HomeMy WebLinkAboutDAQ-2024-0077541
DAQC-415-24
Site ID 10884 (B4)
MEMORANDUM
TO: STACK TEST FILE – HEBER LIGHT AND POWER COMPANY –
Engine Unit #14
THROUGH: Harold Burge, Major Source Compliance Section Manager
FROM: Robert Sirrine, Environmental Scientist
DATE: May 2, 2024
SUBJECT: Location: 300 South 735 West, Heber, Wasatch County, UT
Contact: Jason Norlen – 435-654-2913
Source: Engine Unit #14
Tester: Montrose Air Quality Services
FRS ID #: UT000000490510006
Permit/AO #: DAQE-AN108840013-24, dated January 29, 2024
Subject: Review of Pretest Protocol dated April 24, 2024
On April 29, 2024, the DAQ received a pretest protocol for stack emissions testing of the Heber Light and
Power Engine Unit #14, located in Heber, UT. Testing will be performed on June 4, 2024, to determine
compliance with AO Condition II.B.2.a, for NOX and CO emissions.
PROTOCOL CONDITIONS:
1. RM 1 used to determine sample velocity traverses: OK
2. RM 2 used to determine stack gas velocity and volumetric flow rate: OK
3. RM 3A used to determine dry molecular weight of the gas stream: OK
4. RM 4 used to determine moisture content: OK
5. RM 7E used to determine NOX concentrations of emissions: OK
6. RM 10 used to determine CO concentrations of emissions: OK
DEVIATIONS: No deviations were noted.
CONCLUSION: The protocol appears to be acceptable.
RECOMMENDATION: Send protocol review and test date confirmation notice.
ATTACHMENTS: Pre-test Protocol received April 29, 2024
.UTAH DEPARTMENT OF
ENVIRONMENTAL QUALIry
AFi i
DIVISION OF AIR QUALIT\.
MM?HT+g[H
.,PRETEST PROTOCOL TO CONDUGT EPA COMPLIANCE
TESTING FOR NO, AND CO EMISSIONS ON UNIT 14
CATERPILLAR ENGINE/GENERATOR LOCATED AT THE RAY
FARREL POWER PLANT IN HEBER, UTAH'N
Approval Order No. DAQE-AN1088400{3-24
'HIff",?^:'i,?H.J.l81,
MONTROSE AtR QUALITY SERV|CES, LLC.
^8,tir rl
6823 South 3600 West
Spanish Fork, Utah 84660 DiVrStoN oF AtR eUALm,
(801) 7e4-2e50
April24,2024
SOURCE INFORMATION
Facility Name: Heber Light and Power
Unit to be tested:
Unit # Location Natural Gas/Fired Engine/Generator
14 Bay #14 Caterpillar 3520K (2550 1(A/)
Mailing Address: 31 South 100 West, Heber, Utah 84032
Plant Address: 300 South 735 West, Heber, Utah 84032
Phone: (435) 657-6450
Plant Contact: Mr. Jason Norlen, General Manager
Test Date: June 4,2024
CONTRACTOR OR TEST FIRM
Name: Montrose Air Quality Services, LLC.
Address: 6823 South 3600 West, Spanish Fork, Utah 84660
Phone: (801) 794-2950 Email: chguymon@montrose-env.com
Gontact Cheyney Guymon, Field Project Manager
Document #:GP081 AS-040 1 28-PP-83 1
REASON FOR TESTING AND OPERATING PERMIT EMISSION
LIMITATIONS
The Utah Department of Environmental Quality (UDEO) issued Heber
Light and Power an Approval Order (AO) (DAOE-AN108840013-24) dated
January 29, 2024, for the addition two (2) Caterpillar Generators. A copy
of this AO is included in Appendix 'A'. As part of the AO, the UDEQ has
required that emissions be quantified with EPA Reference Methods within
180 days of the initial start-up period. The following emissions on the
engine to be stack tested as per General Condition ll.B.2.a of the AO:
A. Oxides of Nitrogen (NOx).
Heber Light and Power
Ray Fanell lntemal Combusiion Power Plant
Montrose Air Quality Seruices, LLC.
Aplil2024 - Petest Protocol
B. Carbon Monoxide (CO).
The UDEQ has set the following limitations for the Natural gas-powered
engine generators as per condition ll.B.2.a:
Unit #14:
A. NOx- 0.54 lbs/hrB. CO - 1.00 lbs/hr
EPA TEST METHODS REQUIRED
A. Sampling and Velocity Traverse
1. Reference Method: EPA Method 1
B. Stack Velocity and Flow Rate
1. Reference Method: EPA Method 2
C. Gas Analysis
1. Reference Method: EPA Method 3
D. Moisture Content
1. Reference Method: EPA Method 4
E. Nitrogen Oxide Emissions
1. Reference Method: EPA Method 7E
F. Carbon Monoxide Emissions
1. Reference Method: EPAMethod 10
SAMPLE TRAIN INFORMATION
An EPA Method 4 sample train will be employed to perform the above
referenced testing. A stainless steel probe liner will be used and
maintained at a temperature of 248" + 25"F for the duration of the test.
The filter holder will also be kept at a temperature ol 248" + 25"F. The
first two (2) impingers will contain 100 mls of distilled water, the third
impinger will be left empty, and the fourth will contain a known amount of
silica gel. All impingers will be weighed before and after each test to
determine the moisture content of the gases. The impinger bath will be
maintained at a temperature lower than 68'F to condense stack moisture.
Figure I is a schematic of the EPA Method 4 sample train to be used.
Heber Light and Power
Ray Fanell lnternal Combustion Power Plant
Montrose Air Quality Services, LLC.
April2O24 - Pretest Protocol
TEI"IPERATURE SENSOR
/ | -----PFOEFo==fllflllflfl- f
'*- \-^"- / THERM0METER\
" \ {rrtteBHoLDER \
REVERSE-TYPE
PITOT TUBE
CHECK
Y
VACUUM
"/
LINE
--^MAITIOMETER
BY-PASS VALVE
\
I',IAIN VALVE
VACUUH
- GAUGE
\
AIR-TIGI{T PUMP
Fiqure I
EPA Methods 7E and 10 are instrumentation methods. This sample train
incorporates taking a sample line from the stack, conditioning the sample,
and finally running it through the analyzer. Figure ll is a schematic of the
analyzer sample train, showing both the sample line location and the
calibration line location.
Heber Light and Power
Ray Fanell lntemal Combustion Power Plant
Montrose Air Quality Services, LLC.
April2Q24 - Pretest Protocol
Conti nuoue Emis*ions Anal gzers
Exhaust Stac
Sample Poi nt:T
Moisture
Trap_
Eali bration Gar l"lonifold
..;o.,..j
rt*i;
Fiqure ll
Heber Light and Power
Ray Fanell lnternal Combustion Power Plant
Montrose Air Quality Services, LLC.
Apnl 2024 - Pretest Protocol
CALIBRATION DATA AND SAMPLE CALCULATION
The EPA and State agencies require various calibrations for specific
equipment used during testing. The current calibration data is included in
Appendix "B". A sample of all field data forms will be made available at
the job site.
REFERENCE METHODS
The methods that will be employed are found in 40 CFR Part 60 -
Appendix A, and the EPA "Quality Assurance Handbook for Air Pollution
Measurement Systems." The administrator will first approve any deviation
from these methods.
STACK SCHEMATIC AND TRAVERSE POINT LOCATIONS
Attached are the schematics showing plan and elevation of ducting and
stack arrangements including sample port positions relative to upstream
and downstream disturbances. Also included are cross-sectional
sketches of the stack at the sampling locations.
1. Figure lll is a diagram of the Caterpillar Natural Gas-Fired
Engine/Generator (Unit #1 4).
2. Travdrse point locations for the Caterpillar Natural Gas-Fired
Engine/Generator are shown in Table I (Unit #14).
Heber Light and Power
Ray Fanell lnternal Combustion Power Plant
Montrose Air Quality Services, LLC.
April2024 - Pretest Protocol
Stack is 22' l.D.
furtsare 1.5'Long
Located 90 degrees apart 24"
o
o
81" =
_T
I
I
= 10:18 Di:
| ,n'
SCR Reactor B=3.68t
I
-L
w
= 10:18 Diametetsl|n'tr
Diameters
Fisure lll
o Stack measurements will be verified on site.
Heber Light and Power
Ray Fanell lntemal Combustion Power Plant
Montrose Air Quality Services, LLG.
April2O24 - Pretest Protocol
Table I
Plant
Date:
Source:
Distance X:
Disbnce Y:
Stack l.D:
ShckArea:
#of
Heber City Light and Power
N4nO24
Cabrpillar 3520K #14
23.5 in
1.5 in
22 in
2.64 ft 2
Tra\,erse Points: 16 sample locations
Tra\,erse
Point
Nunber
Percent of Stack l.D. Product of Dishnce
Sbck l.D. inches col. 2 &3 Y
(b 1/8 in) (inches)
Traverse Point Loction from oubide
of ports (sum of columns 4 & 5)
1&9
2&10
3&11
4&12
5&13
6&14
7&15
8&16
3.2 2210.5 22
19.4 2232.3 22
67.7 22
80.6 2289.5 2296.8 22
0.70
2.3'.1
4.27
7.11
14.89
17.73
19.69
21.30
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
2.20
3.81
5.77
8.61
16.39
19.23
21.19
22.4O
7
=7_
I
7
7=,=
/
2114
3 3/4
53t4
8112
161t2
19 1t4
21 ',I4
223t4
inches
inches
inches
inches
inches
inches
inches
inches
PROGESS DESCRIPTION AND POLLUTION CONTROL EQUIPMENT
Heber Light and Power operates this generating facility in Heber, Utah.
The power is generated using both natural gas fired and diesel fired
internal combustion engine generators, which in turn emit pollutants into
the atmosphere. This facility can generate power for its own customer
use, or for use by other members of UAMPS.
SAFETY CONSIDERATIONS AND OTHER REQUIREMENTS
All testing stations will be accessible from OSHA scaffolding or platforms.
MAQS will require 2 - 480V,30 amp, three-phase circuits to be provided
by the Heber Light and Power in order to perform the emissions testing.
Montrose will comply with all safety requirements at the facility. The facility
plant safety coordinator is responsible for ensuring routine compliance
with plant entry, health, and safety requirements. The facility plant site
safety coordinator has the authority to impose or waive facility restrictions.
The Montrose test team leader has the authority to negotiate any
deviations from the facility restrictions with the plant site safety
coordinator. Any deviations must be documented.
Heber Light and Power
Ray Fanell lnternal Combustion Power Plant
Montrose Air Quality Services, LLC.
April2024 - Pretest Protocol
Montrose has a comprehensive health and safety program that satisfies
State and Federal OSHA requirements. The program includes an Illness
and lnjury Prevention Program, site-specific safety meetings, and training
in safety awareness and procedures. The basic elements include:
. Written policies and procedures
. Routine training of employees and supervisors
. Use of personal protection equipment (PPE)
. Hazard communication
. Pre-test and daily safety meetings
o Routine surveillance and inspection of on-going work
. Near-miss and accident reporting procedures
o Following Federal Motor Carrier Safety Administration (FMCSA)
regulations, as applicable
Montrose will provide all PPE to its employees. The PPE will include, but
is not limited to; hard hats, safety shoes, safety glasses with side shields
(or goggles), hearing protection, and hand protection.
All on-site personnel will adhere to the following standard safety
measures:
o All OSHA and facility mandated safety training and accreditation
will be completed before arrival. This will include MSHA, OSHA 10-
hr, TWIC, AerialWork Platform, etc., as required.
. Complete any site-specific training as necessary
. Complete Site Safety Plan before work activities begin
. Daily Tool Box Meetings
o Confine themselves to the testing and administration areas only
. Wear all mandated PPE & Know the location of first aid and fire
extinguishers
o Know the location of first aid equipment and fire extinguishers
OTHER COMMENTS. RECOMMENDATIONS. OR PROPOSED
MODIFICATIONS
1. Each of the EPA Method 4 runs (3 runs per engine) will be
approximately 60 minutes in length.
2. Nozzle diameters will be selected after pretest data is collected.
Heber Light and Power
Ray Fanell lntemal Combustion Power Plant
Montrose Air Quality Services, LLC.
Apnl2024 - Pretesl Protocol
3. EPA Method 3A will be used to determine the dry molecular weight
of the gas stream. The gas analysis will be conducted at the job site
using an CAI Model 700 OZ|CO2 Analyzer.
4. The moisture content of the gas stream will be measured
weighing the impingers before and after each test. This will
accomplished on site.
5. EPA Method 4 tests will be sampled at less than 0.75 cfm while
collecting a minimum of 21.0 dscf.
An "S" Type Pitot Tube will be used to measure the velocity of the
gas stream using EPA Method 2 (if the stack is 12.0" inches or
greater). An inclined manometer will be used to measure the
velocity head. The first mark on the manometer is 0.01 inches of
water column from the zero mark. For sources where the velocity
head is less than 0.05 inches of water column, or where the stack
diameter is less than 12 inches, MAQS will use a Standard Pitot
with an expanded manometer.
Barometric pressure will be measured at the sampling position via
an aneroid barometer.
8. Gaseous emissions will be determined via the previously discussed
methods. Three (3) 60-minute runs will be conducted for each of
the various gaseous pollutants with bias and zero checks being
made in between each of the tests for each of the engines.
10. All testing will be conducted while the engines are at the permit
requested operating load.
11. The test team will consist of the Beckie Hawkins District Manager
project oversight, one Client Project Manager and two Field
Technicians. The Client Project Manager is responsible for
overseeing sample and data collection, while the Field Technicians
work at the sample location. lt is anticipated that Cheyney Guymon,
will be assigned to the role of Client Project Manager. The staff
assignment for the Field Technicians positions will be Austin
Tramell lead and two other qualified technicians. The team will be
fully qualified to perform all test methods listed in this test plan. At
least one team member will hold current QSTI and/or Ql
certifications for all test methods included in this test program.
l2.Montrose converts the raw field, laboratory, and process data to
reporting units consistent with the permit or subpart. Calculations
are made using proprietary computer spreadsheets or data
by
be
6.
7.
Heber Light and Power
Ray Fanell lnternal Combustion Power Plant
Montrose Air Quality Services, LLC.
April 2024 - Pretest Protocol
acquisition systems. One run of each test method is also verified
using a separate example calculation. The example calculations
are checked against the spreadsheet results and are included in
the final report. The "Standard Conditions" for this project are29.92
inches of mercury and 68 "F. Both qualitative and quantitative
factors contribute to field measurement uncertainty and should be
taken into consideration when interpreting test results. Whenever
possible, Montrose Air Quality Services personnel reduce the
impact of these uncertainty factors using approved and validated
test methods. ln addition, Montrose personnel perform routine
instrument and equipment calibrations and ensure that the
calibration standards, instruments, and equipment used during test
events meet, at a minimum, test method specifications as well as
the specifications of our Quality Management System and ASTM D
7036-04. The limitations of the various methods, instruments,
equipment, and materials utilized during a test are reasonably
considered, but the ultimate impact of the cumulative uncertainty for
each project cannot be fully identified.
l3.Montrose will prepare a final report to present the test data,
calculations/equations, descriptions, and results. Prior to release by
Montrose, each report will be reviewed and certified by the project
manager and their supervisor, or a peer. Source test reports will be
submitted to the facility or appropriate regulatory agency (upon
client approval) within 45 days of the completion of the field work.
The report will include a series of appendices to present copies of
the intermediate calculations and example calculations, raw field
data, laboratory analysis data, process data, and equipment
calibration data.
DATA ANALYSIS. VALIDATION. AND UNCERTAINTY
Montrose converts the raw field, laboratory, and process data to
reporting units consistent with the permit or subpart. Calculations
are made using proprietary computer spreadsheets or data
acquisition systems. One run of each test method is also verified
using a separate example calculation. The example calculations
are checked against the spreadsheet results and are included in
the final report. The "Standard Conditions" for this project are 29.92
inches of mercury and 68 'F.
Both qualitative and quantitative factors contribute to field
measurement uncertainty and should be taken into consideration
when interpreting test results. Whenever possible, Montrose Air
Quality Services personnel reduce the impact of these uncertainty
factors using approved and validated test methods. In addition,
Montrose personnel perform routine instrument and equipment
Heber Light and Power
Ray Farrell lntemal Combustion Power Plant
Montrose Air Quality Services, LLC.
Aptil2024 - Pretest Protocol
10
calibrations and ensure that the calibration standards, instruments,
and equipment used during test events meet, at a minimum, test
method specifications as well as the specifications of our Quality
Management System and ASTM D 7036-04. The limitations of the
various methods, instruments, equipment, and materials utilized
during a test are reasonably considered, but the ultimate impact of
the cumulative uncertainty for each project cannot be fully
identified.
QUALITY STATEMENT
Montrose is qualified to conduct this test program and has
established a quality management system that led to accreditation
with ASTM Standard D7036-04 (Standard Practice for Competence
of Air Emission Testing Bodies). Montrose participates in annual
functional assessments for conformance with D7036-04 which are
conducted by the American Association for Laboratory
Accreditation (A2LA). All testing performed by Montrose is
supervised on site by at least one Qualified lndividual (Ql) as
defined in D7036-04 Section 8.3.2. Data quality objectives for
estimating measurement uncertainty within the documented limits
in the test methods are met by using approved test protocols for
each project as defined in D7036-04 Sections 7.2.1 and 12.10.
Additional quality assurance information is included in the report
appendices. The content of this report is modeled after the EPA
Emission Measurement Center Guideline Document (GD-043).
Heber Light and Power
Ray Fanell lntemal Combustion Power Plant
11 Montrose Air Quality Services, LLC.
April 2024 - Pretest Protocol
State ofUtah
SPENCERJ. COX
Governor
DEIDRBHENDERSON
Lieutenant Governor
Deparhnent of
Environmental Quality
KimberlyD. Shelley
Execttive Director
DrvIsIoN oF AIR QUALITY
Bryce C. Bird
Director
DAQE-ANI08840013-24
January 29,2024
JasonNorlen
Heber Light & Power Company
3l South 100 West
Heber City, UT 84032
j norlen@hebe{power.com
Dear Mr. Norlen:
Re: Approval Order: Modification of Approval Order DAQE-A1I108840012-22to Update
Equipment
Project Number: Nl 088400 1 3
The attached Approval Order (AO) is issued pursuant to the Notice of Inte,nt (NOI) received on January 4,
2023. HebqLight & Power Company must comply with the requirements of this AO, all applicable state
requirements (R307), and Federal Standards.
The project engineer for this action is Sarah Foran, who can be contacted at (385) 306-6724 or
sforan@utah.gov. Future correspondence on this AO should include the engineer's narne as well as the
DAQE number shown on the upper right-hand correr of this letter. No public comments were received
on this action.
Sincerely,
4--b/
Bryce C. Bird
Director
BCB:SFjg
cc: Wasatch County Health Department
195 Norttr 1950 West . Salt Lake City, UT
14firing Address: P.O. Box 1M820 . Salt Lake City, UT 841144820
Telephone (801) 5364000. Fax (801) 5364099. T.D.D. (801) 5364414
www.deq.utah.go
Printed on 100% rccycled papa
STATE OF UTAII
Department of Environmental QuaHty
Division of Air Quality
APPROVAL ORDER
DAQE-AIII08840013-24
Modification of Approval Order DAQE-ANI 088400 12-22
to Update Equipment
Prepared By
Sarah Foran, Engineer
(38s) 306-6724
sforan@utah.gov
Issued to
Heber Light & Power Company - Power Plant
Issued On
January 29,2024
Issued By
&aN
Bryce C. Bird
Director
Division of Air Quality
TABLE OF CONTENTS
TITLE/SIGNATTIRE PAGE
GE}I"ERAL INFORMATION
General Description
Source Classification ............3
Applicable Federal Standards .....3
Project Description
SECTION I: GEITIERAL PROYISIONS
SECTION II: PERMITTED EQTIIPMENT
SECTION tr: SPECIAL PROYISIONS.............
PER]VIIT MSTORY
ACROI\'YMS
t2
DAQE-A}I108840013-24
Page 3
OwnerName
Heber Light & Power Company
Mailing Address
31 South 100 West
Heber City, UT 84032
Source Contact
Name: JasonNorlen
Phone: (435)654-2913
Email: jnorlen@heberpower.com
GEII-ERAL INI'F' ORMATION
CONTACT/LOCATION INT'ORMATION
Source Name
Heber Light & Power Company - Power Plant
Physical Address
735 West 300 South
Heber City, UT 84032
1;114 gssldinates
463,964 m Easting
4,483,733 mNorthing
Datum NAD83
lIIMZone 12
SIC code 4911 (Electric Services)
SOURCE INT'ORMATION
General Description
Heber Light & Power Company (Heber) operates an electricity generating facility at its Ray Farrell
Intemal Combustion Power Plant Site. The facility operates as an electric power peaking facility in
Heber. The facility uses intemal combustion natural gas and diesel fuel powered e'ngines to power
generators to produce electricity. The facility is generally operated during peak demand and emergency
episodes. All power generated by the facility is sold to the existing power grid. Heber also generates
energy through on-site research and development @&D) engines. Combustion emissions are generated
as a result ofon-site operations.
NSR Classification
Minor Modification at Minor Source
Source Classification
Located in Attainment Area
Wasatch County
Airs Source Size: B
Applicable Federal Standards
NSPS (Part 60), A: General Provisions
NSPS (Paxt 60), ITI-I: Standards of Performance for Stationary Compression Iguition Intemal
Combustion Engines
NSPS (Paxt 60), JJJJ: Standards of Performance for Stationary Spark Ignition Intemal
Combustion Engines
MACT (Paxt 63), A: General Provisions
DAQE-ANI08840013-24
Page 4
MACT (Part 63), ZZZZ: National Emissions Standards forHazardous AirPollutants for
Stationary Reciprocating Internal Combustion Engines
Project Dessription
Heber has requested a modification to their AO for:
1. The addition of a new, 3,161 hp natural gas engine.
2. Update NO* and CO emissions as a result of engine operations and testing, requiring updated emission
limits.
3. The removal of Engine Unit #6.
4. Updating engrne sizing as follows: Unit #5; 1550 kW (previously 1620 k\\D, Unrt#12;2200 kW
(previously 2150 k\ID.
5. Updating unit operational hours, including aggregating operational hours for engines with the same
size and emission rate. Therefore, Units #4,#7, and #8 will have a combined total operational hour limit,
and Units #12-14 will have a combined total operational limit.
6. Reducing the hours of operation for Engine #11 to 5,200 hours per year.
7. Subsequent PTE updates as a result ofthese changes.
8. Plant equipment reconfiguration and addition of SCRs to existing engines :urrrt#!2 and #13.
STIMMARY OF ENIISSIONS
The emissions listed below are an estimate of the total potential emissions from the sowce. Some
rounding of emissions is possible.
Criteria Pollutant Chanse (TPln Total (TPY)
COz Equivalent 0 596s9.00
Carbon Monoxide 19.28 25.43
Nitroeen Oxides -5.15 81.71
Particulate Matter - PMro -0.s2 2.69
Particulate Matter - PMr.-0.s1 2.6t
SulfurDioxide 0.04 0.41
Volatile Orsanic Compounds 0.74 28.88
Hazardous Air Pollutant Chanse 0bsivr)Total Obs/w)
Acetaldehvde (CAS #75070)0 2800
Acrolein (CAS #107028)0 L7t2
Formaldehvde (CAS #50000)0 19140
Generic IIAPs (CAS #GI{APS)0 tt12
Methanol (CAS #67561)0 836
Chanse (TPY)Total0PY)
Total HAPs 0 12.80
DAQE-AN108840013-24
Page 5
SECTION I: GENERAL PROVISIONS
I.t 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]
r.2 The limits set forth in this AO shall not be exceeded without prior approval. [R307-40U
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 apfroved. [R307401-1]
r.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 4 minimum of two (2) years. [R307401-8]
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 contol equipment, in a manner consistent with good air
pollution confrol 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, opacrty observations,
review of operating and maintenance procedures, and inspectioi'of the s'otirrce. All
maintenance performed on equipment authorized by this AO shall be recorded. [R3074014]
I.6 The owner/operator shall comply vdth UAC R307-107. General Requirements: Breakdowns.
[R307-107]
The owner/operator shall comply with UAC R307-150 Series. Emission Inventories.
[R307-1s0]
I.8 'fhe owner/operator shall zubmit documentation of the status of construction or modilication 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 constmction is
discontinued for 18 months or more. To ensure proper credit when notiffing the Director, send
the docrunentation to the Director, atbr.: NSR Section. [R307401-18]
DAQE-AN108840013-24
Page 6
SECTION tr: PERMITTED EQTIIPMENT
tr.A THE APPROYED EOTITPMENT
II.A.I rlant wrde
Power Plant
u..4.2 One (1) Engine Generator
Unit#1
Location: Bay #6
Maximum Rating: 1350 kW
Fuel: Natural-gas
Control: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.3 one (r) Engine Generator
Urrtt#2
Location: Bay #9
Maximum Rating: 1350 kW
Fuel: Natural gas
Control: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.4 One (1) Engine Generator
Untrt#4
Location: Bay#10
Ma:rimum Rating: I 850 kW
FueL Natural gas
Control: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.5 One (l) Engine Generator (NEIV)
Unit#5
Location: Bay #5
Ma:<imum Rating: 1550 kW
FueL Natural gas
Control: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
u.A.6 une (I) ungrne Generator
Vrrtt#7
Location: Bay #7
Maximum Rating: 1850 kW
FueL Natural gas
Control: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
DAQE-ANI08840013-24
PageT
n.4.7 One (1) Engine Generator
Unit#8
Location: Bay #8
Maximum Rating: 1850 kW
Fuel type: Natural gas
CO Emissions contol: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.8 One (1) Engine Generator
Unit#11 3516H
Location: Bay #11
MaximumRating: 1750 kW
FueL Natural gas
Control: Oxidation catalyst
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.9 One (l) IJngine Generator
Untt#Iz3520H
Location: Bay#12
Marimum Rating: 2200kW
Fuel: Natural gas
Control: Oxidation catalyst, and SCR
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.10 One (l) Engine Generator (NEIY)
Unit#13 3520DSL
Location: Bay #13
Maximum Rating: 2631 kW
Fuel: Natural gas
Conftol: Oxidation catalyst and SCR
NSPS Applicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
tr.A.l1 One (1) Engine Generator (NEIY)
Unit#14
Location: Bay #14
Maximum Rating: 2550 kW
FueL Natural gas
Control: Oxidation catalyst, and SCR
NSPS Afplicability: Subpart JJJJ
MACT Applicability: Subpart ZZZZ
fr.4.t2 Research and Development Engines
Various Diesel and Natural Gas Engines
DAQE-ANI08840013-24
Page 8
tr.A.13 I'wo (2) Backup Emergency Generators
1. MaximumRating:60kW
Fuel: Diesel
2. MaximumRating: 80 kIV
Fuel: Diesel
NSPS Applicability: Subpart IIII
MACT Applicability: Subpart ZZZZ
tr.A.14 Various Portable Ensines
Madmumrating: 50 kW each
Included for inforrrational purposes
SECTION tr: SPECIAL PROVISIONS
tr.B REOUIREMENTS AI\D LIMITATIONS
tr.B.1 Limitation and Test Procedures
Il.B.1.a The owner/o_pery!9r shall not allow visible emissions from the following emission points saalF
not exceed the following values:
A. All diesel fired engines -20%o opacity
B. All-natural gas fired engines - l0o/o opacity.
[R307-201, R307401-8]
II.B.1.a.1 !}t"t!' observations of emissions from stationary sources shall be conducted according to 40
CFR 60, Appendix A, Method 9. [R307401-8]
ll.IJ. l.b I he owner/operator shall not exceed ttre tbllowing operational hours per rolling l2-month
period, from each rmit as designated below:
Unit #1, md #2: 4,000 hours combined
Untt #4, #7, and#8: 7,800 hours combined
Unit #5: 5,200 hours
Unit #11: 5,200 hours
Unlts #12,#13. #14: 1 5,600 hours combined
R&D NG Engines: 8,000 hours combined
Diesel R&D: 5,000 hours combined.
"combined" refers to the sum of hotrs amongst all units within an engine group, as listed above.
[R307-401-8]
DAQE-AN108840013-24
Page 9
u.tr.I.c The owner/operator shall maintain a log recording each unifs operational hours. The log shall
include the unit's name and hours operated per month. The owner/operator shall calculate a new
l2-month total by the 20th day of each month using data from the previous 12 months.
[R307401-8]
tr.B.1.d There shall not be more than six (6) R&D generators installed at the Heber Power Plant site. A
report shall be submitted to DAQ before the engine generators are installed. Th9 repor! slall
include the manufactures expected emission levels, the expected hours of operation and the
length of time that the engires will be operating. The following conditions shall apply to the
R&D engine generators:
A. The engine generators shall have not been manufactured more than 24-months
prior to installation
B. An engine generator shall not exceed 24-months of operation.
[R307-401-8]
II.B.I.d.I A report describing the results ofthe test operations ofeach engine generator tested shall be
subrnitted to the Director, attention New Source Review Section, within 45 days after the engine
generator has finished operating. The report, 6f l minimum, shall include the hp and kW rating,
power produced, pollution confiol equipment used on the engine generator, total hours of
operation on the engine, the power produced, NO* and CO emissions measured, and a summary
of the emissions testing results along with calculated factors. [R307401-8]
II.IJ- l.e The owner/operator shall ensure that each engine listed under U.A.2 - n.L.l2 vents exhaust gases
vertically unrestricted with an attached stack height of no less than 53' feet. A11 stacks shall be
installed within 18-months of the issuance of this AO and comply with condition I.8 of this AO.
1R307-40 1 -8, R307-41 041
DAQE-AI.Il 088400 I 3-24
Page 10
TI.B.2 Stack Testing Requirement!
l-8.2-a Th9 orlner/operator shall not emit more than the following rates and conCentations6m ihe
following units:
Location Pollutant lb/hr
Unit#1 NO. 4.06co 1.0
Uritt#2
NO* 4.06co r.0
Untt#4 NO. 5.35co 1.0
Unit #5 NO" 3.00co 1.0
Untt#7 NO* 5.35co 1.0
Unit #8 NO* 5.35co 1.0
NG R&D Units @ach)
NO*5.50
Diesel R&D
Unit#11 3516H
co 1.0
NO, 2.5co 1.0
NO, 4.75co 1.0
Untt#L23520HNO, 0.54co 1.0
unit#13 3520DSLNO* 0.54co 1.0
Unit#14 NO, 0.54co 1.0
[R307-401-8]
DAQE-AN108840013-24
Page 11
lI.B.2.a.l Compliance I)emonstration
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]
tr.B.2.b The owner/operator shall conduct any stack testing required by this [Q xsgov.ling to the
following conditions. [R30740 1 -8]
tr.B.2.b.1 Notilication
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]
rr.8.2.b.2 Test Frequency
The owner/operator shall conduct a stack test on each emission unit within whichever of the
following parameters occurs first; three (3) years or 8,760 hours of trnit operation after the date
of the most recent stack test of each listed emission unit. The Director may require the
owner/operatorto perform a stacktest atany time. [R307-L65-2, R307401-8]
L.ts.2.b.3 Initial Test
The owner/operator shall conduct an initial stack test on Unit #14 within 180 days after startup of
each emission unit. [R307-1 65-2]
1r.8.2.b.4 Testing & Test Conditions
The owner/operator shall conduct testing according to the approved source test protocol and
according to the test conditions contained in R307-1654. [R307-165-4, R307-401-8]
tr.B.2.b.5 Reporting
No later than 60 days after completing a stack ks! 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. [R3 07- 1 65-5, R3 07-40 1 -8]
tr.B.2.c 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.
[R307401-8]
II.B.2.c.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, R307401-8]
U..8.2.c.2 NO,
40 CFR 60, Appendix A, Method 7; Method 7E; or other EPA-approved testing method as
acceptable to the Director. [R307401-8]
n-8.2-c-3 CO
40 CFR 60, Appendix A, Method 10 or other EPA-approved testing method as acceptable to the
Director. [R307401-8]
DAQE-AN108840013-24
Page 12
PERMIT MSTORY
This Approval Order shall supersede (if a modification) or will be based on the following documents.
Supersedes AO DAQE-AN108840012-22 datedlune 6,2022
Is Derived From Notice of Intent dated January 4,2023Incorporates Additional Inforrnation dated September22,2023
tr.8.3 Monitoring
U..tt.J.a The owner/operator shall install, calibrate, maintain, and operate a monitoring device for the
continuous measurement of the temperature of each oxidation catalyst. The monitoring device
shall be accurate within plus or minus 25 degrees Fahrenheit. The temperature shall not exceed
1300 degrees Fahrenheit. Continuous recording for the monitoring device is not required.
However, daily records of readings shall be maintained. [R307401-8]
II.B.4 Emergency Ensine Req uirements
I.B.4.a The owner/operator shall not operate each emergency engine on site for more than 100 hours per
rolling l2-month period during non-emergency situations. There is no time limit on the use o-f
the engines during emergencies. [R307401-8,40 CFR 63 Subpart ZZZZ]
II.8.4.a.1 To determine compliance with a rolling 12-month total, the owner/operator shall calculate a new
l2-month total by the 20th day of each month using data from the prtvious 12 months. Records
documenting the operation of each emergency engrne shall be kepf in a 1og and shall include the
following:
a. The date the emergency engine was used
b. The duration of operation in hours
c. The reason for the emergency englne usage.
[R307-401-8,40 CFR 63 Subpart ZZZZ]
II.IJ.4,b The owner/operator shall only use diesel fuel (e.g. fuel oil #1, #2, or diesel fuel oil additives) as
fuel in each emergency engine. [R307401-8]
rI.B.4.b.l The owner/operator shall only combust diesel fuel that meets the definition of ultraJow sulfur
diesel (JLSD), which has a sulfur content of 15 ppm or less. [R307401-8]
t1.8.4.b.2 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
IILSD requirements. [R30740 1 -8]
DAQE-ANI08840013-24
Page 13
ACRONI"YMS
The following lists commonly used acronyms and associated translations as they apply to this document:
40 CFR Tifle 40 of the Code of Federal Regulations
AO Approval OrderBACT Best Available Contol TechnologyCAA CleanAirActCAJqA CleanAirActAmendmentsCDS Classification Data System (used by Environmental Protection Agency to classify
sources by sizeltype)
CEM Continuous emissions monitorCEMS Continuous emissions monitoring systemCFR Code of Federal RegulationsCMS Continuous monitoring systemCO CarbonmonoxideCOz Carbon DioxideCOze Carbon Dioxide Equivalent - Title 40 of the Code of Federal Regulations Part 98,
Subpart A, Table A-lCOM Continuous opaclty monitorDAQruDAQ DivisionofAirQualrtyDAQE This is a document tacking code for intemal Division of Air Quality useEPA Environmental ProtectionAgencyFDCP Fugitive dust control plan
GHG Greenhouse Gas(es) - Title 40 of the Code of Federal Regulations 52.21(bX49X0GWP Global Wanning Potential - Title 40 of the Code of Federal Regulations Part 86.1818-
t2(a)
HAP or HAPs Hazardous air pollutant(s)ITA Intent to Approve
LB/YR Pounds per year
MACT MaximumAchievable Control TechnologyMMBTU Million British Thermal UnitsNAA Nonattainment AreaNAAQS National Ambient Air Quality StandardsNESHAP National Emission Standards for Hazardous Air PollutantsNOI Notice of lrtent
NO' Oxides of ninogen
NSPS New Source Perforrnance Standard
NSR New Source Review
PMro Particulate matter less than 10 microns in size
PMz.s Particulate matter less than 2.5 microns in size
PSD Prevention of Significant Deterioration
PTE Potential to Emit
R307 Rules Series 307
R307401 Rules Series 307 - Section 401
SOz Sulfur dioxide
Tifle IV Title IV of the Clean Air Act
Title V Title V of the Clean Air Act
TPY Tonsperyear
UAC UtahAdminisffative Code
VOC Volatile organic compounds
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 7e4-2e50 (801 ) 266-7 1 11
Meter Box Calibration Data Form
(English Units)
Date Barometric Pressure Meter Box Number
1t5t2024 25.78 APEX XC-522
DGM No.20227130
Average Yi Average AH Calibrated By Std Meter Yi
1.006 1.695 JA 0.99497
Orfice Manometer Std Test Meter Dry Gas Meter Std Test Meter AH/13.6 Std Test Meter
Setting aH ffs) Ft3 (Vd) Ft3 (Ts) "F Average Temp.
0.50 5.002 4.938 62 0.04 62.00
62
1.00 5.001 4.928 62 0.07 63.00
64
1.50 10.005 9.903 64 0.'11 65.00
662.OO 10.004 9.959 66 0.15 67.00
68
3.00 10.004 9.933 68 0.22 69.00
70
4.00 10.009 9.924 70 0.29 70.50
71
Dry Gas Meter
lnlet Outlet Average Time @
(Td i)'F (Td o)'F (Td) "F Minutes Yi AH
59 58 60.50 1 1 .53 1.004 1.711
65 60
66 61 65.00 8.15 1.01 1 1-701
71 62
71 62 69.50 13.53 1.010 1.757
78 67
77 67 74.00 11.58 1.007 1.715
81 71
76 71 74.75 9.22 1.004 1.639
.7973
78 72 76.75 8.00 1.004 1-648
82 75
Average Yi Average AH
1.006 1.695
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 794-2e50 (801 ) 266-7 1 1 1
Meter Box Calibration Data Form
(English Units)
Date Barometric Pressure Meter Box Number
1t2t2024 25.56 APEX XC-522-10
- DGM No.351501
Average Yi Average AH Calibrated By Std Meter Yi
1.006 1.718 JA 0.99497
Orfice Manometer Std Test Meter Dry Gas Meter Std Test Meter AH/13.6 Std Test Meter
Setting AH (Vs) Ft3 (Vd) Ft3 (Ts) "F Average Temp.
0.50 5 4.876 74 0.04 74.50
75
1.00 5.004 4.987 76 0.07 76.00
76
1.50 10.001 9.979 76 0.1 1 76.00
762.00 10.003 10.121 76 0.1s 76-50
77
3.OO 10.04 10.053 77 0.22 77.50
78
4.OO 10.001 10.022 78 0.29 78.00
78
Dry Gas Meter
lnlet Outlet Average Time@
(Td i) "F (Td o)'F (Td) "F Minutes Yi AH
77 75 78.00 11.10 1.025 1.623
84 76
76 81 80.25 8.23 1.003 1-784
87 77
84. 77 83.50 13.40 1.007 1.765
93 80
88 80 86.25 11.65 0.996 1.773
95 82
91 82 87.50 9.30 1.004 1.685
94 83
91 84 89.75 8.02 1.003 1.678
99 85
Average Yi Average AH
1.006 1.718
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 7s4-2e50 (801 ) 266-7 11 1
Meter Box Calibration Data Form
(English Units)
Date
u2no24
Average V
0.990
Orfice Manometer
Setting AH
0.50
1.00
1.50
2.OO
3.00
4.00
Barometric Pressure
25.61
Meter Box Number
APEX XC-522-14
DGM No. 1017791
Average AH
1.682
Std Test Meter
(Vs) Ft3
5.001
5.004
10.002
10
10
1o.oo1
Dry Gas Meter
Outlet
(Td o)'F
62
63u
66
66
70
70
73
73
76
76
78
Calibrated By Std MeterYi
ATUJA 0.99497
lnlet
rrd D'F
75
75
72
80
78
89
85
91
90
95
95
97
Dry Gas Meter
(vd) Ffir
5.1
5.096
10.195
10.194
10.175
10.136
Average
(Td),F
68.75
70.50
75.75
79.75
83.50
86.50
StO fest Meter
Os)'F
60
65
65
65
65
68
68
70
70
70
70
72
Time Q
Minutes
11.97
8.3
13.25
11.22
9.12
7.9
AH/13.6
0.04
0.07
0.11
0.15
0.22
0.29
0.989
0.990
0.994
0.999
Average Yi
0.990
Std Test Meter
Average Temp.
62.50
65.00
66.50
69.OO
70.00
71.OO
Yi
0.986
0.984
AH
1.831
1.769
1.686
1.616
1.596
1.594
Average AH
1.682
Date
u10no24
AverageV
1.O29
Orftce Manometer
Setting AH
0.50
1.00
1.50
2.O0
3.00
4.00
Average AH
1.632
Std Test Meter
(Vs) Ftg
5.001
5.001
9.999
10.oo2
10.003
10.002
Dry Gas Meter
Outlet
Od o)'F
57
59
59
60
60
63
63
66
66
67
67
69
Std MeterYi
0.99497
Std Test Meter
(Ts)'F
63
65
65
68
68
68
68
70
70
71
71
73
TimeO
Minutes
11.15
7.92
13.03
11.18
9.07
7.90
0.07
0.11
o.15
0.22
0.29
Yi
1.036
1.026
1.025
1.O29
1.028
1.028
Average Yi
1.029
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 7 s4-2950 (801 ) 266-7 1 11
Meter Box Galibration Data Form
(English Units)
Barometric Pressure Meter Box Number
25.8 ES G-5000
DGM No.8219557
Calibrated By
ATT
Dry Gas Meter
(vd)Ft3
4.75
4.786
9.584
9.584
9.58
9.567
Average
(Td) "F
58.75
61.00
63.75
67.00
69.50
71.54
AH/13.6 Std Test Meter
Average TemP.
0.M 64.00
66.50
68.00
69.0O
70.50
72.00
lnlet
rrd D'F
58
61
61
et
il
68
68
71
71
74
74
76
AH
1.616
1.638
1.667
1.631
1.610
1.633
Average AH
1.632
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 7 94-2950 (801 ) 266-7 1 1 1
Sample Box Temperature Sensor Calibration Form
Sample Box Numben lmpinger Boxes (Gal)
Date:11812024
Calibrated By: CG
Barometric Pressure: 25.55
Reference: Dig i-Sense 20250-92 SN:210429562
Reference Point Source a
Number (speciff)
1 Probe on
APEX 1 Probe off
#1A(XC522) 3 CPM
4 Oven on
4 Oven off5 lmpinger ice5 lmpingeramb.
1 Probe on
APEX 1 Probe off
#2A (XC522-10) 3 CPM
4 Oven on
4 Oven off
5 lmpinger ice
5 lmpinger amb.
1 Probe on
APEX 1 Probe off
#3A(XC52-14) 3 CPM
4 Oven on
4 Oven off
5 lmpinger ice
5 lmpinger amb.
1 Probe on
ES 1 Probe off
#1A (C-5000) 3 CPM
4 Oven on
4 Oven off
5 lmpinger ice
5 lmpinger amb.
a Type of calibration system used.
b (reference temp. oF + 460) - (test thermometer temp. oF + 460)
reference temPerature 'F + 460
Reference Thermocouple
Thermometer Potentiometer
Temperature "F Temperature'F
242
71
71
245
71
33
72
237
71
72
248
71
34
72
246
72
70
245
71
33
72
251
71
72
2M
73
34
72
241
71
72
24
70
33
71
238
70
72
248
72u
71
245
73
71
245
72
34
72
251
72
72
242
72
33
71
Temperature
Difference b
o/o
-o.14
0.00
0.19
-0.19
-0.14
0.00
-0.19
o.14
-0.19
0.00
0.19
0.00
0.00
-0.19
-o.14
0.19
0.19
0.19
0.00
0.20
0.00
0.00
0.19
0.00
-0.19
-0.28
-0.20
-0.19
* 100< 1.5o/o
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 7s4-2e50 (801 ) 266-7 1 1 1
Sample Box Temperature Sensor Calibration Form
Sample Box Number: Probes (Cal)
Date:11812024
Calibrated By: CG
Barometric Pressure: 25.55
Reference Point
umber
.a)2',-A b)
c)
d)
e)
0
a)
z',-B b)
c)
d)
e)
0
Source a
(specifl)
lce Water
HotWater
Boiling Water
Warm Oil
Hot Oil
Boiling Oil
lce Water
Hot Water
Boiling Water
Warm Oil
Hot Oil
Boiling Oil
lce Water
HotWater
Boiling Water
Warm Oil
Hot Oil
Boiling Oil
lce Water
HotWater
Boiling Water
Warm Oil
Hot Oil
Boiling Oil
Reference
Thermometer
Temperature'F
35
160
220
250
350
461
SN:210429562
Thermocouple
Potentiometer
Temperature'F
35
161
221
249
352
460
Temperature
Difference b
o/o
0.00
-0.16
-0.15
o.14
-0.25
0.11
-0.20
0.00
0.15
-o.14
-o.25
0.11
-o.20
0.00
-0.15
o.28
o.12
0.22
-0.20
0.00
-o.29
-0.28
-0.12
-0.11
Reference: Digi-Sense 20250-92
3'- C
4'-A
a)
b)
c)
d)
e)
D
a)
b)
c)
d)
e)
D
36
162
22'.1
249
352
463
35
159
225
250
350
461
36
161
222
251
350
462
35
162
222
248
350
464
34
159
224
252
351
463
35
161
220
249
349
461
a Type of calibration system used.
b (reference temp. oF + 460) - (test thermometer temp. 'F + 460) * 100< 1.5%
reference temperature oF + 460
Montrose Air Quality Services
6823 South 3600 West Spanish Fork, Utah 84660
(801) 794-2e50 (801 ) 266:7 11 1
Sample Box Temperature Sensor Galibration Form
Sample Box Number Probes (Gal)
Date:11912024
Galibrated By: GG -ATT
Barometric Pressure: 25.5
Reference: Digi-Sense 20250-92 SN:210429562
Reference Point Source aNumber (speciff)
Reference ThermomuPle
Thermometer Potentiometer
Temperature "F Temperature oF
lce Water
HotWater
Boiling Water
Warm Oil
Hot Oil
Boiling Oil
Temperature
Difference b
%
-0.20
-0.17
0.15
-0.28
-0.25
-0.11
-0.20
-o.17
-0.15
-0.14
-0.25
0.11
0.00
-o.17
0.15
0.00
0.12
-0.22
-o.20
-0.17
0.14
-0.14
-0.12
-0.22
a)
6'-A b)
c)
d)
e)
D
41
135
224
253
341
449
42
136
223
255
343
450
a)
6'- B b)
c)
d)
e)
0
a)7',-C b)
c)
d)
e)
D
lce Water 41 42
Hot Water 137 138
Boiling Water 226 227
Warm Oil 259 260
Hot Oil 3M 346
Boiling Oil 451 450
lce Water 42
HotWater 139
Boiling Water 227
Warm Oil 260
Hot Oil 346
Boiling Oil 453
7'.-D
lce Water
HotWater
Boiling Water
Warm Oil
Hot Oil
Boiling Oil
a Type of calibnation system used.
b (reference temp. oF + 460) - (test thermometer temp. "F + 460) * 100< 1.5olo
reference temperafure oF + 460
a)
b)
c)
d)
e)
D
42
140
226
260
345
455
41
145
232
260
353
463
40
144
233
259
352
461
Montrose Air Quality Services
Certificate of Balance Calabration
Address: 6823 South 3600 West
City/State/zip: Spanish Fork, Utah 84660
Manufacturer:
Model:
SerialNumber:
ldentification:
Location:
Nominal Mass
t
20
50
100
200
Comments:
Sartarius
Analytical
Ba110530706871
AET #1
SmallTrailer
lndication
7
19.9999
49.9999
99.9998
199.9998
71412024
Error
0.0000
-0.0001
-0.0001
-0.0002
-0.0002
Nominal Mass
t
20
50
100
200
CertificateNo.: 1.14-202M1'
Calib. Date: Ll4l2O24
Technician: CheYneY GuYmon
Next Calibration:
Reference Weights Cal ld:
lndicatlon Error
1 0.0000
19.9999 -LE-O4
49.9999 -0.0001
99.9998 -0.0002
199.9998 -0.0002
Pertinent lnformation:
The artifact described herein has been calibrated using standards traceble to NIST. This is
to certify the data reported herein is true and correct as the date calibrated. The
procedure used to calibrate the artifact meets the requirements to meet MAQS Standards.
Authorized Signature:
Montrose Air Quality Services
Certificate of Balance Catabration
Address: 6823 South 3600 West
City/State/Zip: Spanish Fork, Utah 84660
Manufacturer:
Model:
SerialNumber:
ldentification:
Location:
Shimadzu
Top Loader
D4467LTAET #2439
AET #2
SmallTrailer
Certificate No.: Ll4-2024#2
Calib. Date: t l4l2il24
Technician: Cheyney GuYmon
Next Calibration:
Reference Weights Cal td:
NominalMass lndication
1 1.00
20 20
50 49.98
100 99.97
200 L99.97
Comments:
Pertinent I nformation:
71412024
Error
0.00
0
-o.o2
-0.03
-0.03
Nomina! Mass
1
20
50
100
zoo
lndication
1.00
19.99
49.98
99.98
L99.97
Error
0
-0.01
-0.02
-o.o2
-0.03
The artifact described herein has been calibrated using standards traceble to NlST. This is
to certiff the data reported herein is true and correct as the date calibrated. The
procedure used to calibrate the artifact meets the requirements to meet MAQS Standards.
Authorized Signature:
Montrose Air Quality Services
Certificate of Balance Calabration
Address: 6823 South 3600 West
City/State/Zip: Spanish Fork, Utah 84660
Manufacturer:
Model:
SerialNumber:
ldentification:
Location:
Nominal Mass
t
20
50
L00
200
Comments:
OHAUS
Top Loader
8350103094
AET #5
Gooseneck
lndication
t
20
50
99.9
199.9
71412024
Certificate No.: t l4-2o24*5
Calib. Date: 1'1412024
Technician: CheYneY GuYmon
Error
0
0
-0.1
0
-0.1
Next Calibration:
Reference Weights Cal ld:
Error
0
0
0
-0.1
-0.1
Nomina! Mass
7
20
50
100
200
lndication
L
20
49.9
100
199.9
Pertinent lnformation:
The artifact described herein has been calibrated using standards traceble to NIST. This is
to certifo the data reported herein is true and correct as the date calibrated. The
procedure used to catibrate the artifact meets the requirements to meet MAQS Standards.
Authorized Signature:
Montrose Air Quality Services
Certificate of Balance Calabration
Address: 5823 South 3600 West
City/State/Zip: Spanish Fork, Utah 84660
Manufacturer:
Model:
SerialNumber:
!dentification:
Location:
OHAUS
Analytical
8329582368
AET #6
Gooseneck
lndication
7
20
49.9998
99.9998
199.9998
71412024
Error
0.0000
0
-0.0002
-o.0002
-0.0002
CertificateNo.: L14-2024#6
Calib. Date: Ll4l2o24
Technician: Cheyney GuYmon
lndlcation Error
0.9999 -0.0001
2A0
49.9998 -0.0002
99.9997 -0.0003
199.9998 -0.0002
Next Calibration:
Reference Weights Cal ld:
Nominal Mass
L
20
50
100
200
Comments:
Nominal Mass
1
20
50
100
204
Pertinent lnformation:
The artifact described herein has been calibrated using standards traceble to NIST. This is
to certify the data reported herein is true and correct as the date calibrated. The
procedure used to catibrate the artifact meets the requirements to meet MAQS Standards.
Authorized Signature:
Montrose Air Quality Services
Certificate of Balance Calabration
Address: 6823 South 3600 West
city/state/zip: Spanish Fork, Utah 84660
Firstaden
HC21404N
94L
MAQS.1
Laboratory
lndication
t
20
49.9999
100
199.9999
Pertinent lnformation:
The artifact described herein has been calibrated using standards traceble to NIST. This is
to certify the data reported herein is true and correct as the date calibrated. The
Authorized Signature:
Certificate No.: 1,14-2024#8
Catib. Date: 1'1412024
Technician: CheYneY GuYmon
lndlcatlon Error
1 0.0000
20 0.0000
500
99.9999 -0.0001
200 0
Manufacturer:
Model:
SerialNumber:
ldentification:
Location:
Next Calibration:
Reference Weights Cal ld:
NomlnalMass
1,
20
50
100
204
Comments:
7l4lAo24
Error
0.0000
0.0000
-0.0001
0
-0.0001
Nominal Mass
1,
20
50
100
200
procedure used to calibrate the artifact meets the requ to meet MAQS Standards.
Pltot Tube Gallbratlon Data Sheet
cdlbrarcd HtolTubc: S-Typs PmDarPltotlD No: z'FrlP-z' l'lo
Profacbr or Ogld Angla Flndrr lD:
M.mdn!T.pelD:
C8llp6rlD:
0rla&RElrPRot Csfibra{on psrtom.d ullng lhs PmEdult3 ol EPA Mctlod 2, SGc0m 10.1
OE'.REHTJL.I
oai.REF4PR.'
Allgnmont and Tublng Dlmonslonsfi:W E
Pss
PEss
Pesg
Pass
D!!Eo hdlatlng Et rl potfilotr ror dlbildrllg ar rnd d..F=: @s4= ffi
D.0m hdlca[nl Lsl Doal0mIo]rffiillnllt! 0.
Pass
Pa68
Pa83
Pasa
Pess
Pffi
l,c!il lndlqon! bsl lod0or lord.t mlnlrg ?lll.r qEumn! Z
Alsambly lnter€omponcnt Spaclng R8qulrcmEnts
OlIretTC only
SS€d(TCmly
PasB
Pa!s
Pffi OfratTG only
Psdonnod Bl[
Apporld Bf
SlgnaiuE:
SlgnaturB:
oltl,[,tzI
0ll,t ta
a, (-1llo<a,< +10')2.O
d. (-10'<d"< +l0o)2.0
R. r-5" < tt. < +5")o.2
B. (-5" < IJ,<+J'l o.2
0.3
0
ArAlnr (r 0.125")
FAlEnB tt u.uJlzb-l 0,
U (0.1675'< Dt< 0.375")0.3740
P^ fi.Osq < P^ < l.sDJ 0.4830
Pr (1.05D <Pr<l.OUrl 0.4970
I P^- PB I s 0.0625 -0.0140
A
B
A
l, {> 3.O'l 6.000
aa I> 2_(r'l
)"o.376
, D, (> 1.5)LS2A
r {> 3.0,!s.1
z > 0_75.1 .t.530
Pmtaebror EgftEl Anglr Fhdsr lD: 0StA$REFPR(}!
Moarudng Tap3 lD: oq:BF!!E1_
Callbratlon p.ltomsd srlng tha ptlcedurB ol EPA lrathod 2. Src{on 10,1
Allgnment and Tublng Dlmsnslons
ffi"H
Pas
Pass
Pass
Fass
DrErtr Indldtlnr lcEl Dotltlon lot dlbmlrtn! al rlld d..F:: Eh \-tPt "€.m
Dclm ln tlcdlng Lsl panlon lwtmmlnlrg 0.
PEss
Pass
Parg
PBg
PB!
Pss
IJL
\iI
il
DlgE ltrrtlcrilnl |!6t portrlor iotddmhry tU8 crlcuLlm iL
OfiBstTC only
Setbad<T0 only
Psss
Pas8
Pass OtrsetTC on9
Partormod BI
ApprovEd Bf
a
cr (-10"<ar< +10')3.0
-llr<e< +l(F-'l 5.0
o, a-5'<6,< +51 4.O
9, (-5'<02<+51 o.2
't o.7
0 o.7
A o.s650
FALEnv (r 0.125"1 o.ot 18
w=Atan0 (r 0.03125')0.0118
& (0.1a76" < Dr< 0.376',)0.37/t0
P^ fi.05q <Pr<1.58)0.4&x)
Pr (1.O6Dr < Pr < 1.5q)o.4970
I P^- PB I S 0.0625 {).o140
A
B
j
I
I
ru (> 3.0")8.O00
tr-AA.>2-dl
0.800
D"o.251
x, D" (> 1.5)3.1tt
Y t> 3.O,1 3.360
z 2 0.75',1.no
A/il
fol()NTll()$[
Pltot Tube Callbratlon Data Sheet
ATT-IA
ID obrlructlm:
Cdlbrrbd PllotTub!:PrcbalPllot lD No:3'C-
PEb!TI{AVERSiE-Flilt ild
PEEacbr or Dlgltel Angl. FHs lD:
MEudng Tap.lD:
Cat'Ierltr
OIIA$REFPRO,I Cellbrellon prliom1.d ullng tha pE6dlE ot EPA Mslhod 2, Scc0il 10.'l
oEt'REFRUL-I
IlEt-RErcPR.,I
Allgnmont
M
T
and Tublng Dlmenslon!
E:
Pass
Pass
Pass
Pas
llett! lndt a[nl FEI pBuo lot aLLnnlnlre ar .nd ar,re: E Pass
PEs
Pas3
PaB
Pe
Passo.am lndtailtr! bE *" *rl,l, "
tiffiL---!- -
Ir.!m hnkr0ng bf,l po!ilm lb?l,.LEh[te rtr!fl rlqd.dn! Z
Asrcmbly lnter€omponsnt Sprclng Requlromont!
OftatTC only
SolbackTc only
Pass
Paas
Pass Oltu6tTC only
PafomedBy 14,SlgnatJra:
SlgnaturB:
0r/o!r:ta
otnE ilAppr.t€dBr .4n
a, (-10'<a'< +10")2.3
G -l0o < c< +10"),.8
B, (-5o < B. < +5ol 0.4
B" (-5"<8"<+51 o.4
f 2.1
0 1.8
A 0.9730
u Aten" (* 0.125'')0.0408
uFAiEn0 (r 0.03124')0.fft06
q (0.1sls < q< 0.375')0.3600
Pr O.05Q <P^<1.5q)0.3090
Pr (1.O5q <Ps<t.6Di)o-4(xx,
I P^- PE | < 0.0625 -0.0010
A
B
A
/v (> 3.o)6_(m
or- AA a> 2.011
o.gfi!
)i 0.251
, D" E 1.5)3.586
/ (> 3.0,t 3.400
z > o.75,1.150
Pltol Tubc ilCemcnl odlb.dlor strd RrvElon: 2 cEdd: ulu16 Dy lE EruO:ilI"I'OYIE
Pitot Tube Callbratlon Data Sheet
PmblrPltotlDnor 4'A-TP'4' No
PrcfEcbr or Dlgltrl Anglo Ftndor lD:
Msasuflg Tap. lD:
CanDsr lD
Calbra0ofl pdromsd u8lng lha PEEdulls ot EPA Mrthod 2, 8oriloll 10'l '
Allgnment and Tublng Dlmemlons
Pasa
Pass
Pass
Pasi
%:ffi Pass
Pass
Pass
Pasg
PasB
Pas8IrrtB ltrdlcr[n! Ertl pGilotr lbr cdmlnltrg 0.
"t,
Ir.gE lrdtcdtrr LEl porloonior.bt mlnlre,lhd qlqlrth! z
,v (> 3.(}\
d-AA a> 2-(fl
1.2tl1
,"o.376
, D" (> 1.5)3..ts,l
/ (> 3.O"t 3_200
! > o_75t t_500
OfratTC utly
Selbad<Tc only
PeB!
Pass
PeBE Ofr€tTCqlly
Psrturmod Bf
Approvad BS
B Slgnatur€:
SlgnalurE:
Z DAh:-
/' tu:,
olLEtzr
mroaiB4rr
d, (-10'<a'< +l0o)3.2
o (-10'<o"< +l0o)3.,1
R. a-50 < 8. < +5"',1 o.4
B- a-5.<8.<+J-l 1.8
7
0.88ti0
FAlenT tt u.tzo'0.0170
wEAlano (, u.trJlzb'o.oon
D, (0.1875' < q< 0.375")0.37m
Pe (1.05Q <P^<1.5Dr)0.4300
Pi (1.05q < Ps < 1.5Q)o.42fi
I P^- Pi | ! 0.0625 0.(xr50
I
B
l
6ril
MONTROSI
Pltot Tube Callbtatlon Data Sheet
,ltftrirtlr,:1
2024 Parlormcd Drn Afi-JA Explnllon Dd.:
Callbntad Pltot Tubc: gType PrcblrPllot lD No: 4tB-TP-4' No
&TrmDaTP! Efilctlw Lrnoth fftl: 4 Lcvtl lld
cdlHon
Prot'aEbror UCttsl Angl€ Flrdr lD: 0IIA&REF-PRGI CdMoll psfotmod urlng thc pmcdulE3 ot EPA Mohod 2, Srcilon 10.1
H*rtETgP.lD: 00i!REFRUL-.1
CrlparlD: oll-RErcPR-l
Allgnmont and Tublng DlmenslonsM:x
/fi Tf I Fr (-5' < Bt < +5') | 2'6 | PaEa
ll):*, X I s r-s'.s.+sl I t.e I Pass
DrgulndlcrdnllNlpqruotrlordrbErlrlngarrtdo.. I 0l 1.1 I
[:'M PEss& ffi H
(-10" <o.< +10'l 2.6
d" (-llr <4,< +10!)3.1
B, (-5' < B, < +5')2.6
B (-5.<&<+51 1.8
o.7
e 1
A o.8(xro
pAtanv li 0.'125'!0.m98
u=Ateno (t 0.Gt125')0.0,154
Dr (0.1875' < q< 0.375')0.3flx,
Pe (1.058 <P^<1.sDr)o.3EOo
P! (r.o6q < P. < r.sq)o.4000
I P^- Pr I < 0.0626 o.0100rr{mltrdrcdtnlrmtpqt[onrord.llmlnltrr0. I lp^-Prls0.o626 l -0.0100 I Pass
!,1f-ll
I,.!E |iltrc.[r! E6l Dodtlotr lor dltrmlnlr! ?titn illillrllm Z
Asrembly lntorcomponent Spaclng RoqulEmenb
-r lt,rru PEs
f-m=zo
n E3er 5.700
6r- AA l> 2 0'l
o.6so
)n o.251
, D- r> ,_51 2.745
t(>3.e)3.320
! > 0.75',2.550
Pasr OftEtTC only
Selbad<TC only
Pgsa
D"
PorbrmcdBs (4 stgnature:
Approvrd Br (ft slgneturu:
A
B
I
Pss ollaatTCmly
-m oiloatz.
Pltot Tubc llaEmtruil Clltrdla Shcd Rovldon: z cruarco: alryre Dy lE lEl!w:UI"I'TYIE
Pitot Tube Callbration Data Sheet
crllbrar!.t PltotTub!: $Typa FloblrPltot lD No: StA-TP-S' No
Msclora Dlglbl fugL Flndar lD:
UredngTspalD:
Calp3r lt}
O6tAE.REFPROI
081 TREFRIJL.'I
O8t.RErcPR.l
Cellbm[on pcrtomgd uslng tha p]oc.duE! ot EPA Mchod 2, Sacilon 10"1
frclts lndlrllnf EEI pclllon lot ddllmltrln! or md qa.
r_____:* gfiz
u----==):h F .wfr
-41 E[W-
Drsc hdlcdln! l.El t-,*" ttT,:, "tt rr- <\t Ih---r-
t {m lndldlnq L6l n{ttotr ftr ddrtuldtr! , Orn elcsbltno z.
Algnment and Tublng Dlmenslons[;W t
Assembly lnter-ComponGnt Sp.clng Requlr€m8nt8
Pass
Pass
Pasg
Pess
Psss
Pasa
Pass
Pass
Pass
Pa8s
Pas
PB
Pass
Pass
OlhotTCmly
Selbad<TC only
OlhEtTCmly
laPqfo.msd Bf
Appot Ed Bf
Slgnatur8:
SlgnaUr€:,4n
DaIB:
DEls:
0l,0lrll
0 tltt:l{
-10" <a,< +10")4.1
-l0o < e< +I0')5.0
R. f-50 < 6. < +5.1 3.9
0" (-5o < B,< +5o)3.6
f 2.4
o o.3
A o.e500
F Alant L U.12d'0.0465
FAiEn0 at 0.03126'0.(xEo
D' (0.1875'< Dt< 0.375-)0.3740
Pr (1,05Dr < P^ < 1.5q)0./fi150
Pn (1.050r < PE < 1.6q)0_44m
P^- PE l5 0.(m25 .0.00s0
3
P!
A
E
i, (> 3.o't 5_Sst,
or- AA
'2
2-0rl
n nls
)r o.251
,D_r>.t 5l 3.645
r (> 3.0")3.300
! > o.75'1.400
Pltot Tube Callbration Data Sheet
CdHon p.riom.d uslng tha pmcadul€3 of EPA Mafiod 2, 8rc{on 10.1OEIAS,,REFPRO.IPror*hor tXglbl Angb Flnd€r lD:
Ms.sdng TapG lD:
Cs[FrlD:
0II.REFRUL-I
Allgnmsnt and Tublng Dlmenstong
ffi: HI
D.!il liltlcdng hEl lCltlotr iordlrlmlilng or lrd d. L%ffi1D!!nrrdletlnilm,r-*""rT,tr"
J
PaBg
Pasr
Pass
Pffi
Pass
Pass
Pass
Pass
'Pas
Pass
l
I
B
A
B
OfrdTC only
Satbad<TC only
O[sctTG only
Para
PaEs
Ps
lr.ID lndlq0tt! lrEl Dqnloo 16r dr!.mlnlng t lhlD qldLilng Z
A$embly lntor-Component Spaclng RoqulrDments
Perromod BS
App.wd Br .ffi
\
llliltr/z|
ot/ot iL
a, f-I0o <a,< +lon o.7
G a-loo <G< +lon o-l
B. ,-5o < 6. < +5o)0.4
B- a-5o < 8.<+56'l 1.7
2.2
0 0.6
A o.9550
FAlanY (t 0.125)0.0:F/
FAlil0 (+ 0.03125')0.0100
q (0.1875' < q< 0.375',)0.3700
Pe (l.(Eo < P^ <'1.5q)o.4900
Pr (1.O5Q < PE < t.sD!)o,495(,
I P^- PE | < 0.0625 {.0050
tv (> 3.0")5_gx,
AA
'> '
(TI
o 65n
)n o.251
, D. (> 1.5)2.690
r t> 3.d'l 3.440
z > 0.75'1.280
Pitot Tube Callbration Data Sheet
CdlbnildPllotTubr: S-Tvpa ProblrPltollDNo:
PBbadDr or Dlglrl Angl6 Fhdat lD: 00IA&REFPRG'!CEllbrstlon psdbmad uslng h! poc.duEs of EPA Me0lod 2' Srcdon 10'1
MorsudrE Tep€ lD:
CdlpslD:
Allgnment and Tubtng Dlmcnslons
E: H
IE0u lndlcrdtr! bEl Dsuon lb, d.Etlrlnln! cr md or.
Pass
Psss
Palg
Pa88
E:. M&*ffi PasB
Pass
Pags
Psss
Pe
PassDlgrE lm[don! lrsl pod[on lbt d.llllrltllo! 0.
D!!!E tndldilng Eyll pGluoll for.nlrBlrlln0rlt n calsldltrg z.
A$embly lrbr.componont Spaclng Requhements
OfratTGsly
Salbad(Tc only
Pa8s
Pe
Pa!8 Ofrsc[ TC only
Psrfrrm€d BS
Appror€d Bf
d l,l,I(MA
oltaEt?4
-10! <a.< +10"1 3.5
-l(F<k +!0"1 1.6
B. r-5. < B, < +5c)1.1
B" (-5o <8,<+5")2.4
I 1.E
s .i.1
A 0.7980
EAten, (1 0.125"1 0.0251
w.AEne (t 0.03125')0.0105
Dr (0.1875" < q< 0.375")0.3700
P^ (1.05q <P^<1.5q)0.3875
PE (1.OEDr < P! < 1.5q)o_4(}85
I P^- PB l< 0.(825 -0.0110
A
B
w l> 3.0F1 6.OOO
aa,>2-(rl
1 '5.)
)n 0.251
x, Dn (> 1.5)4.980
r (> 3.o,)3.370
z > o.7*o.985
\
Dale:Zfr
Pltot Tube Callbratlon Data Sheet
PltrrEdoror Dlgltil Angts Flndar lD:
Mrstulng Teps lD:
Crfp.r lD:
CallbEton psrtomsd uslng lia prDBdurBr of EPA l,3hod 2, soc[on '10.1
I,II3REFRUL.I
OEI.RErcPR.I
| . Allgnment 8nd Tublng Dlmonslons
E: W F
PaBa
Pass
Pss6
Pffi
IrGIE lndEa0tr! lGEl pq![m iord.tlmlnlng ar rtrd a]
Pasr
Pass
Pas
Pass
P*s
PsIrrIE ltrdlrdlll! l.El podtm tot tl.lrmlnhg 0.
lr!!m ltrdlc ilr3 blrd porloor lord.Lmltrlr!,tl!.n Elcohtlng z
Assembly lntcr-Componelil Spaclng Requlrcments
Ps
Pas
Pss
Pass
O{HTCoflty
Selbad<TC oily
OfrBetTC only
ffimedBy
ApplorEd Bf
Slgnatr€:Dats:
-
,/t slgnature: fd " DEto:
-
o1mi2.
{ -10'<d.< +10")1.0
G (-l0o <c< +10')2.4
(-5"<8,<+5")0.9
(-5'< L<+5')1.8
.l 0.8
6
FAlanY I* U.IzC'o,
FAIENS T* U.TJ:'IzC'o,
q (0.187S < Dr< O.37S)0.3700
Pe (1.058 < P^< 1,5Dd 0.4100
PE (1.05q < PE < 1.5Dr)o.4400
I P^- Pr | < 0.0626 -0.0300
A
B
A
l\ Pitot Tube Callbratlon Data Sheet
MoNTtotl
Prob.rPllot lD No: 6'B-TP-6' ilo
Pmffacbr or Digllsl Angl6 Flnd6r lD:
Mrasulng TEps lD:
Calper lD.
06IA$REFPR(}I
08'lIREF{UL-I
OsI.REFCPR.I
CBllbrallon p6rromsd uslng lha pmcsdurss of EPA Mslhod 2. 6€don 10"1
I Allgnment and Tublng DlmenslonsF"'M
EtY" T- |
Pass
Pass
Pa8s
Pas
D.Itt. lndlrdll! lffil pclOm lbr ddmlnltrg a. ud oz.r--F'MIHlffi'ffi
Dcqru ltrdlcdln! Lld PGruq lor drbmlrlng 0.
Pass
Pars
Pase
Pass
P6ss
Pss
Assembly lnbrcomponent Spaclng RequlEments
OtruotTC only
S€tbd(TC ody
PssB
PaEs
PasE OfralTCmly
Psdormod BS
a. (-10'<d,< +r0o)3.0
(-t0o<G< +l0n 1.9
R. t-5" < B. < +J't 0.0
B- t-f,. < b.<+J-t 1.3
0.7
0 '1.6
0.Er
FAtEnr (t 0,125 0.009I
FAlanB t* U.t:llZO o.wzs
D, (0.1875'< Dr< 0.376',)o.37m
Pe (1.05Q <P^<1.5q)0.3988
Ps (1.osDr < PE < 1.5q).0.4(m
I Pe- Ps | < 0.0625 .0.uxl2
]IBE lndlcdl! lrsl p6tlo lordendnhf , urtr elad.Ung z
iv (> 3.0.)a.ooo
aah2nrl
)n 0.376
(, D" (> 1.5)2.340
r (> 3.fl)3.3i5
f>o75''t.450
| \ Pitot Tube Gallbratlon Data Sheet
crllbr.bd FttotTubi: S-Tvoe PtobGrPltotlD No: 7'C-TP'7' No
Protacbr or Ogld Angb Flndrr lD
MredngTap! lD:
Callpar lD:
OtIA$REFPRGi CdlbBuon pailoElsd uslng lha proEdul8 of EPA Mathod 2, Sccdm '10.1
oElrreHUL-l
Pa!s
Pass
Pss!
PEsB
Psss
Pas
Pas
Pass
Paas
Ps
tlrEE tndlcdn! lNl pqltlon tur ddrmlnltr! ?tlrtr qlcuHng :l
Assombly lnter4omponont Spaclng RequlrrmentB
OlhslTC only
SelbadrTC only
Pas€
Pffi
Pffi Otlb6tTC only
Perturmed By oltlJ6,4
0trlu:alApso!,sdBy ./ff
a. (-l0o<a,< +lm ,t.1
6 (-10'<a"< +l(P,3.5
R.
'-50
< 8. < +5n 2.7
a. (-5.<8-<+5.)2.7
0
A
FAtmY (t u.rzc'
FAtanI tt u.trJlzc'0.01
q (0.1875' < q< 0.375')0.3700
P^ (1.O5Dr <P^<1.5q)0.4100
PE (1.05Dt <Pr<1.E8)0.4000
IPA-Pels0.0626 0.0100
A
B
Pltot Tube Callbratlon Data Sheet
Fnor Tubc: $Tvpe rbsrPliot lD ilo: 7|D-TP-7' o oamagor
Callbrauon p8fomed uslng lhe Ptocodu]B ot EPA irshod 2, Ssc{on 10.1
Pass
Pass
PB
Pass
PsB
PaBB
Fall
Pass
PEsE
Pas
'if
F--ii,.-ffi.,
Asssmbfy lnter4omponent Spaclng Raqulr€ment3
ftBstTC mly
lbsd(Tc only
Pars
PaBB
Pass frstTC only
z0
nde ilAnWl
DdB:
-
1fi|,,xl1
d, (-l0o<a,< +IlP)I
c (-l(P <o.< +ltP)0
B. (-50 < B, < +5")0
B" (-5" < B,<+5o)0
f 1
o
0.&i3
FAl,an? (* u.'lzo-l 0.014&1m69
uFAlano (t o.(f,tlzc)o
D, (0.1875'< q< 0.37e)0.376
Pr (1.05Q <P^<1.5DJ 0.41
Pr fl.054 < P5 < 1.6Q)0.4
I Pa- P! | S 0.0625 o-ol
w(>ti.1
AA,>2O"I
Dn 0.376
x, D" (> 1.5)2.12n
Y(>3.e)3.4
z > 0.75'0.76
Pltot Tubo Callbn0on Data Sheet
Profrcior or lllglbl Angh Flndrr lD:
Mlllurlng T.pr lD
CdlplrlD:
OSIAS{EFFRGI C8[brdlon pr]fomld ullng ih! procldu]!! ot EPA Mdhod 2, srcilon l0.l
Allgnmont and Tublng Dlmonslont
fi: H
Pass
Pess
Pass
Pass
D.eD HlcdQ lcl Dduoi h8d.hilhhg dr nd q
wffi Psrs
Pmr
Pass
Pass
Psrg
P6!
r -)
D.fr hdlcdtrs bil poildtlord-dErf 7!rc&ild4 Z
Arsernbly lnbr€omponent Sptclng Roqulrsmont!
OllislTConly
SGlbad(TCmly
PEsB
PasE
Pass OfBetTC mly
PrrtEIrnad BS
ApFstBd Bf DatE:
-
oltiltz{
olnttzt
c, (-lO'<a!< +l(r)2.1
d' (-10'<cr< +10")2.O
8. I-5.<8,< +5'l 0.3
6" (-5o < &<+5'l o.2
7 0.3
0 0.9
A 0.9560
FAtffi, (r 0.126'l 0.0060
FAieno (+ 0.03125'l 0.0160
q 0.1875' < q< 0.375')0.3740
Pr (1.Ir5Q < P^ < 1.6q)0.4830
Pr (1.054 < PB < 1.5q)0.4970
I P^- Pr I S 0.06:16 -o.Oljlo
A
B
A
/v (> 3.0n 6.000
or-AA (>2-0')
oBm
)i 0_376
/ D, (> 1.5)2128
f E3.m 3.2W
a > o.7ff .t-530
F,'ofirEd t lelH AnCh Fhd.! lD:
fihrhgTepaltr
C4rlII
OIIA$REFPRO.I
0II.REFRUL-I
06tfrEFCFR-l
calbfaton pJlbfit d udnc th. proc.tluEt ol EPA Matlod 2, 6.Eflm l0'1
Allgnment and Tublng Dlmenslons
fi: H
P!r8
PE
Pass
PaaB
D.[Eblrcdmlrrd
&
!r
PEra
Paaa
Pasa
Pa8!
PE
P&DrlE llldlcdlE lad porlucl tb? d.tltDlolng 0'
{r
--
-'l
b(nc lrdLdhl f.d Idllts lbrd.Lmlrln!,t[.n qlcddlne iZ
Assembly lnter-Componont Spsclng Requlrgmentr
ofrratTc ctly
Salbad<TC anly
,I'ALUEI
PE!8
Pars OfrBBtTConlY
MornaOBf
Am(olr€dBr
0t0raa
0titEza
I
)
a, (-l(r<a'< +!tr)2.1
c (-llF <c,< +l0ql 2.2
B. (-5.<8,< +5.)0.3
B- (-5. <&<+5"1 0.3
0.3
0 0.8
A 0.9550
FAtEnY (* 0.126'l o.il85
rcAtan0 (+ 0.03125n o.olgt
Dr (0.187e < q< 0.375')0.37l()
Pr 0.(E4 <P^<1.5Dr)o.4&x,
Pr (1.O5Dr <Pr<l.EDr)o.4e70
lP^- P8 ls0.G25 {.0.t40
A
B
I
,v (> 3.e)N'A
or- AA l> 2 (fl N'A
N'A
,T N'A
, D" (> 1.5)
r' (> 3.dl N'A
| 2 0.75r N'A
.d?T
!
Pltot Tube Callbratlon Data Sheet
MIiffi
C$r!0on pttffi u*lg 0.ptudur. otEP tLfiod2. S.cilon 1o.lOEIAgffFFR(}IPrdrE a tlgllt Angh Fhdrr ltr
urcrtlgT?altl
C.&..1I}
Pro
Pa!3
Pas!
Pas
PE8
Pas8
Paag
P6!
Ps
Pass
Allgnment and Tublng Dlmsnllon3
fi: H
=
oollr. bdlc.thr l.rd pod0or tr.hLm[l[t! ar ud dl l-.&4=
ffiE
D.ortdG.ure Llrlpdorlbrlrt.nffilnr0' I
1r
-r
hB
,qE o'ocior rd'*""ffiHffiffi*t
spactng Requr]amcnt!
I
II
A
B
OllhetT0 only
Srtbsd(Tc only
'I'ALUEIPEs
Pasr OIh.tTC dlly
Dala:
-
olltElz1
Dat6:
-
o1n,f21
Pcrlbmod Bf
ApprclrdBf
a. (-10"<a,< +lm 1.9
G a-t(r <G< +los)2.O
8, {-5o <8.< +5n o.,
n^ l-5.<B-<+5o1 o.2
o.5
I 0.6
A 0.s60
?=Atrn? {* 0.12S'l o_dr84
FAt n0 (+ O.([t125rl 0.m84
q (o.lua < q< 0.375')0.3740
P^ (1.(Eq <P^<1.5q)0.,1910
Pr ('t.O5Q < P. < 1'6q)o.agao
lPr-Prll0.(85 .{t.0070
M>3.O't N'A
c- AA a> 2 flrl N'A
N'A
L N'A
(, D" (> 1.6)riltt#
t, l> 3.o.1 N?A
| > o75{N'A
UTAH DEPABTMENT OF
ENVIRONMENTAL QUALITY
A Lr i..tt! ,i
DIVIS|ON OF AIR QUALITI