E-03 2.550 4.186 2.372 WP_0074 WP Haul Roads 429563.1 4408403.8 1631.6 4.24E-03 2.550 4.186 2.372 WP_0075 WP Haul Roads 429554.2 4408402.6 1630.8 4.24E-03 2.550 4.186 2.372WP_0076 WP Haul Roads 429545.3 4408401.4 1629.6 4.24E-03 2.550 4.186 2.372 WP_0077 WP Haul Roads 429536.3 4408400.2 1628.5 4.24E-03 2.550 4.186 2.372 WP_0078 WP Haul Roads 429527.4 4408399.1 1627.5 4.24E-03 2.550 4.186 2.372 WP_0079 WP Haul Roads 429518.5 4408397.9 1627.3 4.24E-03 2.550 4.186 2.372WP_0080 WP Haul Roads 429509.7 4408397.9 1626.5 4.24E-03 2.550 4.186 2.372 WP_0081 WP Haul Roads 429501.6 4408401.6 1625.6 4.24E-03 2.550 4.186 2.372 WP_0082 WP Haul Roads 429493.4 4408405.3 1624.8 4.24E-03 2.550 4.186 2.372 WP_0083 WP Haul Roads 429485.2 4408409.1 1624.4 4.24E-03 2.550 4.186 2.372WP_0084 WP Haul Roads 429477 4408412.8 1624.1 4.24E-03 2.550 4.186 2.372WP_0085 WP Haul Roads 429468.8 4408416.5 1623.7 4.24E-03 2.550 4.186 2.372 WP_0086 WP Haul Roads 429460.6 4408420.3 1623.1 4.24E-03 2.550 4.186 2.372 WP_0087 WP Haul Roads 429452.4 4408424 1622.4 4.24E-03 2.550 4.186 2.372WP_0088 WP Haul Roads 429444.2 4408427.7 1622.0 4.24E-03 2.550 4.186 2.372WP_0089 WP Haul Roads 429436 4408431.4 1621.6 4.24E-03 2.550 4.186 2.372 WP_0090 WP Haul Roads 429427.8 4408435.2 1621.2 4.24E-03 2.550 4.186 2.372 WP_0091 WP Haul Roads 429419.6 4408438.9 1620.7 4.24E-03 2.550 4.186 2.372WP_0092 WP Haul Roads 429411.5 4408442.6 1620.3 4.24E-03 2.550 4.186 2.372WP_0093 WP Haul Roads 429403.3 4408444.8 1619.7 4.24E-03 2.550 4.186 2.372 WP_0094 WP Haul Roads 429395.3 4408440.8 1618.9 4.24E-03 2.550 4.186 2.372 WP_0095 WP Haul Roads 429387.2 4408436.7 1618.0 4.24E-03 2.550 4.186 2.372WP_0096 WP Haul Roads 429379.2 4408432.7 1617.2 4.24E-03 2.550 4.186 2.372 WP_0097 WP Haul Roads 429371.2 4408428.6 1616.4 4.24E-03 2.550 4.186 2.372 WP_0098 WP Haul Roads 429363.1 4408424.6 1615.6 4.24E-03 2.550 4.186 2.372WP_0099 WP Haul Roads 429355.1 4408420.5 1614.9 4.24E-03 2.550 4.186 2.372WP_0100 WP Haul Roads 429347.1 4408416.4 1614.2 4.24E-03 2.550 4.186 2.372 WP_0101 WP Haul Roads 429339 4408412.4 1613.4 4.24E-03 2.550 4.186 2.372 WP_0102 WP Haul Roads 429331 4408408.3 1612.9 4.24E-03 2.550 4.186 2.372WP_0103 WP Haul Roads 429322.9 4408404.3 1612.2 4.24E-03 2.550 4.186 2.372WP_0104 WP Haul Roads 429314.9 4408400.2 1611.4 4.24E-03 2.550 4.186 2.372 WP_0105 WP Haul Roads 429306.9 4408396.2 1610.6 4.24E-03 2.550 4.186 2.372 WP_0106 WP Haul Roads 429298.9 4408392.1 1609.9 4.24E-03 2.550 4.186 2.372WP_0107 WP Haul Roads 429290.9 4408387.9 1609.3 4.24E-03 2.550 4.186 2.372WP_0108 WP Haul Roads 429282.9 4408383.7 1608.6 4.24E-03 2.550 4.186 2.372 WP_0109 WP Haul Roads 429274.9 4408379.6 1608.2 4.24E-03 2.550 4.186 2.372 WP_0110 WP Haul Roads 429267 4408375.4 1607.7 4.24E-03 2.550 4.186 2.372WP_0111 WP Haul Roads 429259 4408371.2 1607.0 4.24E-03 2.550 4.186 2.372WP_0112 WP Haul Roads 429251 4408367.1 1606.4 4.24E-03 2.550 4.186 2.372 WP_0113 WP Haul Roads 429242.9 4408363.1 1605.7 2.36E-03 2.550 4.186 2.372 WP_0114 WP Haul Roads 429234.8 4408359.1 1604.9 2.36E-03 2.550 4.186 2.372WP_0115 WP Haul Roads 429226.8 4408355.1 1604.2 2.36E-03 2.550 4.186 2.372WP_0116 WP Haul Roads 429218.7 4408351.1 1603.6 2.36E-03 2.550 4.186 2.372 WP_0117 WP Haul Roads 429210.7 4408347.1 1603.0 2.36E-03 2.550 4.186 2.372 WP_0118 WP Haul Roads 429202.6 4408343.1 1602.5 2.36E-03 2.550 4.186 2.372WP_0119 WP Haul Roads 429194.6 4408339.1 1601.9 2.36E-03 2.550 4.186 2.372WP_0120 WP Haul Roads 429186.5 4408335.1 1601.2 2.36E-03 2.550 4.186 2.372 WP_0121 WP Haul Roads 429178.5 4408331 1600.5 2.36E-03 2.550 4.186 2.372WP_0122 WP Haul Roads 429170.4 4408327 1599.9 2.36E-03 2.550 4.186 2.372WP_0123 WP Haul Roads 429162.4 4408323 1599.2 2.36E-03 2.550 4.186 2.372 WP_0124 WP Haul Roads 429154.3 4408319 1598.4 2.36E-03 2.550 4.186 2.372 WP_0125 WP Haul Roads 429146.3 4408314.9 1597.6 2.36E-03 2.550 4.186 2.372WP_0126 WP Haul Roads 429138.2 4408310.9 1596.9 2.36E-03 2.550 4.186 2.372WP_0127 WP Haul Roads 429130.2 4408306.9 1596.1 2.36E-03 2.550 4.186 2.372 WP_0128 WP Haul Roads 429122.1 4408302.9 1595.6 2.36E-03 2.550 4.186 2.372 WP_0129 WP Haul Roads 429114.1 4408298.8 1594.8 2.36E-03 2.550 4.186 2.372WP_0130 WP Haul Roads 429106 4408294.8 1594.2 2.36E-03 2.550 4.186 2.372WP_0131 WP Haul Roads 429098 4408290.8 1593.7 2.36E-03 2.550 4.186 2.372 HM_0001 HMA Haulroads 429097.6 4408293.3 1593.8 1.20E-03 2.55 4.186 2.372 HM_0002 HMA Haulroads 429105.7 4408297.1 1594.3 1.20E-03 2.55 4.186 2.372 HM_0003 HMA Haulroads 429113.9 4408300.9 1594.9 1.20E-03 2.55 4.186 2.372HM_0004 HMA Haulroads 429122 4408304.7 1595.7 1.20E-03 2.55 4.186 2.372 HM_0005 HMA Haulroads 429130.2 4408308.5 1596.1 1.20E-03 2.55 4.186 2.372 HM_0006 HMA Haulroads 429138.4 4408312.3 1597 1.20E-03 2.55 4.186 2.372 HM_0007 HMA Haulroads 429144.5 4408317.3 1597.6 1.20E-03 2.55 4.186 2.372HM_0008 HMA Haulroads 429143.6 4408326.3 1597.7 1.20E-03 2.55 4.186 2.372 HM_0009 HMA Haulroads 429142.8 4408335.2 1597.9 1.20E-03 2.55 4.186 2.372 HM_0010 HMA Haulroads 429141.9 4408344.2 1597.9 1.20E-03 2.55 4.186 2.372 HM_0011 HMA Haulroads 429141.1 4408353.1 1597.7 1.20E-03 2.55 4.186 2.372HM_0012 HMA Haulroads 429140.2 4408362.1 1597.4 1.20E-03 2.55 4.186 2.372 HM_0013 HMA Haulroads 429139.4 4408371.1 1597.4 1.20E-03 2.55 4.186 2.372 HM_0014 HMA Haulroads 429138.5 4408380 1597.6 1.20E-03 2.55 4.186 2.372HM_0015 HMA Haulroads 429137.7 4408389 1597.7 1.20E-03 2.55 4.186 2.372 HM_0016 HMA Haulroads 429136.8 4408397.9 1597.8 1.20E-03 2.55 4.186 2.372 HM_0017 HMA Haulroads 429136 4408406.9 1597.6 1.20E-03 2.55 4.186 2.372 HM_0018 HMA Haulroads 429135.1 4408415.9 1597.2 1.20E-03 2.55 4.186 2.372HM_0019 HMA Haulroads 429135.5 4408424.8 1597 1.20E-03 2.55 4.186 2.372 HM_0020 HMA Haulroads 429136 4408433.8 1597.3 1.20E-03 2.55 4.186 2.372 HM_0021 HMA Haulroads 429136.6 4408442.8 1597.9 1.20E-03 2.55 4.186 2.372 HM_0022 HMA Haulroads 429137.1 4408451.8 1598.2 1.20E-03 2.55 4.186 2.372HM_0023 HMA Haulroads 429137.6 4408460.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0024 HMA Haulroads 429138.1 4408469.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0025 HMA Haulroads 429138.6 4408478.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0026 HMA Haulroads 429139.1 4408487.7 1598.4 1.20E-03 2.55 4.186 2.372HM_0027 HMA Haulroads 429139.7 4408496.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0028 HMA Haulroads 429140.2 4408505.7 1598.6 1.20E-03 2.55 4.186 2.372 HM_0029 HMA Haulroads 429140.7 4408514.7 1598.8 1.20E-03 2.55 4.186 2.372 HM_0030 HMA Haulroads 429141.2 4408523.7 1598.6 1.20E-03 2.55 4.186 2.372HM_0031 HMA Haulroads 429141.5 4408532.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0032 HMA Haulroads 429140.8 4408541.6 1599 1.20E-03 2.55 4.186 2.372 HM_0033 HMA Haulroads 429140.1 4408550.6 1599.8 1.20E-03 2.55 4.186 2.372 HM_0034 HMA Haulroads 429139.4 4408559.6 1599.8 1.20E-03 2.55 4.186 2.372HM_0035 HMA Haulroads 429138.7 4408568.6 1600.1 1.20E-03 2.55 4.186 2.372 HM_0036 HMA Haulroads 429138 4408577.5 1600.9 1.20E-03 2.55 4.186 2.372 HM_0037 HMA Haulroads 429137.3 4408586.5 1601.2 1.20E-03 2.55 4.186 2.372 HM_0038 HMA Haulroads 429136.6 4408595.5 1601.4 1.20E-03 2.55 4.186 2.372 HM_0039 HMA Haulroads 429135.9 4408604.4 1601.5 1.20E-03 2.55 4.186 2.372HM_0040 HMA Haulroads 429135.2 4408613.4 1601.9 1.20E-03 2.55 4.186 2.372 HM_0041 HMA Haulroads 429134.4 4408622.4 1602.1 1.20E-03 2.55 4.186 2.372 HM_0042 HMA Haulroads 429133.9 4408631.3 1602.3 1.20E-03 2.55 4.186 2.372 HM_0043 HMA Haulroads 429139.3 4408638.5 1602.9 1.20E-03 2.55 4.186 2.372HM_0044 HMA Haulroads 429144.8 4408645.6 1603.8 1.20E-03 2.55 4.186 2.372 HM_0045 HMA Haulroads 429150.2 4408652.8 1604.6 1.20E-03 2.55 4.186 2.372 HM_0046 HMA Haulroads 429157.4 4408656.3 1605.2 1.20E-03 2.55 4.186 2.372 HM_0047 HMA Haulroads 429166.4 4408656.1 1605.9 1.20E-03 2.55 4.186 2.372HM_0048 HMA Haulroads 429175.4 4408655.8 1606.7 1.20E-03 2.55 4.186 2.372 HM_0049 HMA Haulroads 429184.4 4408655.6 1607.2 1.20E-03 2.55 4.186 2.372 HM_0050 HMA Haulroads 429191.9 4408651.6 1607.7 1.20E-03 2.55 4.186 2.372 HM_0051 HMA Haulroads 429198.6 4408645.6 1607.8 1.20E-03 2.55 4.186 2.372HM_0052 HMA Haulroads 429205.3 4408639.6 1607.7 1.20E-03 2.55 4.186 2.372 HM_0053 HMA Haulroads 429212 4408633.5 1608 1.20E-03 2.55 4.186 2.372 HM_0054 HMA Haulroads 429219.9 4408629.3 1608.5 1.20E-03 2.55 4.186 2.372 HM_0055 HMA Haulroads 429228 4408625.3 1608.8 1.20E-03 2.55 4.186 2.372HM_0056 HMA Haulroads 429236 4408621.3 1609 1.20E-03 2.55 4.186 2.372 HM_0057 HMA Haulroads 429244.1 4408617.3 1609.5 1.20E-03 2.55 4.186 2.372 HM_0058 HMA Haulroads 429252.1 4408613.1 1609.8 1.20E-03 2.55 4.186 2.372HM_0059 HMA Haulroads 429259.6 4408608.2 1610 1.20E-03 2.55 4.186 2.372 HM_0060 HMA Haulroads 429267.2 4408603.4 1610.5 1.20E-03 2.55 4.186 2.372 HM_0061 HMA Haulroads 429274.8 4408598.5 1611.5 1.20E-03 2.55 4.186 2.372 HM_0062 HMA Haulroads 429282.4 4408593.6 1612.2 1.20E-03 2.55 4.186 2.372HM_0063 HMA Haulroads 429289.7 4408588.4 1612.8 1.20E-03 2.55 4.186 2.372 HM_0064 HMA Haulroads 429296.7 4408582.9 1613.4 1.20E-03 2.55 4.186 2.372 HM_0065 HMA Haulroads 429301.2 4408576.1 1613.8 1.20E-03 2.55 4.186 2.372 HM_0066 HMA Haulroads 429300.7 4408567.1 1613.6 1.20E-03 2.55 4.186 2.372HM_0067 HMA Haulroads 429300.2 4408558.1 1613.4 1.20E-03 2.55 4.186 2.372 HM_0068 HMA Haulroads 429299.7 4408549.2 1613.2 1.20E-03 2.55 4.186 2.372 HM_0069 HMA Haulroads 429299.2 4408540.2 1612.9 1.20E-03 2.55 4.186 2.372 HM_0070 HMA Haulroads 429298.7 4408531.2 1612.8 1.20E-03 2.55 4.186 2.372HM_0071 HMA Haulroads 429298.1 4408522.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0072 HMA Haulroads 429297.6 4408513.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0073 HMA Haulroads 429297.1 4408504.2 1612.5 1.20E-03 2.55 4.186 2.372 HM_0074 HMA Haulroads 429296.5 4408495.3 1612 1.20E-03 2.55 4.186 2.372HM_0075 HMA Haulroads 429295.4 4408486.3 1611.6 1.20E-03 2.55 4.186 2.372 HM_0076 HMA Haulroads 429294.2 4408477.4 1611.4 1.20E-03 2.55 4.186 2.372 HM_0077 HMA Haulroads 429293.1 4408468.5 1611.2 1.20E-03 2.55 4.186 2.372 HM_0078 HMA Haulroads 429292 4408459.5 1611.3 1.20E-03 2.55 4.186 2.372HM_0079 HMA Haulroads 429290.9 4408450.6 1611.3 1.20E-03 2.55 4.186 2.372 HM_0080 HMA Haulroads 429289.7 4408441.7 1611 1.20E-03 2.55 4.186 2.372 HM_0081 HMA Haulroads 429288.6 4408432.7 1610.4 1.20E-03 2.55 4.186 2.372 HM_0082 HMA Haulroads 429287.5 4408423.8 1609.4 1.20E-03 2.55 4.186 2.372HM_0083 HMA Haulroads 429286.4 4408414.9 1609 1.20E-03 2.55 4.186 2.372 HM_0084 HMA Haulroads 429285.3 4408406 1609.2 1.20E-03 2.55 4.186 2.372 HM_0085 HMA Haulroads 429284.1 4408397 1608.9 1.20E-03 2.55 4.186 2.372HM_0086 HMA Haulroads 429276.9 4408391.7 1608.1 1.20E-03 2.55 4.186 2.372 HM_0087 HMA Haulroads 429269.7 4408386.3 1607.6 1.20E-03 2.55 4.186 2.372 HM_0088 HMA Haulroads 429262.5 4408380.9 1607.4 1.20E-03 2.55 4.186 2.372 HM_0089 HMA Haulroads 429255.2 4408375.5 1606.9 1.20E-03 2.55 4.186 2.372HM_0090 HMA Haulroads 429248 4408370.1 1606.2 1.20E-03 2.55 4.186 2.372 HM_0091 HMA Haulroads 429240.8 4408364.7 1605.6 1.20E-03 2.55 4.186 2.372 HM_0092 HMA Haulroads 429233.6 4408359.4 1604.9 1.20E-03 2.55 4.186 2.372 HM_0093 HMA Haulroads 429225.8 4408355 1604.1 1.20E-03 2.55 4.186 2.372HM_0094 HMA Haulroads 429217.7 4408351.1 1603.5 1.20E-03 2.55 4.186 2.372 HM_0095 HMA Haulroads 429209.6 4408347.2 1602.9 1.20E-03 2.55 4.186 2.372 HM_0096 HMA Haulroads 429201.5 4408343.3 1602.4 1.20E-03 2.55 4.186 2.372 HM_0097 HMA Haulroads 429193.4 4408339.4 1601.8 1.20E-03 2.55 4.186 2.372HM_0098 HMA Haulroads 429185.2 4408335.5 1601 1.20E-03 2.55 4.186 2.372 HM_0099 HMA Haulroads 429177.1 4408331.6 1600.4 1.20E-03 2.55 4.186 2.372 HM_0100 HMA Haulroads 429169 4408327.7 1599.8 1.20E-03 2.55 4.186 2.372 HM_0101 HMA Haulroads 429160.9 4408323.8 1599.2 1.20E-03 2.55 4.186 2.372HM_0102 HMA Haulroads 429152.8 4408319.9 1598.3 1.20E-03 2.55 4.186 2.372 HM_0103 HMA Haulroads 429144.7 4408316 1597.5 1.20E-03 2.55 4.186 2.372 HM_0104 HMA Haulroads 429136.6 4408312.1 1596.9 1.20E-03 2.55 4.186 2.372 HM_0105 HMA Haulroads 429128.5 4408308.2 1596 1.20E-03 2.55 4.186 2.372HM_0106 HMA Haulroads 429120.3 4408304.3 1595.5 1.20E-03 2.55 4.186 2.372 HM_0107 HMA Haulroads 429112.2 4408300.4 1594.8 1.20E-03 2.55 4.186 2.372 HM_0108 HMA Haulroads 429104.1 4408296.5 1594.2 1.20E-03 2.55 4.186 2.372HM_0109 HMA Haulroads 429096 4408292.6 1593.6 1.20E-03 2.55 4.186 2.372 AG_0001 Aggregate Haulroads 429098.3 4408294.5 1593.96 2.54E-03 2.55 4.186 2.372 AG_0002 Aggregate Haulroads 429106.4 4408298.5 1594.38 2.54E-03 2.55 4.186 2.372 AG_0003 Aggregate Haulroads 429114.5 4408302.5 1594.96 2.54E-03 2.55 4.186 2.372AG_0004 Aggregate Haulroads 429122.5 4408306.5 1595.78 2.54E-03 2.55 4.186 2.372 AG_0005 Aggregate Haulroads 429130.6 4408310.4 1596.24 2.54E-03 2.55 4.186 2.372 AG_0006 Aggregate Haulroads 429138.7 4408314.4 1597.11 2.54E-03 2.55 4.186 2.372 AG_0007 Aggregate Haulroads 429146.7 4408318.4 1597.76 2.54E-03 2.55 4.186 2.372AG_0008 Aggregate Haulroads 429154.8 4408322.4 1598.5 2.54E-03 2.55 4.186 2.372 AG_0009 Aggregate Haulroads 429162.9 4408326.4 1599.44 2.54E-03 2.55 4.186 2.372 AG_0010 Aggregate Haulroads 429170.9 4408330.4 1599.92 2.54E-03 2.55 4.186 2.372 AG_0011 Aggregate Haulroads 429179 4408334.4 1600.57 2.54E-03 2.55 4.186 2.372AG_0012 Aggregate Haulroads 429187.1 4408338.4 1601.25 2.54E-03 2.55 4.186 2.372 AG_0013 Aggregate Haulroads 429195.2 4408342.3 1601.94 2.54E-03 2.55 4.186 2.372 AG_0014 Aggregate Haulroads 429203.2 4408346.3 1602.6 2.54E-03 2.55 4.186 2.372 AG_0015 Aggregate Haulroads 429211.3 4408350.3 1603.04 2.54E-03 2.55 4.186 2.372AG_0016 Aggregate Haulroads 429219.4 4408354.3 1603.69 2.54E-03 2.55 4.186 2.372 AG_0017 Aggregate Haulroads 429227.4 4408358.3 1604.26 2.54E-03 2.55 4.186 2.372 AG_0018 Aggregate Haulroads 429235.5 4408362.3 1605.07 2.54E-03 2.55 4.186 2.372 AG_0019 Aggregate Haulroads 429243.6 4408366.3 1605.81 2.54E-03 2.55 4.186 2.372AG_0020 Aggregate Haulroads 429251.6 4408370.3 1606.46 7.83E-03 2.55 4.186 2.372 AG_0021 Aggregate Haulroads 429259.7 4408374.3 1607.15 7.83E-03 2.55 4.186 2.372 AG_0022 Aggregate Haulroads 429267.8 4408378.2 1607.75 7.83E-03 2.55 4.186 2.372 AG_0023 Aggregate Haulroads 429275.8 4408382.2 1608.12 7.83E-03 2.55 4.186 2.372 AG_0024 Aggregate Haulroads 429283.9 4408386.2 1608.69 7.83E-03 2.55 4.186 2.372AG_0025 Aggregate Haulroads 429292 4408390.2 1609.37 7.83E-03 2.55 4.186 2.372 AG_0026 Aggregate Haulroads 429300 4408394.2 1610.05 7.83E-03 2.55 4.186 2.372 AG_0027 Aggregate Haulroads 429308.1 4408398.2 1610.77 7.83E-03 2.55 4.186 2.372 AG_0028 Aggregate Haulroads 429316.2 4408402.2 1611.52 7.83E-03 2.55 4.186 2.372AG_0029 Aggregate Haulroads 429324.2 4408406.2 1612.32 7.83E-03 2.55 4.186 2.372 AG_0030 Aggregate Haulroads 429332.3 4408410.1 1612.92 7.83E-03 2.55 4.186 2.372 AG_0031 Aggregate Haulroads 429340.4 4408414.1 1613.49 7.83E-03 2.55 4.186 2.372 AG_0032 Aggregate Haulroads 429348.4 4408418.1 1614.31 7.83E-03 2.55 4.186 2.372AG_0033 Aggregate Haulroads 429356.5 4408422.1 1615.06 7.83E-03 2.55 4.186 2.372 AG_0034 Aggregate Haulroads 429364.6 4408426.1 1615.82 7.83E-03 2.55 4.186 2.372 AG_0035 Aggregate Haulroads 429372.7 4408430.1 1616.59 7.83E-03 2.55 4.186 2.372 AG_0036 Aggregate Haulroads 429380.7 4408434.1 1617.31 7.83E-03 2.55 4.186 2.372AG_0037 Aggregate Haulroads 429388.8 4408438.1 1618.18 7.83E-03 2.55 4.186 2.372 AG_0038 Aggregate Haulroads 429396.9 4408442 1619.07 7.83E-03 2.55 4.186 2.372 AG_0039 Aggregate Haulroads 429404.9 4408446 1619.92 7.83E-03 2.55 4.186 2.372 AG_0040 Aggregate Haulroads 429413 4408450 1620.8 7.83E-03 2.55 4.186 2.372AG_0041 Aggregate Haulroads 429421.1 4408454 1621.51 7.83E-03 2.55 4.186 2.372 AG_0042 Aggregate Haulroads 429429.2 4408457.9 1622.3 7.83E-03 2.55 4.186 2.372 AG_0043 Aggregate Haulroads 429437.2 4408461.9 1623.15 7.83E-03 2.55 4.186 2.372AG_0044 Aggregate Haulroads 429445.3 4408465.9 1623.95 7.83E-03 2.55 4.186 2.372 AG_0045 Aggregate Haulroads 429453.4 4408469.8 1624.78 7.83E-03 2.55 4.186 2.372 AG_0046 Aggregate Haulroads 429461.5 4408473.8 1625.45 7.83E-03 2.55 4.186 2.372 AG_0047 Aggregate Haulroads 429469.6 4408477.7 1626.19 7.83E-03 2.55 4.186 2.372AG_0048 Aggregate Haulroads 429477.7 4408481.7 1626.92 7.83E-03 2.55 4.186 2.372 AG_0049 Aggregate Haulroads 429485.7 4408485.7 1627.64 7.83E-03 2.55 4.186 2.372 AG_0050 Aggregate Haulroads 429493.8 4408489.6 1628.51 7.83E-03 2.55 4.186 2.372 AG_0051 Aggregate Haulroads 429501.9 4408493.6 1629.34 7.83E-03 2.55 4.186 2.372AG_0052 Aggregate Haulroads 429510 4408497.5 1630.13 7.83E-03 2.55 4.186 2.372 AG_0053 Aggregate Haulroads 429518.1 4408501.5 1630.95 7.83E-03 2.55 4.186 2.372 AG_0054 Aggregate Haulroads 429526.1 4408505.5 1631.72 7.83E-03 2.55 4.186 2.372 AG_0055 Aggregate Haulroads 429534.2 4408509.5 1632.49 7.83E-03 2.55 4.186 2.372AG_0056 Aggregate Haulroads 429542.2 4408513.6 1633.15 7.83E-03 2.55 4.186 2.372 AG_0057 Aggregate Haulroads 429550.2 4408517.8 1634.09 7.83E-03 2.55 4.186 2.372 AG_0058 Aggregate Haulroads 429558.2 4408521.9 1635.08 7.83E-03 2.55 4.186 2.372 AG_0059 Aggregate Haulroads 429566.2 4408526 1636.05 7.83E-03 2.55 4.186 2.372AG_0060 Aggregate Haulroads 429574.2 4408530.2 1636.91 7.83E-03 2.55 4.186 2.372 AG_0061 Aggregate Haulroads 429582.1 4408534.3 1637.68 7.83E-03 2.55 4.186 2.372 AG_0062 Aggregate Haulroads 429590.1 4408538.5 1638.65 7.83E-03 2.55 4.186 2.372 AG_0063 Aggregate Haulroads 429598.1 4408542.6 1639.44 7.83E-03 2.55 4.186 2.372AG_0064 Aggregate Haulroads 429606.1 4408546.7 1640.24 7.83E-03 2.55 4.186 2.372 AG_0065 Aggregate Haulroads 429614 4408551 1641.08 7.83E-03 2.55 4.186 2.372 AG_0066 Aggregate Haulroads 429622 4408555.3 1641.85 7.83E-03 2.55 4.186 2.372 AG_0067 Aggregate Haulroads 429629.9 4408559.6 1642.46 7.83E-03 2.55 4.186 2.372 AG_0068 Aggregate Haulroads 429637.8 4408563.8 1643.79 7.83E-03 2.55 4.186 2.372 AG_0069 Aggregate Haulroads 429645.7 4408568.1 1644.65 7.83E-03 2.55 4.186 2.372 AG_0070 Aggregate Haulroads 429653.6 4408572.4 1645.35 7.83E-03 2.55 4.186 2.372AG_0071 Aggregate Haulroads 429661.6 4408576.7 1646.43 7.83E-03 2.55 4.186 2.372 AG_0072 Aggregate Haulroads 429669.5 4408580.9 1647.56 7.83E-03 2.55 4.186 2.372 AG_0073 Aggregate Haulroads 429677.4 4408585.2 1648.98 7.83E-03 2.55 4.186 2.372 AG_0074 Aggregate Haulroads 429685.3 4408589.5 1650.55 7.83E-03 2.55 4.186 2.372AG_0075 Aggregate Haulroads 429693.2 4408593.8 1652.05 7.83E-03 2.55 4.186 2.372 AG_0076 Aggregate Haulroads 429701.2 4408598 1653.34 7.83E-03 2.55 4.186 2.372 AG_0077 Aggregate Haulroads 429709.1 4408602.3 1654.04 7.83E-03 2.55 4.186 2.372 AG_0078 Aggregate Haulroads 429717 4408606.6 1656.02 7.83E-03 2.55 4.186 2.372AG_0079 Aggregate Haulroads 429725.2 4408610.3 1660.97 7.83E-03 2.55 4.186 2.372 AG_0080 Aggregate Haulroads 429733.7 4408613.3 1663.77 7.83E-03 2.55 4.186 2.372 AG_0081 Aggregate Haulroads 429742.2 4408616.2 1662.99 7.83E-03 2.55 4.186 2.372 AG_0082 Aggregate Haulroads 429750.7 4408619.2 1661.15 7.83E-03 2.55 4.186 2.372AG_0083 Aggregate Haulroads 429759.2 4408622.2 1658.79 7.83E-03 2.55 4.186 2.372 AG_0084 Aggregate Haulroads 429767.6 4408625.1 1657.86 7.83E-03 2.55 4.186 2.372 AG_0085 Aggregate Haulroads 429776.5 4408624.9 1658.03 7.83E-03 2.55 4.186 2.372 AG_0086 Aggregate Haulroads 429785.4 4408623.7 1658.97 7.83E-03 2.55 4.186 2.372AG_0087 Aggregate Haulroads 429794.3 4408622.4 1661.88 7.83E-03 2.55 4.186 2.372 AG_0088 Aggregate Haulroads 429803.2 4408621.1 1663.31 7.83E-03 2.55 4.186 2.372 AG_0089 Aggregate Haulroads 429812.1 4408619.8 1664.21 7.83E-03 2.55 4.186 2.372 AG_0090 Aggregate Haulroads 429820.2 4408616.9 1665.04 7.83E-03 2.55 4.186 2.372AG_0091 Aggregate Haulroads 429827 4408610.9 1665.56 7.83E-03 2.55 4.186 2.372 AG_0092 Aggregate Haulroads 429833.8 4408605 1665.99 7.83E-03 2.55 4.186 2.372 AG_0093 Aggregate Haulroads 429840.5 4408599.1 1666.16 7.83E-03 2.55 4.186 2.372AG_0094 Aggregate Haulroads 429840.6 4408590.1 1665.85 7.83E-03 2.55 4.186 2.372 AG_0095 Aggregate Haulroads 429840.7 4408581.1 1665.25 7.83E-03 2.55 4.186 2.372 AG_0096 Aggregate Haulroads 429840.8 4408572.1 1664.25 7.83E-03 2.55 4.186 2.372 AG_0097 Aggregate Haulroads 429835.4 4408565.3 1663.28 7.83E-03 2.55 4.186 2.372AG_0098 Aggregate Haulroads 429829 4408559.1 1663.07 7.83E-03 2.55 4.186 2.372 AG_0099 Aggregate Haulroads 429821.3 4408554.8 1662.11 7.83E-03 2.55 4.186 2.372 AG_0100 Aggregate Haulroads 429812.9 4408551.4 1660.71 7.83E-03 2.55 4.186 2.372 AG_0101 Aggregate Haulroads 429804.5 4408548.1 1659.75 7.83E-03 2.55 4.186 2.372AG_0102 Aggregate Haulroads 429796.1 4408544.8 1659.08 7.83E-03 2.55 4.186 2.372 AG_0103 Aggregate Haulroads 429787.6 4408542.6 1658.82 7.83E-03 2.55 4.186 2.372 AG_0104 Aggregate Haulroads 429778.7 4408543.5 1658.66 7.83E-03 2.55 4.186 2.372 AG_0105 Aggregate Haulroads 429769.7 4408544.4 1657.4 7.83E-03 2.55 4.186 2.372AG_0106 Aggregate Haulroads 429760.8 4408545.2 1655.98 7.83E-03 2.55 4.186 2.372 AG_0107 Aggregate Haulroads 429751.8 4408546.1 1656.55 7.83E-03 2.55 4.186 2.372 AG_0108 Aggregate Haulroads 429742.8 4408547 1657.18 7.83E-03 2.55 4.186 2.372 AG_0109 Aggregate Haulroads 429733.9 4408548.3 1656.65 7.83E-03 2.55 4.186 2.372AG_0110 Aggregate Haulroads 429725 4408549.5 1654.22 7.83E-03 2.55 4.186 2.372 AG_0111 Aggregate Haulroads 429716.1 4408550.8 1653.37 7.83E-03 2.55 4.186 2.372 AG_0112 Aggregate Haulroads 429707.2 4408552.1 1652.38 7.83E-03 2.55 4.186 2.372 AG_0113 Aggregate Haulroads 429698.3 4408553.4 1650.99 7.83E-03 2.55 4.186 2.372AG_0114 Aggregate Haulroads 429689.4 4408554.7 1649.45 7.83E-03 2.55 4.186 2.372 AG_0115 Aggregate Haulroads 429680.5 4408555.9 1648.13 7.83E-03 2.55 4.186 2.372 AG_0116 Aggregate Haulroads 429671.6 4408557.2 1646.92 7.83E-03 2.55 4.186 2.372 AG_0117 Aggregate Haulroads 429662.7 4408558.5 1645.82 7.83E-03 2.55 4.186 2.372 AG_0118 Aggregate Haulroads 429653.8 4408559.8 1644.84 7.83E-03 2.55 4.186 2.372AG_0119 Aggregate Haulroads 429644.8 4408561.1 1644.01 7.83E-03 2.55 4.186 2.372 AG_0120 Aggregate Haulroads 429636 4408562.1 1643.39 7.83E-03 2.55 4.186 2.372 AG_0121 Aggregate Haulroads 429627.9 4408558.1 1642.31 7.83E-03 2.55 4.186 2.372 AG_0122 Aggregate Haulroads 429619.9 4408554 1641.66 7.83E-03 2.55 4.186 2.372AG_0123 Aggregate Haulroads 429611.9 4408550 1640.86 7.83E-03 2.55 4.186 2.372 AG_0124 Aggregate Haulroads 429603.8 4408545.9 1640 7.83E-03 2.55 4.186 2.372 AG_0125 Aggregate Haulroads 429595.8 4408541.9 1639.25 7.83E-03 2.55 4.186 2.372 AG_0126 Aggregate Haulroads 429587.8 4408537.8 1638.38 7.83E-03 2.55 4.186 2.372AG_0127 Aggregate Haulroads 429579.7 4408533.8 1637.49 7.83E-03 2.55 4.186 2.372 AG_0128 Aggregate Haulroads 429571.7 4408529.7 1636.66 7.83E-03 2.55 4.186 2.372 AG_0129 Aggregate Haulroads 429563.7 4408525.6 1635.81 7.83E-03 2.55 4.186 2.372 AG_0130 Aggregate Haulroads 429555.6 4408521.6 1634.81 7.83E-03 2.55 4.186 2.372AG_0131 Aggregate Haulroads 429547.6 4408517.5 1633.8 7.83E-03 2.55 4.186 2.372 AG_0132 Aggregate Haulroads 429539.5 4408513.5 1633.06 7.83E-03 2.55 4.186 2.372 AG_0133 Aggregate Haulroads 429531.5 4408509.4 1632.29 7.83E-03 2.55 4.186 2.372 AG_0134 Aggregate Haulroads 429523.5 4408505.4 1631.55 7.83E-03 2.55 4.186 2.372AG_0135 Aggregate Haulroads 429515.4 4408501.3 1630.77 7.83E-03 2.55 4.186 2.372 AG_0136 Aggregate Haulroads 429507.4 4408497.3 1629.91 7.83E-03 2.55 4.186 2.372 AG_0137 Aggregate Haulroads 429499.4 4408493.2 1629.24 7.83E-03 2.55 4.186 2.372AG_0138 Aggregate Haulroads 429491.3 4408489.2 1628.27 7.83E-03 2.55 4.186 2.372 AG_0139 Aggregate Haulroads 429483.3 4408485.1 1627.47 7.83E-03 2.55 4.186 2.372 AG_0140 Aggregate Haulroads 429475.3 4408481.1 1626.74 7.83E-03 2.55 4.186 2.372 AG_0141 Aggregate Haulroads 429467.2 4408477 1625.96 7.83E-03 2.55 4.186 2.372AG_0142 Aggregate Haulroads 429459.2 4408472.9 1625.31 7.83E-03 2.55 4.186 2.372 AG_0143 Aggregate Haulroads 429451.2 4408468.9 1624.56 7.83E-03 2.55 4.186 2.372 AG_0144 Aggregate Haulroads 429443.1 4408464.8 1623.74 7.83E-03 2.55 4.186 2.372 AG_0145 Aggregate Haulroads 429435.1 4408460.8 1622.93 7.83E-03 2.55 4.186 2.372AG_0146 Aggregate Haulroads 429427.1 4408456.7 1622.06 7.83E-03 2.55 4.186 2.372 AG_0147 Aggregate Haulroads 429419 4408452.7 1621.34 7.83E-03 2.55 4.186 2.372 AG_0148 Aggregate Haulroads 429411 4408448.6 1620.58 7.83E-03 2.55 4.186 2.372 AG_0149 Aggregate Haulroads 429402.9 4408444.6 1619.67 7.83E-03 2.55 4.186 2.372AG_0150 Aggregate Haulroads 429394.9 4408440.6 1618.85 7.83E-03 2.55 4.186 2.372 AG_0151 Aggregate Haulroads 429386.8 4408436.6 1617.91 7.83E-03 2.55 4.186 2.372 AG_0152 Aggregate Haulroads 429378.7 4408432.6 1617.12 7.83E-03 2.55 4.186 2.372 AG_0153 Aggregate Haulroads 429370.7 4408428.6 1616.38 7.83E-03 2.55 4.186 2.372AG_0154 Aggregate Haulroads 429362.6 4408424.6 1615.59 7.83E-03 2.55 4.186 2.372 AG_0155 Aggregate Haulroads 429354.5 4408420.6 1614.89 7.83E-03 2.55 4.186 2.372 AG_0156 Aggregate Haulroads 429346.5 4408416.6 1614.1 7.83E-03 2.55 4.186 2.372 AG_0157 Aggregate Haulroads 429338.4 4408412.6 1613.34 7.83E-03 2.55 4.186 2.372AG_0158 Aggregate Haulroads 429330.4 4408408.6 1612.87 7.83E-03 2.55 4.186 2.372 AG_0159 Aggregate Haulroads 429322.3 4408404.6 1612.11 7.83E-03 2.55 4.186 2.372 AG_0160 Aggregate Haulroads 429314.2 4408400.6 1611.33 7.83E-03 2.55 4.186 2.372 AG_0161 Aggregate Haulroads 429306.2 4408396.6 1610.54 7.83E-03 2.55 4.186 2.372 AG_0162 Aggregate Haulroads 429298.1 4408392.6 1609.88 7.83E-03 2.55 4.186 2.372 AG_0163 Aggregate Haulroads 429290.1 4408388.6 1609.2 7.83E-03 2.55 4.186 2.372 AG_0164 Aggregate Haulroads 429282 4408384.6 1608.53 7.83E-03 2.55 4.186 2.372AG_0165 Aggregate Haulroads 429273.9 4408380.6 1608.07 7.83E-03 2.55 4.186 2.372 AG_0166 Aggregate Haulroads 429265.9 4408376.6 1607.58 7.83E-03 2.55 4.186 2.372 AG_0167 Aggregate Haulroads 429257.8 4408372.6 1606.99 7.83E-03 2.55 4.186 2.372 AG_0168 Aggregate Haulroads 429249.8 4408368.6 1606.26 7.83E-03 2.55 4.186 2.372AG_0169 Aggregate Haulroads 429241.7 4408364.6 1605.63 2.54E-03 2.55 4.186 2.372 AG_0170 Aggregate Haulroads 429233.6 4408360.6 1604.88 2.54E-03 2.55 4.186 2.372 AG_0171 Aggregate Haulroads 429225.6 4408356.6 1604.09 2.54E-03 2.55 4.186 2.372 AG_0172 Aggregate Haulroads 429217.5 4408352.6 1603.54 2.54E-03 2.55 4.186 2.372AG_0173 Aggregate Haulroads 429209.5 4408348.6 1602.87 2.54E-03 2.55 4.186 2.372 AG_0174 Aggregate Haulroads 429201.4 4408344.5 1602.46 2.54E-03 2.55 4.186 2.372 AG_0175 Aggregate Haulroads 429193.3 4408340.5 1601.79 2.54E-03 2.55 4.186 2.372 AG_0176 Aggregate Haulroads 429185.3 4408336.5 1601.07 2.54E-03 2.55 4.186 2.372AG_0177 Aggregate Haulroads 429177.2 4408332.5 1600.43 2.54E-03 2.55 4.186 2.372 AG_0178 Aggregate Haulroads 429169.2 4408328.5 1599.79 2.54E-03 2.55 4.186 2.372 AG_0179 Aggregate Haulroads 429161.1 4408324.5 1599.22 2.54E-03 2.55 4.186 2.372 AG_0180 Aggregate Haulroads 429153 4408320.5 1598.28 2.54E-03 2.55 4.186 2.372AG_0181 Aggregate Haulroads 429145 4408316.5 1597.58 2.54E-03 2.55 4.186 2.372 AG_0182 Aggregate Haulroads 429136.9 4408312.5 1596.9 2.54E-03 2.55 4.186 2.372 AG_0183 Aggregate Haulroads 429129 4408308.3 1596.02 2.54E-03 2.55 4.186 2.372 AG_0184 Aggregate Haulroads 429121 4408304.2 1595.58 2.54E-03 2.55 4.186 2.372AG_0185 Aggregate Haulroads 429113 4408300 1594.78 2.54E-03 2.55 4.186 2.372 AG_0186 Aggregate Haulroads 429105 4408295.9 1594.23 2.54E-03 2.55 4.186 2.372 AG_0187 Aggregate Haulroads 429097 4408291.7 1593.66 2.54E-03 2.55 4.186 2.372 Modeling Inputs - Formaldehyde Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 Point Sources - Formaldehyde Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Stack Height Temperature Exit Velocity Stack Diameter (m) (m) (m) (lb/hr) (m) (K) (m/s) (m) CON_WH Concrete Plant Water Heater 429393 4408370.8 1617.99 0.002334 18.288 294.260 12.192 0.610 HMA_HTR Asphalt Plant Hot Oil Heater 429172.2 4408559.9 1601.12 0.001179 18.288 294.260 12.192 0.610 HMA_AP Drum Mix Asphalt Plants (Baghouse) 429166.1 4408564.7 1601.7 1.32 7.163 353.983 18.431 1.151 Volume Sources - Formaldehyde Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr) Release Height Init. Horizontal Dimension Initial Vert. Dimension HMA_001 Hot Mix Asphalt Plant Silo Loading 429147.9 4408555.1 1600.6 3.574E-02 4.57 0.70 4.27HMA_002 Asphalt Plant - Loadout 429145.2 4408554.9 1600.4 2.089E-04 4.57 0.70 4.27 Modeled Buildings Source ID Source Description X Coordinate Y Coordinate Elevation Height X Length Y Length Angle (m)(m)(m)(m)(m)(m) 1DKKN00G HMA Loadout 429141.5 4408559.5 1600.19 18.288 8.5344 3.048 90 1DKKN00I HMA Heater 429165.4 4408562.2 1601.12 4.572 3.6576 8.5344 90 1DKKN00J HMA Baghouse 429159.1 4408566.5 1601.7 4.572 3.6576 8.5344 90 1DKKN00L Concrete Batch 429393 4408385.6 1618.32 12.192 25 15 0 1DKKN00N Concrete Plant Water Heater 429390.5 4408372.2 1617.76 12.192 4 6 90 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants C-1 APPENDIX C. DISPERSION MODELING RESULTS *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 1 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** MODEL SETUP OPTIONS SUMMARY *** - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ** Model Options Selected: * Model Uses Regulatory DEFAULT Options * Model Is Setup For Calculation of Average CONCentration Values. * NO GAS DEPOSITION Data Provided. * NO PARTICLE DEPOSITION Data Provided. * Model Uses NO DRY DEPLETION. DDPLETE = F * Model Uses NO WET DEPLETION. WETDPLT = F * Stack-tip Downwash. * Model Accounts for ELEVated Terrain Effects. * Use Calms Processing Routine. * Use Missing Data Processing Routine. * No Exponential Decay. * Model Uses RURAL Dispersion Only. * Model Assumes No FLAGPOLE Receptor Heights. * The User Specified a Pollutant Type of: PM10 **Model Calculates 1 Short Term Average(s) of: 24-HR **This Run Includes: 557 Source(s); 1 Source Group(s); and 2317 Receptor(s) with: 5 POINT(s), including 0 POINTCAP(s) and 0 POINTHOR(s) and: 534 VOLUME source(s) and: 18 AREA type source(s) and: 0 LINE source(s) and: 0 RLINE/RLINEXT source(s) and: 0 OPENPIT source(s) and: 0 BUOYANT LINE source(s) with a total of 0 line(s) and: 0 SWPOINT source(s) **This Run Includes BACKGRND Values for 1 Source Group(s) for a Single Sector Non-HOURLY BACKGRND Values are Available Varying by: MONTH **Model Set To Continue RUNning After the Setup Testing. **The AERMET Input Meteorological Data Version Date: 21112 **Output Options Selected: Model Outputs Tables of Highest Short Term Values by Receptor (RECTABLE Keyword) Model Outputs External File(s) of High Values for Plotting (PLOTFILE Keyword) Model Outputs Separate Summary File of High Ranked Values (SUMMFILE Keyword) **NOTE: The Following Flags May Appear Following CONC Values: c for Calm Hours m for Missing Hours b for Both Calm and Missing Hours **Misc. Inputs: Base Elev. for Pot. Temp. Profile (m MSL) = 1569.00 ; Decay Coef. = 0.000 ; Rot. Angle = 0.0 Emission Units = GRAMS/SEC ; Emission Rate Unit Factor = 0.10000E+07 Output Units = MICROGRAMS/M**3 **Approximate Storage Requirements of Model = 8.7 MB of RAM. **Input Runstream File: aermod.inp **Output Print File: aermod.out **File for Summary of Results: SUMMARYFILE.SUM *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 2 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** METEOROLOGICAL DAYS SELECTED FOR PROCESSING *** (1=YES; 0=NO) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOTE: METEOROLOGICAL DATA ACTUALLY PROCESSED WILL ALSO DEPEND ON WHAT IS INCLUDED IN THE DATA FILE. *** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEED CATEGORIES *** (METERS/SEC) 1.54, 3.09, 5.14, 8.23, 10.80, *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 3 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** UP TO THE FIRST 24 HOURS OF METEOROLOGICAL DATA *** Surface file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Met Version: 21112 Profile file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Surface format: FREE Profile format: FREE Surface station no.: 25720 Upper air station no.: 24127 Name: UNKNOWN Name: UNKNOWN Year: 2001 Year: 2001 First 24 hours of scalar data YR MO DY JDY HR H0 U* W* DT/DZ ZICNV ZIMCH M-O LEN Z0 BOWEN ALBEDO REF WS WD HT REF TA HT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 01 05 09 129 01 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 02 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 03 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 04 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 05 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 06 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.69 999.00 999. -9.0 999.0 -9.0 01 05 09 129 07 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.34 999.00 999. -9.0 999.0 -9.0 01 05 09 129 08 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.22 999.00 999. -9.0 999.0 -9.0 01 05 09 129 09 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.18 999.00 999. -9.0 999.0 -9.0 01 05 09 129 10 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.17 999.00 999. -9.0 999.0 -9.0 01 05 09 129 11 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 12 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 13 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 14 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 15 180.2 0.558 -9.000 -9.000 -999. 1001. -72.4 0.30 0.67 0.16 4.40 233. 10.0 300.4 2.0 01 05 09 129 16 161.8 0.513 -9.000 -9.000 -999. 886. -62.6 0.30 0.67 0.17 4.00 224. 10.0 300.8 2.0 01 05 09 129 17 113.7 0.555 -9.000 -9.000 -999. 991. -112.6 0.30 0.67 0.18 4.50 235. 10.0 300.9 2.0 01 05 09 129 18 38.7 0.569 -9.000 -9.000 -999. 1029. -355.5 0.41 0.67 0.23 4.40 240. 10.0 299.4 2.0 01 05 09 129 19 10.0 0.681 -9.000 -9.000 -999. 1345. -2357.2 0.41 0.67 0.38 5.40 260. 10.0 297.9 2.0 01 05 09 129 20 -19.2 0.430 -9.000 -9.000 -999. 743. 309.8 0.41 0.67 1.00 3.60 259. 10.0 296.0 2.0 01 05 09 129 21 -20.7 0.304 -9.000 -9.000 -999. 421. 101.7 0.41 0.67 1.00 2.80 261. 10.0 292.8 2.0 01 05 09 129 22 -14.6 0.214 -9.000 -9.000 -999. 242. 50.0 0.30 0.67 1.00 2.40 230. 10.0 291.9 2.0 01 05 09 129 23 -18.8 0.273 -9.000 -9.000 -999. 343. 81.5 0.41 0.67 1.00 2.60 245. 10.0 290.4 2.0 01 05 09 129 24 -24.2 0.350 -9.000 -9.000 -999. 498. 133.4 0.30 0.67 1.00 3.40 352. 10.0 289.6 2.0 First hour of profile data YR MO DY HR HEIGHT F WDIR WSPD AMB_TMP sigmaA sigmaW sigmaV 01 05 09 01 6.1 1 -999. -99.00 -999.0 999.0 -99.00 -99.00 F indicates top of profile (=1) or below (=0) *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 4 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** THE SUMMARY OF HIGHEST 24-HR RESULTS *** ** CONC OF PM10 IN MICROGRAMS/M**3 ** DATE NETWORK GROUP ID AVERAGE CONC (YYMMDDHH) RECEPTOR (XR, YR, ZELEV, ZHILL, ZFLAG) OF TYPE GRID-ID - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ALL HIGH 2ND HIGH VALUE IS 146.71789m ON 01123124: AT ( 429395.40, 4408283.50, 1619.28, 3635.95, 0.00) DC *** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 10/25/23 *** AERMET - VERSION 21112 *** *** *** 15:15:47 PAGE 5 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** Message Summary : AERMOD Model Execution *** --------- Summary of Total Messages -------- A Total of 0 Fatal Error Message(s) A Total of 1185 Warning Message(s) A Total of 125 Informational Message(s) A Total of 8784 Hours Were Processed A Total of 1 Calm Hours Identified A Total of 124 Missing Hours Identified ( 1.41 Percent) ******** FATAL ERROR MESSAGES ******** *** NONE *** ******** WARNING MESSAGES ******** SO W298 8943 SOGRP: Results reported for source group ALL include BACKGROUND OU W565 13600 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE MX W403 15 PFLCNV: Turbulence data is being used w/o ADJ_U* option SigA Data MX W479 21 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 22 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 23 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 29 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.639 MX W479 45 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 46 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 47 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.672 MX W479 48 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 49 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 50 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 51 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.796 MX W479 53 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 68 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 69 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 70 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 71 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.331 MX W479 72 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 73 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.351 MX W479 92 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 93 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 94 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 96 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 98 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.823 MX W479 99 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 123 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.617 MX W479 140 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 141 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.642 MX W479 263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 264 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.137 MX W479 265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 266 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.912 MX W479 268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 337 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.615 MX W479 357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 360 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 383 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 385 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.855 MX W479 389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 390 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.084 MX W479 412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.241 MX W479 413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 460 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.015 MX W479 462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 532 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.894 MX W479 554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 577 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 578 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 579 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.005 MX W479 581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 649 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 650 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.872 MX W479 722 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.844 MX W479 748 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 749 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.349 MX W479 750 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 767 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 768 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 769 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 770 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 771 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 773 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.514 MX W479 796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 797 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.232 MX W479 815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 818 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 842 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 885 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 887 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 888 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.659 MX W479 913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.917 MX W479 916 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.927 MX W479 934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 935 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 938 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 939 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 957 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 962 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.147 MX W479 963 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.230 MX W479 964 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 987 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 989 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1008 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 1011 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 1012 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 1013 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 1014 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.066 MX W479 1036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1038 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 1055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 1058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 1059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 1060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 1061 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 1077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 1151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.808 MX W479 1153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.828 MX W479 1154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.967 MX W479 1155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 1156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 1202 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 1203 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1204 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 1205 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.028 MX W479 1206 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.830 MX W479 1220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 1221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 1223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.087 MX W479 1225 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.924 MX W479 1244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 1245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.641 MX W479 1246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 1247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.045 MX W479 1248 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.098 MX W479 1249 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 1250 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 1251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.925 MX W479 1252 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1253 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 1268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 1269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 1270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 1271 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.335 MX W479 1273 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 1274 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.317 MX W479 1275 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.383 MX W479 1276 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.950 MX W479 1295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 1296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 1317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 1318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 1323 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 1324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 1344 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 1347 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 1349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 1367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 1373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 1374 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 1444 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 1508 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 1509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 1516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 1518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1536 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 1541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.721 MX W479 1557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.792 MX W479 1560 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 1565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 1631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1633 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 1634 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 1635 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.366 MX W479 1636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 1637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 1638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1658 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 1659 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 1660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 1661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 1681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.687 MX W479 1682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 1683 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 1684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.400 MX W479 1685 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.268 MX W479 1686 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.200 MX W479 1705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.001 MX W479 1706 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1707 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.450 MX W479 1708 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.594 MX W479 1709 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.965 MX W479 1710 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.885 MX W479 1726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 1727 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1729 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 1731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1732 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.868 MX W479 1733 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1755 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1756 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 1757 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 1774 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 1775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1776 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 1777 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 1778 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 1779 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 1780 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.304 MX W479 1781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.968 MX W479 1782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 1798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 1800 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 1829 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 1844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 1845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 1847 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 1848 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1849 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 1850 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 1852 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 1853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 1918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.591 MX W479 1941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.019 MX W479 1947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 1948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 1949 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 1950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 2016 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 2017 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 2018 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 2036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 2040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2041 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 2042 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 2043 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 2070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.725 MX W479 2114 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.620 MX W479 2115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 2118 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2136 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2137 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 2138 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.905 MX W479 2139 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2143 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 2254 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 2256 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 2258 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 2259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 2260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 2280 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.169 MX W479 2283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2305 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 2326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 2350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 2351 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2352 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2353 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 2354 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 2372 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 2377 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 2378 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 2400 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.952 MX W479 2401 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 2402 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 2404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 2421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 2423 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.987 MX W479 2424 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.756 MX W479 2426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 2429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.603 MX W479 2445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 2446 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 2540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 2541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 2545 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 2547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 2550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2564 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 2565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2566 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 2570 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 2573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2575 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 2588 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 2589 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 2590 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 2591 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.988 MX W479 2592 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 2593 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 2595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.807 MX W479 2597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2616 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.261 MX W479 2619 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 2636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.737 MX W479 2637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 2638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 2639 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 2640 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 2641 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 2642 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 2646 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 2661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 2662 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 2663 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 2664 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2665 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2667 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2759 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 2761 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.609 MX W479 2763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2765 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 2766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 2791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2806 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 2807 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.969 MX W479 2812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 2813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 2814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 2832 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 2833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.156 MX W479 2835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 2854 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2855 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 2861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 2862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 2863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 2904 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 2905 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 2906 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 2907 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2952 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 2953 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 2973 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 2974 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2975 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 2976 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.753 MX W479 2977 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 2997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.910 MX W479 2999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.883 MX W479 3000 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.135 MX W479 3001 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3002 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.858 MX W479 3003 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 3006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 3026 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3054 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3095 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 3098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 3117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3121 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 3127 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 3149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3169 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3170 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.815 MX W479 3171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.803 MX W479 3192 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 3198 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 3214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 3216 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 3217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 3223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 3243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 3262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.904 MX W479 3265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.025 MX W479 3269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 3270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 3288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.938 MX W479 3289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.112 MX W479 3292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 3309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 3310 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3311 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 3319 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 3332 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.909 MX W479 3333 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.852 MX W479 3334 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 3335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 3338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 3358 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 3359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 3362 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.943 MX W479 3363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 3364 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3365 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.334 MX W479 3366 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.388 MX W479 3367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.217 MX W479 3379 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 3380 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.267 MX W479 3382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3384 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.730 MX W479 3386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.053 MX W479 3387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3388 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 3389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.954 MX W479 3403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 3404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 3405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.812 MX W479 3406 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.887 MX W479 3407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 3408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 3409 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.959 MX W479 3410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.754 MX W479 3411 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.759 MX W479 3412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 3413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 3414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.879 MX W479 3429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 3433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3434 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.821 MX W479 3435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.758 MX W479 3436 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 3455 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 3458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 3459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 3480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3481 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 3483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 3505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3524 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 3525 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 3527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 3528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 3547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 3551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 3554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 3555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 3557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.588 MX W479 3558 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 3572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 3573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 3583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 3598 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3599 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 3644 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 3696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 3718 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3788 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 3789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 3791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 3793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3794 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.841 MX W479 3799 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 3811 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.717 MX W479 3812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.716 MX W479 3813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 3823 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 3838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.834 MX W479 3839 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.941 MX W479 3840 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 3841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 3846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3858 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3859 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.387 MX W479 3860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 3862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3865 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.630 MX W479 3866 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 3868 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.058 MX W479 3869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.052 MX W479 3870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3871 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 3883 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 3886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 3909 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3910 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.692 MX W479 3911 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.797 MX W479 3912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 3913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 3918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 3931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.831 MX W479 3932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 3933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.165 MX W479 3959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 3960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 3965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3979 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 3980 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 3981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.893 MX W479 3985 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 4004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 4005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 4007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 4039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 4058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 4059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.915 MX W479 4060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 4075 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 4076 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 4078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.958 MX W479 4080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 4081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 4082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 4098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4099 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 4100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 4101 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 4111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 4132 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.622 MX W479 4133 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4147 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4148 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 4149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 4151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 4152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 4153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.907 MX W479 4154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.851 MX W479 4155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.060 MX W479 4156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 4173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 4207 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 4221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 4224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 4229 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 4246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 4251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 4269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 4270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4277 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 4296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.901 MX W479 4299 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 4300 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 4301 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 4316 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 4317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 4318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 4320 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.728 MX W479 4321 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 4324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 4341 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 4342 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 4345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4346 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 4350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 4416 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.710 MX W479 4417 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 4418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 4437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 4438 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.746 MX W479 4439 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 4459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 4463 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.632 MX W479 4471 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 4482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4484 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.094 MX W479 4485 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 4489 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4490 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.996 MX W479 4492 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 4519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 4520 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 4530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 4531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 4534 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 4581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4584 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4586 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 4602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.922 MX W479 4605 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.982 MX W479 4606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 4628 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 4630 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 4632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 4660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 4674 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 4675 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 4676 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4677 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 4678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 4680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 4681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 4698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 4699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 4700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4701 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.683 MX W479 4702 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 4705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 4724 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 4725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4820 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4821 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 4826 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 4828 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4830 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 4831 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4940 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 4941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 4942 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 4943 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4944 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.989 MX W479 4945 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 4946 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 4947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 4948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5037 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 5045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 5112 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 5113 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 5119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5120 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 5130 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 5155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 5156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 5157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 5158 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 5159 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5160 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 5193 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5231 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.033 MX W479 5232 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 5233 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 5255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5304 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 5307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 5309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 5371 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 5394 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5396 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.923 MX W479 5418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 5419 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 5420 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.670 MX W479 5421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.065 MX W479 5422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 5425 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 5426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.282 MX W479 5427 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 5428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 5430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 5431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 5451 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 5452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.162 MX W479 5453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 5454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 5495 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5497 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 5498 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 5499 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 5515 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 5516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 5519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5539 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 5541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 5542 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 5543 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 5546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5610 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 5611 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 5612 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 5613 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 5615 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 5617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 5731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.593 MX W479 5766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 5782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5783 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 5785 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 5860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 5875 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 5878 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5925 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5927 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 5928 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 5950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 5951 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 5954 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 5970 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.843 MX W479 5971 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 5981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 5982 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 5983 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 5984 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 5996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.551 MX W479 5998 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.602 MX W479 5999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 6019 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6020 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6021 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 6027 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 6028 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 6030 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6031 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 6045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 6071 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.636 MX W479 6072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 6073 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 6077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 6080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 6117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.680 MX W479 6119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 6126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 6151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 6186 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.881 MX W479 6187 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 6188 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 6213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.701 MX W479 6214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6215 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.649 MX W479 6217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6218 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 6219 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 6221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 6223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 6235 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.590 MX W479 6236 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 6237 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 6240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 6243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 6244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 6259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 6282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.684 MX W479 6283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6284 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 6285 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 6286 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6287 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 6288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 6289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6290 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6291 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 6292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 6307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6308 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 6435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 6452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6478 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6479 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.791 MX W479 6480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 6482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 6502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 6503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6504 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 6505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6507 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 6527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 6528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.598 MX W479 6529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 6530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 6531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6548 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.762 MX W479 6550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 6551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 6553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 6557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 6559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 6571 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 6572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.155 MX W479 6576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 6582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 6594 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.921 MX W479 6595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.295 MX W479 6596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.129 MX W479 6597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 6600 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6601 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.739 MX W479 6647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 6651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.778 MX W479 6668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 6669 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 6670 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 6678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.697 MX W479 6680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 6693 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 6694 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6695 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6697 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 6700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6719 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 6720 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 6721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 6725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 6726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.826 MX W479 6739 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6741 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 6772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6790 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 6791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 6792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 6813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 6814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 6815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 6816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 6819 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.689 MX W479 6824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6834 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.003 MX W479 6836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.601 MX W479 6837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 6869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 6932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6955 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6956 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.272 MX W479 6959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 6960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.192 MX W479 6961 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 6986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 7004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 7005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 7006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 7052 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 7078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 7081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 7082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 7135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 7171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 7173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 7174 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 7175 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 7177 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 More Than 999 Warning Messages Found. See ERRORFIL Output for the Remainder. *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 1 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** MODEL SETUP OPTIONS SUMMARY *** - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ** Model Options Selected: * Model Uses Regulatory DEFAULT Options * Model Is Setup For Calculation of Average CONCentration Values. * NO GAS DEPOSITION Data Provided. * NO PARTICLE DEPOSITION Data Provided. * Model Uses NO DRY DEPLETION. DDPLETE = F * Model Uses NO WET DEPLETION. WETDPLT = F * Stack-tip Downwash. * Model Accounts for ELEVated Terrain Effects. * Use Calms Processing Routine. * Use Missing Data Processing Routine. * No Exponential Decay. * Model Uses RURAL Dispersion Only. * Model Assumes No FLAGPOLE Receptor Heights. * The User Specified a Pollutant Type of: OTHER **Model Calculates 1 Short Term Average(s) of: 1-HR **This Run Includes: 5 Source(s); 1 Source Group(s); and 6628 Receptor(s) with: 3 POINT(s), including 0 POINTCAP(s) and 0 POINTHOR(s) and: 2 VOLUME source(s) and: 0 AREA type source(s) and: 0 LINE source(s) and: 0 RLINE/RLINEXT source(s) and: 0 OPENPIT source(s) and: 0 BUOYANT LINE source(s) with a total of 0 line(s) and: 0 SWPOINT source(s) **Model Set To Continue RUNning After the Setup Testing. **The AERMET Input Meteorological Data Version Date: 21112 **Output Options Selected: Model Outputs Tables of Highest Short Term Values by Receptor (RECTABLE Keyword) Model Outputs External File(s) of High Values for Plotting (PLOTFILE Keyword) Model Outputs Separate Summary File of High Ranked Values (SUMMFILE Keyword) **NOTE: The Following Flags May Appear Following CONC Values: c for Calm Hours m for Missing Hours b for Both Calm and Missing Hours **Misc. Inputs: Base Elev. for Pot. Temp. Profile (m MSL) = 1569.00 ; Decay Coef. = 0.000 ; Rot. Angle = 0.0 Emission Units = GRAMS/SEC ; Emission Rate Unit Factor = 0.10000E+07 Output Units = MICROGRAMS/M**3 **Approximate Storage Requirements of Model = 4.3 MB of RAM. **Input Runstream File: aermod.inp **Output Print File: aermod.out **File for Summary of Results: SUMMARYFILE.SUM *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 2 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** METEOROLOGICAL DAYS SELECTED FOR PROCESSING *** (1=YES; 0=NO) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOTE: METEOROLOGICAL DATA ACTUALLY PROCESSED WILL ALSO DEPEND ON WHAT IS INCLUDED IN THE DATA FILE. *** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEED CATEGORIES *** (METERS/SEC) 1.54, 3.09, 5.14, 8.23, 10.80, *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 3 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** UP TO THE FIRST 24 HOURS OF METEOROLOGICAL DATA *** Surface file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Met Version: 21112 Profile file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Surface format: FREE Profile format: FREE Surface station no.: 25720 Upper air station no.: 24127 Name: UNKNOWN Name: UNKNOWN Year: 2001 Year: 2001 First 24 hours of scalar data YR MO DY JDY HR H0 U* W* DT/DZ ZICNV ZIMCH M-O LEN Z0 BOWEN ALBEDO REF WS WD HT REF TA HT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 01 05 09 129 01 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 02 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 03 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 04 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 05 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 06 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.69 999.00 999. -9.0 999.0 -9.0 01 05 09 129 07 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.34 999.00 999. -9.0 999.0 -9.0 01 05 09 129 08 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.22 999.00 999. -9.0 999.0 -9.0 01 05 09 129 09 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.18 999.00 999. -9.0 999.0 -9.0 01 05 09 129 10 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.17 999.00 999. -9.0 999.0 -9.0 01 05 09 129 11 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 12 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 13 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 14 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 15 180.2 0.558 -9.000 -9.000 -999. 1001. -72.4 0.30 0.67 0.16 4.40 233. 10.0 300.4 2.0 01 05 09 129 16 161.8 0.513 -9.000 -9.000 -999. 886. -62.6 0.30 0.67 0.17 4.00 224. 10.0 300.8 2.0 01 05 09 129 17 113.7 0.555 -9.000 -9.000 -999. 991. -112.6 0.30 0.67 0.18 4.50 235. 10.0 300.9 2.0 01 05 09 129 18 38.7 0.569 -9.000 -9.000 -999. 1029. -355.5 0.41 0.67 0.23 4.40 240. 10.0 299.4 2.0 01 05 09 129 19 10.0 0.681 -9.000 -9.000 -999. 1345. -2357.2 0.41 0.67 0.38 5.40 260. 10.0 297.9 2.0 01 05 09 129 20 -19.2 0.430 -9.000 -9.000 -999. 743. 309.8 0.41 0.67 1.00 3.60 259. 10.0 296.0 2.0 01 05 09 129 21 -20.7 0.304 -9.000 -9.000 -999. 421. 101.7 0.41 0.67 1.00 2.80 261. 10.0 292.8 2.0 01 05 09 129 22 -14.6 0.214 -9.000 -9.000 -999. 242. 50.0 0.30 0.67 1.00 2.40 230. 10.0 291.9 2.0 01 05 09 129 23 -18.8 0.273 -9.000 -9.000 -999. 343. 81.5 0.41 0.67 1.00 2.60 245. 10.0 290.4 2.0 01 05 09 129 24 -24.2 0.350 -9.000 -9.000 -999. 498. 133.4 0.30 0.67 1.00 3.40 352. 10.0 289.6 2.0 First hour of profile data YR MO DY HR HEIGHT F WDIR WSPD AMB_TMP sigmaA sigmaW sigmaV 01 05 09 01 6.1 1 -999. -99.00 -999.0 999.0 -99.00 -99.00 F indicates top of profile (=1) or below (=0) *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 4 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** THE SUMMARY OF HIGHEST 1-HR RESULTS *** ** CONC OF OTHER IN MICROGRAMS/M**3 ** DATE NETWORK GROUP ID AVERAGE CONC (YYMMDDHH) RECEPTOR (XR, YR, ZELEV, ZHILL, ZFLAG) OF TYPE GRID-ID- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ALL HIGH 1ST HIGH VALUE IS 35.43488 ON 01070105: AT ( 429210.00, 4408682.20, 1610.61, 3635.95, 0.00) DC *** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - Formaldehyde *** 10/30/23 *** AERMET - VERSION 21112 *** *** *** 09:56:10 PAGE 5 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** Message Summary : AERMOD Model Execution *** --------- Summary of Total Messages -------- A Total of 0 Fatal Error Message(s) A Total of 1184 Warning Message(s) A Total of 125 Informational Message(s) A Total of 8784 Hours Were Processed A Total of 1 Calm Hours Identified A Total of 124 Missing Hours Identified ( 1.41 Percent) ******** FATAL ERROR MESSAGES ******** *** NONE *** ******** WARNING MESSAGES ******** OU W565 13399 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE MX W403 15 PFLCNV: Turbulence data is being used w/o ADJ_U* option SigA Data MX W479 21 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 22 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 23 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 29 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.639 MX W479 45 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 46 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 47 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.672 MX W479 48 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 49 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 50 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 51 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.796 MX W479 53 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 68 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 69 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 70 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 71 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.331 MX W479 72 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 73 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.351 MX W479 92 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 93 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 94 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 96 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 98 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.823 MX W479 99 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 123 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.617 MX W479 140 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 141 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.642 MX W479 263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 264 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.137 MX W479 265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 266 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.912 MX W479 268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 337 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.615 MX W479 357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 360 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 383 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 385 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.855 MX W479 389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 390 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.084 MX W479 412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.241 MX W479 413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 460 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.015 MX W479 462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 532 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.894 MX W479 554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 577 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 578 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 579 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.005 MX W479 581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 649 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 650 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.872 MX W479 722 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.844 MX W479 748 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 749 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.349 MX W479 750 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 767 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 768 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 769 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 770 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 771 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 773 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.514 MX W479 796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 797 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.232 MX W479 815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 818 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 842 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 885 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 887 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 888 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.659 MX W479 913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.917 MX W479 916 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.927 MX W479 934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 935 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 938 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 939 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 957 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 962 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.147 MX W479 963 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.230 MX W479 964 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 987 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 989 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1008 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 1011 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 1012 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 1013 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 1014 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.066 MX W479 1036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1038 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 1055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 1058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 1059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 1060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 1061 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 1077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 1151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.808 MX W479 1153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.828 MX W479 1154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.967 MX W479 1155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 1156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 1202 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 1203 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1204 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 1205 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.028 MX W479 1206 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.830 MX W479 1220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 1221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 1223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.087 MX W479 1225 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.924 MX W479 1244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 1245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.641 MX W479 1246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 1247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.045 MX W479 1248 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.098 MX W479 1249 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 1250 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 1251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.925 MX W479 1252 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1253 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 1268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 1269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 1270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 1271 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.335 MX W479 1273 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 1274 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.317 MX W479 1275 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.383 MX W479 1276 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.950 MX W479 1295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 1296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 1317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 1318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 1323 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 1324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 1344 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 1347 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 1349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 1367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 1373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 1374 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 1444 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 1508 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 1509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 1516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 1518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1536 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 1541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.721 MX W479 1557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.792 MX W479 1560 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 1565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 1631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1633 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 1634 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 1635 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.366 MX W479 1636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 1637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 1638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1658 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 1659 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 1660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 1661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 1681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.687 MX W479 1682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 1683 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 1684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.400 MX W479 1685 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.268 MX W479 1686 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.200 MX W479 1705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.001 MX W479 1706 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1707 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.450 MX W479 1708 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.594 MX W479 1709 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.965 MX W479 1710 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.885 MX W479 1726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 1727 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1729 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 1731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1732 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.868 MX W479 1733 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1755 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1756 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 1757 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 1774 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 1775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1776 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 1777 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 1778 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 1779 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 1780 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.304 MX W479 1781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.968 MX W479 1782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 1798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 1800 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 1829 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 1844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 1845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 1847 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 1848 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1849 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 1850 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 1852 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 1853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 1918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.591 MX W479 1941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.019 MX W479 1947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 1948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 1949 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 1950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 2016 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 2017 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 2018 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 2036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 2040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2041 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 2042 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 2043 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 2070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.725 MX W479 2114 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.620 MX W479 2115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 2118 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2136 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2137 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 2138 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.905 MX W479 2139 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2143 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 2254 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 2256 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 2258 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 2259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 2260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 2280 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.169 MX W479 2283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2305 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 2326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 2350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 2351 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2352 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2353 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 2354 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 2372 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 2377 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 2378 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 2400 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.952 MX W479 2401 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 2402 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 2404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 2421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 2423 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.987 MX W479 2424 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.756 MX W479 2426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 2429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.603 MX W479 2445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 2446 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 2540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 2541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 2545 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 2547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 2550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2564 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 2565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2566 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 2570 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 2573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2575 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 2588 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 2589 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 2590 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 2591 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.988 MX W479 2592 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 2593 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 2595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.807 MX W479 2597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2616 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.261 MX W479 2619 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 2636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.737 MX W479 2637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 2638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 2639 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 2640 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 2641 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 2642 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 2646 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 2661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 2662 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 2663 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 2664 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2665 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2667 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2759 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 2761 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.609 MX W479 2763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2765 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 2766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 2791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2806 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 2807 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.969 MX W479 2812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 2813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 2814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 2832 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 2833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.156 MX W479 2835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 2854 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2855 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 2861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 2862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 2863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 2904 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 2905 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 2906 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 2907 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2952 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 2953 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 2973 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 2974 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2975 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 2976 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.753 MX W479 2977 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 2997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.910 MX W479 2999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.883 MX W479 3000 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.135 MX W479 3001 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3002 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.858 MX W479 3003 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 3006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 3026 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3054 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3095 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 3098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 3117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3121 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 3127 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 3149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3169 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3170 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.815 MX W479 3171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.803 MX W479 3192 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 3198 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 3214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 3216 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 3217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 3223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 3243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 3262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.904 MX W479 3265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.025 MX W479 3269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 3270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 3288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.938 MX W479 3289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.112 MX W479 3292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 3309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 3310 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3311 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 3319 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 3332 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.909 MX W479 3333 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.852 MX W479 3334 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 3335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 3338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 3358 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 3359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 3362 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.943 MX W479 3363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 3364 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3365 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.334 MX W479 3366 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.388 MX W479 3367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.217 MX W479 3379 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 3380 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.267 MX W479 3382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3384 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.730 MX W479 3386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.053 MX W479 3387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3388 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 3389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.954 MX W479 3403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 3404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 3405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.812 MX W479 3406 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.887 MX W479 3407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 3408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 3409 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.959 MX W479 3410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.754 MX W479 3411 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.759 MX W479 3412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 3413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 3414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.879 MX W479 3429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 3433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3434 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.821 MX W479 3435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.758 MX W479 3436 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 3455 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 3458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 3459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 3480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3481 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 3483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 3505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3524 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 3525 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 3527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 3528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 3547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 3551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 3554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 3555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 3557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.588 MX W479 3558 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 3572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 3573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 3583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 3598 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3599 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 3644 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 3696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 3718 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3788 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 3789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 3791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 3793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3794 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.841 MX W479 3799 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 3811 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.717 MX W479 3812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.716 MX W479 3813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 3823 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 3838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.834 MX W479 3839 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.941 MX W479 3840 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 3841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 3846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3858 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3859 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.387 MX W479 3860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 3862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3865 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.630 MX W479 3866 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 3868 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.058 MX W479 3869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.052 MX W479 3870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3871 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 3883 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 3886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 3909 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3910 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.692 MX W479 3911 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.797 MX W479 3912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 3913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 3918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 3931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.831 MX W479 3932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 3933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.165 MX W479 3959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 3960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 3965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3979 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 3980 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 3981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.893 MX W479 3985 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 4004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 4005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 4007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 4039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 4058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 4059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.915 MX W479 4060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 4075 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 4076 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 4078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.958 MX W479 4080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 4081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 4082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 4098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4099 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 4100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 4101 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 4111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 4132 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.622 MX W479 4133 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4147 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4148 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 4149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 4151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 4152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 4153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.907 MX W479 4154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.851 MX W479 4155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.060 MX W479 4156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 4173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 4207 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 4221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 4224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 4229 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 4246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 4251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 4269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 4270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4277 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 4296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.901 MX W479 4299 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 4300 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 4301 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 4316 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 4317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 4318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 4320 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.728 MX W479 4321 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 4324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 4341 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 4342 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 4345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4346 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 4350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 4416 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.710 MX W479 4417 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 4418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 4437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 4438 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.746 MX W479 4439 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 4459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 4463 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.632 MX W479 4471 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 4482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4484 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.094 MX W479 4485 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 4489 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4490 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.996 MX W479 4492 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 4519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 4520 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 4530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 4531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 4534 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 4581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4584 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4586 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 4602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.922 MX W479 4605 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.982 MX W479 4606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 4628 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 4630 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 4632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 4660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 4674 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 4675 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 4676 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4677 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 4678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 4680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 4681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 4698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 4699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 4700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4701 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.683 MX W479 4702 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 4705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 4724 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 4725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4820 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4821 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 4826 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 4828 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4830 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 4831 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4940 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 4941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 4942 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 4943 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4944 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.989 MX W479 4945 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 4946 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 4947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 4948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5037 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 5045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 5112 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 5113 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 5119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5120 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 5130 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 5155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 5156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 5157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 5158 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 5159 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5160 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 5193 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5231 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.033 MX W479 5232 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 5233 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 5255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5304 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 5307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 5309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 5371 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 5394 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5396 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.923 MX W479 5418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 5419 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 5420 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.670 MX W479 5421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.065 MX W479 5422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 5425 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 5426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.282 MX W479 5427 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 5428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 5430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 5431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 5451 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 5452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.162 MX W479 5453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 5454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 5495 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5497 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 5498 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 5499 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 5515 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 5516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 5519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5539 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 5541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 5542 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 5543 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 5546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5610 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 5611 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 5612 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 5613 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 5615 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 5617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 5731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.593 MX W479 5766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 5782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5783 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 5785 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 5860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 5875 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 5878 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5925 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5927 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 5928 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 5950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 5951 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 5954 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 5970 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.843 MX W479 5971 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 5981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 5982 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 5983 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 5984 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 5996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.551 MX W479 5998 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.602 MX W479 5999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 6019 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6020 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6021 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 6027 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 6028 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 6030 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6031 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 6045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 6071 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.636 MX W479 6072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 6073 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 6077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 6080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 6117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.680 MX W479 6119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 6126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 6151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 6186 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.881 MX W479 6187 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 6188 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 6213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.701 MX W479 6214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6215 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.649 MX W479 6217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6218 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 6219 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 6221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 6223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 6235 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.590 MX W479 6236 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 6237 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 6240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 6243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 6244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 6259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 6282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.684 MX W479 6283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6284 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 6285 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 6286 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6287 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 6288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 6289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6290 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6291 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 6292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 6307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6308 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 6435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 6452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6478 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6479 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.791 MX W479 6480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 6482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 6502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 6503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6504 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 6505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6507 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 6527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 6528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.598 MX W479 6529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 6530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 6531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6548 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.762 MX W479 6550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 6551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 6553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 6557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 6559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 6571 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 6572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.155 MX W479 6576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 6582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 6594 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.921 MX W479 6595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.295 MX W479 6596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.129 MX W479 6597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 6600 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6601 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.739 MX W479 6647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 6651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.778 MX W479 6668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 6669 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 6670 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 6678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.697 MX W479 6680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 6693 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 6694 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6695 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6697 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 6700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6719 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 6720 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 6721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 6725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 6726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.826 MX W479 6739 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6741 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 6772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6790 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 6791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 6792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 6813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 6814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 6815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 6816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 6819 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.689 MX W479 6824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6834 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.003 MX W479 6836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.601 MX W479 6837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 6869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 6932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6955 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6956 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.272 MX W479 6959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 6960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.192 MX W479 6961 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 6986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 7004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 7005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 7006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 7052 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 7078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 7081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 7082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 7135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 7171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 7173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 7174 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 7175 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 7177 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 7195 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.057 More Than 999 Warning Messages Found. See ERRORFIL Output for the Remainder. 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…1/7 Tim Dejulis <tdejulis@utah.gov> Gevena Rock Products - Mona NOI 17 messages Grant Ensign <gensign@clydeinc.com>Thu, Dec 7, 2023 at 11:26 AM To: Tim Dejulis <tdejulis@utah.gov> Hey Tim, Just dropping in to see how the Geneva Rock NOI is coming for Mona. If you wouldn’t mind giving me an update, that would be great. Have a good day. Thanks! Grant Ensign ENVIRONMENTAL SPECIALIST O (801) 802-6954 C (801) 633-7830 WWW.CLYDEINC.COM Tim Dejulis <tdejulis@utah.gov>Fri, Dec 8, 2023 at 9:50 AM To: Grant Ensign <gensign@clydeinc.com> Grant, The Mona project is still being prepared. This is a new permit meaning that there is much that I do in these cases, compared to an existing source. I will give you notice when I have sent it to the peer reviewer, if that is ok with you? Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Grant Ensign <gensign@clydeinc.com>Fri, Dec 8, 2023 at 9:55 AM To: Tim Dejulis <tdejulis@utah.gov> Hi Tim, 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…2/7 No problem. I was mainly trying to find out if you feel that you have all that is needed and a timeframe for your review. I understand you have a lot of data to go through. Please keep me posted of the progress. Thanks. ————— Grant Ensign Clyde Companies ENVIRONMENTAL SPECIALIST O (801) 802-6954 C (801) 633-7830 WWW.CLYDEINC.COM From: Tim Dejulis <tdejulis@utah.gov> Sent: Friday, December 8, 2023 9:50:29 AM To: Grant Ensign <gensign@clydeinc.com> Subject: Re: Gevena Rock Products - Mona NOI [Quoted text hidden] Grant Ensign <gensign@clydeinc.com>Tue, Jan 2, 2024 at 8:36 AM To: Tim Dejulis <tdejulis@utah.gov> Hey Tim, Happy New Year! Just checking in again to see how this NOI is going. Please let me know the status. Thanks! [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Tue, Jan 2, 2024 at 10:31 AM To: Grant Ensign <gensign@clydeinc.com> Grant, Geneva Rock Products - Mona site will be delivered to the peer today or tomorrow. The delay had to do with the Christmas and New Years holidays, my peer being on annual leave for the last three weeks, and I was sick two days last week (I recovered yesterday, as a matter of fact!) I appreciate your following up with me Grant. Thank you! 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…3/7 Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Grant Ensign <gensign@clydeinc.com>Mon, Jan 22, 2024 at 2:13 PM To: Tim Dejulis <tdejulis@utah.gov> Hey Tim, How did the peer review go for Mona? Anything we can help answer? Thanks. [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Wed, Jan 24, 2024 at 1:20 PM To: Grant Ensign <gensign@clydeinc.com> Hi Grant. The peer has several comments for me and I am getting to these. We appreciate Geneva's patience with us and you following up with me is important. Keep doing this! Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Grant Ensign <gensign@clydeinc.com>Mon, Feb 12, 2024 at 2:03 PM To: Tim Dejulis <tdejulis@utah.gov> Tim, Just checking back again to see how things are going for Mona. If you could give me an update that would be great. Thanks 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…4/7 Grant Ensign ENVIRONMENTAL SPECIALIST O (801) 802-6954 C (801) 633-7830 WWW.CLYDEINC.COM From: Tim Dejulis <tdejulis@utah.gov> Sent: Wednesday, January 24, 2024 1:20 PM [Quoted text hidden] [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Mon, Feb 12, 2024 at 3:10 PM To: Grant Ensign <gensign@clydeinc.com> Geneva's Mona project has moved on to the compliance review phase. Once the compliance has reviewed this, the document will be reviewed by my superior. Keep checking in with me, Grant! Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Wed, Feb 21, 2024 at 11:30 AM To: Grant Ensign <gensign@clydeinc.com> Hi Grant. Compliance has raised a question that hopefully you can answer for Geneva Rock Products (GRP). What is the grains/dscf of the baghouse used to control the HMA dust collector. Looking through the NOI, we don't find this grains/dscf mentioned. Please give us this information. Thank you. Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Grant Ensign <gensign@clydeinc.com>Wed, Feb 21, 2024 at 11:34 AM To: Tim Dejulis <tdejulis@utah.gov> 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…5/7 Hi Tim, We performed a stack test on the plant in 2022. This is straight from that report. Grant Ensign ENVIRONMENTAL SPECIALIST O (801) 802-6954 C (801) 633-7830 WWW.CLYDEINC.COM From: Tim Dejulis <tdejulis@utah.gov> Sent: Wednesday, February 21, 2024 11:30 AM [Quoted text hidden] [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Wed, Feb 21, 2024 at 12:16 PM To: Grant Ensign <gensign@clydeinc.com> Thank you for the info. Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Outlook-Clyde Comp.png 5K Tim Dejulis <tdejulis@utah.gov>Wed, Feb 21, 2024 at 1:40 PM To: Grant Ensign <gensign@clydeinc.com> Is this report where you reference the baghouse grains/dscf in the NOI or is it separate? If it's separate, can we get a copy of this? 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…6/7 Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Grant Ensign <gensign@clydeinc.com>Wed, Feb 21, 2024 at 3:38 PM To: Tim Dejulis <tdejulis@utah.gov> The modeling calculaons outlined in the NOI followed the federal standard of 0.04 grains per dry standard cubic foot (gr/dscf), also represented as "11.5 pounds per hour (lb/hr)" in the NOI documentaon. However, it appears to be UDAQ standard pracce to issue permits with a more stringent limit of 0.024 gr/dscf, as evidenced by recent permits issued to other Clyde Companies facilies. Given that the 0.024 gr/dscf limit has been proven to meet BACT requirements, Geneva Rock is in agreement with adopng the same limit used in other Hot Mix Asphalt (HMA) approval orders. Grant Ensign ENVIRONMENTAL SPECIALIST O (801) 802-6954 C (801) 633-7830 WWW.CLYDEINC.COM From: Tim Dejulis <tdejulis@utah.gov> Sent: Wednesday, February 21, 2024 1:40 PM [Quoted text hidden] [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Wed, Feb 21, 2024 at 4:10 PM To: Grant Ensign <gensign@clydeinc.com> Does the baghouse flowrate equal 46,489 dscfm? I had to calculate this value since it wasn't in the NOI, as such. Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] 2/22/24, 2:55 PM State of Utah Mail - Gevena Rock Products - Mona NOI https://mail.google.com/mail/u/0/?ik=67721adfe9&view=pt&search=all&permthid=thread-f:1784648655633391540&simpl=msg-f:17846486556333915…7/7 Outlook-Clyde Comp.png 5K Grant Ensign <gensign@clydeinc.com>Thu, Feb 22, 2024 at 2:30 PM To: Tim Dejulis <tdejulis@utah.gov> Hi Tim, We found the plate and the baghouse has a flowrate of 89,217 dscfm. Grant Ensign ENVIRONMENTAL SPECIALIST O (801) 802-6954 C (801) 633-7830 WWW.CLYDEINC.COM From: Tim Dejulis <tdejulis@utah.gov> Sent: Wednesday, February 21, 2024 4:10 PM [Quoted text hidden] [Quoted text hidden] Tim Dejulis <tdejulis@utah.gov>Thu, Feb 22, 2024 at 2:55 PM To: Grant Ensign <gensign@clydeinc.com> I'm glad we have this. I will put this into the engineering review. Thank you. Timothy DeJulis, PE Environmental Engineer | Minor NSR Section P: (385) 306-6523 airquality.utah.gov [Quoted text hidden] Outlook-Clyde Comp.png 5K Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants NOTICE OF INTENT Geneva Rock Products Proposed Mona, Utah Facility Geneva Rock Product Prepared By: Linda Conger Otto AhChing TRINITY CONSULTANTS 4525 South Wasatch Blvd., Suite 100 Salt Lake City, Utah 84124 May 2023 Project 224501.0094 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants i TABLE OF CONTENTS 1. INTRODUCTION 1-1 1.1 Facility Description ..................................................................................................... 1-1 2. SOURCE DESCRIPTION 2-1 2.1 Aggregate Operations ................................................................................................. 2-1 2.2 Concrete Plant ............................................................................................................ 2-1 2.3 Hot Mix Asphalt Plant ................................................................................................. 2-1 2.4 Wash Plant .................................................................................................................. 2-2 2.5 Storage Piles and Mining Area .................................................................................... 2-2 2.6 Unpaved and Paved Roads .......................................................................................... 2-2 2.7 Heavy Duty Construction Equipment .......................................................................... 2-3 2.8 Storage Tanks ............................................................................................................. 2-3 2.9 Schedule ..................................................................................................................... 2-3 3. AIR EMISSIONS 3-1 3.1 Aggregate Operations ................................................................................................. 3-1 3.2 Concrete Plant ............................................................................................................ 3-2 3.3 Asphalt Plant ............................................................................................................... 3-2 3.4 Hot Water and Hot Oil Heaters ................................................................................... 3-2 3.5 Wash Plant .................................................................................................................. 3-2 3.6 Unpaved Roads ........................................................................................................... 3-3 3.7 Paved Roads ............................................................................................................... 3-3 3.8 Storage Tanks ............................................................................................................. 3-3 4. BEST AVAILABLE CONTROL TECHNOLOGY 4-1 4.1 BACT for Material Handling ......................................................................................... 4-1 4.1.1 BACT for PM10/PM2.5 .................................................................................................. 4-1 4.2 BACT for Concrete Plant .............................................................................................. 4-2 4.2.1 BACT for PM10/PM2.5 .................................................................................................. 4-2 4.3 BACT for Hot Mix Asphalt Plant Dryer ......................................................................... 4-2 4.3.1 BACT for NOx, VOC, CO, SO2, and HAP ....................................................................... 4-2 4.3.2 BACT for PM10/PM2.5 .................................................................................................. 4-2 4.4 BACT for Lime Silo ....................................................................................................... 4-3 4.4.1 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.5 BACT for Loader, Bulldozer, and Haul Truck Operations ............................................. 4-3 4.5.1 BACT for PM10/PM2.5 .................................................................................................. 4-3 4.6 BACT for Exposed or Disturbed Area ........................................................................... 4-4 4.6.1 BACT for PM10/PM2.5 .................................................................................................. 4-4 4.7 BACT for Storage Piles ................................................................................................ 4-5 4.7.1 BACT for PM10/PM2.5 ............................................................................................... 4-5 4.8 BACT from Above Ground Storage Tanks .................................................................... 4-5 4.8.1 BACT for VOC and HAPs ............................................................................................ 4-5 5. REGULATORY REVIEW 5-1 5.1 R307-101 General Requirements ............................................................................... 5-1 5.2 R307-102 General Requirements: Broadly Applicable Requirements ........................ 5-1 5.3 R307-107 General Requirements: Breakdowns .......................................................... 5-2 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants ii 5.4 R307-130 General Penalty Policy ............................................................................... 5-2 5.5 R307-150 Emission Inventories .................................................................................. 5-3 5.6 R307-165 Stack Testing .............................................................................................. 5-4 5.7 R307-201 Emission Standards: General Emission Standards ..................................... 5-4 5.8 R307-203 Emission Standards: Sulfur Content of Fuels ............................................. 5-5 5.9 R307-205 Emission Standards: Fugitive Emissions and Fugitive Dust ....................... 5-6 5.10 R307-210 Standards of Performance for New Stationary Sources ............................. 5-7 5.11 R307-214 National Emissions Standards for Hazardous Air Pollutants ...................... 5-7 5.12 R307-401 Permit: New and Modified Sources ............................................................ 5-8 5.13 R307-410 Permits Emissions Impact Analysis ............................................................ 5-8 6. DISPERSION MODELING 6-1 6.1 Dispersion Modeling Methodology .............................................................................. 6-1 6.1.1 Model Selection ........................................................................................................ 6-1 6.1.2 Meteorological Data .................................................................................................. 6-1 6.1.3 Treatment of Calms or Near-Calms ............................................................................ 6-2 6.1.4 Surface Characteristics .............................................................................................. 6-2 6.1.5 Regional Description ................................................................................................. 6-3 6.1.6 Terrain Data ............................................................................................................. 6-3 6.1.7 Receptor Grid ........................................................................................................... 6-3 6.1.8 Model Options .......................................................................................................... 6-4 6.1.9 Source Parameters .................................................................................................... 6-5 6.1.10 Background Concentrations ....................................................................................... 6-5 6.2 Near-Field Dispersion Modeling Results ..................................................................... 6-6 6.2.1 Significant Impact Analysis ........................................................................................ 6-6 6.2.2 NAAQS Analysis ........................................................................................................ 6-7 APPENDIX A. POTENTIAL TO EMIT CALCULATIONS A-1 APPENDIX B. MODELING PARAMETERS B-2 APPENDIX C. DISPERSION MODELING RESULTS C-1 LIST OF FIGURES Figure 1.1 Location of Geneva Rock Products Mona, Utah Facility 1-2 Figure 1.2 Current Aggregate and Hot Mix Asphalt Operations at Mona Site 1-2 Figure 1.3 Facility Layout and Locations of Hot Mix Asphalt, Concrete Plant, Wash Plant, and Southern Aggregate Emission Sources 1-3 Figure 1.4 Facility Layout and Locations of Aggregate Operations 1-3 Figure 6.1 Windrose for Mona, Utah (2001-2002) 6-2 Figure 6.2 GRP Mona Receptor Grid 6-4 Figure 6.3 GRP Mona PM10 NAAQS Analysis Isopleth Plot 6-8 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants iii LIST OF TABLES Table 3-1 Potential to Emit Emissions from Geneva Rock Products Mona, Utah Facility 3-1 Table 4-1 Paved and Unpaved Road Control Efficiencies 4-4 Table 6-1 Dispersion Modeling Thresholds and Controlled Emission Increases 6-1 Table 6-2 Procedures Used for Estimating Lateral and Initial Vertical Dimensions for Volume and Line Sources 6-5 Table 6-3 Lindon, Utah Monthly Background Concentrations 6-6 Table 6-4 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – SIL Analysis 6-7 Table 6-5 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – NAAQS Analysis 6-7 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-1 1. INTRODUCTION Trinity Consultants (Trinity) was retained by Geneva Rock Products (GRP) to prepare a Notice of Intent for a new asphalt, concrete, and aggregate facility in Mona, Utah. At this facility, GRP is proposing: (1) Hot Mix Asphalt (HMA) Plant with a production limit of 500,000 tons per year (TPY); (2) a truck mix that be converted to a 12-cubic yard central mix concrete batch plant with a production limit of 300,000 cubic yards per year; (3) aggregate operations at a production rate of 1,000,000 TPY; and (4) various fuel and asphalt cement oil storage tanks. Aggregate and hot mix asphalt operations are currently being conducted at the site under a temporary permit. Any correspondence or communication regarding this NOI should be directed to: Mr. Grant Ensign Environmental Specialist Clyde Companies 730 North 1500 West Orem, Utah 84057 801-802-6954 (office) 801-633-7830 (mobile) gensign@clydeinc.com The SIC code for ready-mix concrete is 3273; 1442 for construction sand & gravel; and 2951 for asphalt paving mixtures and blocks. 1.1 Facility Description The proposed GRP Mona facility will be located approximately 1.5 miles northeast of Mona, Utah. Juab County is in attainment of the National Ambient Air Quality Standards (NAAQS) for particulate matter less than 2.5 microns (PM2.5), 8-hour ozone (O3), particulate matter less than or equal to 10 microns (PM10), carbon monoxide (CO), sulfur dioxide (SO2), and nitrogen dioxide (NO2). The Facility is considered a minor source for both criteria and hazardous air pollutants (HAPs). The Universal Transverse Mercator (UTM) coordinates of the GRP Mona facility are 429,887 meters (m) east and 4,408,585 m north at an elevation of approximately 4,060 feet. Figure 1.1 presents a Google Earth image showing the location of the Mona facility in relation to Mona, Utah. Figure 1.2 shows the location of current aggregate and hot mix asphalt operations at the site. Figures 1.3 and 1.4 present the facility layout with property boundary and proposed locations of emission sources. The red line indicates the section of the property where operations will be performed. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-2 Figure 1.1 Location of Geneva Rock Products Mona, Utah Facility Figure 1.2 Current Aggregate and Hot Mix Asphalt Operations at Mona Site Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 1-3 Figure 1.3 Facility Layout and Locations of Hot Mix Asphalt, Concrete Plant, Wash Plant, and Southern Aggregate Emission Sources Figure 1.4 Facility Layout and Locations of Aggregate Operations Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-1 2. SOURCE DESCRIPTION The following sections describe the operations and emission sources at the proposed Mona, Utah facility. 2.1 Aggregate Operations The proposed production rate of aggregate sand and gravel operations at the Mona site is 1,000,000 TPY. The proposed equipment at the site includes two (2) crushers with a feed rate of 1,000 tons per hour (TPH), two (2) crushers with a feed rate of 600 TPH, and two (2) crushers with a feed rate of 600 TPH, six (6) triple deck screens with a maximum size of 20 feet by 30 feet, 15 conveyor transfers, four (4) aggregate feeder bins, and one wash plant. On-site roads will be paved and unpaved. The active mining area is 25 acres. There will be 15 acres of stockpiles. Four (4) diesel storage tanks with a 12,000-gallon capacity each and a maximum annual throughput of 288,000 gallons will be associated with the aggregate operations. 2.2 Concrete Plant Concrete is made by combining sand, aggregate, Portland cement and/or flyash, and water. Small amounts of supplementary materials are sometimes added to reduce cost, reduce permeability by liquids, increase strength, alter color, alter concrete viscosity, retard or accelerate setting time, entrain air, or reduce water requirements. Concrete batch plants put these components together in the desired proportions. The solid components are gravity feed from bins through a weigh hopper. In a truck mix operation, as is initially proposed at Mona, the dry components are dropped into mixer trucks (in–transit mixers), water is added volumetrically, and the concrete is mixed on the way to the place where the concrete is to be used. Eventually, the truck mix plant may be converted to a 12-cubic yard central mix plant. The 150 cubic yards per hour (yd3/hr) or 300,000 cubic yards per year concrete plant will consist of: one (1) 60-ton cement supplement (flyash) silo with dust collector; two (2) 80-ton cement storage silos with dust collectors; 9.9 MMbtu hot water heater; weigh batcher; conveyors; and other miscellaneous equipment. Approximately 73,650 tons of cement and 11,000 tons of flyash be transported to the plant by truck and stored in silos adjacent to the plant. Aggregate is loaded into the plant hopper where the cement, cement supplement, aggregate, and water are loaded into concrete trucks, mixed, and transported offsite. All aggregate will be stored in enclosed storage silos that are fed from a drive over a grizzly feeder. The batch plant will be completely enclosed. 2.3 Hot Mix Asphalt Plant At the proposed Mona operation, HMA paving material will be manufactured by a drum-mix asphalt plant having a capacity of 500 TPH with a maximum of 500,000 TPY of finished asphalt. The asphalt plant consists of a drum mix dryer, a fabric filter baghouse, and a 200-ton lime silo with dust collector. Liquid asphalt is transported to the site which will be stored in storage tanks located near the asphalt plant. A 5.0 MMBtu/hr diesel-fired heater will be used to heat the asphalt oil. Processed and sized aggregate products from the Aggregate Plant will be stockpiled near the HMA Plant and are then transferred by a wheel loader into feeder bins. The feeder bins meter desired proportions of the various products onto a transfer conveyor, which transfers the combined aggregate products through a scalping screen onto a transfer conveyor. The scalping screen removes only grossly oversized aggregate particles or agglomerations which allows almost all the material to pass through it onto the transfer conveyor. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-2 The transfer conveyor transports the aggregate to a lime pugmill system which can either be used to mix the aggregate with a metered quantity of hydrated lime or that can be bypassed when not needed. A second transfer conveyor weighs the aggregate as it is conveyed from the lime pugmill system to the drum mixer. The hydrated lime is pneumatically transferred from the delivery vehicles into the lime storage silo using compressed air. The lime silo is vented to the atmosphere through a baghouse or small filter enclosure to allow the compressed air to escape while preventing discharge of hydrated lime into the atmosphere. The 150 MMBtu/hr drum mixer heats and dries the aggregate and mixes the hot aggregates and baghouse fines returned from the baghouse. The drum mixer burner will be fired with burner fuel, which is either recycled fuel oil, diesel, propane, or natural gas where recycled fuel oil (RFO) most closely resembles #5 fuel oil. The exhaust gases and airborne dust from the heating and drying process are evacuated from the drum mixer through ducting to the baghouse. The larger particles are removed from the gas stream in a knockout box and are fed with gravity through a closed system back into the recycle collar of the drum mixer. The dust that accumulates on the filter media in the baghouse is periodically removed from the filter media and conveyed through enclosed augers back to the recycle collar on the dryer drum. The HMA is discharged from the drum mixer into an enclosed drag slat conveyor that transports the mixture to the top of the storage silos where it is stored and discharged into haul vehicles. 2.4 Wash Plant Material to be processed at the Wash Plant will be conveyed from the Aggregate Plant into a feeder. The material is split by volume (50/50) onto transfer conveyors. The transfer conveyors each feed to one of four log washers where the material is washed followed by dewatering. Four (4) log washers send fine material to the washer clarifier where it is stacked as cyclone sand. The remaining material is discharged to triple deck wet screens. Material is sized by the triple-deck wet screens where material from each screen is conveyed to a different storage pile. Material that passes through the triple deck screen is conveyed to the classifier where material is discharged into two screw washers or the clarifier. The screw washers wash and dewater the material before it is stacked stockpiled. The proposed amount of material to be washed is 1,000,000 TPY. 2.5 Storage Piles and Mining Area Storage piles associated with aggregate operations, concrete and asphalt plants will occupy 15 acres. 25 acres is proposed at the Mona site for active mining operations. 2.6 Unpaved and Paved Roads Haul trucks with a capacity of 22 tons will be utilized at the Mona site for the HMA and aggregate operations. Concrete trucks will have a capacity of 29 tons with an average weight of 40.5 tons. The entire length of the road to the HMA plant will be paved, watered and vacuum swept. The first 550 feet of the road to the aggregate/wash plant/concrete plant will be paved, watered and vacuum sweeping. The remaining roads will be unpaved with low silt content road base, watered, and chemical suppressants to minimize fugitive dust emissions. The round-trip haul road distances to the HMA and Concrete Batch Plants were estimated to be 0.61 miles and 0.48 miles, respectively. The round-trip haul road distance to the Wash Plant was estimated to be 0.51 miles and the round-trip haul road distance for aggregate operations was estimated to be 1.05 miles. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 2-3 2.7 Heavy Duty Construction Equipment Three (3) 9-yard loaders, one for each operation (aggregate, concrete, and asphalt) will be used at the Mona site. One dozer will also be present onsite. 2.8 Storage Tanks Four (4) 12,000-gallon horizontal diesel fuel, one (1) 50,000-gallon RFO, two (2) 60,000-gallon asphalt oil, one (1) 30,000-gallon asphalt oil, one (1) 35,000-gallon asphalt oil (portable), one (1) 25,000-gallon asphalt oil (portable), one (1) 250,000-gallon asphalt oil tanks, and (1) 4,000-ton asphalt oil tank are proposed to be at the site. 2.9 Schedule Operations at the aggregate plant are proposed to be 7 days per week, and 24 hours per day, except during the winter months (December 1 - March 1) where the operations will take place between 06:00 AM – 11:00 PM only, 7 days per week. Total operation for aggregate operation is proposed to be 8,130 hours per year. Operation of the HMA, Concrete, and Wash Plants is proposed to be 7 days per week, 24 hours per day, or 8,760 hours per year. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-1 3. AIR EMISSIONS The Geneva Rock Products Mona facility will generate criteria, hazardous air pollutant (HAP), and greenhouse gas (GHG) emissions. Criteria pollutant emissions include PM10 and PM2.5 (particulate matter with aerodynamic diameters less than or equal to 10 micrometers and 2.5 micrometers respectively), volatile organic compounds (VOCs), nitrogen oxides (NOx), sulfur oxides (SOx), and carbon monoxide (CO). HAPs, as presented in Section 112 of the Clean Air Act, were derived for applicable sources and pollutants. Greenhouse gas (GHG) emissions will also be emitted from the combustion of fossil fuels and mass and CO2e estimates are presented in the NOI. Potential to emit (PTE) emission estimates were developed for the proposed changes at the Mona facility. These emission estimates are based on EPA guidance as published in Compilation of Air Pollution Emission Factors, Volume I: Stationary Point and Area Sources or AP-42, fuel type, material throughput, and anticipated operating hours. A summary of Mona PTE controlled emissions in tons per year is presented in Table 3-1. PTE emission calculations are presented in Appendix A. Table 3-1 Potential to Emit Emissions from Geneva Rock Products Mona, Utah Facility Pollutant Projected Facility-Wide PTE Emissions (tons/year) NOx 23.07 VOC 12.74 CO 35.49 SO2 14.60 PM10 34.03 PM2.5 5.33 CO2e 10432.6 HAPs 2.87 3.1 Aggregate Operations Fugitive emissions for aggregate operations are generally controlled by residual moisture content or by water sprays as necessary for feeders, conveyor drop points, screens, and crushers. Operations for washing aggregate have reduced fugitive emissions because the processed material is saturated. Haul vehicle traffic on unpaved roads and front-end loader operation areas are controlled by wet suppression. Ripping and dozing, feeding, stockpiling, and load-out of materials generally rely on residual moisture content for fugitive emission control. Hourly PM10 and PM2.5 emissions for feeders, conveyors, drop points, screens, and crushers were derived from AP-42, Section 11.19, Crushed Stone Processing and Pulverized Mineral Processing, August 2004, Table 11.19.2-2 and an annual throughput of 1,000,000 TPY. Crushing emissions were based on the proposed throughput of 1,000,000 TPY and 1,000 TPH for two crushers and 600 TPH for the other four crushers. PM10/PM2.5 emissions from the aggregate operations will be controlled through wet suppression. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-2 PM10/PM2.5 emissions from storage piles were based on AP-42, Section 11.9, Western Surface Coal Mining, Table 11.9-4 and 15 acres. Per UDAQ, a 75% control factor was applied through wet suppression. Exposed area emissions were also based on AP-42, Section 11.9, Western Surface Coal Mining, and 25 acres. A PM2.5/PM10 ratio of 0.15, based on the Midwest Research Institute’s Background Document for Revisions to Fine Fraction Ratios Used for AP-42 Fugitive Emission Factors, prepared for the WRAP, was applied to determine PM2.5 emissions. Fugitive emissions from loader and conveyor operations are based on Table 11.19.2-2 and a throughput of 1,000,000 TPY and 1,000 TPH. Fugitive emissions from dozer operations are based AP-42, Section 11.9, Western Surface Coal Mining. 3.2 Concrete Plant Concrete batch plants emit particulate matter (PM) and any toxic metals contained in the particulate matter. PM emissions result from moving sand and aggregate from the piles to the feed bins, loading the sand, aggregate, and cementitious material bins and silos, and from loading the concrete trucks (in-transit mixing). Each of these activities generates PM. Most of the PM is larger than 10 microns in aerodynamic diameter. About 14% by weight of the PM is Portland cement. Concrete plant emissions were derived from emission factors presented in AP-42, Section 11.12 Concrete Batching, Table 11.12-2. Emissions were based on the projected maximum annual throughput of 300,000 cubic yards per year and 8,760 proposed operating hours. A 98% control efficiency was assumed for PM10/PM2.5 and HAP emissions since the concrete batch plant will be enclosed with all emissions controlled through a baghouse. 3.3 Asphalt Plant Criteria, HAP, and GHG emissions for the new asphalt plant were derived using equipment information provided by GRP and emission factors as found in AP-42, Section 11.1 Hot Mix Asphalt Plants. The asphalt plant is proposed to be fueled on RFO, diesel, natural gas, or propane. Emissions for the dryer were based on the emission factors found in AP-42, Section 11.1, Table 11.1-7, 11.1- 8, and 11.1-10 based on fuel type, control device, aggregate throughput, and hours of operation. Emissions from the dryer were estimated based on waste oil with an hourly maximum throughput of 500 tons with a maximum annual throughput of 500,000 tons per year. Particulate emissions from the dryer will be controlled using a primary collector and a baghouse. 3.4 Hot Water and Hot Oil Heaters A 9.9 MMBtu/hr hot water heater is proposed at the Concrete plant and will be fueled by diesel, propane, or natural gas. A hot oil heater rated at 5.0 MMBtu/hr and fueled by diesel will be operated at the asphalt plant. Emissions from the proposed hot water and hot oil heaters were based on AP-42, Section 1.3, Fuel Oil Combustion based on fuel type, equipment rating, amount of fuel consumed, and 8,760 operating hours. 3.5 Wash Plant Wash plant PM10/PM2.5 emissions were based on AP-42, Section 11.19.2, and a production rate of 1,000,000 TPY. As part of the normal washing process, aggregate material is fully saturated and PM10/PM2.5 emissions are assumed to be zero. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 3-3 3.6 Unpaved Roads PM10 and PM2.5 unpaved road emissions from increased aggregate production were based AP-42, Section 13.2.2, Unpaved Roads and a 85% control efficiency through frequent watering and chemical suppressants per UDAQ’s January 12, 2015 memo, Emission Factors for Paved and Unpaved Haul Roads. Emissions were projected based on the plant road layouts, vehicle weights, hauling capacity, and increased aggregate plant throughput. 3.7 Paved Roads PM10 and PM2.5 paved road emissions were based AP-42, Section 13.2.2, Unpaved Roads and a 95% control efficiency through frequent vacuum sweeping and watering of pavement as per UDAQ’s January 12, 2015 memo, Emission Factors for Paved and Unpaved Haul Roads. Emissions were projected based on the plant road layouts, vehicle weights, and hauling capacity. 3.8 Storage Tanks Storage tank emission calculations were based on AP-42 Section 7.1, Organic Liquid Storage Tanks June 2020. Diesel and asphalt cement will be stored in fixed roof tanks. Emissions from fixed roof tanks are caused by changes in temperature, pressure, and liquid level. Four (4) 12,000-gallon diesel storage tanks, and two (2) 25,000 gallon, one (1) 30,000 gallon, one (1) 35,000 gallon, two (2) 60,000-gallon asphalt cement oil tanks, (1) 4,000 ton asphalt cement oil tank, and one (1) 60,000-gallon RFO tank are proposed to be installed at the site. The liquid bulk temperature of the asphalt cement was assumed to be 325˚F. The VOC emissions from the proposed storage tanks were estimated to be 0.46 tons per year. VOC emissions from the proposed AC tanks will not be controlled with add-on control equipment due to the low vapor pressure of the products stored. CO emissions, based on AP-42, Section 11.1, Hot Mix Asphalt Plants from the proposed asphalt storage tanks were estimated to be 0.031 tons. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-1 4. BEST AVAILABLE CONTROL TECHNOLOGY Per Utah Air Rules R307-400, best available control technology (BACT) is defined as an emissions limitation (including a visible emissions standard) based on the maximum degree of reduction for each air contaminant which would be emitted from any proposed stationary source or modification which the director, on a case- by-case basis, taking into account energy, environmental, and economic impacts and other costs, determines is achievable for such source or modification through application of production processes or available methods, systems, and techniques, including fuel cleaning or treatment or innovative fuel combustion techniques for control of such pollutant. BACT analyses for the emissions from the proposed equipment at the Mona Facility are discussed in the following sections. 4.1 BACT for Material Handling Fugitive particulate (PM10/PM2.5) emissions will be emitted from the material handling processes which includes crushing, screening, conveying, and transfer of aggregate material. 4.1.1 BACT for PM10/PM2.5 Five control technologies were identified for particulate control. These are: (1) total equipment enclosure; (2) Electrostatic Precipitator (ESP); (3) Wet Scrubbers; (4) Baghouses (Fabric Filters), and (5) Wet Suppression. Cyclones were not considered. a control technology for material handling since a cyclone does not remove fine particulate matter. Total enclosure of the equipment provides the highest percentage of control at 100%; ESP’s and baghouses typically reduce PM10 and PM2.5 emissions by up to 99.9%. Wet scrubbers offer approximately 95% control and wet suppression offers approximately 75% control. Because the emissions from crushing, screening, conveying, and transfer points are fugitive in nature, wet scrubbers, ESPs, and baghouses are eliminated from the BACT analysis. ESP’s and wet scrubbers were eliminated from review since these emission control technologies are either infeasible in a temperature variable outdoor environment, due to cost, or because they are not considered effective for fugitive control for aggregate operations. Although the emissions from the crushers could be captured and vented to a baghouse (fabric filters), this option was determined to be economically infeasible due to the cost of the ducting and capture system. Wet suppression using water sprays nozzles or fog bars are effective in minimizing emissions from crushing, screening, conveying, and transfer points. The most common control technology used to control fugitive PM10 and PM2.5 is the application of water to maintain moisture throughout the material handling process and to meet the required State of Utah opacity limits. Wet suppression will be employed on the crushers, screens, and conveyor transfer points. Spray systems at transfer points have been estimated to reduce PM emissions by 70 to 95%. Factors affecting emissions from screening include the stone size distribution and the surface moisture content of the stone processed as well as the process throughput rate. The Mona facility will apply water as necessary to maintain relatively high material moisture content to effectively control PM emissions from material crushing, screening, conveying, and transfer points. The material at the wash plant will be saturated with water. Therefore, the application of water for material handling operations is considered to meet BACT. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-2 4.2 BACT for Concrete Plant Loading the sand, aggregate, flyash, and cementitious into material bins and silos cause PM emissions at the top of the bins and may best be characterized as point emission sources. Loading the concrete trucks (in- transit mixing) has properties of both fugitive and point sources. PM emissions from the concrete plant operations are in the PM10 or larger range. 4.2.1 BACT for PM10/PM2.5 The following control technologies were identified for controlling PM emissions at a concrete plant: (1) Dry material storage silos with fabric filters; (2) Aggregate storage piles and handling operations with water sprays; (3) truck filling with enclosed drop chutes; and (4) enclosure of concrete plant within structure. At the Mona facility, GRP is proposing to enclose the cement plant in a four-sided structure and capture PM emissions which will be vented to a baghouse that is at least 98% effective in removing PM10/PM2.5. Dust collectors are also proposed on all dry material storage silo vents. Drop chutes will be enclosed for truck fillings. These controls represent BACT for PM10/PM2.5 emissions from the proposed concrete plant. 4.3 BACT for Hot Mix Asphalt Plant Dryer The dryer operations are the main source of pollution at the proposed hot mix asphalt plant. Combustion emissions from the dryer include products of complete and incomplete combustion. Products of complete combustion include oxides of nitrogen (NOx) and, if sulfur is present in the fuel, sulfur dioxide (SO2) and other substances such as carbon dioxide (CO2) and water. Products of incomplete combustion include carbon monoxide (CO), volatile organic compounds (VOCs) (including benzene, toluene, and xylenes), and other organic particulate matter. The drum dryer at the Mona facility will be fired by natural gas, propane, diesel, or RFO. 4.3.1 BACT for NOx, VOC, CO, SO2, and HAP For the drum dryer, two control technologies were identified for reduction of criteria combustion and HAP emissions. These include: (1) work practice requirements of good combustion practice; and (2) use of low sulfur gaseous fuels. Incomplete combustion emissions result from improper air and fuel mixtures, such as poor mixing of fuel and air, inadequate fuel air residence time and temperature, and quenching of the burner flame. Thus, NOx, VOC, CO, and HAP emissions will be reduced by ensuring good combustion practices are utilized which include periodic dryer burner tune-up and proper burner maintenance to increase the efficiency of the burners and operation of the dryer burner in accordance with manufacturer specifications. In addition, natural gas and propane are low sulfur fuels which will be utilized on-site along with RFO and diesel. Thus, BACT for minimizing drum dryer emissions is good combustion practices and use of low sulfur fuels as much as possible. 4.3.2 BACT for PM10/PM2.5 Emissions from the asphalt plant dryer also include PM10/PM2.5 from the aggregate and a small amount from fuel combustion. Several add-on technologies were identified for reduction on PM10 and PM2.5 and include: (1) Cyclones; (2) Multiple cyclones; (3) Settling chambers; (4) Fabric filter baghouses; (5) Wet gas venturi scrubbers, and (6) good combustion practices. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-3 Venturi wet gas scrubber and fabric filter baghouses are most efficient in reducing PM10/PM2.5 emissions with control efficiencies ranging from 90 - 99.5%. Multiple cyclones have a control efficiency of approximately 90%, and cyclones have a control efficiency from 50 to 75%. Settling chambers are least efficient with a control efficiency of less than 50%. For the proposed asphalt plant dryer at Mona, PM10/PM2.5 emissions will be controlled using a fabric filter baghouse with a control efficiency of 98% or greater. In addition, GRP will maintain the HMA plant in good working order and will utilize good combustion practices. All these proposed controls represent BACT for PM10/PM2.5 emissions from the proposed Mona HMA plant dryer. 4.4 BACT for Lime Silo Lime to be used in the HMA process will be stored in enclosed bins. PM10 and PM2.5 emissions are anticipated from lime handling. 4.4.1 BACT for PM10/PM2.5 The only control technology to reduce particulate emissions from lime handling was the installation and operation of fabric filters on dust collectors. Dust collectors are proposed to be utilized on the lime silos at the Mona facility. The control efficiency of fabric filters on dust collectors is 99%. This represents BACT for minimizing PM10/PM2.5 emissions from lime silos. 4.5 BACT for Loader, Bulldozer, and Haul Truck Operations Loader, bulldozer, and haul truck operations will create fugitive PM10 and PM2.5 emissions. 4.5.1 BACT for PM10/PM2.5 Three front end loaders will be used to transport and load material at the site. A bulldozer will be utilized to move and smooth overburden. The factors that affect PM10 and PM2.5 emissions include the amount and size of material being transported, moisture content of the material, and climatic/seasonal conditions. Several control technologies were identified to minimize particulate emissions from loader and dozer operations which include water application and minimizing drop distances. Other control technologies to minimize particulate emissions such as electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones are not feasible for use in such a dynamic environment as loading operations to storage piles, dozing overburden, conveyors, haul trucks, etc. Thus, electrostatic precipitators, fabric filter baghouses, wet scrubbers, and cyclones were determined to be technically infeasible. For unpaved areas where the loaders, bulldozers, and haul trucks will be operating, control technologies include watering, application of chemical dust suppressants, and use of a low silt content road base. The unpaved road control options, presented in Table 4-1, are ranked in order of efficiency. These efficiencies were obtained from a UDAQ January 12, 2015 Memorandum, Emission factors for Paved and Unpaved Haul Roads. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-4 Table 4-1 Paved and Unpaved Road Control Efficiencies Control Control Efficiency (%) Paved road surface with vacuum sweeping and watering 95 Paved road with sweeping and watering 90 Chemical Suppressant and Watering 85 Basic Watering and Low Silt Content Road Base 75 Basic Watering 70 Paving followed by vacuuming sweeping and water has the highest control efficiency of 95%. Paved road followed by sweeping and water has a control efficiency of 90%. Paving, however, costs on average $500,000 per mile1 which makes it economically infeasible to pave all roads on-site since road locations at the site will change due to the location of aggregate activities. The section of roadway from the entrance of the Mona facility to the HMA plant will be paved. This section of pavement will be vacuum swept and watered which represents BACT with a 95% control efficiency for paved road segments. Studies have shown that on heavily traveled unpaved roads, chemical suppression methods are as effective as watering at regular intervals. Based on information from the UDAQ, basic watering and the use of low silt content road base will reduce PM10 and PM2.5 emissions on unpaved roads by 85%. Thus, road base, chemical suppressants and water applications are proposed to be utilized at the Mona facility to suppress PM10 and PM2.5 emissions from unpaved roads which is considered BACT. 4.6 BACT for Exposed or Disturbed Area Fugitive particulate (PM10/PM2.5) emissions will be emitted from exposed or disturbed areas. 4.6.1 BACT for PM10/PM2.5 During the mining process, stripped overburden, or graded overburden from initial removal until when vegetation starts to grow has the potential to emit fugitive PM10 and PM2.5 from wind and dry climatic conditions. For exposed or disturbed areas, the following control options were identified: (1) watering exposed areas, (2) minimal disturbance of the area, and (3) planting vegetation. Watering large, exposed areas is technically not feasible in an arid climate such as GRP’s Mona facility due to the size of the exposed area, which at proposed at 25 acres. Copious amounts of water and a several water trucks would be required to maintain the exposed and disturbed areas with enough moisture to suppress fugitive dust emissions. Minimally disturbing the area will minimize emissions by reducing the availability of smaller particulate matter at the surface. Planting vegetation on exposed or disturbed areas that is not quickly reclaimed can also reduce particulate emissions. 1 https://documents.deq.utah.gov/air-quality/pm25-serious-sip/DAQ-2018-007161.pdf Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-5 According to an article published in 2016 by Phatak titled “A Detailed Look at the Cost of Hydroseeding”, the cost to hydro-seed can cost overall $3,000 per acre. For GRP to hydro-seed just 25 acres, the cost would be over $75,000 which is burdensome for the company. Thus, planting vegetation to reduce particulate emissions from exposed or disturbed areas was not considered further. The remaining control option, minimal disturbance of the area, will be employed by GRP at Mona. Minimal disturbance will help reduce fugitive particulate emissions and will give time for natural vegetation to grow which will further reduce emissions. This option is considered BACT for exposed and disturbed areas. 4.7 BACT for Storage Piles Fugitive particulate (PM10/PM2.5) emissions will be emitted from the outdoor storage piles from material loading and unloading as well as wind. 4.7.1 BACT for PM10/PM2.5 Three control options were identified for controlling PM10 and PM2.5 emissions from storage piles. They are: (1) water sprays; (2) full enclosure; and (3) partial enclosure. Full enclosure of piles, the most effective control option, is typically used at coal processing plants where the coal needs to be kept dry. These enclosures are usually for piles smaller than what is typically at aggregate operations. The Mona site will have up to 15 acres of storage piles throughout the property. It is practically not feasible at aggregate, sand, or gravel operations to enclose the piles due to cost and the dynamic nature and the location change of mining operations. Partial enclosures are easier to implement but are still costly and to maintain a required opacity limit, water sprays are still needed. In very windy areas, barriers can be installed to reduce the impact of wind on storage piles. Water systems are designed to spray storage piles. These systems are relatively inexpensive and can be modified to maintain the UDAQ required opacity limit. The DAQ assumes a 75% control efficiency of fugitive emissions when water sprays are utilized to maintain an opacity limit. This control technology is commonly implemented on storage piles. Thus, GRP will maintain water systems to reduce PM10 and PM2.5 emissions from aggregate, gravel, or sand storage piles. The use of these water spray systems is considered BACT. 4.8 BACT from Above Ground Storage Tanks VOC and HAP emissions will be emitted from above ground storage tanks. 4.8.1 BACT for VOC and HAPs Four (4) horizontal diesel, seven (7) above-ground fixed roof asphalt cement oil, and one (1) RFO storage tanks are proposed at the Mona facility. Floating roof tanks are commonly used for storing crude oil, gasoline, and naphtha. Internal floating roofs are most often used for storing low flash point fuels while external floating roofs are used for medium flash point fuels. Fixed roof tanks are most often used for high flash point fuels like diesel, kerosene, jet fuel, fuel oils, and asphalt cement. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-6 There are two general types of atmospheric storage tanks: fixed roof tanks and floating roof tanks. There are three types of floating roof tanks: external floating roof, internal floating roof, and covered or domed floating roof. Emissions from storage tanks result from displacement of headspace vapor during filling operations (working losses) in the case of fixed roof or internal floating roof tanks, and from diurnal temperature and heating variations (breathing losses). Lower vapor pressure liquids such as heating oils, diesel, and kerosene are stored in fixed roof tanks. Typically, filling losses constitute 80-90% of the total losses for fixed roof tanks. Crude oils and lighter products such as gasoline are stored in floating roof tanks. Most of the emissions from floating roof tanks are due to standing losses. Compliance options for VOC emission controls on these tanks includes using a fixed roof with an internal floating roof or an external floating roof meeting certain design specification and/or using a closed-vent system and control device that meet the requirements of 40 CFR Part 60 Subpart Kb. Asphalt is produced in refinery distillation towers and solvent extraction units and is typically stored in fixed roof tanks due to its low volatility. The proposed aboveground storage tanks have the potential to create VOCs and HAPs resulting from evaporative losses during storage, filling and emptying. Two add-on control technologies as well as best management practices were identified to reduce VOC emissions from fixed roof diesel and asphalt cement tanks. These include: ► Carbon adsorption ► Incinerator ► Best Management Practices Both carbon adsorption and incineration are effective control technologies having greater 95% and 98% control efficiencies. Best management practices are considered the baseline for controlling VOC emissions from fixed roof tanks. Vapor losses from fixed roof vertical tanks are primarily due to changes in the atmospheric temperature and pressure as well as liquid level changes inside the tank. Due to the low volatility of the products to be stored, GRP is proposing fixed roof diesel, asphalt cement, and RFO storage tanks with no additional add on vapor recovery technology. The cost of a vapor control system is a function of the vapor flow rate to the system. The flow rate is controlled by the rate at which liquids are pumped into the tank. The volume of VOC vapors expected from the proposed tanks is 0.40 tons. Due to the low volatility of the products being stored, additional emission controls are not required. Thus, the only control technology identified for the fixed roof tanks is best management practices. Best management practices include regular inspection of the tanks and associated piping and reducing breathing and working losses from the tank. Breathing losses can be by minimizing the vapor space in the tank. In fixed-roof tanks, breathing losses can account for 10 to 95 percent of total annual emissions. For fixed-roof tanks, liquid level matters significantly for emission generation: the emptier the tank is, the more room there is for vapors to build up. However, it’s not until those vapors are pushed outwards with enough force to pass through the roof vent that these vapors become fugitive emissions. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 4-7 To prevent breathing losses, the tank head space will be reduced by operating at a full level and constant rate. Tanks that operate conservation vents at 2.5 psig or higher will often have low breathing losses, or none. Reducing the number of tank turnovers per year will reduce working loss emissions. Regular inspection of the above ground storage tank and associated piping for leaks will also reduce VOC emissions. Thus, BACT for VOC and HAPS from the diesel, asphalt cement, and RFO storage tanks is best management practices which includes regular inspection of the aboveground storage tanks and associated piping for leaks and reducing breathing and working losses from the tank. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-1 5. REGULATORY REVIEW The air quality regulations, codified in Title R307 of the Utah Administrative Code, which are potentially applicable to this project, are as follows: ► R307-101 - General Requirements. ► R307-102 - General Requirements: Broadly Applicable Requirements. ► R307-107 - General Requirements: Breakdowns. ► R307-130 - General Penalty Policy. ► R307-150 - Emission Inventories. ► R307-165 - Stack Testing. ► R307-201 - General Emission Standards. ► R307-203 - Emission Standards: Sulfur Content of Fuels. ► R307-205 - Emission Standards: Fugitive Emissions and Fugitive Dust. ► R307-210 - Standards of Performance for New Stationary Sources. ► R307-214 - National Emission Standards for Hazardous Pollutants. ► R307-401 - Permit: New and Modified Sources. ► R307-410 - Permits: Emissions Impact Analysis. 5.1 R307-101 General Requirements Chapter 19‐2 and the rules adopted by the Air Quality Board constitute the basis for control of air pollution sources in the state. These rules apply and will be enforced throughout the state and are recommended for adoption in local jurisdictions where environmental specialists are available to cooperate in implementing rule requirements. National Ambient Air Quality Standards (NAAQS), National Standards of Performance for New Stationary Sources (NSPS), National Prevention of Significant Deterioration of Air Quality (PSD) standards, and the National Emission Standards for Hazardous Air Pollutants (NESHAPS) apply throughout the nation and are legally enforceable in Utah. 5.2 R307-102 General Requirements: Broadly Applicable Requirements Emission of air contaminants in sufficient quantities to cause air pollution as defined in R307-101-2 is prohibited. The State statute provides for penalties up to $50,000/day for violation of State statutes, regulations, rules or standards. In addition, the owner or operator of any stationary air pollutant source in Utah shall furnish to the director the periodic reports required under Section 19-2-104(1)(c) and any other information as the director may deem necessary to determine whether the source is in compliance with Utah and Federal regulations and standards. The information thus obtained will be correlated with applicable emission standards or limitations and will be available to the public during normal business hours at the Division of Air Quality. Any person submitting information pursuant to these regulations may request that such information be treated as a trade secret or on a confidential basis, in which case the director shall so treat such information. If no claim is made at the time of submission, the director may make the information available to the public without further notice. Information required to be disclosed to the public under State or Federal law may not be requested to be kept confidential. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-2 Justification supporting claims of confidentiality shall be provided at the time of submission on the information. Each page claimed "confidential" shall be marked "confidential business information" by the applicant and the confidential information on each page shall be clearly specified. Claims of confidentiality for the name and address of applicants for an approval order will be denied. Confidential information or any other information or report received by the director shall be available to EPA upon request and the person who submitted the information shall be notified simultaneously of its release to EPA. 5.3 R307-107 General Requirements: Breakdowns The breakdown provisions of R307-107 will apply to the Mona facility operations. The owner or operator of a source shall report breakdowns to the director within 24 hours of the incident via telephone, electronic mail, fax, or other similar method. A detailed written description of the circumstance including a corrective program directed at preventing future such incidents, shall be submitted within 14 days of the onset of the incident. The breakdown incident report shall include the cause and nature of the event, estimated quantity of emissions (total and excess), time of emissions and any relevant evidence, including, but not limited to, evidence that: a) There was an equipment malfunction beyond the reasonable control of the owner or operator, b) The excess emissions could not have been avoided by better operation, maintenance or improved design of the malfunctioning component, c) To the maximum extent practicable, the source maintained and operated the air pollution control equipment and process equipment in a manner consistent with good practice for minimizing emissions, including minimizing any bypass emissions, d) Any necessary repairs were made as quickly as practicable, using off-shift labor and overtime as needed and as possible, e) All practicable steps were taken to minimize the potential impact of the excess emissions on ambient air quality, and f) The excess emissions are not part of a recurring pattern that may have been caused by inadequate operation or maintenance, or inadequate design of the malfunctioning component. The burden of proof is on the owner or operator of the source to provide sufficient information to demonstrate the elements listed above. 5.4 R307-130 General Penalty Policy This policy provides guidance to the director of the Air Quality Board in negotiating with air pollution sources penalties for consent agreements to resolve non-compliance situations. It is designed to be used to determine a reasonable and appropriate penalty for the violations based on the nature and extent of the violations, consideration of the economic benefit to the sources of non-compliance, and adjustments for specific circumstances. Violations are grouped in four general categories based on the potential for harm and the nature and extent of the violations. Penalty ranges for each category are as follows. (1) Category A. $7,000 - $10,000 per day; (2) Category B. $2,000 - $7,000 per day; (3) Category C. Up to $2,000 per day; and (4) Category D. Up to $299. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-3 The amount of the penalty within each category may be adjusted and/or suspended in part based upon the following factors: (1) Good faith efforts to comply or lack of good faith. Good faith considers the openness in dealing with the violations, promptness in correction of problems, and the degree of cooperation with the State to include accessibility to information and the amount of State effort necessary to bring the source into compliance. (2) Degree of willfulness and/or negligence. In assessing willfulness and/or negligence, factors to be considered include how much control the violator had over and the foreseeability of the events constituting the violation, whether the violator made or could have made reasonable efforts to prevent the violation, and whether the violator knew of the legal requirements which were violated. (3) History of compliance or non-compliance. History of non-compliance includes consideration of previous violations and the resource costs to the State of past and current enforcement actions. (4) Economic benefit of non-compliance. The amount of economic benefit to the source of non-compliance would be added to any penalty amount determined under this policy. (5) Inability to pay. An adjustment downward may be made, or a delayed payment schedule may be used based on a documented inability of the source to pay. 5.5 R307-150 Emission Inventories The purpose of Rule R307-150 is: (a) to establish by rule the time frame, pollutants, and information that sources must include in inventory submittals; and (b) to establish consistent reporting requirements for stationary sources in Utah to determine whether sulfur dioxide emissions remain below the sulfur dioxide milestones established in the State Implementation Plan for Regional Haze, section XX.E.1.a, incorporated by reference in Section R307-110-28. The requirements of Rule R307-150 replace any annual inventory reporting requirements in approval orders or operating permits issued prior to December 4, 2003. Emission inventories shall be submitted on or before April 15 of each year following the calendar year for which an inventory is required. The inventory shall be submitted in a format specified by the Division of Air Quality following consultation with each source. The executive secretary may require at any time a full or partial year inventory upon reasonable notice to affected sources when it is determined that the inventory is necessary to develop a state implementation plan, to assess whether there is a threat to public health or safety or the environment, or to determine whether the source is in compliance with Title R307. Each owner or operator of a stationary source subject to this rule shall maintain a copy of the emission inventory submitted to the Division of Air Quality and records indicating how the information submitted in the inventory was determined, including any calculations, data, measurements, and estimates used. The records under Section R307-150-4 shall be kept for ten years. Other records shall be kept for a period of at least five years from the due date of each inventory. The owner or operator of the stationary source shall make these records available for inspection by any representative of the Division of Air Quality during normal business hours. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-4 5.6 R307-165 Stack Testing The purpose of Rule R307-165 is to establish the requirements for stack testing. Rule R307-165 applies to each emissions unit with established emission limitations specified in approval orders issued under Rule R307- 401 or in the Utah State Implementation Plan Section IX, Part H. Rule R307-165 does not apply to opacity limitations or emissions units with emissions monitored under Rule R307-170.R307-165-2. The owner or operator of an emissions unit under Subsection R307-165-1 shall conduct stack testing at least once every five years. More frequent testing may be required as specified in an applicable federal rule, approval order, Title V permit, or State Implementation Plan. If the director has reason to believe that an applicable emission limitation is being exceeded, the owner or operator shall perform such stack testing as is necessary to determine the actual compliance status and as required by the director. The owner or operator shall conduct stack testing of an emissions unit approved under Rule R307-401 within 180 days of startup. Unless otherwise specified by federal rule, the owner or operator shall notify the director of the date, time and place of stack testing no less than 30 days, before conducting a stack test, and provide a copy of the source test protocol to the director. The source shall obtain approval of the protocol from the director prior to conducting the test. The source test protocol shall: (a) identify the reason for the test; (b) outline each proposed test methodology; (c) identify each stack to be tested; and (d) identify each procedure to be used. The owner or operator shall attend a pretest conference if determined necessary by the director. The production rate during all stack testing shall be no less than 90% of the maximum production rate achieved in the previous three years. If the desired production rate is not achieved at the time of the test, the maximum production rate shall be 110% of the tested achieved rate, but not more than the maximum allowable production rate. This new allowable maximum production rate shall remain in effect until successfully tested at a higher rate. The owner or operator shall request a higher production rate when necessary. Testing at no less than 90% of the higher rate shall be conducted. A new maximum production rate of 110% of the new rate will then be allowed if the test is successful. This process may be repeated until the maximum allowable production rate is achieved. During the stack testing, the owner or operator shall burn fuels or combinations of fuels, use raw materials, and maintain process conditions representative of normal operations of the emissions unit. The owner or operator shall operate the emissions unit under such other relevant conditions as the director shall specify. The owner or operator shall submit a written report of the results from the stack testing to the director no later than 60 days after completion of the stack testing. report shall include validated results and supporting information. The director may reject stack testing results if determined to be incomplete, inadequate, not representative of operating conditions specified for the test, or if the director was not provided an opportunity to have an observer present at the test. 5.7 R307-201 Emission Standards: General Emission Standards R307-210 establishes emission standards for all areas of the state except for sources listed in Section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. (1) Visible emissions from installations constructed on or before April 25, 1971, except diesel engines, shall be of a shade or density no darker than 40% opacity, except as otherwise provided in these rules. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-5 (2) Visible emissions from installations constructed after April 25, 1971, except diesel engines shall be of a shade or density no darker than 20% opacity, except as otherwise provided in these rules. (3) Visible emissions for all incinerators, no matter when constructed, shall be of shade or density no darker than 20% opacity. (4) No owner or operator of a gasoline powered engine or vehicle shall allow, cause or permit visible emissions. (5) Emissions from diesel engines, except locomotives, manufactured after January 1, 1973, shall be of a shade or density no darker than 20% opacity, except for starting motion no farther than 100 yards or for stationary operation not exceeding three minutes in any hour. (6) Emissions from diesel engines manufactured before January 1, 1973, shall be of a shade or density no darker than 40% opacity, except for starting motion no farther than 100 yards or for stationary operation not exceeding three minutes in any hour. (7) Visible emissions exceeding the opacity standards for short time periods as the result of initial warm-up, soot blowing, cleaning of grates, building of boiler fires, cooling, etc., caused by start-up or shutdown of a facility, installation or operation, or unavoidable combustion irregularities which do not exceed three minutes in length (unavoidable combustion irregularities which exceed three minutes in length must be handled in accordance with R307-107), shall not be deemed in violation provided that the director finds that adequate control technology has been applied. The owner or operator shall minimize visible and non-visible emissions during startup or shutdown of a facility, installation, or operation through the use of adequate control technology and proper procedures. (8) Compliance Method. Emissions shall be brought into compliance with these requirements by reduction of the total weight of pollutants discharged per unit of time rather than by dilution of emissions with clean air. (9) Opacity Observation. Opacity observations of emissions from stationary sources shall be conducted in accordance with EPA Method 9. Opacity observers of mobile sources and intermittent sources shall use procedures similar to Method 9, but the requirement for observations to be made at 15 second intervals over a 6-minute period shall not apply. 5.8 R307-203 Emission Standards: Sulfur Content of Fuels Any coal, oil, or mixture thereof, burned in any fuel burning or process installation not covered by New Source Performance Standards for sulfur emissions shall contain no more than 1.0-pound sulfur per million gross BTU heat input for any mixture of coal nor .85 pounds sulfur per million gross BTU heat input for any oil. In the case of fuel oil, it shall be sufficient to record the following specifications for each purchase of fuel oil from the vendor: weight percent sulfur, gross heating value (btu per unit volume), and density. These parameters shall be ascertained in accordance with the methods of the American Society for Testing and Materials. Records of fuel sulfur content shall be kept for all periods when the plant is in operation and shall be made available to the director upon request and shall include a period of two years ending with the date of the request. Any person may apply to the director for approval of an alternative test method, an alternative method of control, an alternative compliance period, an alternative emission limit, or an alternative monitoring schedule. The application must include a demonstration that the proposed alternative produces an equal or greater air quality benefit than that required by R307-203, or that the alternative test method is equivalent to that required by R307-203. The director shall obtain concurrence from EPA when approving an alternative test method, an alternative method of control, an alternative compliance period, an alternative emission limit, or an alternative monitoring schedule. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-6 5.9 R307-205 Emission Standards: Fugitive Emissions and Fugitive Dust R307-205 establishes minimum work practices and emission standards for sources of fugitive emissions and fugitive dust for sources located in all areas in the state except those listed in section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. R307-205 applies statewide to all sources of fugitive emissions and fugitive dust, except for agricultural or horticultural activities specified in 19-2-114(1)-(3) and any source listed in section IX, Part H of the state implementation plan or located in a PM10 nonattainment or maintenance area. Fugitive emissions from sources which were constructed on or before April 25, 1971, shall not exceed 40% opacity. Fugitive emissions from sources constructed or modified after April 25, 1971, shall not exceed 20% opacity. Storage and Handling of Materials. Any person owning, operating or maintaining a new or existing material storage, handling or hauling operation shall minimize fugitive dust from such an operation. Such control may include the use of enclosures, covers, stabilization or other equivalent methods or techniques as approved by the director. Any person engaging in clearing or leveling of land greater than one-quarter acre in size, earthmoving, excavation, or movement of trucks or construction equipment over cleared land greater than one-quarter acre in size or access haul roads shall take steps to minimize fugitive dust from such activities. Such control may include watering and chemical stabilization of potential fugitive dust sources or other equivalent methods, or techniques approved by the director. The owner or operator of any land area greater than one-quarter acre in size that has been cleared or excavated shall take measures to prevent fugitive particulate matter from becoming airborne. Such measures may include: (i) planting vegetative cover, (ii) providing synthetic cover, (iii) watering, (iv) chemical stabilization, (v) wind breaks, or (vi) other equivalent methods or techniques approved by the director. Any person engaging in demolition activities including razing homes, buildings, or other structures or removing paving material from roads or parking areas shall take steps to minimize fugitive dust from such activities. Such control may include watering and chemical stabilization or other equivalent methods, or techniques approved by the director. The director may request GRP Corporation to supply traffic count information as determined necessary to ascertain whether or not control techniques are adequate or additional controls are necessary. Any person who deposits materials that may create fugitive dust on a public or private paved road shall clean the road promptly. Fugitive dust, construction activities, and roadways associated with mining activities are regulated under the provisions of R307-205-7 and not by R307-205-5 and 6. Any person who owns or operates a mining operation shall minimize fugitive dust as an integral part of site preparation, mining activities, and reclamation operations. The fugitive dust control measures to be used may include: (a) periodic watering of unpaved roads, (b) chemical stabilization of unpaved roads, (c) paving of roads, Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-7 (d) prompt removal of coal, rock minerals, soil, and other dust-forming debris from roads and frequent scraping and compaction of unpaved roads to stabilize the road surface, (e) restricting the speed of vehicles in and around the mining operation, (f) revegetating, mulching, or otherwise stabilizing the surface of all areas adjoining roads that are a source of fugitive dust, (g) restricting the travel of vehicles on other than established road (h) enclosing, covering, watering, or otherwise treating loaded haul trucks and railroad cars, to minimize loss of material to wind and spillage, (i) substitution of conveyor systems for haul trucks and covering of conveyor systems when conveyed loads are subject to wind erosion, (j) minimizing the area of disturbed land, (k) prompt revegetation of regraded lands, (l) planting of special windbreak vegetation at critical points in the permit area, (m) control of dust from drilling, using water sprays, hoods, dust collectors or other controls approved by the director, (n) restricting the areas to be blasted at any one time, (o) reducing the period of time between initially disturbing the soil and revegetating or other surface stabilization, (p) restricting fugitive dust at spoil and coal transfer and loading points, (q) control of dust from storage piles through use of enclosures, covers, or stabilization and other equivalent methods or techniques as approved by the director, or (r) other techniques as determined necessary by the director. 5.10 R307-210 Standards of Performance for New Stationary Sources The provisions of 40 Code of Federal Regulations (CFR) Part 60, effective on July 1, 2019, except for Subparts Cb, Cc, Cd, Ce, BBBB, DDDD, and HHHH, are incorporated by reference with the exception that references in 40 CFR to "Administrator" shall mean "director" unless by federal law the authority referenced is specific to the Administrator and cannot be delegated. The New Source Performance Standards as found in 40 CFR Part 60 that the Mona operation will be subject to include Subpart A, I, and OOO. The provisions of 40 CFR Part 60 Subpart A applies to each affected facility as specified in the relevant NSPS regulation for that source type. Subpart A contains general requirements for notifications, monitoring, performance testing, reporting, recordkeeping, and operation and maintenance provisions. 40 CFR Part 60 Subpart I apply to the drum mix asphalt plant equipment and includes limits on opacity in the exhaust stream and applicable test methods to determine compliance with the opacity limit. 40 CFR Part 60 Subpart OOO applies to the crushers, screens, and conveyor transfer points at the Mona facility. Subpart OOO contains an opacity limit of 7% for screens and conveyor transfer points and 12% for crushers manufactured after April 22, 2008, or 15% for any crusher manufactured prior to April 22, 2008. 5.11 R307-214 National Emissions Standards for Hazardous Air Pollutants The provisions of Title 40 of the Code of Federal Regulations (40 CFR) Part 61, National Emission Standards for Hazardous Air Pollutants, are incorporated by reference into this rule under Section R307-101-3. The provisions of 40 CFR Part 63, National Emission Standards for Hazardous Air Pollutants (NESHAP) for Source Categories, are incorporated by reference. The applicable NESHAPs that the Mona operation will be subject to include 40 CFR Part 63, General Provisions. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-8 5.12 R307-401 Permit: New and Modified Sources This rule establishes the application and permitting requirements for new installations and modifications to existing installations in Utah. R307-401 applies to any person intending to: (a) construct a new installation which will or might reasonably be expected to become a source or an indirect source of air pollution, or (b) make modifications or relocate an existing installation which will or might reasonably be expected to increase the amount or change the effect of, or the character of, air contaminants discharged, so that such installation may be expected to become a source or indirect source of air pollution, or (c) install a control apparatus or other equipment intended to control emissions of air contaminants. Any person subject to R307-401 shall submit a notice of intent to the director and receive an approval order prior to initiation of construction, modification, or relocation. The notice of intent shall be in a format specified by the director. Within 30 days after receipt of a notice of intent, or any additional information necessary to the review, the director will advise the applicant of any deficiency in the notice of intent, or the information submitted. Within 90 days of receipt of a complete application including all the information described in R307- 401-5, the director will (a) issue an approval order for the proposed construction, installation, modification, relocation, or establishment pursuant to the requirements of R307-401-8, or issue an order prohibiting the proposed construction, installation, modification, relocation or establishment if it is deemed that any part of the proposal is inadequate to meet the applicable requirements of R307. 5.13 R307-410 Permits Emissions Impact Analysis This rule establishes the procedures and requirements for evaluating the emissions impact of new or modified sources that require an approval order under R307-401 to ensure that the source will not interfere with the attainment or maintenance of any NAAQS. The rule also establishes the procedures and requirements for evaluating the emissions impact of hazardous air pollutants. The rule also establishes the procedures for establishing an emission rate based on the good engineering practice stack height as required by 40 CFR 51.118. All estimates of ambient concentrations derived in meeting the requirements of R307 shall be based on appropriate air quality models, data bases, and other requirements specified in 40 CFR Part 51, Appendix W, Guideline on Air Quality Models, which is hereby incorporated by reference. Where an air quality model specified in the Guideline on Air Quality Models or other EPA approved guidance documents is inappropriate, the director may authorize the modification of the model or substitution of another model. In meeting the requirements of federal law, any modification or substitution will be made only with the written approval of the Administrator, EPA. Prior to receiving an approval order under R307-401, a new source in an attainment area with a total controlled emission rate per pollutant greater than or equal to amounts specified in Table 1, or a modification to an existing source located in an attainment area which increases the total controlled emission rate per pollutant of the source in an amount greater than or equal to those specified in Table 1, shall conduct air quality modeling, as identified in R307-410-3, to estimate the impact of the new or modified source on air quality unless previously performed air quality modeling for the source indicates that the addition of the proposed emissions increase would not violate a National Ambient Air Quality Standard, as determined by the Director. • sulfur dioxide - 40 tons per year • oxides of nitrogen - 40 tons per year Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 5-9 • PM10 - fugitive emissions 5 tons per year and fugitive dust • PM10 - non-fugitive emissions 15 tons per year or non-fugitive dust • carbon monoxide - 100 tons per year • lead - 0.6 tons per year The ambient air impact from emissions of hazardous air pollutants is also to be reviewed based on the guidance in R307-410-5. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-1 6. DISPERSION MODELING In support of GRP’s Mona Facility, this air quality modeling analysis was conducted in accordance with 40 CFR Part 51 Appendix W, Guideline on Air Quality Models and Utah Title R307-410. The following sections describe the methods used and results of the dispersion modeling to demonstrate compliance with applicable State of Utah Regulation. 6.1 Dispersion Modeling Methodology Per Utah Title R307-410, a new or modified source located in an attainment area which increases the total controlled emission rate per pollutant of the source as those listed in Table 6-1 below are required to conduct an air quality modeling analysis. As shown in Table 6-1, PM10 is the only criteria pollutant from the Mona facility whose controlled emission rate was above the required modeling thresholds; thus, PM10 emissions were modeled, and the results of this modeling are presented in this section. Table 6-1 Dispersion Modeling Thresholds and Controlled Emission Increases Pollutant Modeling Threshold (tons/year) Controlled Emissions (tons/year) Modeling Required (Y/N) NOx 40 23.1 N CO 100 35.5 N SO2 40 14.6 N PM10 15/5a 34.0 Y PM2.5 10 5.3 N a15 tons per year for non-fugitive emissions, 5 tons per year for fugitive emissions. 6.1.1 Model Selection Consistent with the procedures presented in 40 CFR Part 51 Appendix W, Guideline on Air Quality Models, dispersion modeling was performed using the latest version of the AERMOD modeling system (22112) which is an EPA approved, steady-state Eulerian, Gaussian mathematical plume model. AERMOD is composed of three modular components: AERMAP, the terrain preprocessor; AERMET, the meteorological preprocessor; and AERMOD, the control module and modeling processor. 6.1.2 Meteorological Data Meteorological data utilized for this analysis consisted of one year (May 9, 2001 through May 9, 2002) of surface and upper-air data processed through AERMET (version 21112). Surface and upper-air observations were collected from a 50-meter tower located at the Currant Creek power plant, near Mona, Utah. Figure 6.1 presents the one-year windrose for Currant Creek, located near Mona, Utah. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-2 Figure 6.1 Windrose for Mona, Utah (2001-2002) 6.1.3 Treatment of Calms or Near-Calms AERMOD contains algorithms for dealing with low wind speed (near calm) conditions. The model produces concentrations for conditions when the wind speed may be less than 1 meters per second (m/s) but still greater than the instrument threshold. The threshold wind speed is typically the threshold of the instrument used to collect the wind information. A threshold of 0.5 m/s was used in AERMET to define calm periods. 6.1.4 Surface Characteristics Stage 3 of AERMET processing requires the input of surface characteristics of the area from which the surface meteorological data were collected. These surface characteristics, which are used by AERMET to determine heat fluxes and atmospheric stability, include:  Midday Albedo – fraction of solar radiation reflected at the surface  Daytime Bowen Ratio – indicator of surface moisture  Surface Roughness Length – height of obstacles to the wind flow Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-3 Surface characteristics for this dataset were entered for twelve sectors on a monthly basis and were determined using AERSURFACE version 20060. This program makes use of electronic land cover, tree canopy, and impervious surface data from the U.S. Geological Survey to calculate surface characteristics for a given monitoring station. The seasonal classifications for the year followed the standard AERMET/AERSURFACE breakdown (e.g., summer = June, July, August). An AERSURFACE user has the option of choosing Bowen ratios that are tailored for dry, average, or wet conditions. Trinity compiled climatological records of precipitation totals for 1991-2020 for the Cedar City area. Any yearly total in the upper 30th-percentile of the 30-year record could be classified as “wet”. Similarly, any yearly total in the lower 30th-percentile could be classified as “dry”, and any yearly total in the middle 40th- percentile could be classified as “average”. For the modeling period, 2016 was classified as “average”, 2017, 2018, and 2020 were classified as “dry”, and 2019 was classified as “wet”. 6.1.5 Regional Description The Mona facility is located off Interstate 15 just west of Mona, Utah in Washington County which is attainment for all criteria pollutants. The site is in an area with complex terrain and is situated west of Mt. Nebo. 6.1.6 Terrain Data Receptor terrain and source elevations were derived from 1/3-arc second National Elevation Dataset (NED) data obtained from the U.S. Geological Survey. AERMAP version 18081 was the preprocessor used to determine elevations at the defined receptor and source locations. 6.1.7 Receptor Grid A modeling domain was developed for the near-field analysis encompassing the location of the maximum modeled-predicted concentration from the Mona Facility. The receptor grid developed, consisted of 6,628 receptors with 25-meter spacing around the fence line, 50- meter spacing for receptors out to 1.5 kilometers; 100-meter spacing out from 1.5 kilometer to 3 kilometer; 500-meter spacing was used from 3 to 5 kilometers, and 1,000-meter spacing out to 10 kilometers. Figure 6.2 presents the receptor grid used in the near-field analysis. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-4 Figure 6.2 GRP Mona Receptor Grid 6.1.8 Model Options The U.S. EPA recommends various default options to be used in dispersion modeling for regulatory purposes. The recommended regulatory default options that were used for the modeling analyses are as follows: • Calms and missing meteorological data routine, • Actual receptor elevations, • Sequential date checking, • Complex/intermediate terrain algorithms. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-5 Other selected output variables to be used in AERMOD include: • 24-hour averaging periods for PM10, • Elevated terrain, • Rural mixing heights, and concentrations. 6.1.9 Source Parameters Emission source parameters (location, stack height, flue exit diameter, exit velocity, exit temperature, initial vertical dimension, and initial horizontal dimension) as well as emission rates for sources located at the Mona facility were input into AERMOD to demonstrate compliance with federal and state regulations and are included in Appendix B. Paved and unpaved road segments were modeled as volume sources per the procedures found in Table 3-1 of the User’s Guide for the AMS/EPA Regulatory Model - AERMOD. These procedures are presented in Table 6-2 below. Table 6-2 Procedures Used for Estimating Lateral and Initial Vertical Dimensions for Volume and Line Sources Type of Source Procedure for Obtaining Initial Dimension Initial Lateral Dimensions (σyo) Single volume source σyo = length of side divided by 4.3 Line source represented by adjacent volume sources σyo = length of side divided by 2.15 Line source represented by separated volume sources σyo = center to center distance divided by 2.15 Initial Vertical Dimensions (σzo) Surface-based source σzo = vertical dimension of source divided by 2.15 Elevated source (he > 0) on or adjacent to a building σzo = building height divided by 2.15 Elevated source (he > 0) not on or adjacent to a building σzo = vertical dimension of source divided by 4.3 Emissions from road segments that are used by different production plants with differing operating schedules have been ratioed to account for operational emissions. 6.1.10 Background Concentrations Background concentrations for PM10 were obtained from the Lindon monitor located in Utah County. To represent seasonal variability, monthly PM10 background concentrations were extracted using the latest monitoring data collected by UDAQ in Lindon, Utah. The monthly background concentrations were derived using the maximum 24-hour concentration observed in each month from 2019 through 2021. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-6 The maximum concentration from each year was removed from the background concentration to meet the form of the PM10 standard. The monthly values are added to the model input file and AERMOD adds the corresponding background concentration to the model-predicted concentration. Table 6-3 presents the monthly maximum concentrations by year and the monthly background concentration added to the model input file. Table 6-3 Lindon, Utah Monthly Background Concentrations Month 2019 2020 2021 Monthly Background January 53 40 53 53 February 41 36 67 67 March 25 24 41 41 April 17 37 42 42 May 20 62 58 62 June 42 73 61 73 July 34 52 61 61 August 43 90 69 90 September 32 51 61 61 October 38 68 20 68 November 53 45 47 53 December 50 65 53 65 a. Removed concentration of 100 ug/m3 on April 5, 2021 due to high winds. b. Removed concentration of 92 ug/m3 on May 7, 2021 due to high winds. 6.2 Near-Field Dispersion Modeling Results This section presents the near-field dispersion modeling results from each component of the near-field modeling analysis. The results of this analysis demonstrate that the project will not cause or contribute to exceedances of the NAAQS. The results of the modeling are presented in Appendix C. 6.2.1 Significant Impact Analysis The Significant Impact Analysis (SIA) considers the impact from potential emission increases from the proposed project. Model-predicted concentrations are compared to Significant Impact Levels (SIL). If the modeled impacts of the proposed project exceed the corresponding SILs, a cumulative impact analysis is required. Table 6-4 compares the concentration impact from the project to the 24-hour PM10 SIL. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-7 Table 6-4 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – SIL Analysis Pollutant Averaging Period Modeled Impact (µg/m3) SIL (µg/m3) Percent of SIL Impact Location UTM East (m) UTM North (m) PM10 24-hour 74.9 5 1,498% 429696.20 4408692.0 6.2.2 NAAQS Analysis As shown in Table 6-4, model-predicted concentrations of PM10 show emissions from the Mona facility to be above the respective SIL. By definition, a full impact analysis is required to demonstrate the cumulative impact of emissions from the facility and nearby sources as well as background concentrations will not cause or contribute to an exceedance of the NAAQS. A significant impact area was defined for areas above the SIL. The impact area is the geographical area for which the required air quality analyses for the NAAQS are carried out. The area includes all locations where the significant increase in the potential emissions of a pollutant from the Mona facility will cause a significant ambient impact (i.e., equals or exceeds the applicable significant impact level). Trinity worked with UDAQ to identify sources located within 50 km of the SIA to be included in a cumulative impact analysis. UDAQ provided Trinity with the required modeling inputs and emissions for these sources and these sources were included in the cumulative impact analysis. Table 6-5 presents the results of the NAAQS analysis and includes the maximum second-high concentration for the one year modeling period, background concentration, and the cumulative impact compared to NAAQS (150 µg/m3 for PM10). Results show the cumulative impact of facility emissions and background concentrations at the GRP’s Mona facility are below the 24-hour PM10 NAAQS. Figure 6.3 presents concentration isopleth plots for the Mona facility. Appendix C presents the model output information. Table 6-5 Modeled Maximum Near-Field Pollutant Concentrations for GRP Mona – NAAQS Analysis Pollutant Averaging Period Modeled Impact (µg/m3) NAAQS (µg/m3) Percent of NAAQS PM10 24-hour 142.2 150 94.8 1 High Second High, including background concentration. Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants 6-8 Figure 6.3 GRP Mona PM10 NAAQS Analysis Isopleth Plot Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants C-1 APPENDIX C. DISPERSION MODELING RESULTS Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants A-1 APPENDIX A. POTENTIAL TO EMIT CALCULATIONS Company: Site:Mona Pit Date:10/20/2022 1,000,000 ton/yr 1,000 ton/hr 8,130 hrs/yr 4 loader 32,520 hrs/yr Stockpile Area 15 acres Active Mining 25 acres 420,000 ton/yr Cubic yards per year 300,000 yd3/yr 8760 hr/yr 210 ton/hr Cubic yards per hour 150 yd3/hr 1 loader 8,760 hrs/yr Aggregate transfer to elevated bin 197,400 tons/yr Sand transfer to elevated bin 130,200 tons/yr Aggregate/Sand transfer to Feed Bin (from loader)327,600 tons/yr Weigh hopper loading (agg, sand, cement)380,100 tons/yr Mixer loading (truck mix)380,100 tons/yr Cement loading to storage silo (pneumatic)52,500 tons/yr Cement Supplement Unloading to Storage Silo (pneumatic) 7,938 tons/yr Water Heater Max Rating per hour 9.9 mmBtu/hr Water Heater Max Runtime per year 8,760.0 Water Heater Max Rating per year 86,724 mmBtu/yr 500,000 ton/yr 500 ton/hr 8,760 hrs/yr Hot Oil Heater Rating Per Hour 5.0 mmBtu/hr Hot Oil Heater Max Runtime per year 8,760.0 Hot Oil Heater Max Rating per year 43,800 mmBtu/yr Unpaved Haul Road Control Factor: 0.85 Water/Chemical Suppressant Paved Haul Road Control Factor 0.9 Water/Sweeping Paved Haul Road Control Factor 0.95 Water/Vacuum Sweeper Front-end Loader: (Aggs, HMA, RMC) Ldr1 Length of Round Trip-Aggs (unpaved):800 ft Vehicle Capacity: 13.5 ton/load Vehicle Weight: 22 ton Ldr2 Length of Round Trip-RMC (unpaved):350 ft Vehicle Capacity: 13.5 ton/load Vehicle Weight: 22 ton Ldr3 Length of Round Trip-Asphalt (unpaved):500 ft Vehicle Capacity: 13.5 ton/load Vehicle Weight: 22 ton HMA Haul Trucks Vehicle Capacity: 22 ton/load Vehicle Weight: 34.5 ton Length of Round Trip (unpaved): 0 ft Length of Round Trip (paved + sweep): 0 ft Length of Round Trip (paved + vacuum): 3200 ft Asphalt Production: Tons produced Tons per hour: Hours per year Tons produced Tons per hour: Number of loaders Loader hours Tons produced Hours per year Tons per hour Aggregate Production: Geneva Rock Products Hours per year Number of loaders Concrete Production: Loader hours Total Annual Emissions in Tons per Year Source Name PM10 PM2.5 NOx SOX CO VOC CO2e CH4 CO2 N20 MH‐Trucks/Loaders 0.155 0.023 ‐‐‐‐‐‐‐‐ MH‐Dozer 3.060 1.682 MH‐Conveyors 0.456 0.129 ‐‐‐‐‐‐‐‐ Aggregate Throughput 3.300 0.350 ‐‐‐‐‐‐‐‐ Storage Piles 4.312 0.323 ‐‐‐‐‐‐‐‐ Exposed Area 4.750 0.713 ‐‐‐‐‐‐‐‐ Asphalt Plant 5.750 0.725 13.75 14.50 32.50 8.00 3.00 8250.00 Asphalt Silo 0.143 0.143 0.29 3.05 0.0018 Asphalt Loadout 0.130 0.130 0.34 0.98 0.0676 Concrete Batch Plant 2.983 0.099 Roads 8.224 0.822 ‐ ‐ ‐ ‐ ‐ ‐ ‐ ‐ tanks 0.03 0.46 Total ‐ Fugitive 33.263 5.140 13.750 14.500 33.163 12.483 0.000 3.069 8250.000 0.000 ‐ Concrete Plant Heater 0.511 0.123 6.195 0.066 1.549 0.172 6931.76 0.07 6906.95 0.08 Hot Oil Heater Asphalt Plant 0.258 0.062 3.13 0.03 0.78 0.087 3500.89 0.03 3488.36 3500.89 Total 34.032 5.325 23.073 14.599 35.494 12.742 10432.64 3.17 18645.30 3500.97 Criteria Pollutants Greenhous Gas Emissions Aggregate Transport Haul Truck: Vehicle Capacity: 22 ton/load Vehicle Weight: 34.5 ton Length of Round Trip (unpaved): 4425 ft Length of Round Trip (paved + sweep): 0 ft Length of Round Trip (paved + vacuum): 1100 ft Concrete Truck: Vehicle Capacity: 22 ton/load Vehicle Weight: 34.5 ton Length of Round Trip (unpaved): 1450 ft Length of Round Trip (paved + sweep): 0 ft Length of Round Trip (paved + vacuum): 1100 ft Wash Plant Vehicle Capacity: 22 ton/load Vehicle Weight: 34.5 ton Length of Round Trip (unpaved): 1610 ft Length of Round Trip (paved + sweep): 0 ft Length of Round Trip (paved + vacuum): 1100 ft Conveyors: Number of Drops Aggregate:15 Number of Drops Concrete Batch Plant:3 Number of Drops Asphalt Plant:6 Total Hourly Emissions of HAPs (lb/hr) HAP Name Concrete Plant Heater Hot Oil Asphalt Heater Asphalt Plant Asphalt Silo Asphalt Loadout Concrete Batch Plant Column1 Total by Compound Benzene 1.51E‐05 7.64E‐06 1.95E‐01 2.23E‐04 1.23E‐04 1.95E‐01 Ethylbenzene 4.50E‐06 2.27E‐06 0.00E+00 2.64E‐04 6.65E‐04 9.36E‐04 Formaldehyde 2.33E‐03 1.18E‐03 1.55E+00 4.80E‐03 2.09E‐04 1.56E+00 Naphthalene 7.99E‐05 4.04E‐05 3.25E‐01 1.27E‐02 3.38E‐01 1,1,1-Trichloroethane 1.67E‐05 8.43E‐06 2.51E‐05 Toluene 4.38E‐04 2.21E‐04 1.45E+00 4.31E‐04 4.99E‐04 1.45E+00 o-Xylene 7.71E‐06 3.89E‐06 1.00E‐01 9.04E‐03 1.90E‐04 1.09E‐01 Acenaphthene 1.49E‐06 7.54E‐07 2.25E‐06 Anthracene 1.79E‐08 9.04E‐09 2.69E‐08 Benz(a)anthracene 8.63E‐08 4.36E‐08 1.30E‐07 Benzo(b,k)fluoranthene 2.84E‐07 1.43E‐07 4.27E‐07 Benzo(g,h,i)perylene 1.60E‐07 8.07E‐08 2.41E‐07 Chrysene 1.68E‐07 8.50E‐08 2.53E‐07 Dibenzo(a,h)anthracene 1.18E‐07 5.96E‐08 1.78E‐07 Fluoranthene 3.42E‐07 1.73E‐07 5.15E‐07 Fluorene 3.16E‐07 1.60E‐07 4.76E‐07 Indo(1,2,3-cd)pyrene 1.51E‐06 7.64E‐07 2.28E‐06 Phenanthrene 7.43E‐08 3.75E‐08 1.12E‐07 Pyrene 3.01E‐07 1.52E‐07 4.52E‐07 OCDD 2.19E‐10 1.11E‐10 3.30E‐10 Antimony 3.71E‐04 0.00E+00 3.71E‐04 Arsenic 9.33E‐05 1.88E‐04 4.56E‐05 3.26E‐04 Barium 1.82E‐04 4.71E‐05 2.29E‐04 Beryllium 1.97E‐06 9.18E‐05 7.28E‐06 1.01E‐04 Cadmium 2.81E‐05 9.93E‐07 4.14E‐07 2.96E‐05 Chloride 2.45E‐02 1.42E‐05 2.46E‐02 Chromium 5.98E‐05 1.24E‐02 7.10E‐06 1.25E‐02 Chromium VI 1.75E‐05 3.02E‐05 4.77E‐05 Cobalt 4.26E‐04 8.86E‐06 4.35E‐04 Copper 1.24E‐04 2.15E‐04 3.39E‐04 Fluoride 2.64E‐03 6.29E‐05 2.70E‐03 Lead 1.07E‐04 1.33E‐03 1.07E‐04 1.55E‐03 Manganese 2.12E‐04 5.39E‐05 1.47E‐03 1.74E‐03 Mercy 7.99E‐06 1.07E‐04 1.15E‐04 Moldbdenum 5.57E‐05 4.04E‐06 5.97E‐05 Nickel 5.98E‐03 2.81E‐05 3.35E‐04 6.34E‐03 Phosphorous 6.69E‐04 3.02E‐03 5.90E‐04 4.28E‐03 Selenium 4.83E‐05 3.38E‐04 7.88E‐06 3.94E‐04 Vanadium 2.25E‐03 2.44E‐05 2.27E‐03 Zinc 2.06E‐03 1.14E‐03 3.19E‐03 Acetaldehyde 1.04E‐03 6.50E‐01 6.51E‐01 Acrolein 0.00E+00 1.30E‐02 1.30E‐02 Hexane 0.00E+00 4.60E‐01 6.96E‐04 3.56E‐04 4.61E‐01 Isooctane 0.00E+00 2.00E‐02 2.16E‐06 4.27E‐07 2.00E‐02 Methyl Chloroform 0.00E+00 2.40E‐02 2.40E‐02 Bromomethane 0.00E+00 3.41E‐05 2.28E‐05 5.69E‐05 2‐Butanone 0.00E+00 2.71E‐04 1.16E‐04 3.88E‐04 Carbon disulfide 0.00E+00 1.11E‐04 3.09E‐05 1.42E‐04 Chloroethane 0.00E+00 2.78E‐05 4.99E‐06 3.28E‐05 Chloromethane 0.00E+00 1.60E‐04 3.56E‐05 1.96E‐04 Chrysene 0.00E+00 3.04E‐05 3.04E‐05 Isooctane 0.00E+00 2.16E‐06 4.27E‐07 2.58E‐06 Methylene Chloride 0.00E+00 1.88E‐06 1.88E‐06 Styrene 0.00E+00 3.76E‐05 1.73E‐05 5.49E‐05 m,p‐xylene 0.00E+00 1.39E‐03 9.73E‐04 2.36E‐03 TOTAL 0.03986 0.02013 1.16700 0.00277 0.00156 0.00257 0.00000 Total HAPs in TPY HAP Name Concrete Plant Heater Hot Oil Asphalt Heater Asphalt Plant Asphalt Silo Asphalt Loadout Concrete Batch Plant Column1 Total by Compound Benzene 6.63E‐05 3.35E‐05 9.75E‐02 9.75E‐04 5.41E‐04 9.91E‐02 Ethylbenzene 1.97E‐05 9.95E‐06 6.00E‐02 1.16E‐03 2.91E‐03 6.41E‐02 Formaldehyde 1.02E‐02 5.16E‐03 7.75E‐01 2.10E‐02 9.15E‐04 8.12E‐01 Naphthalene 3.50E‐04 1.77E‐04 1.63E‐01 5.54E‐02 2.18E‐01 1,1,1-Trichloroethane 7.31E‐05 3.69E‐05 1.10E‐04 Toluene 1.92E‐03 9.70E‐04 7.25E‐01 1.89E‐03 2.18E‐03 7.32E‐01 o-Xylene 3.38E‐05 1.71E‐05 5.00E‐02 3.96E‐02 8.32E‐04 9.05E‐02 Acenaphthene 6.54E‐06 3.30E‐06 9.84E‐06 Anthracene 7.84E‐08 3.96E‐08 1.18E‐07 Benz(a)anthracene 3.78E‐07 1.91E‐07 5.69E‐07 Benzo(b,k)fluoranthene 1.24E‐06 6.27E‐07 1.87E‐06 Benzo(g,h,i)perylene 7.00E‐07 3.54E‐07 1.05E‐06 Chrysene 7.37E‐07 3.72E‐07 1.11E‐06 Dibenzo(a,h)anthracene 5.17E‐07 2.61E‐07 7.78E‐07 Fluoranthene 1.50E‐06 7.57E‐07 2.26E‐06 Fluorene 1.38E‐06 6.99E‐07 2.08E‐06 Indo(1,2,3-cd)pyrene 6.63E‐06 3.35E‐06 9.98E‐06 Phenanthrene 3.25E‐07 1.64E‐07 4.89E‐07 Pyrene 1.32E‐06 6.65E‐07 1.98E‐06 OCDD 9.60E‐10 4.85E‐10 1.45E‐09 Antimony 1.63E‐03 8.21E‐04 2.45E‐03 Arsenic 4.09E‐04 2.06E‐04 4.36E‐05 6.59E‐04 Barium 7.96E‐04 4.02E‐04 1.20E‐03 Beryllium 8.61E‐06 4.35E‐06 4.91E‐06 1.79E‐05 Cadmium 1.23E‐04 6.23E‐05 4.14E‐07 1.86E‐04 Chloride 1.07E‐01 5.43E‐02 1.62E‐01 Chromium 2.62E‐04 1.32E‐04 1.87E‐04 5.80E‐04 Chromium VI 7.68E‐05 3.88E‐05 1.16E‐04 Cobalt 1.86E‐03 9.42E‐04 2.81E‐03 Copper 5.45E‐04 2.75E‐04 8.20E‐04 Fluoride 1.16E‐02 5.83E‐03 1.74E‐02 Lead 4.68E‐04 2.36E‐04 6.95E‐05 7.73E‐04 Manganese 9.29E‐04 4.69E‐04 1.05E‐03 2.44E‐03 Mercury 3.50E‐05 1.77E‐05 5.27E‐05 Moldbdenum 2.44E‐04 1.23E‐04 3.67E‐04 Nickel 2.62E‐02 1.32E‐02 2.27E‐04 3.96E‐02 Phosphorous 2.93E‐03 1.48E‐03 5.90E‐04 5.00E‐03 Selenium 2.12E‐04 1.07E‐04 5.18E‐06 3.24E‐04 Vanadium 9.85E‐03 4.97E‐03 1.48E‐02 Zinc 9.01E‐03 4.55E‐03 1.36E‐02 Acetaldehyde 3.25E‐01 3.25E‐01 Acrolein 6.50E‐03 6.50E‐03 Hexane 2.30E‐01 2.30E‐01 Isooctane 1.00E‐02 9.44E‐06 1.87E‐06 1.00E‐02 Methyl Chloroform 1.20E‐02 1.20E‐02 Bromomethane 1.49E‐04 9.98E‐05 2.49E‐04 2‐Butanone 1.19E‐03 5.09E‐04 1.70E‐03 Carbon disulfide 4.87E‐04 1.35E‐04 6.23E‐04 Chloroethane 1.22E‐04 2.18E‐05 1.44E‐04 Chloromethane 7.01E‐04 1.56E‐04 8.57E‐04 Chrysene 1.33E‐04 1.33E‐04 Methylene Chloride 8.23E‐06 8.23E‐06 Styrene 1.65E‐04 7.59E‐05 2.40E‐04 m,p‐xylene 6.09E‐03 4.26E‐03 1.04E‐02 TOTAL 0.18730 0.09459 2.45350 0.12916 0.00217 0.00000 2.87 Source:Concrete Plant Water Heater Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Heater:9.9 MMBtu/hr Pollutant Emission Factor (lb/mmBtu) Fuel Consumed (mmBtu/yr) Fuel Consumed (mmBtu/hr) Emission Rates (ton/yr) Emission Rates (lb/yr) Emission Rates (lb/hr)EF FC FC ER ER ER Criteria Pollutants PMCon 9.29E-03 86,724 9.9 0.4026 8.05E+02 0.0919 PMFilt 1.43E-02 86,724 9.9 0.6195 1.24E+03 0.1414 PMTot 2.36E-02 86,724 9.9 1.0221 2.04E+03 0.2334 PM10 1.18E-02 86,724 9.9 0.5111 1.02E+03 0.1167 PM2.5 2.83E-03 86,724 9.9 0.1227 2.45E+02 0.0280 SO2 1.52E-03 86,724 9.9 0.0660 1.32E+02 0.0151 NOx 1.43E-01 86,724 9.9 6.1946 1.24E+04 1.4143 CO 3.57E-02 86,724 9.9 1.5486 3.10E+03 0.3536 VOC 3.97E-03 86,724 9.9 0.1722 3.44E+02 0.0393 GHG CO2 1.6E+02 86,724 9.9 6906.9 1.38E+07 1576.9 CH4 1.54E-03 86,724 9.9 0.0669 1.34E+02 0.0153 N2O 1.86E-03 86,724 9.9 0.0805 1.61E+02 0.0184 CO2e 6,932 HAPs Benzene 1.53E-06 86,724 9.9 6.63E-05 1.33E-01 1.51E-05 Ethylbenzene 4.54E-07 86,724 9.9 1.97E-05 3.94E-02 4.50E-06 Formaldehyde 2.36E-04 86,724 9.9 1.02E-02 2.04E+01 2.33E-03 Naphthalene 8.07E-06 86,724 9.9 3.50E-04 7.00E-01 7.99E-05 1,1,1-Trichloroethane 1.69E-06 86,724 9.9 7.31E-05 1.46E-01 1.67E-05 Toluene 4.43E-05 86,724 9.9 1.92E-03 3.84E+00 4.38E-04 o-Xylene 7.79E-07 86,724 9.9 3.38E-05 6.75E-02 7.71E-06 Acenaphthene 1.51E-07 86,724 9.9 6.54E-06 1.31E-02 1.49E-06 Anthracene 1.81E-09 86,724 9.9 7.84E-08 1.57E-04 1.79E-08 Benz(a)anthracene 8.71E-09 86,724 9.9 3.78E-07 7.56E-04 8.63E-08 Benzo(b,k)fluoranthene 2.86E-08 86,724 9.9 1.24E-06 2.48E-03 2.84E-07 Benzo(g,h,i)perylene 1.61E-08 86,724 9.9 7.00E-07 1.40E-03 1.60E-07 Chrysene 1.70E-08 86,724 9.9 7.37E-07 1.47E-03 1.68E-07 Dibenzo(a,h)anthracene 1.19E-08 86,724 9.9 5.17E-07 1.03E-03 1.18E-07 Fluoranthene 3.46E-08 86,724 9.9 1.50E-06 3.00E-03 3.42E-07 Fluorene 3.19E-08 86,724 9.9 1.38E-06 2.77E-03 3.16E-07 Indo(1,2,3-cd)pyrene 1.53E-07 86,724 9.9 6.63E-06 1.33E-02 1.51E-06 Phenanthrene 7.50E-09 86,724 9.9 3.25E-07 6.50E-04 7.43E-08 Pyrene 3.04E-08 86,724 9.9 1.32E-06 2.63E-03 3.01E-07 OCDD 2.21E-11 86,724 9.9 9.60E-10 1.92E-06 2.19E-10 Metals Antimony 3.75E-05 86,724 9.9 1.63E-03 3.25E+00 3.71E-04 Arsenic 9.43E-06 86,724 9.9 4.09E-04 8.18E-01 9.33E-05 Barium 1.84E-05 86,724 9.9 7.96E-04 1.59E+00 1.82E-04 Beryllium 1.99E-07 86,724 9.9 8.61E-06 1.72E-02 1.97E-06 Cadmium 2.84E-06 86,724 9.9 1.23E-04 2.47E-01 2.81E-05 Chloride 2.48E-03 86,724 9.9 1.07E-01 2.15E+02 2.45E-02 Chromium 6.04E-06 86,724 9.9 2.62E-04 5.23E-01 5.98E-05 Chromium VI 1.77E-06 86,724 9.9 7.68E-05 1.54E-01 1.75E-05 Cobalt 4.30E-05 86,724 9.9 1.86E-03 3.73E+00 4.26E-04 Copper 1.26E-05 86,724 9.9 5.45E-04 1.09E+00 1.24E-04 Fluoride 2.66E-04 86,724 9.9 1.16E-02 2.31E+01 2.64E-03 Lead 1.08E-05 86,724 9.9 4.68E-04 9.35E-01 1.07E-04 Manganese 2.14E-05 86,724 9.9 9.29E-04 1.86E+00 2.12E-04 Mercy 8.07E-07 86,724 9.9 3.50E-05 7.00E-02 7.99E-06 Moldbdenum 5.62E-06 86,724 9.9 2.44E-04 4.88E-01 5.57E-05 Nickel 6.04E-04 86,724 9.9 2.62E-02 5.23E+01 5.98E-03 Phosphorous 6.76E-05 86,724 9.9 2.93E-03 5.86E+00 6.69E-04 Selenium 4.88E-06 86,724 9.9 2.12E-04 4.23E-01 4.83E-05 Vanadium 2.27E-04 86,724 9.9 9.85E-03 1.97E+01 2.25E-03 Zinc 2.08E-04 86,724 9.9 9.01E-03 1.80E+01 2.06E-03 Source of Data:Equations: Emission Factor: AP-42, Fifth Edition, Section 1.3, Fuel Oil Combustion Emission Rates: Table 1.3-1,2,3,9 Max Rating per Hour: Based off of Proposed Yardage Emission Rate: Calculated Assumptions: The emissions are assumed to be uncontrolled and are based on diesel GWPs are averages from EPAs Website To convert to lb/MMBtu of No.2 oil, divide by 140 MMBtu/10^3 gal Heater will be fired on diesel, Propane or natural gas. EF lb mmcf FCmmBtu yr HC Btu cf ER ton yr EF lb mmcf FCmmBtu yr HC Btu cf ER lb yr EF lb mmcf FCmmBtu hr HC Btu cf                             1 ton 2,000 lb 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf              1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 hr 3,600 sec ER lb hr ER lb hr g lb ER g45359.sec Source:Material Handling -Trucks/Loaders Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Hourly Annual PM10 PM2.5 PM10 PM10 PM2.5 PM2.5 Source Description Throughput Throughput Emission Factor Emission Factor Emissions Emissions Emissions Emissions (TPH) (TPY) (lb/ton) (lb/ton) (lb/hr) (TPY) (lb/hr) (TPY) Ready Mix Plant Loader (to hopper) 500 500,000 0.00010 0.00002 0.050 0.025 0.008 0.004 Aggregate Plant Loader to hopper 1,000 1,000,000 0.00010 0.00002 0.100 0.050 0.015 0.008 Trucks 1,000 1,000,000 0.00010 0.00002 0.100 0.050 0.015 0.008 Concrete Plant Trucks 100 603,600 0.00010 0.00002 0.010 0.030 0.002 0.005 Source of Data:Equations: Emission Factor:AP‐42, Section 11.19.2 Crushed Stone Processing and Pulverized Mineral Processing, Truck Loading Crushed Stone Emission Rates: Table 11.19.2-2 lb t 1 t t Source:Material Handling-Dozer Company: Geneva Rock Products Site:Mona Pit Date: 10/20/2022 Source Pollutant Emission Factor (lb/hr) Dozer Hours (hr/yr) Emission Rate (lb/yr) Emission Rate (TPY) Emission Rate (lb/hr) Dozer PM10 0.7528 8130 6119.94 3.06 7.53E-01 PM2.5 0.4138 8130 3364.02 1.68 4.14E-01 Assumptions: Dozer Operates 8,760 hours/year Reference: AP-42 Section 11.9 Western Surface Coal Mining-Table 11.9-1 (Bulldozing Overburden) Silt and Moisture Content-Geometric Means-Table 11.9-3 (Bulldozing Overburden) ` Equations: 𝑇𝑆𝑃 ൌ 5.7ሺ𝑠ሻଵ.ଶ ሺ𝑀ሻଵ.ଷ 𝑃𝑀ଵହ ൌ 1.0ሺ𝑠ሻଵ.ହ ሺ𝑀ሻଵ.ସ 𝑃𝑀ଵ଴ ൌ𝑃𝑀ଵହ*0.75 𝑃𝑀ଶ.ହ ൌ𝑇𝑆𝑃*0.105 Source:Material Handling-Conveyors Company:Geneva Rock Product Site:Mona Pit Date:10/22/2022 Hourly Annual PM10 PM2.5 PM10 PM10 PM2.5 PM2.5 Source Description Throughput Throughput Number of EF EF Emissions Emissions Emissions Emissions (TPH) (TPY) Drops (lb/ton) (lb/ton) (lb/hr) (TPY) (lb/hr) (TPY) Aggregate Plant Conveyors 1,500 1,000,000 15 0.000046 0.000013 0.069 0.345 0.020 0.0975 Asphalt Plant Conveyors 500 500,000 6 0.000046 0.000013 0.023 0.069 0.007 0.0195 Concrete Batch Plant Conveyors 100 603,600 3 0.000046 0.000013 0.005 0.042 0.001 0.0117702 Total 0.097 0.456 0.027 0.129 Source of Data:Equations: Emission Factor:AP‐42, Section 11.19.2 Crushed Stone Processing and Pulverized Mineral Processing, Conveyor Transfer Point Controlled Emission Rates: Table 11.19.2-2 Production (Aggregate/Concrete) Geneva Rock Products Emission Rate: Calculated Source:Aggregate Throughput Company:Staker Parson Site:Mona Pit Date:10/20/2022 Hourly Uncontrolled PM10 Uncontrolled PM2.5 Controlled PM10 Controlled PM2.5 Uncontrolled PM10 Uncontrolled PM2.5 Controlled PM10 Controlled PM2.5 Controlled PM10 Controlled PM2.5 Source Description Throughput Emission Factor Emission Factor Emission Factor Emission Factor Emissions Emissions Emissions Emissions Emissions Emissions (TPH)(lb/ton)(lb/ton)(lb/ton)(lb/ton)(TPY)(TPY)(TPY)(TPY)(lb/hr)(lb/hr) Aggregate Plant Primary crusher1 1 1,000 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.54 0.10 Primary crusher2 1 1,000 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.54 0.10 Secondary crusher 2 600 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.32 0.06 Tertiary crusher 2 600 0.0024 0.00036 0.00054 0.0001 1.20 0.18 0.27 0.05 0.32 0.06 Screen 1 1 1,500 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 1.11 0.08 Screen 2 1 1,000 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.74 0.05 Screen 3 1 1,000 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.74 0.05 Screen 4 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Screen 5 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Screen 6 1 600 0.0087 0.00131 0.00074 0.00005 4.35 0.65 0.37 0.03 0.44 0.03 Total 30.90 4.64 3.30 0.35 5.65 0.59 Source of Data: Emission Factors: AP-42, Section 11.19.2, Table 11.19.2-2, August 2004 Equations: Emission Rates: Assumptions: PM2.5/PM10 ratio ‐ 0.15, MRI 2006 Number of Crushers EF lb ton PR ton yr 1ton 2,000 lb ER ton yr          Source:Storage Piles Company:Geneva Rock Product Site:Mona Pit Date:10/20/2022 PM10 EF PM2.5 EF Pile Size Control Efficiency Uncontrolled PM10 Emissions Uncontrolled PM2.5 Emissions Controlled PM10 Emissions Controlled PM2.5 Emissions Controlled PM10 Emissions (lb/acre-day) (lb/acre-day) Days/year (acres)(TPY)(TPY)(TPY)(TPY)(lb/hr) Storage piles 6.30 0.473 365.000 15.00 0.75 17.246 1.293 4.312 0.323 0.984 17.246 1.293 4.312 0.323 Source of Data:Equations: Emission Factor:AP‐42, Fifth Edition, Section 11.9, 10/98 Emission Rates: Western Surface Coal Mining Table 11.9-4 Pile Size Estimated from GRP Emission Rate: Calculated Assumptions: PM10/TSP ratio of 0.5 used (WRAP Fugitive Dust Handbook, Chapter 9) PM2.5/PM10 ratio of 0.075 (UDAQ) 75% Control Efficiency for Watering Stockpiles (UDAQ) Source Description Source:Exposed Area (active Mining) Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Source Description PM10 EF PM2.5 EF Exposed Area PM10 Emissions PM2.5 Emissions PM10 Emissions T/acre/yr T/acre/yr acres TPY TPY lb/hr Disturbed Ground 0.19 0.029 25.0 4.75 0.71 1.08 Source of Data:Equations: Emission Factor:AP‐42, Section 11.9 Western Surface Coal Mining Emission Rates: Table 11.9-4 Exposed Acre Size Estimated by GRP Emission Rate: Calculated Assumptions: PM2.5/PM10 raƟo ‐ 0.15, MRI, 2006. Background Document for Revisions to Fine FracƟon RaƟos Used for AP‐42FugiƟve Emission Factors, prepared for the WRAP by Midwest Research InsƟtute, Feb. 1. Emission factor obtained from AP‐42, Table 11.9‐4, for TSP. It is assumed that PM10 is 50% of TSP, so 0.38 T/acre/yr x 50% = 0.19 T/acre/yr. The emissions are assumed to be uncontrolled. Source:Asphalt Plant Hot Oil Heater Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 Heater:5.0 MMBtu/hr Pollutant Emission Factor (lb/mmBtu) Fuel Consumed (mmBtu/yr) Fuel Consumed (mmBtu/hr) Emission Rates (ton/yr) Emission Rates (lb/yr) Emission Rates (lb/hr)EF FC FC ER ER ER Criteria Pollutants PMCon 9.29E-03 43,800 5.00 0.20 4.07E+02 4.64E-02 PMFilt 1.43E-02 43,800 5.00 0.31 6.26E+02 7.14E-02 PMTot 2.36E-02 43,800 5.00 0.52 1.03E+03 1.18E-01 PM10 1.18E-02 43,800 5.00 0.26 5.16E+02 5.89E-02 PM2.5 2.83E-03 43,800 5.00 0.06 1.24E+02 1.41E-02 SO2 1.52E-03 43,800 5.00 0.03 6.66E+01 7.61E-03 NOx 1.43E-01 43,800 5.00 3.13 6.26E+03 7.14E-01 CO 3.57E-02 43,800 5.00 0.78 1.56E+03 1.79E-01 VOC 3.97E-03 43,800 5.00 0.09 1.74E+02 1.99E-02 GHG CO2 1.6E+02 43,800 5.0 3,488 6.98E+06 796.4 CH4 1.54E-03 43,800 5.0 0 6.76E+01 0.0077 N2O 1.86E-03 43,800 5.0 0 8.13E+01 0.0093 CO2e 3,501 HAPs Benzene 1.53E-06 43,800 5.0 3.35E-05 6.70E-02 7.64E-06 Ethylbenzene 4.54E-07 43,800 5.0 9.95E-06 1.99E-02 2.27E-06 Formaldehyde 2.36E-04 43,800 5.0 5.16E-03 1.03E+01 1.18E-03 Naphthalene 8.07E-06 43,800 5.0 1.77E-04 3.54E-01 4.04E-05 1,1,1-Trichloroethane 1.69E-06 43,800 5.0 3.69E-05 7.38E-02 8.43E-06 Toluene 4.43E-05 43,800 5.0 9.70E-04 1.94E+00 2.21E-04 o-Xylene 7.79E-07 43,800 5.0 1.71E-05 3.41E-02 3.89E-06 Acenaphthene 1.51E-07 43,800 5.0 3.30E-06 6.60E-03 7.54E-07 Anthracene 1.81E-09 43,800 5.0 3.96E-08 7.92E-05 9.04E-09 Benz(a)anthracene 8.71E-09 43,800 5.0 1.91E-07 3.82E-04 4.36E-08 Benzo(b,k)fluoranthene 2.86E-08 43,800 5.0 6.27E-07 1.25E-03 1.43E-07 Benzo(g,h,i)perylene 1.61E-08 43,800 5.0 3.54E-07 7.07E-04 8.07E-08 Chrysene 1.70E-08 43,800 5.0 3.72E-07 7.45E-04 8.50E-08 Dibenzo(a,h)anthracene 1.19E-08 43,800 5.0 2.61E-07 5.22E-04 5.96E-08 Fluoranthene 3.46E-08 43,800 5.0 7.57E-07 1.51E-03 1.73E-07 Fluorene 3.19E-08 43,800 5.0 6.99E-07 1.40E-03 1.60E-07 Indo(1,2,3-cd)pyrene 1.53E-07 43,800 5.0 3.35E-06 6.70E-03 7.64E-07 Phenanthrene 7.50E-09 43,800 5.0 1.64E-07 3.29E-04 3.75E-08 Pyrene 3.04E-08 43,800 5.0 6.65E-07 1.33E-03 1.52E-07 OCDD 2.21E-11 43,800 5.0 4.85E-10 9.70E-07 1.11E-10 Metals Antimony 3.75E-05 43,800 5.0 8.21E-04 1.64E+00 1.88E-04 Arsenic 9.43E-06 43,800 5.0 2.06E-04 4.13E-01 4.71E-05 Barium 1.84E-05 43,800 5.0 4.02E-04 8.04E-01 9.18E-05 Beryllium 1.99E-07 43,800 5.0 4.35E-06 8.70E-03 9.93E-07 Cadmium 2.84E-06 43,800 5.0 6.23E-05 1.25E-01 1.42E-05 Chloride 2.48E-03 43,800 5.0 5.43E-02 1.09E+02 1.24E-02 Chromium 6.04E-06 43,800 5.0 1.32E-04 2.64E-01 3.02E-05 Chromium VI 1.77E-06 43,800 5.0 3.88E-05 7.76E-02 8.86E-06 Cobalt 4.30E-05 43,800 5.0 9.42E-04 1.88E+00 2.15E-04 Copper 1.26E-05 43,800 5.0 2.75E-04 5.51E-01 6.29E-05 Fluoride 2.66E-04 43,800 5.0 5.83E-03 1.17E+01 1.33E-03 Lead 1.08E-05 43,800 5.0 2.36E-04 4.72E-01 5.39E-05 Manganese 2.14E-05 43,800 5.0 4.69E-04 9.39E-01 1.07E-04 Mercy 8.07E-07 43,800 5.0 1.77E-05 3.54E-02 4.04E-06 Moldbdenum 5.62E-06 43,800 5.0 1.23E-04 2.46E-01 2.81E-05 Nickel 6.04E-04 43,800 5.0 1.32E-02 2.64E+01 3.02E-03 Phosphorous 6.76E-05 43,800 5.0 1.48E-03 2.96E+00 3.38E-04 Selenium 4.88E-06 43,800 5.0 1.07E-04 2.14E-01 2.44E-05 Vanadium 2.27E-04 43,800 5.0 4.97E-03 9.95E+00 1.14E-03 Zinc 2.08E-04 43,800 5.0 4.55E-03 9.10E+00 1.04E-03 Source of Data:Equations: Emission Factor: AP-42, Fifth Edition, Section 1.3, Fuel Oil Combustion Emission Rates: Table 1.3-1,2,3,9 Max Rating per Hour: Based off of Proposed Yardage Emission Rate: Calculated Assumptions: The emissions are assumed to be uncontrolled and fired on diesel fuel. GWPs are averages from EPAs Website To convert to lb/MMBtu of No.2 oil, divide by 140 MMBtu/10^3 gal EF lb mmcf FCmmBtu yr HCBtu cf ER ton yr EF lb mmcf FC mmBtu yr HCBtu cf ER lb yr EF lb mmcf FC mmBtu hr HCBtu cf                           1 ton 2,000 lb 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf            1 mmBtu 1,000,000 Btu 1,000,000 cf 1 mmcf 1 hr 3,600 sec ER lb hr ERlb hr g lb ER g45359.sec Source:Drum Mix Asphalt Plant (Baghouse) Company: Geneva Rock Products Site: Mona Pit Reference: AP-42, Fifth Edition, Section 11.1, 3/04 Throughput: 500,000 TPY Emission Controlled Emission Source Pollutant Factor Rate (lb/ton)(ton/yr) (lb/hr) Drum mix (baghouse) (waste oil)PM10 0.0230 500,000 500 5.75 11.5 PM2.5 0.0029 500,000 500 0.73 1.5 SOx 0.0580 500,000 500 14.50 29.0 NOx 0.0550 500,000 500 13.75 27.5 CO 0.1300 500,000 500 32.50 65.0 VOC 0.0320 500,000 500 8.00 16.0 33.00 500,000 500 8250.00 16,500.0 0.0120 500,000 500 3.00 6.0 Acetaldehyde 1.3E-03 500,000 500 3.25E-01 6.50E-01 Acrolein 2.6E-05 500,000 500 6.50E-03 1.30E-02 Benzene 3.9E-04 500,000 500 9.75E-02 1.95E-01 Ethylbenzene 2.4E-04 500,000 500 6.00E-02 0.00E+00 Formaldehyde 3.1E-03 500,000 500 7.75E-01 1.55E+00 Hexane 9.2E-04 500,000 500 2.30E-01 4.60E-01 Isooctane 4.0E-05 500,000 500 1.00E-02 2.00E-02 Methyl Chloroform 4.8E-05 500,000 500 1.20E-02 2.40E-02 Toluene 2.9E-03 500,000 500 7.25E-01 1.45E+00 Xylene 2.0E-04 500,000 500 5.00E-02 1.00E-01 2-Methylnaphthalene 1.7E-04 500,000 500 4.25E-02 8.50E-02 Acenapthene 1.4E-06 500,000 500 3.50E-04 7.00E-04 Acenaphthylene 2.2E-05 500,000 500 5.50E-03 1.10E-02 Anthracene 3.1E-06 500,000 500 7.75E-04 1.55E-03 Benzo(a)anthracene 2.1E-07 500,000 500 5.25E-05 1.05E-04 Benzo(a)pyrene 9.8E-09 500,000 500 2.45E-06 4.90E-06 Benzo(b)fluoranthene 1.0E-07 500,000 500 2.50E-05 5.00E-05 Benzo(e)pyrene 1.1E-07 500,000 500 2.75E-05 5.50E-05 Benzo(g,h,i)perylene 4.0E-08 500,000 500 1.00E-05 2.00E-05 Benzo(k)fluoranthene 4.1E-08 500,000 500 1.03E-05 2.05E-05 Chrysene 1.8E-07 500,000 500 4.50E-05 9.00E-05 Fluoranthene 6.1E-07 500,000 500 1.53E-04 3.05E-04 Fluorene 1.1E-05 500,000 500 2.75E-03 5.50E-03 Indeno(1,2,3-cd)pyrene 7.0E-09 500,000 500 1.75E-06 3.50E-06 Naphthalene 6.5E-04 500,000 500 1.63E-01 3.25E-01 Perylene 8.8E-09 500,000 500 2.20E-06 4.40E-06 Phenanthrene 2.3E-05 500,000 500 5.75E-03 1.15E-02 Pyrene 3.0E-06 500,000 500 7.50E-04 1.50E-03 Butane 6.7E-04 500,000 500 1.68E-01 3.35E-01 Ethylene 7.0E-03 500,000 500 1.75E+00 3.50E+00 Heptane 9.4E-03 500,000 500 2.35E+00 4.70E+00 4.0E-03 500,000 500 1.00E+00 2.00E+00 5.8E-04 500,000 500 1.45E-01 2.90E-01 1.9E-04 500,000 500 4.75E-02 9.50E-02 2.2E-03 500,000 500 5.50E-01 1.10E+00 2.1E-04 500,000 500 5.25E-02 1.05E-01 Source of Data: Emission Factor:AP-42, Fifth Edition, Section 11.1, 3/04 Hot Mix Asphalt Plants Tables 11.1-3, 11.1-4, 11.1-7, 11.1-8, 11.1-10 and 11.1-12 Production Rate (asphalt): Geneva Rock Products Assumed material is saturated Calculated Notes: Nonmetalic HAP emission factors are based on asphalt plants controlled with fabric filters. To avoid double counting emissions, the polycyclics emissions total in the table does not include naphthalene emissions Proposed Production Rate (ton/yr) Proposed Production Rate (tn/hr) n-Pentane GHG CO2 CH4 Non-PAH HAP's PAH HAP's Non-HAP organic compounds 2-Methyl-1-pentene 2-Methyl-2-butene 3-Methylpentane 1-Pentene EF lb ton PR ton yr ER ton yr EF lb ton PR ton yr ER lb yr EF lb ton PR ton hr ER lb hr ER lb hr g lb ER g                           1 45359 ton 2,000 lb 1 hr 3,600 sec.sec Source:Hot Mix Asphalt Plant Silo Loading Company: Geneva Rock Products Site: Mona Pit Reference: Reference: AP-42, Section 11.1 Hot Mix Asphalt Plants EF (Total PM)= 0.000332 + 0.00105 (-v)E^(((0.0251)(T+460)-20.43) EF (Organic PM)= 0.00105 (-V)e^(((0.0251)(T+460)-20.43) EF (TOC) = 0.0504 (-V)e^(((0.0251)(T+460)-20.43) EF (CO)= 0.00488(-V)e^(((0.0251)(T+460)-20.43) Emission Proposed Average Proposed Pollutant Factor Throughput Throughput Throughput (lb/ton) Max (TPH) Avg (TPH) (TPY) (lb/hr) (TPY) PM10 0.00057 500 57 500,000 0.0328 0.14 Total PM (PM2.5)0.00057 500 57 500,000 0.0328 0.14 VOC 0.01219 500 57 500,000 0.6956 3.05 CO 0.00118 500 57 500,000 0.0674 0.29 Greenhouse Gas CH4 3.17E-05 500 57 500,000 0.0018 7.92E-03 HAPS Benzene 3.90E-06 500 57 500,000 0.0002 9.75E-04 Bromomethane 5.97E-07 500 57 500,000 0.0000 1.49E-04 2-Butanone 4.75E-06 500 57 500,000 0.0003 1.19E-03 Carbon disulfude 1.95E-06 500 57 500,000 0.0001 4.87E-04 Chloroethane 4.87E-07 500 57 500,000 0.0000 1.22E-04 Chloromethane 2.80E-06 500 57 500,000 0.0002 7.01E-04 Chrysene 5.33E-07 500 57 500,000 0.0000 1.33E-04 Ethylbenzene 4.63E-06 500 57 500,000 0.0003 1.16E-03 Formaldehyde 8.41E-05 500 57 500,000 0.0048 2.10E-02 n-Hexane 1.22E-05 500 57 500,000 0.0007 3.05E-03 Isooctane 3.78E-08 500 57 500,000 0.0000 9.44E-06 Methylene Chloride 3.29E-08 500 57 500,000 0.0000 8.23E-06 Naphthalene 2.22E-04 500 57 500,000 0.0127 5.54E-02 Styrene 6.58E-07 500 57 500,000 0.0000 1.65E-04 Toluene 7.56E-06 500 57 500,000 0.0004 1.89E-03 m, p-Xylene 2.44E-05 500 57 500,000 0.0014 6.09E-03 o-Xylene 1.58E-04 500 57 500,000 0.0090 3.96E-02 Emissions Source:Hot Mix Asphalt Plant Loadout Company: GRP Site: Mona Reference: Reference: AP-42, Section 11.1 Hot Mix Asphalt Plants EF (Total PM)= 0.000181 + 0.00141 (-v)E^(((0.0251)(T+460)-20.43) EF (Organic PM)= 0.00141 (-V)e^(((0.0251)(T+460)-20.43) EF (TOC) = 0.0172 (-V)e^(((0.0251)(T+460)-20.43) EF (CO)= 0.00558(-V)e^(((0.0251)(T+460)-20.43) Emission Proposed Average Proposed Pollutant Factor Throughput Throughput Throughput (lb/ton)Max (TPH) Avg (TPH) (TPY)(lb/hr) (TPY) PM10 0.00052 500 57 500,000 0.0298 0.13 Total PM (PM2.5)0.00052 500 57 500,000 0.0298 0.13 TOC 0.00416 500 57 500,000 0.2374 1.04 CO 0.00135 500 57 500,000 0.0770 0.34 VOC 0.00391 500 57 500,000 0.2231 0.98 Greenhouse Gas CH4 2.70E-04 500 57 500,000 0.0154 6.76E-02 HAPS Benzene 2.16E-06 500 57 500,000 0.0001 5.41E-04 Bromomethane 3.99E-07 500 57 500,000 0.0000 9.98E-05 2-Butanone 2.04E-06 500 57 500,000 0.0001 5.09E-04 Carbon Disulfide 5.41E-07 500 57 500,000 0.0000 1.35E-04 Chloroethane 8.73E-08 500 57 500,000 0.0000 2.18E-05 Chloromethane 6.24E-07 500 57 500,000 0.0000 1.56E-04 Cumene 4.57E-06 500 57 500,000 0.0003 1.14E-03 Ethylbenzene 1.16E-05 500 57 500,000 0.0007 2.91E-03 Formaldehyde 3.66E-06 500 57 500,000 0.0002 9.15E-04 n-Hexane 6.24E-06 500 57 500,000 0.0004 1.56E-03 Isooctane 7.49E-09 500 57 500,000 0.0000 1.87E-06 Styrene 3.04E-07 500 57 500,000 0.0000 7.59E-05 Tetrachloroethene 3.20E-07 500 57 500,000 0.0000 8.01E-05 Toluene 8.73E-06 500 57 500,000 0.0005 2.18E-03 Trichlorofluoromethane 5.41E-08 500 57 500,000 0.0000 1.35E-05 m, p-Xylene 1.71E-05 500 57 500,000 0.0010 4.26E-03 o-Xylene 3.33E-06 500 57 500,000 0.0002 8.32E-04 Emissions Source: Wash Plant Company: Geneva Rock Product Site: Mona Production Rate:1,000,000 TPY Assumptions: Assumed material is saturated with no PM emissions 4 log washers 24 hour per day operation Source:Concrete Batch Plant Company: Geneva Rock Products Site: Mona Pit Reference: AP-42, Section 11.12 Concrete Batching, Table 11.12-2 Concrete Production: 300,000 yd3/yr Emissions: Source PM10 Emission Factor (lb/yd3) lb/hr TPY Aggregate delivery to ground storage 0.0031 0.106 0.465 Aggregate transfer to conveyor 0.0031 0.106 0.465 Aggregate transfer to elevated storage 0.0031 0.106 0.465 Sand delivery to ground storage 0.0007 0.024 0.105 Sand transfer to conveyor 0.0007 0.024 0.105 Sand transfer to elevated storage 0.0007 0.024 0.105 0.0001 0.003 0.015 0.0002 0.007 0.030 Weigh hopper loading 0.0038 0.130 0.570 Truck mix loading (controlled) 0.0044 0.150 0.658 Total 0.681 2.983 PM2.5 Emission Factor (lb/yd3) lb/hr TPY Truck mix loading (controlled) 0.0007 0.023 0.099 1 98% control efficiency for all PM2.5 going to baghouse Assumptions: Wind speed assumed to be 6 mph at material drop point and a 4% mositure content PM2.5 Emissions Truck Mix/Central Mix PM10 Emissions Cement supplement unloading to elevated silo (controlled) Cement unloading to elevated silo (controlled) Source Truck Mix/Central Mix Source:Concrete Batch Plant Company: GRP Site: Mona Reference: AP-42, Section 11.12 Concrete Batching, Table 11.12-2 Concrete Production 300,000 yd3/yr Composition Data: Material lb/yd3 TPY TPH Coarse Aggregate 1,865 279,750 31.93 Sand 1,428 214,200 24.45 Cement 491 73,650 8.41 Cement Supplement 73 10,950 1.25 Cement + Cement Sup. 564 84,600 9.66 Water 167 25,050 2.86 Total Concrete (yd3) 4,024 603,600 68.90 Emissions: Controlled (lb/tn) (lb/hr) Controlled Controlled (TPY) Controlled (lb/tn) (lb/hr) Controlled Controlled (TPY) Controlled (lb/tn) Controlled (lb/hr) Controlled (TPY) Controlled (lb/tn) Controlled (lb/hr) Controlled (TPY) Arsenic 4.24E-09 3.56E-08 1.56E-07 1.00E-06 1.25E-06 5.48E-06 2.96E-07 2.86E-06 1.25E-05 6.02E-07 4.15E-05 2.55E-05 Beryllium 4.86E-10 4.09E-09 1.79E-08 9.04E-08 1.13E-07 4.95E-07 ND ND ND 1.04E-07 7.17E-06 4.40E-06 Cadmium ND ND ND 1.98E-10 2.48E-10 1.08E-09 7.10E-10 6.86E-09 3.00E-08 9.06E-09 6.24E-07 3.83E-07 Total Chromium 2.90E-08 2.44E-07 1.07E-06 1.22E-06 1.53E-06 6.68E-06 1.27E-07 1.23E-06 5.37E-06 4.10E-06 2.83E-04 1.73E-04 Lead 1.09E-08 9.16E-08 4.01E-07 5.20E-07 6.50E-07 2.85E-06 3.66E-08 3.53E-07 1.55E-06 1.53E-06 1.05E-04 6.47E-05 Manganese 1.17E-07 9.84E-07 4.31E-06 2.56E-07 3.20E-07 1.40E-06 3.78E-06 3.65E-05 1.60E-04 2.08E-05 1.43E-03 8.80E-04 Nickel 4.18E-08 3.51E-07 1.54E-06 2.28E-06 2.85E-06 1.25E-05 2.48E-07 2.40E-06 1.05E-05 4.78E-06 3.29E-04 2.02E-04 Total Phosphorus ND ND ND 3.54E-06 4.43E-06 1.94E-05 1.20E-06 1.16E-05 5.08E-05 1.23E-05 8.48E-04 5.20E-04 Selenium ND ND ND 7.24E-08 9.05E-08 3.96E-07 ND ND ND 1.13E-07 7.79E-06 4.78E-06 Total HAPS 7.49E-06 4.92E-05 2.41E-04 1.88E-03 98% control efficiency for all HAPs going to baghouse Central Mix Batching Current Pollutant Cement Silo Filling Cement Supplement Silo Filling Truck Loading Source: Tanks Company: Geneva Rock Product Site: Mona VOC actual emissionVOC potential emissions CO Emissions (tons/year) (tons/year) (tons/year) Horizontal tank 1 0.0239 0.0258 4‐12,000 gallon diesel storage tanks Horizontal tank 2 0.0399 0.0474 0.0046 25,000 gallon asphalt cement oil tank Horizontal tank 3 0.0525 0.0629 0.0061 35,000 gallon asphalt cement oil tank Horizontal tank 4 0.1501 0.1857 0.0180 2‐ 60,000 gallon asphalt cement oil tanks Vertical tank 1 0.005 0.006 0.0006 30,000 gallon asphalt cement oil tank Vertical tank 2 0.014 0.015 0.0015 250,000 gallon asphalt cement oil tank Vertical tank 3 0.041 0.052 60,000 gallon RFO tank Vertical tank 4 0.061 0.064 4,000 ton asphalt cement oil tank Total 0.387 0.459 0.031 Assumptions: For asphalt cement, CO Emissions are equal to 0.097 x VOC emissions based on AP-42, Setion 11.1. Section 4.4.5 Source:Unpaved Roads Company:Geneva Rock Products Site:Mona Pit Date:10/20/2022 PM10 Emission Factor => E = k * (s/12)a * (W/3)b PM2.5 Emission Factor => E = k * (s/12)a * (W/3)b Annual PM10 Emission Factor => E = k * (s/12)a * (W/3)b *[(365‐P)/365] Annual PM2.5 Emission Factor => E = k * (s/12)a * (W/3)b *[(365‐P)/365] Where E = Emission factor (pounds per VMT) k, a, b = constants (AP‐42, Section 13.2.2 Unpaved Roads Table 13.2.2‐2 s = surface material silt content =4.8 CF = Control Factor =85% 90% 95% PM10 & PM2.5 a = 0.9 PM10 & PM2.5 b = 0.45 P = 89 Vehicle 24‐Hour Annual 24‐Hour Annual 24‐hour Annual Uncontrolled Controlled Uncontrolled Controlled Uncontrolled Controlled Uncontrolled Controlled Source Description PM10 PM2.5 Silt Content Weight Mean Speed PM10 EF PM10 EF PM2.5 EF PM2.5 EF 24‐hour PM10 24‐hour PM10 24‐hour PM10 24‐hour PM10 24‐hour PM2.5 24‐hour PM2.5 24‐hour PM2.5 24‐hour PM2.5 k k (%) (ton) (mph) (lb/VMT) (lb/VMT) (lb/VMT) (lb/VMT) VMT/hr VMT/yr lb/hr lb/hr tn/yr tn/yr lb/hr lb/hr tn/yr tn/yr RMC‐Trucks ‐ Unpaved 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.45 3,977.3 0.96 0.14 4.22 0.633 0.10 0.014 0.422 0.063 RMC‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 RMC‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.34 3,017.2 0.73 0.04 3.20 0.160 0.07 0.004 0.320 0.016 Aggregate‐Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 4.35 38,094.0 7.22 1.08 31.63 4.744 0.72 0.108 3.163 0.474 Aggregate‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 Aggregate‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 1.79 0.09 7.86 0.393 0.18 0.009 0.786 0.039 HMA ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 HMA ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.57 13,774.1 2.61 0.13 11.44 0.572 0.26 0.013 1.144 0.057 Wash Plant ‐ Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.58 13,860.2 2.63 0.39 11.51 1.726 0.26 0.039 1.151 0.173 Wash Plant ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.00 0.00 0.00 0.000 0.00 0.000 0.000 0.000 Wash Plant ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 1.79 0.09 7.86 0.393 0.18 0.009 0.786 0.039 RMC‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.24 2,062.3 0.42 0.06 1.84 0.275 0.04 0.006 0.184 0.028 Aggregate‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 1.28 11,223.3 2.28 0.34 9.99 1.499 0.23 0.034 0.999 0.150 HMA‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.40 3,507.3 0.71 0.11 3.12 0.468 0.07 0.011 0.312 0.047 Total 21.156 2.480 92.662 10.863 2.116 0.248 9.266 1.086 Vehicle 24‐Hour Annual 24‐Hour Annual 24‐hour Annual Uncontrolled Controlled Uncontrolled Controlled Source Description PM10 PM2.5 Silt Content Weight Mean Speed PM10 EF PM10 EF PM2.5 EF PM2.5 EF Annual PM10 Annual PM10 Annual PM2.5 Annual PM2.5 k k (%) (ton) (mph) (lb/VMT) (lb/VMT) (lb/VMT) (lb/VMT) VMT/hr VMT/yr tn/yr tn/yr tn/yr tn/yr RMC‐Trucks ‐ Unpaved 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.45 3,977.3 3.194 0.479 0.319 0.048 RMC‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.00 0.0 0.000 0.000 0.000 0.000 RMC‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 40.5 10 2.12 1.61 0.212 0.161 0.34 3,017.2 2.423 0.121 0.242 0.012 Aggregate‐Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 4.35 38,094.0 23.944 3.592 2.394 0.359 Aggregate‐Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 Aggregate‐Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 5.952 0.298 0.595 0.030 HMA ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 HMA ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.57 13,774.1 8.658 0.433 0.866 0.043 Wash Plant ‐ Trucks ‐ Unpaved 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.58 13,860.2 8.712 1.307 0.871 0.131 Wash Plant ‐ Trucks ‐ Paved + Sweeping 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 0.00 0.0 0.000 0.000 0.000 0.000 Wash Plant ‐ Trucks ‐ Paved + Vacuum 1.5 0.15 4.8 23.5 10 1.66 1.26 0.166 0.126 1.08 9,469.7 5.952 0.298 0.595 0.030 RMC‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.24 2,062.3 1.390 0.209 0.139 0.021 Aggregate‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 1.28 11,223.3 7.565 1.135 0.757 0.113 HMA‐Loaders 1.5 0.15 4.8 27.5 5 1.78 1.35 0.178 0.135 0.40 3,507.3 2.364 0.355 0.236 0.035 Notes:Total 70.153 8.224 7.015 0.822 85% control ‐ Unpaved w/ watering & chemical suppressant RMC Unpaved Road Length 0.275 miles round trip Aggs Unpaved Road Length 0.838 miles round trip HMA Unpaved Road Length 0.000 miles round trip Wash Plant Unpaved Road Length 0.305 miles round trip RMC Loader travel distance 0.066 miles round trip Aggs Loader travel distance 0.152 miles round trip HMA Loader travel distance 0.095 miles round trip 90% control ‐ Paved w/ Watering & Sweeping RMC Paved Road Length 0.000 miles round trip Aggs Paved Road Length 0.000 miles round trip HMA Paved Road Length 0.000 miles round trip Wash Plant Paved Road Length 0.000 miles round trip 95% control ‐ Paved w/ Watering & Vacuuming RMC Paved Road Length 0.208 miles round trip 0.483 Aggs Paved Road Length 0.208 miles round trip 1.046 HMA Paved Road Length 0.606 miles round trip Wash Plant Paved Road Length 0.208 miles round trip 0.513 Vehicle weights Empty Capacity Average Weight Throughput Trips/yr Trips/Day Trips/hr RMC‐Trucks 26 29 40.5 420,000 14,482.8 39.7 1.65 Aggregate‐Trucks 12.5 22 23.5 1,000,000 45,454.5 124.5 5.19 HMA ‐ Trucks 12.5 22 23.5 500,000 22,727.3 62.3 2.59 Wash Plant ‐ Trucks 12.5 22 23.5 1,000,000 45,454.5 124.5 5.19 RMC‐Loaders 20.7 13.5 27.5 420,000 31,111.1 85.2 3.55 Aggregate‐Loaders 20.7 13.5 27.5 1,000,000 74,074.1 202.9 8.46 HMA‐Loaders 20.7 13.5 27.5 500,000 37,037.0 101.5 4.23 Source of Data: Emission Factor:AP‐42, Section 13.2.2 Unpaved Roads Road Lengths Estimated from Aerial Photography Emission Rate: Calculated Assumptions: Precipitation Days‐NOAA Global Summary of the Year Station Details, Calculated average for last 6 years Tank identification Description Location (city) Value Units Fuel type Diesel select one Storage tank position Above select one Actual throughput 1,152,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 1,497,600 gal/yr VOC actual emissions 0.0060 ton/yr VOC potential emissions 0.0064 ton/yr Physical properties of the tank Property Value Units Shell length HS 32 feet Shell diameter D 8 feet Shell effective height HE 6.28 feet Shell effective diameter DE 18.05 feet Shell radius RS 4 feet Working volume 12031.5 gallons Turnovers per year (actual)N 95.7 dimensionless Turnovers per year (potential)N 124.5 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) VOC emissions from horizontal tank #1 Enter tank specific information in all blue cells. Property Tank information Mona, UT 12000 gallon diesel storage tanks Tanks 1 - 4 p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 11.95 lb/yr Total losses (VOC potential emissions) LT 12.89 lb/yr Standing storage losses LS 1.55 lb/yr Working losses (actual)LW 10.40 lb/yr Working losses (potential)LW 11.34 lb/yr Annual net throughput (actual) Q 27428.57 bbl/yr Annual net throughput (potential) Q 35657.14 bbl/yr Working loss turnover factor (actual)KN 0.48 dimensionless Working loss turnover factor (potential)KN 0.41 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.006 psia Vapor space volume VV 804.25 ft3 Vapor space tank outage HVO 3.14 feet Vapor space expansion factor KE 0.038 dimensionless Vented vapor saturation factor KS 1.00 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 516.67 °R Daily average liquid surface temperature TLA 515.55 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 514.18 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 12.101 dimensionless Vapor pressure equation constant B 8907 °R Vapor pressure at TLX PVX 0.0068 psia Vapor pressure at TLN PVN 0.0047 psia Maximum TLA TLX 521.03 °R Minimum TLA TLN 510.07 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 124,269 gal/yr Actual hours operated 8760 hours/year Potential throughput 161,550 gal/yr VOC actual emissions 0.04 ton/yr VOC potential emissions 0.05 ton/yr Physical properties of the tank Property Value Units Shell length HS 54 feet Shell diameter D 11 feet Shell effective height HE 8.64 feet Shell effective diameter DE 27.50 feet Shell radius RS 5.5 feet Working volume 38385.8 gallons Turnovers per year (actual)N 3.2 dimensionless Turnovers per year (potential)N 4.2 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Mona, Utah VOC emissions from horizontal tank #2 Enter tank specific information in all blue cells. Tank information Tank 2 25,000 gallon portable asphalt cement oil Property p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 79.78 lb/yr Total losses (VOC potential emissions) LT 94.71 lb/yr Standing storage losses LS 49.06 lb/yr Working losses (actual)LW 30.72 lb/yr Working losses (potential)LW 45.65 lb/yr Annual net throughput (actual) Q 2958.79 bbl/yr Annual net throughput (potential) Q 3846.43 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 2565.90 ft3 Vapor space tank outage HVO 4.32 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 173,231 gal/yr Actual hours operated 8760 hours/year Potential throughput 225,200 gal/yr VOC actual emissions 0.05 ton/yr VOC potential emissions 0.06 ton/yr Physical properties of the tank Property Value Units Shell length HS 65.5 feet Shell diameter D 11.25 feet Shell effective height HE 8.84 feet Shell effective diameter DE 30.63 feet Shell radius RS 5.625 feet Working volume 48701.0 gallons Turnovers per year (actual)N 3.6 dimensionless Turnovers per year (potential)N 4.6 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Mona, UT VOC emissions from horizontal tank #3 Enter tank specific information in all blue cells. Tank information Tank 3 35,000 asphalt cement oil Property p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 105.04 lb/yr Total losses (VOC potential emissions) LT 125.85 lb/yr Standing storage losses LS 62.21 lb/yr Working losses (actual)LW 42.83 lb/yr Working losses (potential)LW 63.64 lb/yr Annual net throughput (actual) Q 4124.55 bbl/yr Annual net throughput (potential) Q 5361.91 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 3255.41 ft3 Vapor space tank outage HVO 4.42 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42h https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Tank identification Description Location (city) Value Units Fuel type asphalt cement select one Storage tank position Above select one Actual throughput 297,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 386,100 gal/yr VOC actual emissions 0.08 ton/yr VOC potential emissions 0.09 ton/yr Physical properties of the tank Property Value Units Shell length HS 71 feet Shell diameter D 12 feet Shell effective height HE 9.42 feet Shell effective diameter DE 32.94 feet Shell radius RS 6 feet Working volume 60063.7 gallons Turnovers per year (actual)N 4.9 dimensionless Turnovers per year (potential)N 6.4 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City, UT Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.0 psia Solar insolation I 1442.0 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 150.05 lb/yr Total losses (VOC potential emissions) LT 185.72 lb/yr Standing storage losses LS 76.62 lb/yr Working losses (actual)LW 73.43 lb/yr Working losses (potential)LW 109.10 lb/yr Annual net throughput (actual) Q 7071.43 bbl/yr Annual net throughput (potential) Q 9192.86 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure PVA 0.091292159 psia Vapor space volume VV 4014.96 ft3 Vapor space tank outage HVO 4.71 feet Vapor space expansion factor KE 0.029 dimensionless Vented vapor saturation factor KS 0.98 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.1015 psia Vapor pressure at TLN PVN 0.0820 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, UT VOC emissions from horizontal tank #4 Enter tank specific information in all blue cells. Tank information Tanks 4 and 5 60,000 asphalt cement oil Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 300,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 390,000 gal/yr VOC actual emissions 0.00 ton/yr VOC potential emissions 0.01 ton/yr Physical properties of the tank Property Value Units Shell height HS 45 feet Shell diameter D 12 feet Shell radius RS 6 feet Maximum liquid height HLX 40 feet Average liquid height HL 20 feet Working volume 33838.7 gallons Turnovers per year (actual)N 8.9 dimensionless Turnovers per year (potential)N 11.5 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.04 feet Dome roof radius RR --feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Property Mona, Utah VOC emissions from vertical, fixed roof tank #1 Enter tank specific information in all blue cells. Tank information Asphalt Cement Oil Tank #1 30,000 gallon p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 VOC emissions from vertical, fixed roof tank #1 Variable Calculated value Total losses (VOC actual emissions) LT 9.64 lb/yr Total losses (VOC potential emissions) LT 11.34 lb/yr Standing storage losses LS 3.98 lb/yr Working losses (actual)LW 5.67 lb/yr Working losses (potential)LW 7.37 lb/yr Annual net throughput (actual) Q 7142.86 bbl/yr Annual net throughput (potential) Q 9285.71 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Vapor pressure at 60 °F PVA 0.004772504 psia Vapor space volume VV 2828.85 ft3 Vapor space roof outage HRO 0.01 feet Vapor space tank outage HVO 25.01 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.99 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.104 dimensionless Vapor pressure equation constant B 10475 °R Vapor pressure at TLX PVX 0.01 psia Vapor pressure at TLN PVN 0.00 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 297,500 gal/yr Actual hours operated 8760 hours/year Potential throughput 386,750 gal/yr VOC actual emissions 0.01 ton/yr VOC potential emissions 0.02 ton/yr Physical properties of the tank Property Value Units Shell height HS 48 feet Shell diameter D 30 feet Shell radius RS 15 feet Maximum liquid height HLX 35 feet Average liquid height HL 25 feet Working volume 185055.5 gallons Turnovers per year (actual)N 1.6 dimensionless Turnovers per year (potential)N 2.1 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.09 feet Dome roof radius RR --feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 28.51 lb/yr Total losses (VOC potential emissions) LT 30.20 lb/yr Standing storage losses LS 22.89 lb/yr Working losses (actual)LW 5.62 lb/yr Working losses (potential)LW 7.31 lb/yr Annual net throughput (actual) Q 7083.33 bbl/yr Annual net throughput (potential) Q 9208.33 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Vapor pressure at 60 °F PVA 0.004772504 psia Vapor space volume VV 16279.83 ft3 Vapor space roof outage HRO 0.03 feet Vapor space tank outage HVO 23.03 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.99 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.00 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.104 dimensionless Vapor pressure equation constant B 10475 °R Vapor pressure at TLX PVX 0.01 psia Vapor pressure at TLN PVN 0.00 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, Utah VOC emissions from vertical, fixed roof tank #2 Enter tank specific information in all blue cells. Tank information Asphalt Cement Tank 250,000 gallon Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Fuel type Fuel Oil No. 6 select one Type of roof Cone select one Actual throughput 300,000 gal/yr Actual hours operated 8760 hours/year Potential throughput 390,000 gal/yr VOC actual emissions 0.04 ton/yr VOC potential emissions 0.05 ton/yr Physical properties of the tank Property Value Units Shell height HS 33 feet Shell diameter D 8 feet Shell radius RS 4 feet Maximum liquid height HLX 35 feet Average liquid height HL 25 feet Working volume 13159.5 gallons Turnovers per year (actual)N 22.8 dimensionless Turnovers per year (potential)N 29.6 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.03 feet Dome roof radius RR --feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Total losses (VOC actual emissions) LT 81.74 lb/yr Total losses (VOC potential emissions) LT 103.99 lb/yr Standing storage losses LS 7.56 lb/yr Working losses (actual)LW 74.17 lb/yr Working losses (potential)LW 96.42 lb/yr Annual net throughput (actual) Q 7142.86 bbl/yr Annual net throughput (potential) Q 9285.71 bbl/yr Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Vapor Molecular Weight at 60 °F MV 130 lb/lb-mole Vapor pressure at 60 °F PVA 0.091292159 psia Vapor space volume VV 402.54 ft3 Vapor space roof outage HRO 0.01 feet Vapor space tank outage HVO 8.01 feet Vapor space expansion factor KE 0.03 Vented vapor saturation factor KS 0.96 dimensionless Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Average vapor temperature TV 597.91 °R Daily average liquid surface temperature TLA 678.04 °R Daily vapor temperature range ΔTV 21.91 °R Daily ambient temperature range ΔTA 21.00 °R Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Liquid bulk temperature TB 785.00 °R Daily vapor pressure range ΔPV 0.02 psia Breather vent pressure setting range ΔPB 0.06 psi Vapor pressure equation constant A 10.781 dimensionless Vapor pressure equation constant B 8933 °R Vapor pressure at TLX PVX 0.10 psia Vapor pressure at TLN PVN 0.08 psia Maximum TLA TLX 683.52 °R Minimum TLA TLN 672.57 °R Mona, Utah VOC emissions from vertical, fixed roof tank #2 Enter tank specific information in all blue cells. Tank information RFO 60,000 gallon Property p-sbap5-42v • 7/13/20 Tank identification Description Location (city) Value Units Description Fuel type Asphalt Cement select one Type of roof Cone select one Actual throughput 1,038,368 gal/yr Actual hours operated 8760 hours/year Potential throughput 1,349,878 gal/yr VOC actual emissions 0.06 ton/yr VOC potential emissions 0.06 ton/yr Physical properties of the tank Property Value Units Description Shell height HS 44 feet Shell diameter D 65 feet Shell radius RS 32.5 feet Maximum liquid height HLX 40 feet Average liquid height HL 22 feet Working volume 992837.5 gallons Turnovers per year (actual)N 1.0 dimensionless Turnovers per year (potential)N 1.4 dimensionless Shell color/shade White/NA select one Shell condition Average select one Paint solar absorptance α 0.25 dimensionless Roof height HR 0.20 feet Dome roof radius RR -- feet Cone roof slope SR 0.0625 ft/ft Vacuum setting PBV -0.03 psig Pressure setting PBP 0.03 psig Weather data Property Value Units Description Nearest major city Salt Lake City Select one Average annual maximum temperature TAX 63.9 °F Average annual minimum temperature TAN 42.9 °F Atmospheric pressure PA 12.01 psia Solar insolation I 1442.00 Btu/(ft2∙day) Calculation of VOC Emission = Total Losses (LT) Variable Calculated value Notes (equations are from AP-42, Chapter 7) Total losses (VOC actual emissions) LT 122.60 lb/yr Equation 1-1 Total losses (VOC potential emissions) LT 128.48 lb/yr Equation 1-1 Standing storage losses LS 102.98 lb/yr Equation 1-2 Working losses (actual)LW 19.62 lb/yr Equation 1-35 Working losses (potential)LW 25.50 lb/yr Equation 1-35 Annual net throughput (actual) Q 24723.05 bbl/yr Based on actual throughput entered by user (gal/year) / 42 bbl/gal Annual net throughput (potential) Q 32139.96 bbl/yr Based on calculated potential throughput (gal/year) / 42 bbl/gal Working loss turnover factor (actual)KN 1.00 dimensionless Working loss turnover factor (potential)KN 1.00 dimensionless Stock vapor density WV 0.00 lb/ft3 Equation 1-22 Vapor Molecular Weight at 60 °F MV 190 lb/lb-mole Table 7.1-2 Vapor pressure at 60 °F PVA 0.004772504 psia Equation 1-25, PVA based on TLA Vapor space volume VV 73227.44 ft3 Equation 1-3 Vapor space roof outage HRO 0.07 feet Vapor space tank outage HVO 22.07 feet Equation 1-16, vertical Vapor space expansion factor KE 0.03 Equation 1-5 Vented vapor saturation factor KS 0.99 dimensionless Equation 1-21 Working loss product factor KP 1 dimensionless Ideal gas constant R 10.731 psia*ft3/lb-mole*°R Constant, Equation 1-22 Average vapor temperature TV 597.91 °R Equation 1-33 Daily average liquid surface temperature TLA 678.04 °R Equation 1-28 Daily vapor temperature range ΔTV 21.91 °R Equation 1-7 Daily ambient temperature range ΔTA 21.00 °R Equation 1-11 Daily maximum ambient temperature TAX 523.60 °R Daily minimum ambient temperature TAN 502.60 °R Daily average ambient temperature TAA 513.10 °R Equation 1-30 Table 7-1-7. Conversion factor: Rankine = Fahrenheit + 459.7 Total for a horizontal surface. Equation 1-17 Cone; Equation 1-19 Dome Saturation; turnovers >36 = (180 + N) / 6 * N; turnovers at 36 or lower = 1; Equation 1 Saturation; turnovers >36 = (180 + N) / 6 * N; turnovers at 36 or lower = 1 Assume value of 1 for gasoline or diesel. Table 7-1-7. Conversion factor: Rankine = Fahrenheit + 459.7 Average for the location. Calculated radius. Only applies to a "Dome" roof. If unknown = 0.0625. If known, insert value. Only applies to a "Cone" roof. Vacuum setting is a value set for the tank at the facility. Breather vent pressure is a reading from the tank monitoring system. Nearest major city to the tank location. Average over a calendar year. Average over a calendar year. Tank condition is used to identify paint solar absorptance. Insert value from table 7.1-6. Paint effectiveness in absorbing radiant energy. Calculated roof height. Calculated number the tank is emptied and refilled, annually. Calculated number the tank could be emptied and refilled, annually. Tank shell color and shade are used to identify paint solar absorptance. Maximum height of the liquid within the tank shell. Average height of the liquid within the tank shell. Calculated volume This is actual length of the tank. This is the width of the cylindrical shell. Calculated radius Amount of VOCs potentially released over a 12-month period. Property Type of fuel stored in the tank. Fixed roof structure. Gallons stored in his tank over the period of 12 consecutive months. Number of hours the tank is being used. Calculated based on actual tank throughput divided by the hours operated and multiplied by 8760 hours/day. Amount of VOC actually released over the 12-month period. Mona, Utah VOC emissions from vertical, fixed roof tank #1 Enter tank specific information in all blue cells. Tank information AC Tank 4,000 ton p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 1 of 2 VOC emissions from vertical, fixed roof tank #1 Liquid bulk temperature TB 785.00 °R Equation 1-31 Daily vapor pressure range ΔPV 0.00 psia Equation 1-9 Breather vent pressure setting range ΔPB 0.06 psi Equation 1-10 Vapor pressure equation constant A 10.104 dimensionless Table 7.1-2 Vapor pressure equation constant B 10475 °R Table 7.1-2 Vapor pressure at TLX PVX 0.01 psia Equation 1-9, note 5 Vapor pressure at TLN PVN 0.00 psia Equation 1-9, note 5 Maximum TLA TLX 683.52 °R Equation 1-9, note to Figure 7.1-17 Minimum TLA TLN 672.57 °R Equation 1-9, note to Figure 7.1-17 p-sbap5-42v https://www.pca.state.mn.us • Available in alternative formats • Use your preferred relay service Page 2 of 2 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants B-2 APPENDIX B. MODELING PARAMETERS Point Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Stack Height Temperature Exit Velocity Stack Diameter (m)(m)(m)(lb/hr) (m) (K) (m/s) (m) CON_WH Concrete Plant Water Heater 429393 4408370.8 1617.99 0.12 18.288 294.260 12.192 0.610 HMA_HTR Asphalt Plant Hot Oil Heater 429160.4 4408542.7 1601.15 0.06 18.288 294.260 12.192 0.610 HMA_AP Drum Mix Asphalt Plants (Baghouse)429160.2 4408537.6 1600.79 11.50 7.163 353.983 18.431 1.151 CTHRSG1 PCC Source1 423536.062 4408324.255 1539 13.30 50.292 365.000 26.200 5.130 CTHRSG2 PCC Source2 423536.062 4408363.855 1539 13.30 50.292 365.000 26.200 5.000 Area Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Release Height Easterly Length Northerly Length Angle from North Initial Vert. Dimension(m)(m)(m) lb/hr-ft2 (m) (m) (m)(m) HMA_MHC Aspalt Plant - Transfer Points 429150.8 4408513.4 1599.7 7.12E-06 5.0 30.0 60.0 0.0 5.0 HMA_LDR Aspalt Plant -Loaders Travel 429150.8 4408513.4 1599.7 5.52E-06 0.0 30.0 60.0 0.0 3.0 AGG_MHC Aggregate - Transfer Points 429840.9 4408544.2 1663.5 9.71E-06 5.0 110.0 90.0 0.0 5.0 AG_LDR1 Aggregate-Loaders Travel1 429841.6 4408543.2 1663.5 2.89E-06 0.0 110.0 90.0 0.0 3.0 AG_LDR2 Aggregate-Loaders Travel2 429786.0 4409514.3 1669.9 3.53E-06 0.0 30.0 30.0 0.0 3.0 RMC_MHC Concrete Plant - Transfer Points 429403.4 4408385.1 1618.2 1.42E-06 5.0 30.0 30.0 90.0 5.0 RMC_LDR Concrete Plant - Loader Travel 429403.4 4408385.1 1618.2 6.49E-06 0.0 30.0 30.0 90.0 3.0 AreaPoly Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate Release Height Initial Vert. Dimension(m)(m)(m)lb/hr-ft2 (m)(m) SP1 Storage Pile 1 429552.4256 4408626.57 1637.28 1.49062E-06 0 15 SP2 Storage Pile2 429341.7 4408636.1 1617.14 1.51047E-06 0 15 SP3 Storage Pile 3 429641.3 4408545.2 1643.27 1.49302E-06 0 15 SP4 Storage Pile 4 429829.9 4409543.3 1673.77 1.50294E-06 0 15 SP5 Storage Pile 5 429496.4 4408381.6 1626.7 1.498E-06 0 15 DIST1 Distrubed Grounds 1 429787.3 4408391.8 1651.41 1.0538E-06 0 0 DIST2 Disturbed Grounds 2 429750.5 4409558.4 1665.43 9.89446E-07 0 0 DOZER1 Dozer1 429787.3 4408391.8 1651.41 7.31E-07 0 3 DOZER2 Dozer2 429750.5 4409558.4 1665.43 6.87E-07 0 3 KIGORE Kilgore Source1 429690.418 4411522.486 1650.67 4.07E-06 3.048 3.048 SUNROC Sunroc Source1 429713.726 4411494.677 1659.47 1.48E-06 3.048 3.048 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension AGG_001 Aggregate - Primary Crusher1 429796.1 4409524.5 1670.9 5.400E-01 2.50 5.00 5.00 AGG_002 Aggregate - Primary Crusher2 429899.6 4408592.0 1671.0 5.400E-01 2.50 5.00 5.00AGG_003 Aggregate - Secondary Crusher1 429875.7 4408594.6 1669.5 3.240E-01 2.50 5.00 5.00 AGG_004 Aggregate - Secondary Crusher2 429346.7 4408523.5 1616.6 3.240E-01 2.50 5.00 5.00 AGG_005 Aggregate - Tertiary Crusher1 429902.0 4408604.5 1672.9 3.240E-01 2.50 5.00 5.00AGG_006 Aggregate - Tertiary Crusher2 429916.1 4408549.2 1670.7 3.240E-01 2.50 5.00 5.00 AGG_007 Aggregate - Screen 1 429930.4 4408611.9 1675.1 1.110E+00 2.50 5.00 5.00 AGG_008 Aggregate - Screen 2 429913.5 4408579.3 1672.4 7.400E-01 2.50 5.00 5.00AGG_009 Aggregate - Screen 3 429897.0 4408627.8 1673.8 7.400E-01 2.50 5.00 5.00 AGG_010 Aggregate - Screen 4 429856.4 4408577.9 1665.6 4.440E-01 2.50 5.00 5.00 AGG_011 Aggregate - Screen 5 429891.2 4408559.3 1669.1 4.440E-01 2.50 5.00 5.00AGG_012 Aggregate - Screen 6 429929.8 4408584.4 1674.2 4.440E-01 2.50 5.00 5.00 HMA_001 Hot Mix Asphalt Plant Silo Loading 429147.4 4408556.6 1600.6 3.276E-02 4.57 0.70 4.27 HMA_002 Asphalt Plant - Loadout 429147.3 4408554.5 1600.6 2.979E-02 4.57 0.70 4.27RMC_CB Concrete Batch Plant 429393.3 4408377.4 1617.8 6.809E-01 6.10 9.54 2.84 LDR_RMP Loader to Hopper at Ready Mix Plant 429147.6 4408552.0 1600.5 5.000E-02 2.47 0.58 1.15 LDR_AG1 Loader to Hopper at Aggregate Plant1 429900.3 4408587.8 1670.6 1.000E-01 2.47 0.58 1.15LDR_AG2 Loader to Hopper at Aggregate Plant2 429801.9 4409524.6 1671.4 1.000E-01 2.47 0.58 1.15 LDR_AGG Loader to Load Trucks at Aggregate Plant 429843.9 4408586.1 1666.0 1.000E-01 2.47 0.58 1.15 LDR_CB Loader to Load Trucks at Concrete Plant 429424.9 4408386.4 1620.1 1.000E-02 2.47 0.58 1.15CO_0001 Concrete Haul Roads 429098.1 4408294.6 1594.0 9.61E-04 2.550 4.186 2.372 CO_0002 Concrete Haul Roads 429106.2 4408298.6 1594.4 9.61E-04 2.550 4.186 2.372 CO_0003 Concrete Haul Roads 429114.2 4408302.5 1594.9 9.61E-04 2.550 4.186 2.372 CO_0004 Concrete Haul Roads 429122.3 4408306.5 1595.8 9.61E-04 2.550 4.186 2.372CO_0005 Concrete Haul Roads 429130.4 4408310.5 1596.2 9.61E-04 2.550 4.186 2.372 CO_0006 Concrete Haul Roads 429138.5 4408314.4 1597.1 9.61E-04 2.550 4.186 2.372 CO_0007 Concrete Haul Roads 429146.5 4408318.4 1597.7 9.61E-04 2.550 4.186 2.372 CO_0008 Concrete Haul Roads 429154.6 4408322.4 1598.5 9.61E-04 2.550 4.186 2.372 CO_0009 Concrete Haul Roads 429162.7 4408326.3 1599.4 9.61E-04 2.550 4.186 2.372 CO_0010 Concrete Haul Roads 429170.8 4408330.3 1599.9 9.61E-04 2.550 4.186 2.372 CO_0011 Concrete Haul Roads 429178.9 4408334.3 1600.6 9.61E-04 2.550 4.186 2.372 CO_0012 Concrete Haul Roads 429186.9 4408338.3 1601.2 9.61E-04 2.550 4.186 2.372 CO_0013 Concrete Haul Roads 429195.0 4408342.2 1601.9 9.61E-04 2.550 4.186 2.372 CO_0014 Concrete Haul Roads 429203.1 4408346.2 1602.6 9.61E-04 2.550 4.186 2.372 CO_0015 Concrete Haul Roads 429211.2 4408350.2 1603.0 9.61E-04 2.550 4.186 2.372 CO_0016 Concrete Haul Roads 429219.2 4408354.1 1603.7 9.61E-04 2.550 4.186 2.372 CO_0017 Concrete Haul Roads 429227.3 4408358.1 1604.3 9.61E-04 2.550 4.186 2.372 CO_0018 Concrete Haul Roads 429235.4 4408362.1 1605.1 9.61E-04 2.550 4.186 2.372 CO_0019 Concrete Haul Roads 429243.5 4408366.0 1605.8 9.61E-04 2.550 4.186 2.372CO_0020 Concrete Haul Roads 429251.5 4408370.0 1606.4 2.95E-03 2.550 4.186 2.372 CO_0021 Concrete Haul Roads 429259.6 4408374.0 1607.1 2.95E-03 2.550 4.186 2.372 CO_0022 Concrete Haul Roads 429267.7 4408378.0 1607.7 2.95E-03 2.550 4.186 2.372 CO_0023 Concrete Haul Roads 429275.8 4408381.9 1608.1 2.95E-03 2.550 4.186 2.372 CO_0024 Concrete Haul Roads 429283.8 4408386.0 1608.7 2.95E-03 2.550 4.186 2.372 CO_0025 Concrete Haul Roads 429291.9 4408390.0 1609.4 2.95E-03 2.550 4.186 2.372 CO_0026 Concrete Haul Roads 429299.9 4408394.1 1610.0 2.95E-03 2.550 4.186 2.372 CO_0027 Concrete Haul Roads 429307.9 4408398.1 1610.8 2.95E-03 2.550 4.186 2.372 CO_0028 Concrete Haul Roads 429316.0 4408402.1 1611.5 2.95E-03 2.550 4.186 2.372 CO_0029 Concrete Haul Roads 429324.0 4408406.2 1612.3 2.95E-03 2.550 4.186 2.372 CO_0030 Concrete Haul Roads 429332.1 4408410.2 1612.9 2.95E-03 2.550 4.186 2.372 CO_0031 Concrete Haul Roads 429340.1 4408414.3 1613.5 2.95E-03 2.550 4.186 2.372 CO_0032 Concrete Haul Roads 429348.9 4408415.5 1614.3 2.95E-03 2.550 4.186 2.372 CO_0033 Concrete Haul Roads 429357.9 4408416.1 1615.1 2.95E-03 2.550 4.186 2.372 CO_0034 Concrete Haul Roads 429366.9 4408416.7 1616.0 2.95E-03 2.550 4.186 2.372 CO_0035 Concrete Haul Roads 429375.9 4408417.3 1616.6 2.95E-03 2.550 4.186 2.372 CO_0036 Concrete Haul Roads 429384.8 4408417.8 1617.3 2.95E-03 2.550 4.186 2.372 CO_0037 Concrete Haul Roads 429393.6 4408417.3 1617.9 2.95E-03 2.550 4.186 2.372 CO_0038 Concrete Haul Roads 429401.9 4408413.8 1618.4 2.95E-03 2.550 4.186 2.372 CO_0039 Concrete Haul Roads 429410.2 4408410.3 1618.9 2.95E-03 2.550 4.186 2.372 CO_0040 Concrete Haul Roads 429418.5 4408406.8 1619.4 2.95E-03 2.550 4.186 2.372 CO_0041 Concrete Haul Roads 429423.1 4408399.3 1619.1 2.95E-03 2.550 4.186 2.372 CO_0042 Concrete Haul Roads 429427.2 4408391.3 1619.9 2.95E-03 2.550 4.186 2.372 CO_0043 Concrete Haul Roads 429431.3 4408383.3 1620.9 2.95E-03 2.550 4.186 2.372 CO_0044 Concrete Haul Roads 429431.8 4408374.6 1621.2 2.95E-03 2.550 4.186 2.372 CO_0045 Concrete Haul Roads 429430.8 4408365.6 1621.0 2.95E-03 2.550 4.186 2.372 CO_0046 Concrete Haul Roads 429429.9 4408356.7 1621.2 2.95E-03 2.550 4.186 2.372 CO_0047 Concrete Haul Roads 429428.9 4408347.7 1621.5 2.95E-03 2.550 4.186 2.372 CO_0048 Concrete Haul Roads 429423.4 4408342.1 1621.1 2.95E-03 2.550 4.186 2.372 CO_0049 Concrete Haul Roads 429415.2 4408338.3 1620.5 2.95E-03 2.550 4.186 2.372 CO_0050 Concrete Haul Roads 429407.0 4408334.6 1620.0 2.95E-03 2.550 4.186 2.372 CO_0051 Concrete Haul Roads 429398.8 4408331.3 1619.4 2.95E-03 2.550 4.186 2.372 CO_0052 Concrete Haul Roads 429389.8 4408332.3 1618.5 2.95E-03 2.550 4.186 2.372 CO_0053 Concrete Haul Roads 429380.9 4408333.3 1617.6 2.95E-03 2.550 4.186 2.372 CO_0054 Concrete Haul Roads 429371.9 4408334.3 1616.7 2.95E-03 2.550 4.186 2.372 CO_0055 Concrete Haul Roads 429363.0 4408335.3 1615.9 2.95E-03 2.550 4.186 2.372 CO_0056 Concrete Haul Roads 429354.6 4408338.2 1615.1 2.95E-03 2.550 4.186 2.372 CO_0057 Concrete Haul Roads 429346.3 4408341.8 1614.3 2.95E-03 2.550 4.186 2.372 CO_0058 Concrete Haul Roads 429338.0 4408345.4 1613.6 2.95E-03 2.550 4.186 2.372 CO_0059 Concrete Haul Roads 429329.8 4408349.0 1612.9 2.95E-03 2.550 4.186 2.372 CO_0060 Concrete Haul Roads 429321.0 4408350.9 1612.1 2.95E-03 2.550 4.186 2.372 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension CO_0061 Concrete Haul Roads 429312.2 4408352.5 1611.3 2.95E-03 2.550 4.186 2.372 CO_0062 Concrete Haul Roads 429303.3 4408354.2 1610.5 2.95E-03 2.550 4.186 2.372 CO_0063 Concrete Haul Roads 429294.5 4408355.8 1609.7 2.95E-03 2.550 4.186 2.372 CO_0064 Concrete Haul Roads 429285.6 4408357.5 1609.0 2.95E-03 2.550 4.186 2.372 CO_0065 Concrete Haul Roads 429276.8 4408359.1 1608.4 2.95E-03 2.550 4.186 2.372 CO_0066 Concrete Haul Roads 429267.9 4408360.8 1607.7 2.95E-03 2.550 4.186 2.372 CO_0067 Concrete Haul Roads 429259.1 4408362.4 1607.0 2.95E-03 2.550 4.186 2.372 CO_0068 Concrete Haul Roads 429250.2 4408364.1 1606.3 2.95E-03 2.550 4.186 2.372 CO_0069 Concrete Haul Roads 429241.6 4408363.7 1605.6 9.61E-04 2.550 4.186 2.372 CO_0070 Concrete Haul Roads 429233.5 4408359.8 1604.9 9.61E-04 2.550 4.186 2.372 CO_0071 Concrete Haul Roads 429225.4 4408355.9 1604.1 9.61E-04 2.550 4.186 2.372 CO_0072 Concrete Haul Roads 429217.3 4408352.0 1603.5 9.61E-04 2.550 4.186 2.372 CO_0073 Concrete Haul Roads 429209.2 4408348.1 1602.8 9.61E-04 2.550 4.186 2.372 CO_0074 Concrete Haul Roads 429201.1 4408344.2 1602.4 9.61E-04 2.550 4.186 2.372 CO_0075 Concrete Haul Roads 429193.0 4408340.3 1601.8 9.61E-04 2.550 4.186 2.372 CO_0076 Concrete Haul Roads 429184.9 4408336.4 1601.0 9.61E-04 2.550 4.186 2.372 CO_0077 Concrete Haul Roads 429176.8 4408332.5 1600.4 9.61E-04 2.550 4.186 2.372 CO_0078 Concrete Haul Roads 429168.7 4408328.6 1599.8 9.61E-04 2.550 4.186 2.372 CO_0079 Concrete Haul Roads 429160.6 4408324.7 1599.2 9.61E-04 2.550 4.186 2.372 CO_0080 Concrete Haul Roads 429152.5 4408320.8 1598.3 9.61E-04 2.550 4.186 2.372 CO_0081 Concrete Haul Roads 429144.4 4408316.8 1597.6 9.61E-04 2.550 4.186 2.372 CO_0082 Concrete Haul Roads 429136.2 4408312.9 1596.9 9.61E-04 2.550 4.186 2.372 CO_0083 Concrete Haul Roads 429128.1 4408309.0 1596.0 9.61E-04 2.550 4.186 2.372 CO_0084 Concrete Haul Roads 429120.0 4408305.1 1595.5 9.61E-04 2.550 4.186 2.372 CO_0085 Concrete Haul Roads 429111.9 4408301.2 1594.8 9.61E-04 2.550 4.186 2.372 CO_0086 Concrete Haul Roads 429103.8 4408297.3 1594.3 9.61E-04 2.550 4.186 2.372 CO_0087 Concrete Haul Roads 429095.7 4408293.4 1593.7 9.61E-04 2.550 4.186 2.372 WP_0001 WP Haul Roads 429099.3 4408291.4 1593.8 2.36E-03 2.550 4.186 2.372 WP_0002 WP Haul Roads 429107.4 4408295.4 1594.3 2.36E-03 2.550 4.186 2.372WP_0003 WP Haul Roads 429115.5 4408299.3 1594.9 2.36E-03 2.550 4.186 2.372 WP_0004 WP Haul Roads 429123.6 4408303.3 1595.7 2.36E-03 2.550 4.186 2.372 WP_0005 WP Haul Roads 429131.6 4408307.2 1596.2 2.36E-03 2.550 4.186 2.372 WP_0006 WP Haul Roads 429139.7 4408311.2 1597.0 2.36E-03 2.550 4.186 2.372 WP_0007 WP Haul Roads 429147.8 4408315.2 1597.8 2.36E-03 2.550 4.186 2.372 WP_0008 WP Haul Roads 429155.8 4408319.2 1598.5 2.36E-03 2.550 4.186 2.372 WP_0009 WP Haul Roads 429163.8 4408323.3 1599.4 2.36E-03 2.550 4.186 2.372 WP_0010 WP Haul Roads 429171.9 4408327.4 1600.0 2.36E-03 2.550 4.186 2.372 WP_0011 WP Haul Roads 429179.9 4408331.5 1600.6 2.36E-03 2.550 4.186 2.372 WP_0012 WP Haul Roads 429187.9 4408335.6 1601.3 2.36E-03 2.550 4.186 2.372 WP_0013 WP Haul Roads 429195.9 4408339.6 1602.0 2.36E-03 2.550 4.186 2.372 WP_0014 WP Haul Roads 429203.9 4408343.7 1602.6 2.36E-03 2.550 4.186 2.372 WP_0015 WP Haul Roads 429212.0 4408347.8 1603.1 2.36E-03 2.550 4.186 2.372 WP_0016 WP Haul Roads 429220.0 4408351.9 1603.7 2.36E-03 2.550 4.186 2.372 WP_0017 WP Haul Roads 429228.0 4408356.0 1604.3 2.36E-03 2.550 4.186 2.372 WP_0018 WP Haul Roads 429236.0 4408360.0 1605.1 2.36E-03 2.550 4.186 2.372 WP_0019 WP Haul Roads 429244.1 4408364.1 1605.8 2.36E-03 2.550 4.186 2.372 WP_0020 WP Haul Roads 429252.1 4408368.2 1606.4 4.24E-03 2.550 4.186 2.372 WP_0021 WP Haul Roads 429260.1 4408372.3 1607.1 4.24E-03 2.550 4.186 2.372 WP_0022 WP Haul Roads 429268.1 4408376.4 1607.8 4.24E-03 2.550 4.186 2.372 WP_0023 WP Haul Roads 429276.1 4408380.5 1608.2 4.24E-03 2.550 4.186 2.372 WP_0024 WP Haul Roads 429284.2 4408384.5 1608.7 4.24E-03 2.550 4.186 2.372 WP_0025 WP Haul Roads 429292.2 4408388.6 1609.4 4.24E-03 2.550 4.186 2.372 WP_0026 WP Haul Roads 429300.2 4408392.7 1610.0 4.24E-03 2.550 4.186 2.372 WP_0027 WP Haul Roads 429308.2 4408396.7 1610.7 4.24E-03 2.550 4.186 2.372 WP_0028 WP Haul Roads 429316.3 4408400.8 1611.5 4.24E-03 2.550 4.186 2.372 WP_0029 WP Haul Roads 429324.3 4408404.8 1612.3 4.24E-03 2.550 4.186 2.372 WP_0030 WP Haul Roads 429332.4 4408408.9 1613.0 4.24E-03 2.550 4.186 2.372 WP_0031 WP Haul Roads 429340.4 4408412.9 1613.5 4.24E-03 2.550 4.186 2.372 WP_0032 WP Haul Roads 429348.4 4408417.0 1614.3 4.24E-03 2.550 4.186 2.372 WP_0033 WP Haul Roads 429356.5 4408421.0 1615.0 4.24E-03 2.550 4.186 2.372 WP_0034 WP Haul Roads 429364.5 4408425.1 1615.8 4.24E-03 2.550 4.186 2.372 WP_0035 WP Haul Roads 429372.6 4408429.1 1616.6 4.24E-03 2.550 4.186 2.372 WP_0036 WP Haul Roads 429380.6 4408433.2 1617.3 4.24E-03 2.550 4.186 2.372 WP_0037 WP Haul Roads 429388.6 4408437.2 1618.1 4.24E-03 2.550 4.186 2.372 WP_0038 WP Haul Roads 429396.7 4408441.2 1619.0 4.24E-03 2.550 4.186 2.372 WP_0039 WP Haul Roads 429404.7 4408445.3 1619.9 4.24E-03 2.550 4.186 2.372 WP_0040 WP Haul Roads 429413.5 4408447.2 1620.7 4.24E-03 2.550 4.186 2.372 WP_0041 WP Haul Roads 429422.3 4408449.1 1621.3 4.24E-03 2.550 4.186 2.372 WP_0042 WP Haul Roads 429431.1 4408451.0 1622.3 4.24E-03 2.550 4.186 2.372 WP_0043 WP Haul Roads 429439.9 4408452.8 1623.0 4.24E-03 2.550 4.186 2.372 WP_0044 WP Haul Roads 429448.7 4408454.7 1623.7 4.24E-03 2.550 4.186 2.372 WP_0045 WP Haul Roads 429457.5 4408456.6 1624.3 4.24E-03 2.550 4.186 2.372 WP_0046 WP Haul Roads 429466.3 4408458.5 1625.1 4.24E-03 2.550 4.186 2.372 WP_0047 WP Haul Roads 429475.1 4408460.3 1626.0 4.24E-03 2.550 4.186 2.372 WP_0048 WP Haul Roads 429483.9 4408462.2 1626.9 4.24E-03 2.550 4.186 2.372 WP_0049 WP Haul Roads 429492.7 4408464.1 1627.8 4.24E-03 2.550 4.186 2.372 WP_0050 WP Haul Roads 429501.5 4408465.9 1628.6 4.24E-03 2.550 4.186 2.372 WP_0051 WP Haul Roads 429510.3 4408467.8 1629.4 4.24E-03 2.550 4.186 2.372WP_0052 WP Haul Roads 429519.1 4408469.7 1630.1 4.24E-03 2.550 4.186 2.372 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension WP_0053 WP Haul Roads 429527.9 4408470.8 1630.8 4.24E-03 2.550 4.186 2.372 WP_0054 WP Haul Roads 429536.8 4408469.1 1631.5 4.24E-03 2.550 4.186 2.372 WP_0055 WP Haul Roads 429545.6 4408467.4 1632.2 4.24E-03 2.550 4.186 2.372 WP_0056 WP Haul Roads 429554.4 4408465.7 1632.9 4.24E-03 2.550 4.186 2.372 WP_0057 WP Haul Roads 429563.3 4408463.9 1633.5 4.24E-03 2.550 4.186 2.372 WP_0058 WP Haul Roads 429572.1 4408462.2 1634.3 4.24E-03 2.550 4.186 2.372 WP_0059 WP Haul Roads 429580.9 4408460.5 1635.0 4.24E-03 2.550 4.186 2.372 WP_0060 WP Haul Roads 429589.8 4408458.8 1635.6 4.24E-03 2.550 4.186 2.372 WP_0061 WP Haul Roads 429598.6 4408457.0 1636.1 4.24E-03 2.550 4.186 2.372 WP_0062 WP Haul Roads 429607.4 4408455.3 1637.0 4.24E-03 2.550 4.186 2.372 WP_0063 WP Haul Roads 429616.3 4408453.6 1637.7 4.24E-03 2.550 4.186 2.372 WP_0064 WP Haul Roads 429619.8 4408448.1 1637.7 4.24E-03 2.550 4.186 2.372 WP_0065 WP Haul Roads 429618.6 4408439.1 1636.9 4.24E-03 2.550 4.186 2.372 WP_0066 WP Haul Roads 429617.5 4408430.2 1635.8 4.24E-03 2.550 4.186 2.372 WP_0067 WP Haul Roads 429616.3 4408421.3 1636.1 4.24E-03 2.550 4.186 2.372 WP_0068 WP Haul Roads 429615.1 4408412.4 1636.8 4.24E-03 2.550 4.186 2.372 WP_0069 WP Haul Roads 429607.7 4408409.7 1636.1 4.24E-03 2.550 4.186 2.372 WP_0070 WP Haul Roads 429598.8 4408408.5 1635.3 4.24E-03 2.550 4.186 2.372 WP_0071 WP Haul Roads 429589.9 4408407.3 1634.5 4.24E-03 2.550 4.186 2.372 WP_0072 WP Haul Roads 429580.9 4408406.1 1633.7 4.24E-03 2.550 4.186 2.372 WP_0073 WP Haul Roads 429572.0 4408405.0 1632.7 4.24E-03 2.550 4.186 2.372 WP_0074 WP Haul Roads 429563.1 4408403.8 1631.6 4.24E-03 2.550 4.186 2.372 WP_0075 WP Haul Roads 429554.2 4408402.6 1630.8 4.24E-03 2.550 4.186 2.372 WP_0076 WP Haul Roads 429545.3 4408401.4 1629.6 4.24E-03 2.550 4.186 2.372 WP_0077 WP Haul Roads 429536.3 4408400.2 1628.5 4.24E-03 2.550 4.186 2.372 WP_0078 WP Haul Roads 429527.4 4408399.1 1627.5 4.24E-03 2.550 4.186 2.372 WP_0079 WP Haul Roads 429518.5 4408397.9 1627.3 4.24E-03 2.550 4.186 2.372 WP_0080 WP Haul Roads 429509.7 4408397.9 1626.5 4.24E-03 2.550 4.186 2.372 WP_0081 WP Haul Roads 429501.6 4408401.6 1625.6 4.24E-03 2.550 4.186 2.372WP_0082 WP Haul Roads 429493.4 4408405.3 1624.8 4.24E-03 2.550 4.186 2.372 WP_0083 WP Haul Roads 429485.2 4408409.1 1624.4 4.24E-03 2.550 4.186 2.372 WP_0084 WP Haul Roads 429477 4408412.8 1624.1 4.24E-03 2.550 4.186 2.372 WP_0085 WP Haul Roads 429468.8 4408416.5 1623.7 4.24E-03 2.550 4.186 2.372 WP_0086 WP Haul Roads 429460.6 4408420.3 1623.1 4.24E-03 2.550 4.186 2.372 WP_0087 WP Haul Roads 429452.4 4408424 1622.4 4.24E-03 2.550 4.186 2.372 WP_0088 WP Haul Roads 429444.2 4408427.7 1622.0 4.24E-03 2.550 4.186 2.372 WP_0089 WP Haul Roads 429436 4408431.4 1621.6 4.24E-03 2.550 4.186 2.372 WP_0090 WP Haul Roads 429427.8 4408435.2 1621.2 4.24E-03 2.550 4.186 2.372 WP_0091 WP Haul Roads 429419.6 4408438.9 1620.7 4.24E-03 2.550 4.186 2.372 WP_0092 WP Haul Roads 429411.5 4408442.6 1620.3 4.24E-03 2.550 4.186 2.372 WP_0093 WP Haul Roads 429403.3 4408444.8 1619.7 4.24E-03 2.550 4.186 2.372 WP_0094 WP Haul Roads 429395.3 4408440.8 1618.9 4.24E-03 2.550 4.186 2.372 WP_0095 WP Haul Roads 429387.2 4408436.7 1618.0 4.24E-03 2.550 4.186 2.372 WP_0096 WP Haul Roads 429379.2 4408432.7 1617.2 4.24E-03 2.550 4.186 2.372 WP_0097 WP Haul Roads 429371.2 4408428.6 1616.4 4.24E-03 2.550 4.186 2.372 WP_0098 WP Haul Roads 429363.1 4408424.6 1615.6 4.24E-03 2.550 4.186 2.372 WP_0099 WP Haul Roads 429355.1 4408420.5 1614.9 4.24E-03 2.550 4.186 2.372 WP_0100 WP Haul Roads 429347.1 4408416.4 1614.2 4.24E-03 2.550 4.186 2.372 WP_0101 WP Haul Roads 429339 4408412.4 1613.4 4.24E-03 2.550 4.186 2.372 WP_0102 WP Haul Roads 429331 4408408.3 1612.9 4.24E-03 2.550 4.186 2.372 WP_0103 WP Haul Roads 429322.9 4408404.3 1612.2 4.24E-03 2.550 4.186 2.372 WP_0104 WP Haul Roads 429314.9 4408400.2 1611.4 4.24E-03 2.550 4.186 2.372 WP_0105 WP Haul Roads 429306.9 4408396.2 1610.6 4.24E-03 2.550 4.186 2.372 WP_0106 WP Haul Roads 429298.9 4408392.1 1609.9 4.24E-03 2.550 4.186 2.372 WP_0107 WP Haul Roads 429290.9 4408387.9 1609.3 4.24E-03 2.550 4.186 2.372 WP_0108 WP Haul Roads 429282.9 4408383.7 1608.6 4.24E-03 2.550 4.186 2.372 WP_0109 WP Haul Roads 429274.9 4408379.6 1608.2 4.24E-03 2.550 4.186 2.372 WP_0110 WP Haul Roads 429267 4408375.4 1607.7 4.24E-03 2.550 4.186 2.372 WP_0111 WP Haul Roads 429259 4408371.2 1607.0 4.24E-03 2.550 4.186 2.372 WP_0112 WP Haul Roads 429251 4408367.1 1606.4 4.24E-03 2.550 4.186 2.372 WP_0113 WP Haul Roads 429242.9 4408363.1 1605.7 2.36E-03 2.550 4.186 2.372 WP_0114 WP Haul Roads 429234.8 4408359.1 1604.9 2.36E-03 2.550 4.186 2.372 WP_0115 WP Haul Roads 429226.8 4408355.1 1604.2 2.36E-03 2.550 4.186 2.372WP_0116 WP Haul Roads 429218.7 4408351.1 1603.6 2.36E-03 2.550 4.186 2.372WP_0117 WP Haul Roads 429210.7 4408347.1 1603.0 2.36E-03 2.550 4.186 2.372WP_0118 WP Haul Roads 429202.6 4408343.1 1602.5 2.36E-03 2.550 4.186 2.372WP_0119 WP Haul Roads 429194.6 4408339.1 1601.9 2.36E-03 2.550 4.186 2.372WP_0120 WP Haul Roads 429186.5 4408335.1 1601.2 2.36E-03 2.550 4.186 2.372WP_0121 WP Haul Roads 429178.5 4408331 1600.5 2.36E-03 2.550 4.186 2.372WP_0122 WP Haul Roads 429170.4 4408327 1599.9 2.36E-03 2.550 4.186 2.372WP_0123 WP Haul Roads 429162.4 4408323 1599.2 2.36E-03 2.550 4.186 2.372WP_0124 WP Haul Roads 429154.3 4408319 1598.4 2.36E-03 2.550 4.186 2.372WP_0125 WP Haul Roads 429146.3 4408314.9 1597.6 2.36E-03 2.550 4.186 2.372WP_0126 WP Haul Roads 429138.2 4408310.9 1596.9 2.36E-03 2.550 4.186 2.372WP_0127 WP Haul Roads 429130.2 4408306.9 1596.1 2.36E-03 2.550 4.186 2.372WP_0128 WP Haul Roads 429122.1 4408302.9 1595.6 2.36E-03 2.550 4.186 2.372WP_0129 WP Haul Roads 429114.1 4408298.8 1594.8 2.36E-03 2.550 4.186 2.372WP_0130 WP Haul Roads 429106 4408294.8 1594.2 2.36E-03 2.550 4.186 2.372WP_0131 WP Haul Roads 429098 4408290.8 1593.7 2.36E-03 2.550 4.186 2.372 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension HM_0001 HMA Haulroads 429097.6 4408293.3 1593.8 1.20E-03 2.55 4.186 2.372 HM_0002 HMA Haulroads 429105.7 4408297.1 1594.3 1.20E-03 2.55 4.186 2.372 HM_0003 HMA Haulroads 429113.9 4408300.9 1594.9 1.20E-03 2.55 4.186 2.372 HM_0004 HMA Haulroads 429122 4408304.7 1595.7 1.20E-03 2.55 4.186 2.372 HM_0005 HMA Haulroads 429130.2 4408308.5 1596.1 1.20E-03 2.55 4.186 2.372 HM_0006 HMA Haulroads 429138.4 4408312.3 1597 1.20E-03 2.55 4.186 2.372 HM_0007 HMA Haulroads 429144.5 4408317.3 1597.6 1.20E-03 2.55 4.186 2.372 HM_0008 HMA Haulroads 429143.6 4408326.3 1597.7 1.20E-03 2.55 4.186 2.372 HM_0009 HMA Haulroads 429142.8 4408335.2 1597.9 1.20E-03 2.55 4.186 2.372 HM_0010 HMA Haulroads 429141.9 4408344.2 1597.9 1.20E-03 2.55 4.186 2.372 HM_0011 HMA Haulroads 429141.1 4408353.1 1597.7 1.20E-03 2.55 4.186 2.372 HM_0012 HMA Haulroads 429140.2 4408362.1 1597.4 1.20E-03 2.55 4.186 2.372 HM_0013 HMA Haulroads 429139.4 4408371.1 1597.4 1.20E-03 2.55 4.186 2.372 HM_0014 HMA Haulroads 429138.5 4408380 1597.6 1.20E-03 2.55 4.186 2.372HM_0015 HMA Haulroads 429137.7 4408389 1597.7 1.20E-03 2.55 4.186 2.372 HM_0016 HMA Haulroads 429136.8 4408397.9 1597.8 1.20E-03 2.55 4.186 2.372 HM_0017 HMA Haulroads 429136 4408406.9 1597.6 1.20E-03 2.55 4.186 2.372 HM_0018 HMA Haulroads 429135.1 4408415.9 1597.2 1.20E-03 2.55 4.186 2.372 HM_0019 HMA Haulroads 429135.5 4408424.8 1597 1.20E-03 2.55 4.186 2.372 HM_0020 HMA Haulroads 429136 4408433.8 1597.3 1.20E-03 2.55 4.186 2.372 HM_0021 HMA Haulroads 429136.6 4408442.8 1597.9 1.20E-03 2.55 4.186 2.372 HM_0022 HMA Haulroads 429137.1 4408451.8 1598.2 1.20E-03 2.55 4.186 2.372 HM_0023 HMA Haulroads 429137.6 4408460.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0024 HMA Haulroads 429138.1 4408469.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0025 HMA Haulroads 429138.6 4408478.8 1598.4 1.20E-03 2.55 4.186 2.372 HM_0026 HMA Haulroads 429139.1 4408487.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0027 HMA Haulroads 429139.7 4408496.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0028 HMA Haulroads 429140.2 4408505.7 1598.6 1.20E-03 2.55 4.186 2.372 HM_0029 HMA Haulroads 429140.7 4408514.7 1598.8 1.20E-03 2.55 4.186 2.372 HM_0030 HMA Haulroads 429141.2 4408523.7 1598.6 1.20E-03 2.55 4.186 2.372 HM_0031 HMA Haulroads 429141.5 4408532.7 1598.4 1.20E-03 2.55 4.186 2.372 HM_0032 HMA Haulroads 429140.8 4408541.6 1599 1.20E-03 2.55 4.186 2.372 HM_0033 HMA Haulroads 429140.1 4408550.6 1599.8 1.20E-03 2.55 4.186 2.372 HM_0034 HMA Haulroads 429139.4 4408559.6 1599.8 1.20E-03 2.55 4.186 2.372 HM_0035 HMA Haulroads 429138.7 4408568.6 1600.1 1.20E-03 2.55 4.186 2.372 HM_0036 HMA Haulroads 429138 4408577.5 1600.9 1.20E-03 2.55 4.186 2.372 HM_0037 HMA Haulroads 429137.3 4408586.5 1601.2 1.20E-03 2.55 4.186 2.372 HM_0038 HMA Haulroads 429136.6 4408595.5 1601.4 1.20E-03 2.55 4.186 2.372 HM_0039 HMA Haulroads 429135.9 4408604.4 1601.5 1.20E-03 2.55 4.186 2.372 HM_0040 HMA Haulroads 429135.2 4408613.4 1601.9 1.20E-03 2.55 4.186 2.372 HM_0041 HMA Haulroads 429134.4 4408622.4 1602.1 1.20E-03 2.55 4.186 2.372 HM_0042 HMA Haulroads 429133.9 4408631.3 1602.3 1.20E-03 2.55 4.186 2.372 HM_0043 HMA Haulroads 429139.3 4408638.5 1602.9 1.20E-03 2.55 4.186 2.372 HM_0044 HMA Haulroads 429144.8 4408645.6 1603.8 1.20E-03 2.55 4.186 2.372 HM_0045 HMA Haulroads 429150.2 4408652.8 1604.6 1.20E-03 2.55 4.186 2.372 HM_0046 HMA Haulroads 429157.4 4408656.3 1605.2 1.20E-03 2.55 4.186 2.372 HM_0047 HMA Haulroads 429166.4 4408656.1 1605.9 1.20E-03 2.55 4.186 2.372 HM_0048 HMA Haulroads 429175.4 4408655.8 1606.7 1.20E-03 2.55 4.186 2.372 HM_0049 HMA Haulroads 429184.4 4408655.6 1607.2 1.20E-03 2.55 4.186 2.372 HM_0050 HMA Haulroads 429191.9 4408651.6 1607.7 1.20E-03 2.55 4.186 2.372 HM_0051 HMA Haulroads 429198.6 4408645.6 1607.8 1.20E-03 2.55 4.186 2.372 HM_0052 HMA Haulroads 429205.3 4408639.6 1607.7 1.20E-03 2.55 4.186 2.372 HM_0053 HMA Haulroads 429212 4408633.5 1608 1.20E-03 2.55 4.186 2.372 HM_0054 HMA Haulroads 429219.9 4408629.3 1608.5 1.20E-03 2.55 4.186 2.372 HM_0055 HMA Haulroads 429228 4408625.3 1608.8 1.20E-03 2.55 4.186 2.372 HM_0056 HMA Haulroads 429236 4408621.3 1609 1.20E-03 2.55 4.186 2.372 HM_0057 HMA Haulroads 429244.1 4408617.3 1609.5 1.20E-03 2.55 4.186 2.372 HM_0058 HMA Haulroads 429252.1 4408613.1 1609.8 1.20E-03 2.55 4.186 2.372 HM_0059 HMA Haulroads 429259.6 4408608.2 1610 1.20E-03 2.55 4.186 2.372 HM_0060 HMA Haulroads 429267.2 4408603.4 1610.5 1.20E-03 2.55 4.186 2.372 HM_0061 HMA Haulroads 429274.8 4408598.5 1611.5 1.20E-03 2.55 4.186 2.372 HM_0062 HMA Haulroads 429282.4 4408593.6 1612.2 1.20E-03 2.55 4.186 2.372 HM_0063 HMA Haulroads 429289.7 4408588.4 1612.8 1.20E-03 2.55 4.186 2.372 HM_0064 HMA Haulroads 429296.7 4408582.9 1613.4 1.20E-03 2.55 4.186 2.372HM_0065 HMA Haulroads 429301.2 4408576.1 1613.8 1.20E-03 2.55 4.186 2.372 HM_0066 HMA Haulroads 429300.7 4408567.1 1613.6 1.20E-03 2.55 4.186 2.372 HM_0067 HMA Haulroads 429300.2 4408558.1 1613.4 1.20E-03 2.55 4.186 2.372 HM_0068 HMA Haulroads 429299.7 4408549.2 1613.2 1.20E-03 2.55 4.186 2.372 HM_0069 HMA Haulroads 429299.2 4408540.2 1612.9 1.20E-03 2.55 4.186 2.372 HM_0070 HMA Haulroads 429298.7 4408531.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0071 HMA Haulroads 429298.1 4408522.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0072 HMA Haulroads 429297.6 4408513.2 1612.8 1.20E-03 2.55 4.186 2.372 HM_0073 HMA Haulroads 429297.1 4408504.2 1612.5 1.20E-03 2.55 4.186 2.372 HM_0074 HMA Haulroads 429296.5 4408495.3 1612 1.20E-03 2.55 4.186 2.372 HM_0075 HMA Haulroads 429295.4 4408486.3 1611.6 1.20E-03 2.55 4.186 2.372 HM_0076 HMA Haulroads 429294.2 4408477.4 1611.4 1.20E-03 2.55 4.186 2.372 HM_0077 HMA Haulroads 429293.1 4408468.5 1611.2 1.20E-03 2.55 4.186 2.372 HM_0078 HMA Haulroads 429292 4408459.5 1611.3 1.20E-03 2.55 4.186 2.372 HM_0079 HMA Haulroads 429290.9 4408450.6 1611.3 1.20E-03 2.55 4.186 2.372 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension HM_0080 HMA Haulroads 429289.7 4408441.7 1611 1.20E-03 2.55 4.186 2.372 HM_0081 HMA Haulroads 429288.6 4408432.7 1610.4 1.20E-03 2.55 4.186 2.372 HM_0082 HMA Haulroads 429287.5 4408423.8 1609.4 1.20E-03 2.55 4.186 2.372 HM_0083 HMA Haulroads 429286.4 4408414.9 1609 1.20E-03 2.55 4.186 2.372 HM_0084 HMA Haulroads 429285.3 4408406 1609.2 1.20E-03 2.55 4.186 2.372 HM_0085 HMA Haulroads 429284.1 4408397 1608.9 1.20E-03 2.55 4.186 2.372 HM_0086 HMA Haulroads 429276.9 4408391.7 1608.1 1.20E-03 2.55 4.186 2.372 HM_0087 HMA Haulroads 429269.7 4408386.3 1607.6 1.20E-03 2.55 4.186 2.372 HM_0088 HMA Haulroads 429262.5 4408380.9 1607.4 1.20E-03 2.55 4.186 2.372 HM_0089 HMA Haulroads 429255.2 4408375.5 1606.9 1.20E-03 2.55 4.186 2.372 HM_0090 HMA Haulroads 429248 4408370.1 1606.2 1.20E-03 2.55 4.186 2.372 HM_0091 HMA Haulroads 429240.8 4408364.7 1605.6 1.20E-03 2.55 4.186 2.372 HM_0092 HMA Haulroads 429233.6 4408359.4 1604.9 1.20E-03 2.55 4.186 2.372 HM_0093 HMA Haulroads 429225.8 4408355 1604.1 1.20E-03 2.55 4.186 2.372HM_0094 HMA Haulroads 429217.7 4408351.1 1603.5 1.20E-03 2.55 4.186 2.372 HM_0095 HMA Haulroads 429209.6 4408347.2 1602.9 1.20E-03 2.55 4.186 2.372 HM_0096 HMA Haulroads 429201.5 4408343.3 1602.4 1.20E-03 2.55 4.186 2.372 HM_0097 HMA Haulroads 429193.4 4408339.4 1601.8 1.20E-03 2.55 4.186 2.372 HM_0098 HMA Haulroads 429185.2 4408335.5 1601 1.20E-03 2.55 4.186 2.372 HM_0099 HMA Haulroads 429177.1 4408331.6 1600.4 1.20E-03 2.55 4.186 2.372 HM_0100 HMA Haulroads 429169 4408327.7 1599.8 1.20E-03 2.55 4.186 2.372 HM_0101 HMA Haulroads 429160.9 4408323.8 1599.2 1.20E-03 2.55 4.186 2.372 HM_0102 HMA Haulroads 429152.8 4408319.9 1598.3 1.20E-03 2.55 4.186 2.372 HM_0103 HMA Haulroads 429144.7 4408316 1597.5 1.20E-03 2.55 4.186 2.372 HM_0104 HMA Haulroads 429136.6 4408312.1 1596.9 1.20E-03 2.55 4.186 2.372 HM_0105 HMA Haulroads 429128.5 4408308.2 1596 1.20E-03 2.55 4.186 2.372 HM_0106 HMA Haulroads 429120.3 4408304.3 1595.5 1.20E-03 2.55 4.186 2.372 HM_0107 HMA Haulroads 429112.2 4408300.4 1594.8 1.20E-03 2.55 4.186 2.372 HM_0108 HMA Haulroads 429104.1 4408296.5 1594.2 1.20E-03 2.55 4.186 2.372 HM_0109 HMA Haulroads 429096 4408292.6 1593.6 1.20E-03 2.55 4.186 2.372 AG_0001 Aggregate Haulroads 429098.3 4408294.5 1593.96 2.36E-03 2.55 4.186047 2.372093 AG_0002 Aggregate Haulroads 429106.4 4408298.5 1594.38 2.36E-03 2.55 4.186047 2.372093 AG_0003 Aggregate Haulroads 429114.5 4408302.5 1594.96 2.36E-03 2.55 4.186047 2.372093 AG_0004 Aggregate Haulroads 429122.5 4408306.5 1595.78 2.36E-03 2.55 4.186047 2.372093 AG_0005 Aggregate Haulroads 429130.6 4408310.4 1596.24 2.36E-03 2.55 4.186047 2.372093 AG_0006 Aggregate Haulroads 429138.7 4408314.4 1597.11 2.36E-03 2.55 4.186047 2.372093 AG_0007 Aggregate Haulroads 429146.7 4408318.4 1597.76 2.36E-03 2.55 4.186047 2.372093 AG_0008 Aggregate Haulroads 429154.8 4408322.4 1598.5 2.36E-03 2.55 4.186047 2.372093 AG_0009 Aggregate Haulroads 429162.9 4408326.4 1599.44 2.36E-03 2.55 4.186047 2.372093 AG_0010 Aggregate Haulroads 429170.9 4408330.4 1599.92 2.36E-03 2.55 4.186047 2.372093 AG_0011 Aggregate Haulroads 429179 4408334.4 1600.57 2.36E-03 2.55 4.186047 2.372093 AG_0012 Aggregate Haulroads 429187.1 4408338.4 1601.25 2.36E-03 2.55 4.186047 2.372093 AG_0013 Aggregate Haulroads 429195.2 4408342.3 1601.94 2.36E-03 2.55 4.186047 2.372093 AG_0014 Aggregate Haulroads 429203.2 4408346.3 1602.6 2.36E-03 2.55 4.186047 2.372093 AG_0015 Aggregate Haulroads 429211.3 4408350.3 1603.04 2.36E-03 2.55 4.186047 2.372093 AG_0016 Aggregate Haulroads 429219.4 4408354.3 1603.69 2.36E-03 2.55 4.186047 2.372093 AG_0017 Aggregate Haulroads 429227.4 4408358.3 1604.26 2.36E-03 2.55 4.186047 2.372093 AG_0018 Aggregate Haulroads 429235.5 4408362.3 1605.07 2.36E-03 2.55 4.186047 2.372093 AG_0019 Aggregate Haulroads 429243.6 4408366.3 1605.81 2.36E-03 2.55 4.186047 2.372093 AG_0020 Aggregate Haulroads 429251.6 4408370.3 1606.46 7.27E-03 2.55 4.186047 2.372093 AG_0021 Aggregate Haulroads 429259.7 4408374.3 1607.15 7.27E-03 2.55 4.186047 2.372093 AG_0022 Aggregate Haulroads 429267.8 4408378.2 1607.75 7.27E-03 2.55 4.186047 2.372093 AG_0023 Aggregate Haulroads 429275.8 4408382.2 1608.12 7.27E-03 2.55 4.186047 2.372093 AG_0024 Aggregate Haulroads 429283.9 4408386.2 1608.69 7.27E-03 2.55 4.186047 2.372093 AG_0025 Aggregate Haulroads 429292 4408390.2 1609.37 7.27E-03 2.55 4.186047 2.372093 AG_0026 Aggregate Haulroads 429300 4408394.2 1610.05 7.27E-03 2.55 4.186047 2.372093 AG_0027 Aggregate Haulroads 429308.1 4408398.2 1610.77 7.27E-03 2.55 4.186047 2.372093 AG_0028 Aggregate Haulroads 429316.2 4408402.2 1611.52 7.27E-03 2.55 4.186047 2.372093 AG_0029 Aggregate Haulroads 429324.2 4408406.2 1612.32 7.27E-03 2.55 4.186047 2.372093 AG_0030 Aggregate Haulroads 429332.3 4408410.1 1612.92 7.27E-03 2.55 4.186047 2.372093 AG_0031 Aggregate Haulroads 429340.4 4408414.1 1613.49 7.27E-03 2.55 4.186047 2.372093 AG_0032 Aggregate Haulroads 429348.4 4408418.1 1614.31 7.27E-03 2.55 4.186047 2.372093 AG_0033 Aggregate Haulroads 429356.5 4408422.1 1615.06 7.27E-03 2.55 4.186047 2.372093 AG_0034 Aggregate Haulroads 429364.6 4408426.1 1615.82 7.27E-03 2.55 4.186047 2.372093 AG_0035 Aggregate Haulroads 429372.7 4408430.1 1616.59 7.27E-03 2.55 4.186047 2.372093 AG_0036 Aggregate Haulroads 429380.7 4408434.1 1617.31 7.27E-03 2.55 4.186047 2.372093 AG_0037 Aggregate Haulroads 429388.8 4408438.1 1618.18 7.27E-03 2.55 4.186047 2.372093 AG_0038 Aggregate Haulroads 429396.9 4408442 1619.07 7.27E-03 2.55 4.186047 2.372093 AG_0039 Aggregate Haulroads 429404.9 4408446 1619.92 7.27E-03 2.55 4.186047 2.372093 AG_0040 Aggregate Haulroads 429413 4408450 1620.8 7.27E-03 2.55 4.186047 2.372093 AG_0041 Aggregate Haulroads 429421.1 4408454 1621.51 7.27E-03 2.55 4.186047 2.372093 AG_0042 Aggregate Haulroads 429429.2 4408457.9 1622.3 7.27E-03 2.55 4.186047 2.372093 AG_0043 Aggregate Haulroads 429437.2 4408461.9 1623.15 7.27E-03 2.55 4.186047 2.372093 AG_0044 Aggregate Haulroads 429445.3 4408465.9 1623.95 7.27E-03 2.55 4.186047 2.372093 AG_0045 Aggregate Haulroads 429453.4 4408469.8 1624.78 7.27E-03 2.55 4.186047 2.372093 AG_0046 Aggregate Haulroads 429461.5 4408473.8 1625.45 7.27E-03 2.55 4.186047 2.372093 AG_0047 Aggregate Haulroads 429469.6 4408477.7 1626.19 7.27E-03 2.55 4.186047 2.372093 AG_0048 Aggregate Haulroads 429477.7 4408481.7 1626.92 7.27E-03 2.55 4.186047 2.372093 AG_0049 Aggregate Haulroads 429485.7 4408485.7 1627.64 7.27E-03 2.55 4.186047 2.372093 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension AG_0050 Aggregate Haulroads 429493.8 4408489.6 1628.51 7.27E-03 2.55 4.186047 2.372093 AG_0051 Aggregate Haulroads 429501.9 4408493.6 1629.34 7.27E-03 2.55 4.186047 2.372093 AG_0052 Aggregate Haulroads 429510 4408497.5 1630.13 7.27E-03 2.55 4.186047 2.372093 AG_0053 Aggregate Haulroads 429518.1 4408501.5 1630.95 7.27E-03 2.55 4.186047 2.372093 AG_0054 Aggregate Haulroads 429526.1 4408505.5 1631.72 7.27E-03 2.55 4.186047 2.372093 AG_0055 Aggregate Haulroads 429534.2 4408509.5 1632.49 7.27E-03 2.55 4.186047 2.372093 AG_0056 Aggregate Haulroads 429542.2 4408513.6 1633.15 7.27E-03 2.55 4.186047 2.372093 AG_0057 Aggregate Haulroads 429550.2 4408517.8 1634.09 7.27E-03 2.55 4.186047 2.372093 AG_0058 Aggregate Haulroads 429558.2 4408521.9 1635.08 7.27E-03 2.55 4.186047 2.372093 AG_0059 Aggregate Haulroads 429566.2 4408526 1636.05 7.27E-03 2.55 4.186047 2.372093 AG_0060 Aggregate Haulroads 429574.2 4408530.2 1636.91 7.27E-03 2.55 4.186047 2.372093 AG_0061 Aggregate Haulroads 429582.1 4408534.3 1637.68 7.27E-03 2.55 4.186047 2.372093 AG_0062 Aggregate Haulroads 429590.1 4408538.5 1638.65 7.27E-03 2.55 4.186047 2.372093 AG_0063 Aggregate Haulroads 429598.1 4408542.6 1639.44 7.27E-03 2.55 4.186047 2.372093 AG_0064 Aggregate Haulroads 429606.1 4408546.7 1640.24 7.27E-03 2.55 4.186047 2.372093 AG_0065 Aggregate Haulroads 429614 4408551 1641.08 7.27E-03 2.55 4.186047 2.372093 AG_0066 Aggregate Haulroads 429622 4408555.3 1641.85 7.27E-03 2.55 4.186047 2.372093 AG_0067 Aggregate Haulroads 429629.9 4408559.6 1642.46 7.27E-03 2.55 4.186047 2.372093 AG_0068 Aggregate Haulroads 429637.8 4408563.8 1643.79 7.27E-03 2.55 4.186047 2.372093 AG_0069 Aggregate Haulroads 429645.7 4408568.1 1644.65 7.27E-03 2.55 4.186047 2.372093 AG_0070 Aggregate Haulroads 429653.6 4408572.4 1645.35 7.27E-03 2.55 4.186047 2.372093 AG_0071 Aggregate Haulroads 429661.6 4408576.7 1646.43 7.27E-03 2.55 4.186047 2.372093 AG_0072 Aggregate Haulroads 429669.5 4408580.9 1647.56 7.27E-03 2.55 4.186047 2.372093 AG_0073 Aggregate Haulroads 429677.4 4408585.2 1648.98 7.27E-03 2.55 4.186047 2.372093 AG_0074 Aggregate Haulroads 429685.3 4408589.5 1650.55 7.27E-03 2.55 4.186047 2.372093 AG_0075 Aggregate Haulroads 429693.2 4408593.8 1652.05 7.27E-03 2.55 4.186047 2.372093 AG_0076 Aggregate Haulroads 429701.2 4408598 1653.34 7.27E-03 2.55 4.186047 2.372093 AG_0077 Aggregate Haulroads 429709.1 4408602.3 1654.04 7.27E-03 2.55 4.186047 2.372093 AG_0078 Aggregate Haulroads 429717 4408606.6 1656.02 7.27E-03 2.55 4.186047 2.372093 AG_0079 Aggregate Haulroads 429725.2 4408610.3 1660.97 7.27E-03 2.55 4.186047 2.372093 AG_0080 Aggregate Haulroads 429733.7 4408613.3 1663.77 7.27E-03 2.55 4.186047 2.372093 AG_0081 Aggregate Haulroads 429742.2 4408616.2 1662.99 7.27E-03 2.55 4.186047 2.372093 AG_0082 Aggregate Haulroads 429750.7 4408619.2 1661.15 7.27E-03 2.55 4.186047 2.372093 AG_0083 Aggregate Haulroads 429759.2 4408622.2 1658.79 7.27E-03 2.55 4.186047 2.372093 AG_0084 Aggregate Haulroads 429767.6 4408625.1 1657.86 7.27E-03 2.55 4.186047 2.372093 AG_0085 Aggregate Haulroads 429776.5 4408624.9 1658.03 7.27E-03 2.55 4.186047 2.372093 AG_0086 Aggregate Haulroads 429785.4 4408623.7 1658.97 7.27E-03 2.55 4.186047 2.372093 AG_0087 Aggregate Haulroads 429794.3 4408622.4 1661.88 7.27E-03 2.55 4.186047 2.372093 AG_0088 Aggregate Haulroads 429803.2 4408621.1 1663.31 7.27E-03 2.55 4.186047 2.372093 AG_0089 Aggregate Haulroads 429812.1 4408619.8 1664.21 7.27E-03 2.55 4.186047 2.372093 AG_0090 Aggregate Haulroads 429820.2 4408616.9 1665.04 7.27E-03 2.55 4.186047 2.372093 AG_0091 Aggregate Haulroads 429827 4408610.9 1665.56 7.27E-03 2.55 4.186047 2.372093 AG_0092 Aggregate Haulroads 429833.8 4408605 1665.99 7.27E-03 2.55 4.186047 2.372093 AG_0093 Aggregate Haulroads 429840.5 4408599.1 1666.16 7.27E-03 2.55 4.186047 2.372093 AG_0094 Aggregate Haulroads 429840.6 4408590.1 1665.85 7.27E-03 2.55 4.186047 2.372093 AG_0095 Aggregate Haulroads 429840.7 4408581.1 1665.25 7.27E-03 2.55 4.186047 2.372093 AG_0096 Aggregate Haulroads 429840.8 4408572.1 1664.25 7.27E-03 2.55 4.186047 2.372093 AG_0097 Aggregate Haulroads 429835.4 4408565.3 1663.28 7.27E-03 2.55 4.186047 2.372093 AG_0098 Aggregate Haulroads 429829 4408559.1 1663.07 7.27E-03 2.55 4.186047 2.372093 AG_0099 Aggregate Haulroads 429821.3 4408554.8 1662.11 7.27E-03 2.55 4.186047 2.372093 AG_0100 Aggregate Haulroads 429812.9 4408551.4 1660.71 7.27E-03 2.55 4.186047 2.372093 AG_0101 Aggregate Haulroads 429804.5 4408548.1 1659.75 7.27E-03 2.55 4.186047 2.372093 AG_0102 Aggregate Haulroads 429796.1 4408544.8 1659.08 7.27E-03 2.55 4.186047 2.372093 AG_0103 Aggregate Haulroads 429787.6 4408542.6 1658.82 7.27E-03 2.55 4.186047 2.372093 AG_0104 Aggregate Haulroads 429778.7 4408543.5 1658.66 7.27E-03 2.55 4.186047 2.372093 AG_0105 Aggregate Haulroads 429769.7 4408544.4 1657.4 7.27E-03 2.55 4.186047 2.372093 AG_0106 Aggregate Haulroads 429760.8 4408545.2 1655.98 7.27E-03 2.55 4.186047 2.372093 AG_0107 Aggregate Haulroads 429751.8 4408546.1 1656.55 7.27E-03 2.55 4.186047 2.372093 AG_0108 Aggregate Haulroads 429742.8 4408547 1657.18 7.27E-03 2.55 4.186047 2.372093 AG_0109 Aggregate Haulroads 429733.9 4408548.3 1656.65 7.27E-03 2.55 4.186047 2.372093 AG_0110 Aggregate Haulroads 429725 4408549.5 1654.22 7.27E-03 2.55 4.186047 2.372093 AG_0111 Aggregate Haulroads 429716.1 4408550.8 1653.37 7.27E-03 2.55 4.186047 2.372093 AG_0112 Aggregate Haulroads 429707.2 4408552.1 1652.38 7.27E-03 2.55 4.186047 2.372093 AG_0113 Aggregate Haulroads 429698.3 4408553.4 1650.99 7.27E-03 2.55 4.186047 2.372093 AG_0114 Aggregate Haulroads 429689.4 4408554.7 1649.45 7.27E-03 2.55 4.186047 2.372093 AG_0115 Aggregate Haulroads 429680.5 4408555.9 1648.13 7.27E-03 2.55 4.186047 2.372093 AG_0116 Aggregate Haulroads 429671.6 4408557.2 1646.92 7.27E-03 2.55 4.186047 2.372093 AG_0117 Aggregate Haulroads 429662.7 4408558.5 1645.82 7.27E-03 2.55 4.186047 2.372093 AG_0118 Aggregate Haulroads 429653.8 4408559.8 1644.84 7.27E-03 2.55 4.186047 2.372093 AG_0119 Aggregate Haulroads 429644.8 4408561.1 1644.01 7.27E-03 2.55 4.186047 2.372093 AG_0120 Aggregate Haulroads 429636 4408562.1 1643.39 7.27E-03 2.55 4.186047 2.372093 AG_0121 Aggregate Haulroads 429627.9 4408558.1 1642.31 7.27E-03 2.55 4.186047 2.372093 AG_0122 Aggregate Haulroads 429619.9 4408554 1641.66 7.27E-03 2.55 4.186047 2.372093 AG_0123 Aggregate Haulroads 429611.9 4408550 1640.86 7.27E-03 2.55 4.186047 2.372093 AG_0124 Aggregate Haulroads 429603.8 4408545.9 1640 7.27E-03 2.55 4.186047 2.372093 AG_0125 Aggregate Haulroads 429595.8 4408541.9 1639.25 7.27E-03 2.55 4.186047 2.372093 AG_0126 Aggregate Haulroads 429587.8 4408537.8 1638.38 7.27E-03 2.55 4.186047 2.372093 AG_0127 Aggregate Haulroads 429579.7 4408533.8 1637.49 7.27E-03 2.55 4.186047 2.372093 AG_0128 Aggregate Haulroads 429571.7 4408529.7 1636.66 7.27E-03 2.55 4.186047 2.372093 Volume Sources Source ID Source Description Easting (X) Northing (Y) Base Elevation Emission Rate (lb/hr)Release Height Init. Horizontal Dimension Initial Vert. Dimension AG_0129 Aggregate Haulroads 429563.7 4408525.6 1635.81 7.27E-03 2.55 4.186047 2.372093 AG_0130 Aggregate Haulroads 429555.6 4408521.6 1634.81 7.27E-03 2.55 4.186047 2.372093 AG_0131 Aggregate Haulroads 429547.6 4408517.5 1633.8 7.27E-03 2.55 4.186047 2.372093 AG_0132 Aggregate Haulroads 429539.5 4408513.5 1633.06 7.27E-03 2.55 4.186047 2.372093 AG_0133 Aggregate Haulroads 429531.5 4408509.4 1632.29 7.27E-03 2.55 4.186047 2.372093 AG_0134 Aggregate Haulroads 429523.5 4408505.4 1631.55 7.27E-03 2.55 4.186047 2.372093 AG_0135 Aggregate Haulroads 429515.4 4408501.3 1630.77 7.27E-03 2.55 4.186047 2.372093 AG_0136 Aggregate Haulroads 429507.4 4408497.3 1629.91 7.27E-03 2.55 4.186047 2.372093 AG_0137 Aggregate Haulroads 429499.4 4408493.2 1629.24 7.27E-03 2.55 4.186047 2.372093 AG_0138 Aggregate Haulroads 429491.3 4408489.2 1628.27 7.27E-03 2.55 4.186047 2.372093 AG_0139 Aggregate Haulroads 429483.3 4408485.1 1627.47 7.27E-03 2.55 4.186047 2.372093 AG_0140 Aggregate Haulroads 429475.3 4408481.1 1626.74 7.27E-03 2.55 4.186047 2.372093 AG_0141 Aggregate Haulroads 429467.2 4408477 1625.96 7.27E-03 2.55 4.186047 2.372093 AG_0142 Aggregate Haulroads 429459.2 4408472.9 1625.31 7.27E-03 2.55 4.186047 2.372093 AG_0143 Aggregate Haulroads 429451.2 4408468.9 1624.56 7.27E-03 2.55 4.186047 2.372093 AG_0144 Aggregate Haulroads 429443.1 4408464.8 1623.74 7.27E-03 2.55 4.186047 2.372093 AG_0145 Aggregate Haulroads 429435.1 4408460.8 1622.93 7.27E-03 2.55 4.186047 2.372093 AG_0146 Aggregate Haulroads 429427.1 4408456.7 1622.06 7.27E-03 2.55 4.186047 2.372093 AG_0147 Aggregate Haulroads 429419 4408452.7 1621.34 7.27E-03 2.55 4.186047 2.372093 AG_0148 Aggregate Haulroads 429411 4408448.6 1620.58 7.27E-03 2.55 4.186047 2.372093 AG_0149 Aggregate Haulroads 429402.9 4408444.6 1619.67 7.27E-03 2.55 4.186047 2.372093 AG_0150 Aggregate Haulroads 429394.9 4408440.6 1618.85 7.27E-03 2.55 4.186047 2.372093 AG_0151 Aggregate Haulroads 429386.8 4408436.6 1617.91 7.27E-03 2.55 4.186047 2.372093 AG_0152 Aggregate Haulroads 429378.7 4408432.6 1617.12 7.27E-03 2.55 4.186047 2.372093 AG_0153 Aggregate Haulroads 429370.7 4408428.6 1616.38 7.27E-03 2.55 4.186047 2.372093 AG_0154 Aggregate Haulroads 429362.6 4408424.6 1615.59 7.27E-03 2.55 4.186047 2.372093 AG_0155 Aggregate Haulroads 429354.5 4408420.6 1614.89 7.27E-03 2.55 4.186047 2.372093 AG_0156 Aggregate Haulroads 429346.5 4408416.6 1614.1 7.27E-03 2.55 4.186047 2.372093 AG_0157 Aggregate Haulroads 429338.4 4408412.6 1613.34 7.27E-03 2.55 4.186047 2.372093 AG_0158 Aggregate Haulroads 429330.4 4408408.6 1612.87 7.27E-03 2.55 4.186047 2.372093 AG_0159 Aggregate Haulroads 429322.3 4408404.6 1612.11 7.27E-03 2.55 4.186047 2.372093 AG_0160 Aggregate Haulroads 429314.2 4408400.6 1611.33 7.27E-03 2.55 4.186047 2.372093 AG_0161 Aggregate Haulroads 429306.2 4408396.6 1610.54 7.27E-03 2.55 4.186047 2.372093 AG_0162 Aggregate Haulroads 429298.1 4408392.6 1609.88 7.27E-03 2.55 4.186047 2.372093 AG_0163 Aggregate Haulroads 429290.1 4408388.6 1609.2 7.27E-03 2.55 4.186047 2.372093 AG_0164 Aggregate Haulroads 429282 4408384.6 1608.53 7.27E-03 2.55 4.186047 2.372093 AG_0165 Aggregate Haulroads 429273.9 4408380.6 1608.07 7.27E-03 2.55 4.186047 2.372093 AG_0166 Aggregate Haulroads 429265.9 4408376.6 1607.58 7.27E-03 2.55 4.186047 2.372093 AG_0167 Aggregate Haulroads 429257.8 4408372.6 1606.99 7.27E-03 2.55 4.186047 2.372093 AG_0168 Aggregate Haulroads 429249.8 4408368.6 1606.26 7.27E-03 2.55 4.186047 2.372093 AG_0169 Aggregate Haulroads 429241.7 4408364.6 1605.63 2.36E-03 2.55 4.186047 2.372093 AG_0170 Aggregate Haulroads 429233.6 4408360.6 1604.88 2.36E-03 2.55 4.186047 2.372093 AG_0171 Aggregate Haulroads 429225.6 4408356.6 1604.09 2.36E-03 2.55 4.186047 2.372093 AG_0172 Aggregate Haulroads 429217.5 4408352.6 1603.54 2.36E-03 2.55 4.186047 2.372093 AG_0173 Aggregate Haulroads 429209.5 4408348.6 1602.87 2.36E-03 2.55 4.186047 2.372093 AG_0174 Aggregate Haulroads 429201.4 4408344.5 1602.46 2.36E-03 2.55 4.186047 2.372093 AG_0175 Aggregate Haulroads 429193.3 4408340.5 1601.79 2.36E-03 2.55 4.186047 2.372093 AG_0176 Aggregate Haulroads 429185.3 4408336.5 1601.07 2.36E-03 2.55 4.186047 2.372093 AG_0177 Aggregate Haulroads 429177.2 4408332.5 1600.43 2.36E-03 2.55 4.186047 2.372093 AG_0178 Aggregate Haulroads 429169.2 4408328.5 1599.79 2.36E-03 2.55 4.186047 2.372093 AG_0179 Aggregate Haulroads 429161.1 4408324.5 1599.22 2.36E-03 2.55 4.186047 2.372093 AG_0180 Aggregate Haulroads 429153 4408320.5 1598.28 2.36E-03 2.55 4.186047 2.372093 AG_0181 Aggregate Haulroads 429145 4408316.5 1597.58 2.36E-03 2.55 4.186047 2.372093 AG_0182 Aggregate Haulroads 429136.9 4408312.5 1596.9 2.36E-03 2.55 4.186047 2.372093 AG_0183 Aggregate Haulroads 429129 4408308.3 1596.02 2.36E-03 2.55 4.186047 2.372093 AG_0184 Aggregate Haulroads 429121 4408304.2 1595.58 2.36E-03 2.55 4.186047 2.372093 AG_0185 Aggregate Haulroads 429113 4408300 1594.78 2.36E-03 2.55 4.186047 2.372093 AG_0186 Aggregate Haulroads 429105 4408295.9 1594.23 2.36E-03 2.55 4.186047 2.372093 AG_0187 Aggregate Haulroads 429097 4408291.7 1593.66 2.36E-03 2.55 4.186047 2.372093 Geneva Rock Products / Notice of Intent Mona, Utah Trinity Consultants C-1 APPENDIX C. DISPERSION MODELING RESULTS *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 04/18/23 *** AERMET - VERSION 21112 *** *** *** 14:31:49 PAGE 1 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** MODEL SETUP OPTIONS SUMMARY *** - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ** Model Options Selected: * Model Uses Regulatory DEFAULT Options * Model Is Setup For Calculation of Average CONCentration Values. * NO GAS DEPOSITION Data Provided. * NO PARTICLE DEPOSITION Data Provided. * Model Uses NO DRY DEPLETION. DDPLETE = F * Model Uses NO WET DEPLETION. WETDPLT = F * Stack-tip Downwash. * Model Accounts for ELEVated Terrain Effects. * Use Calms Processing Routine. * Use Missing Data Processing Routine. * No Exponential Decay. * Model Uses RURAL Dispersion Only. * Model Assumes No FLAGPOLE Receptor Heights. * The User Specified a Pollutant Type of: PM10 **Model Calculates 1 Short Term Average(s) of: 24-HR **This Run Includes: 557 Source(s); 5 Source Group(s); and 1907 Receptor(s) with: 5 POINT(s), including 0 POINTCAP(s) and 0 POINTHOR(s) and: 534 VOLUME source(s) and: 18 AREA type source(s) and: 0 LINE source(s) and: 0 RLINE/RLINEXT source(s) and: 0 OPENPIT source(s) and: 0 BUOYANT LINE source(s) with a total of 0 line(s) and: 0 SWPOINT source(s) **This Run Includes BACKGRND Values for 5 Source Group(s) for a Single Sector Non-HOURLY BACKGRND Values are Available Varying by: MONTH **Model Set To Continue RUNning After the Setup Testing. **The AERMET Input Meteorological Data Version Date: 21112 **Output Options Selected: Model Outputs Tables of Highest Short Term Values by Receptor (RECTABLE Keyword) Model Outputs External File(s) of High Values for Plotting (PLOTFILE Keyword) Model Outputs Separate Summary File of High Ranked Values (SUMMFILE Keyword) **NOTE: The Following Flags May Appear Following CONC Values: c for Calm Hours m for Missing Hours b for Both Calm and Missing Hours **Misc. Inputs: Base Elev. for Pot. Temp. Profile (m MSL) = 1569.00 ; Decay Coef. = 0.000 ; Rot. Angle = 0.0 Emission Units = GRAMS/SEC ; Emission Rate Unit Factor = 0.10000E+07 Output Units = MICROGRAMS/M**3 **Approximate Storage Requirements of Model = 9.1 MB of RAM. **Input Runstream File: aermod.inp **Output Print File: aermod.out **File for Summary of Results: SUMMARYFILE.SUM *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 04/18/23 *** AERMET - VERSION 21112 *** *** *** 14:31:49 PAGE 2 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** METEOROLOGICAL DAYS SELECTED FOR PROCESSING *** (1=YES; 0=NO) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOTE: METEOROLOGICAL DATA ACTUALLY PROCESSED WILL ALSO DEPEND ON WHAT IS INCLUDED IN THE DATA FILE. *** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEED CATEGORIES *** (METERS/SEC) 1.54, 3.09, 5.14, 8.23, 10.80, *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 04/18/23 *** AERMET - VERSION 21112 *** *** *** 14:31:49 PAGE 3 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** UP TO THE FIRST 24 HOURS OF METEOROLOGICAL DATA *** Surface file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Met Version: 21112 Profile file: C:\Users\sadam\Box\MSI\clients\Geneva Rock\Geneva Rock Products - Mona\05 Modeli Surface format: FREE Profile format: FREE Surface station no.: 25720 Upper air station no.: 24127 Name: UNKNOWN Name: UNKNOWN Year: 2001 Year: 2001 First 24 hours of scalar data YR MO DY JDY HR H0 U* W* DT/DZ ZICNV ZIMCH M-O LEN Z0 BOWEN ALBEDO REF WS WD HT REF TA HT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 01 05 09 129 01 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 02 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 03 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 04 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 05 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 1.00 999.00 999. -9.0 999.0 -9.0 01 05 09 129 06 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.69 999.00 999. -9.0 999.0 -9.0 01 05 09 129 07 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.34 999.00 999. -9.0 999.0 -9.0 01 05 09 129 08 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.22 999.00 999. -9.0 999.0 -9.0 01 05 09 129 09 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.18 999.00 999. -9.0 999.0 -9.0 01 05 09 129 10 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.17 999.00 999. -9.0 999.0 -9.0 01 05 09 129 11 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 12 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 13 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 14 -999.0 -9.000 -9.000 -9.000 -999. -999. -99999.0 0.31 0.67 0.16 999.00 999. -9.0 999.0 -9.0 01 05 09 129 15 180.2 0.558 -9.000 -9.000 -999. 1001. -72.4 0.30 0.67 0.16 4.40 233. 10.0 300.4 2.0 01 05 09 129 16 161.8 0.513 -9.000 -9.000 -999. 886. -62.6 0.30 0.67 0.17 4.00 224. 10.0 300.8 2.0 01 05 09 129 17 113.7 0.555 -9.000 -9.000 -999. 991. -112.6 0.30 0.67 0.18 4.50 235. 10.0 300.9 2.0 01 05 09 129 18 38.7 0.569 -9.000 -9.000 -999. 1029. -355.5 0.41 0.67 0.23 4.40 240. 10.0 299.4 2.0 01 05 09 129 19 10.0 0.681 -9.000 -9.000 -999. 1345. -2357.2 0.41 0.67 0.38 5.40 260. 10.0 297.9 2.0 01 05 09 129 20 -19.2 0.430 -9.000 -9.000 -999. 743. 309.8 0.41 0.67 1.00 3.60 259. 10.0 296.0 2.0 01 05 09 129 21 -20.7 0.304 -9.000 -9.000 -999. 421. 101.7 0.41 0.67 1.00 2.80 261. 10.0 292.8 2.0 01 05 09 129 22 -14.6 0.214 -9.000 -9.000 -999. 242. 50.0 0.30 0.67 1.00 2.40 230. 10.0 291.9 2.0 01 05 09 129 23 -18.8 0.273 -9.000 -9.000 -999. 343. 81.5 0.41 0.67 1.00 2.60 245. 10.0 290.4 2.0 01 05 09 129 24 -24.2 0.350 -9.000 -9.000 -999. 498. 133.4 0.30 0.67 1.00 3.40 352. 10.0 289.6 2.0 First hour of profile data YR MO DY HR HEIGHT F WDIR WSPD AMB_TMP sigmaA sigmaW sigmaV 01 05 09 01 6.1 1 -999. -99.00 -999.0 999.0 -99.00 -99.00 F indicates top of profile (=1) or below (=0) *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 04/18/23 *** AERMET - VERSION 21112 *** *** *** 14:31:49 PAGE 4 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** THE SUMMARY OF HIGHEST 24-HR RESULTS *** ** CONC OF PM10 IN MICROGRAMS/M**3 ** DATE NETWORKGROUP ID AVERAGE CONC (YYMMDDHH) RECEPTOR (XR, YR, ZELEV, ZHILL, ZFLAG) OF TYPE GRID-ID- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ALL HIGH 2ND HIGH VALUE IS 142.22337 ON 01081924: AT ( 429210.00, 4408682.20, 1610.61, 3635.95, 0.00) DC PC HIGH 2ND HIGH VALUE IS 90.07211 ON 01082524: AT ( 430304.70, 4409202.90, 1737.71, 3635.95, 0.00) DC KILGRE HIGH 2ND HIGH VALUE IS 97.62690 ON 01080124: AT ( 429904.70, 4411202.90, 1636.34, 3635.95, 0.00) DC SUNROC HIGH 2ND HIGH VALUE IS 97.62690 ON 01080124: AT ( 429904.70, 4411202.90, 1636.34, 3635.95, 0.00) DC GRP HIGH 2ND HIGH VALUE IS 142.21611 ON 01081924: AT ( 429210.00, 4408682.20, 1610.61, 3635.95, 0.00) DC *** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR *** AERMOD - VERSION 22112 *** *** Geneva Rock Products - Mona - PM10 *** 04/18/23 *** AERMET - VERSION 21112 *** *** *** 14:31:49 PAGE 5 *** MODELOPTs: RegDFAULT CONC ELEV NODRYDPLT NOWETDPLT RURAL *** Message Summary : AERMOD Model Execution *** --------- Summary of Total Messages -------- A Total of 0 Fatal Error Message(s) A Total of 1189 Warning Message(s) A Total of 125 Informational Message(s) A Total of 8784 Hours Were Processed A Total of 1 Calm Hours Identified A Total of 124 Missing Hours Identified ( 1.41 Percent) ******** FATAL ERROR MESSAGES ******** *** NONE *** ******** WARNING MESSAGES ******** SO W298 8855 SOGRP: Results reported for source group ALL include BACKGROUND OU W565 12751 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE OU W565 12752 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE OU W565 12753 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE OU W565 12754 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE OU W565 12755 OUPLOT: Possible Conflict With Dynamically Allocated FUNIT PLOTFILE MX W403 15 PFLCNV: Turbulence data is being used w/o ADJ_U* option SigA Data MX W479 21 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 22 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 23 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 29 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.639 MX W479 45 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 46 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 47 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.672 MX W479 48 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 49 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 50 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 51 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.796 MX W479 53 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 68 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 69 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 70 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 71 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.331 MX W479 72 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 73 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.351 MX W479 92 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 93 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 94 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 96 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 98 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.823 MX W479 99 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 123 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.617 MX W479 140 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.818 MX W479 141 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.642 MX W479 263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 264 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.137 MX W479 265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 266 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.912 MX W479 268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 337 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.615 MX W479 357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 360 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 383 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 385 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.855 MX W479 389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 390 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.084 MX W479 412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.241 MX W479 413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.577 MX W479 458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 460 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.015 MX W479 462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 532 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.894 MX W479 554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 577 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 578 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 579 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.005 MX W479 581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 649 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 650 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.872 MX W479 722 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.844 MX W479 748 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 749 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.349 MX W479 750 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 767 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 768 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 769 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 770 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 771 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 773 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.514 MX W479 796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 797 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.232 MX W479 815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 818 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 842 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 885 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.814 MX W479 886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 887 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 888 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.659 MX W479 913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.917 MX W479 916 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.927 MX W479 934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 935 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.720 MX W479 938 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 939 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 957 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 962 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.147 MX W479 963 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.230 MX W479 964 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 987 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 989 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1008 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 1011 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 1012 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 1013 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 1014 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.066 MX W479 1036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1038 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 1055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 1058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 1059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 1060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 1061 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 1077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 1151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.808 MX W479 1153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.828 MX W479 1154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.967 MX W479 1155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 1156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 1202 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 1203 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1204 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 1205 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.028 MX W479 1206 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.830 MX W479 1220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 1221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 1223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.087 MX W479 1225 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.924 MX W479 1244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 1245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.641 MX W479 1246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 1247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.045 MX W479 1248 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.098 MX W479 1249 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 1250 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 1251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.925 MX W479 1252 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1253 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 1268 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 1269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 1270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 1271 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.335 MX W479 1273 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 1274 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.317 MX W479 1275 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.383 MX W479 1276 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 1294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.950 MX W479 1295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 1296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 1317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 1318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 1323 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 1324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 1326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 1344 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 1347 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 1349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 1367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 1373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 1374 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 1444 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 1508 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 1509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 1516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 1518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1536 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 1541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.721 MX W479 1557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.792 MX W479 1560 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 1565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 1631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.765 MX W479 1632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 1633 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.628 MX W479 1634 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 1635 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.366 MX W479 1636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 1637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 1638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1658 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 1659 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.930 MX W479 1660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.964 MX W479 1661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 1681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.687 MX W479 1682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 1683 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 1684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.400 MX W479 1685 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.268 MX W479 1686 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.200 MX W479 1705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.001 MX W479 1706 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.451 MX W479 1707 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.450 MX W479 1708 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.594 MX W479 1709 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.965 MX W479 1710 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.885 MX W479 1726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.511 MX W479 1727 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 1729 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 1731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 1732 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.868 MX W479 1733 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 1755 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 1756 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 1757 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 1774 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 1775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 1776 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 1777 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 1778 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 1779 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.288 MX W479 1780 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.304 MX W479 1781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.968 MX W479 1782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 1798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 1800 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 1824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 1829 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 1844 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 1845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 1846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 1847 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 1848 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 1849 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 1850 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 1852 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 1853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 1918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.591 MX W479 1941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.019 MX W479 1947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 1948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 1949 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 1950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 2016 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 2017 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 2018 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 2036 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 2040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2041 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 2042 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 2043 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 2070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.725 MX W479 2114 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.620 MX W479 2115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 2118 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2136 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2137 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 2138 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.905 MX W479 2139 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2143 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 2254 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 2256 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 2258 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 2259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 2260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 2280 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.169 MX W479 2283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2305 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 2326 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 2350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 2351 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2352 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 2353 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 2354 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 2372 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2373 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 2377 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 2378 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 2400 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.952 MX W479 2401 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 2402 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 2403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 2404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 2421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 2423 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.987 MX W479 2424 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.756 MX W479 2426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 2429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.603 MX W479 2445 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 2446 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 2540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 2541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.810 MX W479 2545 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 2547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 2550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2564 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 2565 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2566 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 2570 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 2573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 2575 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 2588 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 2589 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 2590 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 2591 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.988 MX W479 2592 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 2593 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 2595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 2596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.807 MX W479 2597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2616 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.261 MX W479 2619 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 2636 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.737 MX W479 2637 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 2638 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 2639 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 2640 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 2641 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 2642 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 2646 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 2661 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 2662 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 2663 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 2664 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.864 MX W479 2665 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.735 MX W479 2667 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.733 MX W479 2668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2684 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 2759 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 2761 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.609 MX W479 2763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 2765 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 2766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 2781 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 2789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 2791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2806 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 2807 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.969 MX W479 2812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 2813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 2814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 2832 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 2833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.156 MX W479 2835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 2836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.534 MX W479 2853 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 2854 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 2855 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 2861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 2862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 2863 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 2904 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 2905 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 2906 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 2907 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 2952 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 2953 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 2973 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 2974 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.679 MX W479 2975 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 2976 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.753 MX W479 2977 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 2996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.138 MX W479 2997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.910 MX W479 2999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.883 MX W479 3000 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.135 MX W479 3001 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3002 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.858 MX W479 3003 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 3006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 3026 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3054 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3095 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.567 MX W479 3098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3115 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 3117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3121 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 3127 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 3149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3169 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3170 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.815 MX W479 3171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.803 MX W479 3192 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 3198 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.538 MX W479 3214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 3216 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 3217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 3223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 3241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 3243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 3259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3261 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 3262 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.703 MX W479 3263 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.904 MX W479 3265 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.025 MX W479 3269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 3270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 3288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.938 MX W479 3289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.112 MX W479 3292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.688 MX W479 3309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.024 MX W479 3310 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 3311 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3313 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 3319 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 3332 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.909 MX W479 3333 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.852 MX W479 3334 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.048 MX W479 3335 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 3338 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 3357 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.644 MX W479 3358 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 3359 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3361 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.705 MX W479 3362 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.943 MX W479 3363 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.748 MX W479 3364 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3365 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.334 MX W479 3366 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.388 MX W479 3367 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.217 MX W479 3379 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.884 MX W479 3380 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 3381 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.267 MX W479 3382 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3384 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.730 MX W479 3386 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.053 MX W479 3387 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 3388 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.947 MX W479 3389 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.954 MX W479 3403 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.183 MX W479 3404 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.662 MX W479 3405 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.812 MX W479 3406 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.887 MX W479 3407 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.913 MX W479 3408 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 3409 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.959 MX W479 3410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.754 MX W479 3411 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.759 MX W479 3412 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.757 MX W479 3413 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.985 MX W479 3414 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.879 MX W479 3429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3432 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 3433 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3434 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.821 MX W479 3435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.758 MX W479 3436 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 3455 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 3458 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 3459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 3480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3481 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.569 MX W479 3482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 3483 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 3501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 3502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 3505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3524 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.613 MX W479 3525 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.878 MX W479 3527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 3528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 3530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 3547 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 3549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 3551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 3554 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 3555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.891 MX W479 3557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.588 MX W479 3558 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 3572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 3573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 3583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.616 MX W479 3598 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.614 MX W479 3599 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 3644 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 3696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.719 MX W479 3718 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 3763 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 3788 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 3789 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 3791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 3793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.722 MX W479 3794 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.553 MX W479 3796 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 3798 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.841 MX W479 3799 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 3811 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.717 MX W479 3812 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.716 MX W479 3813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.945 MX W479 3823 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 3837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.571 MX W479 3838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.834 MX W479 3839 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.941 MX W479 3840 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 3841 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.686 MX W479 3846 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 3858 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 3859 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.387 MX W479 3860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.986 MX W479 3861 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 3862 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 3865 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.630 MX W479 3866 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.667 MX W479 3868 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.058 MX W479 3869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.052 MX W479 3870 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 3871 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 3883 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 3886 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 3909 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3910 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.692 MX W479 3911 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.797 MX W479 3912 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 3913 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 3918 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 3931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.831 MX W479 3932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 3933 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.165 MX W479 3959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 3960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 3965 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 3979 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.745 MX W479 3980 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.993 MX W479 3981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.893 MX W479 3985 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.682 MX W479 3988 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 4004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 4005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 4007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 4039 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4040 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4055 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.562 MX W479 4058 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 4059 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.915 MX W479 4060 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 4075 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 4076 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.503 MX W479 4078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.958 MX W479 4080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 4081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 4082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 4098 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4099 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.882 MX W479 4100 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.825 MX W479 4101 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 4111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.677 MX W479 4132 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.622 MX W479 4133 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.589 MX W479 4135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 4147 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4148 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.157 MX W479 4149 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 4151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.044 MX W479 4152 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.847 MX W479 4153 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.907 MX W479 4154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.851 MX W479 4155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.060 MX W479 4156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 4173 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 4207 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.525 MX W479 4221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.890 MX W479 4224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4227 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 4229 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.500 MX W479 4246 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4247 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 4251 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 4269 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 4270 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4277 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 4296 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.901 MX W479 4299 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 4300 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 4301 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.767 MX W479 4316 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.585 MX W479 4317 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.790 MX W479 4318 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.736 MX W479 4320 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.728 MX W479 4321 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 4324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.837 MX W479 4341 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.698 MX W479 4342 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 4345 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4346 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4349 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 4350 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.570 MX W479 4416 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.710 MX W479 4417 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 4418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 4437 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 4438 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.746 MX W479 4439 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.643 MX W479 4459 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.624 MX W479 4461 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4462 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 4463 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.632 MX W479 4471 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.583 MX W479 4482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.552 MX W479 4484 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.094 MX W479 4485 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.766 MX W479 4489 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.691 MX W479 4490 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.996 MX W479 4492 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.871 MX W479 4494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4518 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 4519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.652 MX W479 4520 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 4530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 4531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 4534 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 4580 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 4581 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 4583 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4584 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4586 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.820 MX W479 4602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 4603 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.829 MX W479 4604 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.922 MX W479 4605 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.982 MX W479 4606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 4628 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.635 MX W479 4630 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 4631 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 4632 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.660 MX W479 4660 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 4674 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 4675 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 4676 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4677 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 4678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 4680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 4681 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 4682 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.740 MX W479 4698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.540 MX W479 4699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.764 MX W479 4700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4701 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.683 MX W479 4702 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 4705 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 4724 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.773 MX W479 4725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.556 MX W479 4820 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 4821 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 4826 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 4828 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.508 MX W479 4830 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.505 MX W479 4831 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.572 MX W479 4833 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 4940 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.541 MX W479 4941 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.976 MX W479 4942 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 4943 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.527 MX W479 4944 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.989 MX W479 4945 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.806 MX W479 4946 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.934 MX W479 4947 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.699 MX W479 4948 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5035 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5037 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.813 MX W479 5045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5111 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.645 MX W479 5112 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.685 MX W479 5113 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 5119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5120 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 5130 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5131 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.657 MX W479 5154 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 5155 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 5156 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 5157 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 5158 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.671 MX W479 5159 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5160 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 5193 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5231 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.033 MX W479 5232 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.960 MX W479 5233 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.729 MX W479 5255 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.546 MX W479 5304 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.592 MX W479 5307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.653 MX W479 5309 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.510 MX W479 5324 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 5371 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.738 MX W479 5394 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5396 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.923 MX W479 5418 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.724 MX W479 5419 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.597 MX W479 5420 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.670 MX W479 5421 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.065 MX W479 5422 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 5425 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.610 MX W479 5426 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.282 MX W479 5427 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.903 MX W479 5428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.744 MX W479 5430 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.787 MX W479 5431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 5451 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.732 MX W479 5452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.162 MX W479 5453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.612 MX W479 5454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 5494 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.674 MX W479 5495 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.557 MX W479 5497 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.713 MX W479 5498 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.741 MX W479 5499 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.519 MX W479 5515 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.731 MX W479 5516 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.769 MX W479 5519 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5539 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.520 MX W479 5540 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 5541 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 5542 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.587 MX W479 5543 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 5546 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 5610 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.524 MX W479 5611 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.654 MX W479 5612 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.664 MX W479 5613 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.579 MX W479 5615 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 5617 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.548 MX W479 5731 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.593 MX W479 5766 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.673 MX W479 5782 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.709 MX W479 5783 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 5785 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 5860 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.621 MX W479 5875 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.595 MX W479 5878 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.747 MX W479 5925 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.619 MX W479 5927 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.656 MX W479 5928 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.646 MX W479 5950 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 5951 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 5954 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.535 MX W479 5970 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.843 MX W479 5971 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 5981 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 5982 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.608 MX W479 5983 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.563 MX W479 5984 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.580 MX W479 5996 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 5997 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.551 MX W479 5998 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.602 MX W479 5999 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6007 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.515 MX W479 6019 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6020 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6021 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.648 MX W479 6027 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.627 MX W479 6028 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.543 MX W479 6030 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6031 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.727 MX W479 6045 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6070 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.629 MX W479 6071 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.636 MX W479 6072 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.582 MX W479 6073 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.695 MX W479 6077 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.532 MX W479 6080 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6116 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.576 MX W479 6117 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.680 MX W479 6119 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.665 MX W479 6126 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6150 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.655 MX W479 6151 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.795 MX W479 6186 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.881 MX W479 6187 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.805 MX W479 6188 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.809 MX W479 6213 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.701 MX W479 6214 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6215 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.649 MX W479 6217 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.651 MX W479 6218 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.936 MX W479 6219 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6220 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.634 MX W479 6221 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.661 MX W479 6223 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6224 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.850 MX W479 6235 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.590 MX W479 6236 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.780 MX W479 6237 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6239 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.819 MX W479 6240 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6241 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6242 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.568 MX W479 6243 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.523 MX W479 6244 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6245 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.637 MX W479 6259 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6260 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6281 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.501 MX W479 6282 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.684 MX W479 6283 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.742 MX W479 6284 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.711 MX W479 6285 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.536 MX W479 6286 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6287 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.502 MX W479 6288 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.504 MX W479 6289 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6290 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6291 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.574 MX W479 6292 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6293 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.537 MX W479 6294 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6295 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.707 MX W479 6307 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6308 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.606 MX W479 6410 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.528 MX W479 6428 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6429 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.751 MX W479 6431 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.549 MX W479 6435 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.521 MX W479 6452 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6453 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.573 MX W479 6454 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.522 MX W479 6456 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 6478 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6479 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.791 MX W479 6480 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.539 MX W479 6482 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 6501 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.681 MX W479 6502 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.712 MX W479 6503 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6504 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.801 MX W479 6505 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.555 MX W479 6507 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6509 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6526 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.558 MX W479 6527 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.726 MX W479 6528 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.598 MX W479 6529 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.696 MX W479 6530 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.802 MX W479 6531 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.763 MX W479 6548 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6549 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.762 MX W479 6550 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.666 MX W479 6551 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.676 MX W479 6553 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6555 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.600 MX W479 6557 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.566 MX W479 6559 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.565 MX W479 6571 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.869 MX W479 6572 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6573 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.544 MX W479 6574 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.155 MX W479 6576 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.940 MX W479 6582 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.604 MX W479 6594 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.921 MX W479 6595 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.295 MX W479 6596 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.129 MX W479 6597 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.966 MX W479 6600 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.530 MX W479 6601 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6602 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.531 MX W479 6606 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.739 MX W479 6647 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.560 MX W479 6651 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.778 MX W479 6668 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.715 MX W479 6669 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.607 MX W479 6670 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.650 MX W479 6678 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.697 MX W479 6680 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.545 MX W479 6693 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.550 MX W479 6694 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.647 MX W479 6695 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6696 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6697 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.575 MX W479 6698 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.714 MX W479 6699 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 6700 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6719 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.638 MX W479 6720 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.517 MX W479 6721 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.611 MX W479 6725 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.770 MX W479 6726 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.826 MX W479 6739 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.623 MX W479 6741 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.755 MX W479 6772 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 MX W479 6775 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6790 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 6791 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.578 MX W479 6792 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.675 MX W479 6793 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.516 MX W479 6813 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.743 MX W479 6814 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.559 MX W479 6815 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.507 MX W479 6816 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.542 MX W479 6819 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.689 MX W479 6824 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.547 MX W479 6834 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.718 MX W479 6835 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.003 MX W479 6836 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.601 MX W479 6837 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.599 MX W479 6838 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.700 MX W479 6845 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.669 MX W479 6869 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.506 MX W479 6931 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.526 MX W479 6932 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.618 MX W479 6934 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.586 MX W479 6937 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.529 MX W479 6955 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.561 MX W479 6956 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.272 MX W479 6959 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.594 MX W479 6960 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=1.192 MX W479 6961 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.749 MX W479 6986 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.554 MX W479 7004 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.605 MX W479 7005 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.849 MX W479 7006 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.708 MX W479 7052 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.533 MX W479 7078 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.513 MX W479 7081 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.509 MX W479 7082 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.564 MX W479 7135 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.518 MX W479 7171 TGINIT: Potential temperature gradient is out-of-range: TG4PFL=0.584 More Than 999 Warning Messages Found. See ERRORFIL Output for the Remainder.