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Home My WebLink AboutDAQ-2024-0047921 DAQC-136-24 Site ID 13031 (B4) MEMORANDUM TO: STACK TEST FILE – PACIFICORP LAKE SIDE PLANT THROUGH: Harold Burge, Major Source Compliance Section Manager FROM: Rob Leishman, Environmental Scientist DATE: February 9, 2024 SUBJECT: Source: Units CT11, CT12, CT21, and CT22 Contact: Veronica Reyes – 801-796-1916 Tom Wiscomb – 801-220-2373 Location: 1825 North Pioneer Lane, Lindon, Utah County, UT Test Contractor: Montrose Air Quality Services, LLC FRS ID#: UT0000004904900241 Permit/AO#: Title V operating permit #4900241002, dated July 16, 2021 Action Code: TR Subject: Review of Stack Test Reports dated June 29, 2023, August 16, 2023, and August 18, 2023 On June 29, 2023, Utah Division of Air Quality (DAQ) received a test report for the Pacificorp Lake Side Power Plant Units CT11, CT12, CT21, and CT22. Testing was performed on May 16-19, 2023, to demonstrate compliance with the particulate (PM10/PM2.5) emission limits found in Conditions II.B.2.g and II.B.6.f. The DAQ-calculated test results are: Source Test Date Test Method Pollutant DAQ Result Limit CT11 5/18/2023 RM201A/202 PM10 14.3 lb/hr* 10.8 lb/hr* 0.0086 lb/MMBtu 0.01 lb/MMBtu CT12 5/19/2023 RM201A/202 PM10 9.6 lb/hr 10.8 lb/hr 0.0055 lb/MMBtu 0.01 lb/MMBtu CT21 5/16/2023 RM201A/202 PM10/PM2.5 10.7 lb/hr 14 lb/hr CT22 5/17/2023 RM201A/202 PM10/PM2.5 13.0 lb/hr 14 lb/hr Note*: CT11 exceeded PM10 limits due to high back half condensable particulate. A retest was performed on July 14, 2023, to demonstrate a return to compliance: Source Test Date Test Method Pollutant DAQ Result Limit CT11 7/14/2023 RM201A/202 PM10 13.1 lb/hr* 10.8 lb/hr* 0.0073 lb/MMBtu 0.01 lb/MMBtu Note*: CT11 exceeded PM10 limits on the retest due to high back half condensable particulate. 1 8 2 2 A second retest was performed on August 4, 2023, after minor repairs and system checks were performed to demonstrate a return to compliance with PM10 limits: Source Test Date Test Method Pollutant DAQ Result Limit CT11 8/4/2023 RM201A/202 PM10 7.9 lb/hr 10.8 lb/hr 0.0049 lb/MMBtu 0.01 lb/MMBtu A different test contractor was used to conduct the second retest of unit CT11 on August 4, 2023. It was stated in the reports that the initial contractor was unavailable to conduct the testing due to scheduling conflicts. The second retest cover letters indicated that the unit CT11 did not operate after the initial PM10 test failure except for purposes of stack testing to avoid operating out of compliance. The PM10 and PM10/2.5 limits listed in conditions II.B.2.g and II.B.6.f. are based on a “rolling 30-day average.” This is believed to be a typo and the both the source and DAQ interpret the permit condition to be based on a normal 3 or 6-hour average RM201A test since compliance testing for 30 days straight would be an undue burden on the company. DEVIATIONS: Pacificorp exceeded the emissions limit for PM10 on May 18, 2023, and July 14, 2023. CONCLUSION: Pacificorp Lake Side Power Plant conducted a PM10 test and RATA for all units on May 16-19, 2023. Unit CT11 exceeded the limit of 10.8 lb/hr listed in Title V condition II.B.2.g on May 18, 2023. The unit was retested on July 14, 2023, for PM10, and again failed to meet the 10.8 lb/hr limit. After some maintenance on the unit and a second retest on August 4, 2023, the company demonstrated a return to compliance for PM10. The other three units demonstrated compliance with the PM10 emission limits of the Title V operating permit at the time of the initial test. RATA results will be evaluated in a separate report. RECOMMENDATION: Send an Early Settlement offer for exceeding PM10 emission limits from unit CT11 on May 18, 2023, and July 14, 2023. HPV: No. ATTACHMENTS: Pacificorp Lake Side Stack Test Reports dated June 29, 2023, August 16, 2023, and August 18, 2023. Stack Test Review Sheets Source Test Report for 2023 Compliance / RATA Testing CTG11, CTG12, CTG21 and CTG22 PacifiCorp Lake Side Power Plant Lindon, Utah Prepared For: PacifiCorp :1RUWK7HPSOH6XLWH 6DOW/DNH&LW\8WDK Prepared By: Montrose Air Quality Services, LLC :HVWUG$YHQXH 'HQYHU &RORUDGR For Submission To: Utah Division of Air Quality 1RUWK:HVW 6DOW/DNH&LW\8WDK Document Number: GP043AS-023429-RT-1331 Test Dates: May 16 - 19, 2023 Submittal Date: June 19, 2023 PacifiCorp 2023 RATA Report, Lake Side Power Plant Review and Certification All work, calculations, and other activities and tasks performed and presented in this document were carried out by me or under my direction and supervision. I hereby certify that, to the best of my knowledge, Montrose operated in conformance with the requirements of the Montrose Quality Management System and ASTM D7036-04 during this test project. Signature: Date: June 14, 2023 Name: Jeff Goldfine Title: Project Manager I have reviewed, technically and editorially, details, calculations, results, conclusions, and other appropriate written materials contained herein. I hereby certify that, to the best of my knowledge, the presented material is authentic, accurate, and conforms to the requirements of the Montrose Quality Management System and ASTM D7036-04. Signature: Date: June 14, 2023 Name: Matthew Parks Title: QA/QC Specialist GP043AS-023429-RT-1331 Page 2 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Table of Contents Section Page 1.0 Introduction ...................................................................................................... 6 1.1 Summary of Test Program ........................................................................... 6 1.2 Key Personnel ........................................................................................... 12 2.0 Plant and Sampling Location Descriptions ............................................................. 14 2.1 Process Description, Operation, and Control Equipment .................................. 14 2.2 Flue Gas Sampling Locations ....................................................................... 14 2.3 Operating Conditions and Process Data ......................................................... 14 2.4 CEMS Description ...................................................................................... 15 3.0 Sampling and Analytical Procedures ..................................................................... 16 3.1 Test Methods ............................................................................................ 16 3.1.1 EPA Method 1 ................................................................................... 16 3.1.2 EPA Method 2 ................................................................................... 16 3.1.3 EPA Methods 3A, 7E, and 10 .............................................................. 18 3.1.4 EPA Method 4 ................................................................................... 20 3.1.5 EPA Method 201A ............................................................................. 20 3.1.6 EPA Method 202 ............................................................................... 20 3.2 Process Test Methods ................................................................................. 21 4.0 Test Discussion and Results ................................................................................ 22 4.1 Field Test Deviations and Exceptions ............................................................ 22 4.2 Presentation of Results ............................................................................... 22 5.0 Internal QA/QC Activities ................................................................................... 23 5.1 QA/QC Audits ........................................................................................... 23 5.2 QA/QC Discussion ...................................................................................... 23 5.3 Quality Statement ..................................................................................... 23 List of Appendices A Field Data and Calculations ............................................................................... 24 A.1 Sampling Locations ................................................................................... 25 A.2 RATA Results ........................................................................................... 27 A.2 .1 Unit CT11 ............................................................................................. 28 A.2.2 Unit CT12 ................................................................................................ 32 A.2.3 Unit CT21 ................................................................................................ 36 A.2.4 Unit CT22 ................................................................................................ 40 A.3 Field Data ............................................................................................... 44 A.3 .1 Unit CT11 ............................................................................................. 45 A.3.1.1 PM Data ............................................................................................... 46 GP043AS-023429-RT-1331 Page 3 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant A.3.1.2 RATA Data ............................................................................................ 52 A.3 .2 Unit CT12 ............................................................................................. 60 A.3.2.1 PM Data ............................................................................................... 61 A.3.2.2 RATA Data ............................................................................................ 67 A.3 .3 Unit CT21 ............................................................................................. 75 A.3.3.1 PM Data ............................................................................................... 76 A.3.3.2 RATA Data ............................................................................................ 82 A.3 .4 Unit CT22 ............................................................................................. 90 A.3.4.1 PM Data ............................................................................................... 91 A.3.4.2 RATA Data ............................................................................................ 97 A.4 Example Calculations ................................................................................... 105 B Facility Process Data ........................................................................................ 113 B.1 Unit CT11 ................................................................................................ .114 B.2 Unit CT12 ................................................................................................ .124 B.3 Unit CT21 ................................................................................................. 134 B.4 Unit CT22 ................................................................................................... 144 C Laboratory Data............................................................................................... 154 C.1 Gravimetric Analysis ................................................................................. .155 D Quality Assurance/Quality Control ...................................................................... 169 D.1 Units and Abbreviations ............................................................................. .170 D.2 Manual Test Method QA/QC Data ................................................................ .178 D.3 Instrumental Test Method QA/QC Data ........................................................ .182 D.3.1 Unit CT11 ................................................................................................ 183 D.3.2 Unit CT12 ................................................................................................ 197 D.3.3 Unit CT21 ................................................................................................ 215 D.3.4 Unit CT22 ................................................................................................ 232 D.4 Calibration Gas Certificates ........................................................................ 249 D.5 Accreditation Information/Certifications ....................................................... 257 List of Tables Table 1-1 Summary of Test Program .......................................................................... 6 Table 1-2 Summary of Compliance Test Results – Unit CT11 ......................................... 8 Table 1-3 Summary of RATA Results – Unit CT11 ......................................................... 8 Table 1-4 Summary of Compliance Test Results – Unit CT21 ......................................... 9 Table 1-5 Summary of RATA Results – Unit CT21 ......................................................... 9 Table 1-6 Summary of Compliance Test Results – Unit CT21 ........................................ 10 Table 1-7 Summary of RATA Results – Unit CT21 ........................................................ 10 Table 1-8 Summary of Compliance Test Results – Unit CT22 ........................................ 11 GP043AS-023429-RT-1331 Page 4 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Table 1-9 Summary of RATA Results – Unit CT22 ........................................................ 11 Table 1-10 Test Personnel and Observers .................................................................. 13 Table 2-1 Sampling Locations .................................................................................. 14 Table 2-2 CEMS Information .................................................................................... 15 List of Figures Figure 3-1 EPA Methods 201A/202 Sampling Train ....................................................... 17 Figure 3-2 EPA Methods 3A, 7E and 10 Sampling Train ................................................. 19 GP043AS-023429-RT-1331 Page 5 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 1.0 Introduction 1.1 Summary of Test Program PacifiCorp contracted Montrose Air Quality Services, LLC (Montrose) to perform a compliance emissions test program on the sources listed in Table 1-1 at the Lake Side Power Plant located in Lindon, Utah. In addition, a CEMS RATA was conducted on the sources listed in Table 1-1. The compliance tests are conducted to determine compliance with the applicable emission limits listed in Title V Operating Permit number 4900241002 issued by Utah Division of Air Quality (UDAQ). The RATA is conducted to determine compliance with the applicable RA requirements listed in 40 CFR Parts 60 and 75. The specific objectives were to: • Measure emissions of PM/PM10/PM2.5 at the outlet of CTG11, CTG12, CTG21 and CTG22 • Determine the RA for the O2, NOX and CO CEMS used to monitor emissions from the outlet of CTG11, CTG12, CTG21 and CTG22 • Conduct the test program with a focus on safety Montrose performed the tests to measure the emission parameters listed in Table 1-1. Table 1-1 Summary of Test Program Test Date Unit ID/ Source Name Activity/Parameters Test Methods No. of Runs Duration (Minutes) May 16, 2023 CTG21 Perform PM Testing Perform O2, NOX, CO RATA EPA 1, 2, 3A, 4, 201A/202 EPA 3A, 7E, 10 3 9-12 ~120 21 May 17, 2023 CTG22 Perform PM Testing Perform O2, NOX, CO RATA EPA 1, 2, 3A, 4, 201A/202 EPA 3A, 7E, 10 3 9-12 ~120 21 May 18, 2023 CTG11 Perform PM Testing Perform O2, NOX, CO RATA EPA 1, 2, 3A, 4, 201A/202 EPA 3A, 7E, 10 3 9-12 ~120 21 May 19, 2023 CTG12 Perform PM Testing Perform O2, NOX, CO RATA EPA 1, 2, 3A, 4, 201A/202 EPA 3A, 7E, 10 3 9-12 ~120 21 GP043AS-023429-RT-1331 Page 6 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant To simplify this report, a list of Units and Abbreviations is included in Appendix D.1. Throughout this report, chemical nomenclature, acronyms, and reporting units are not defined. Please refer to the list for specific details. This report presents the test results and supporting data, descriptions of the testing procedures, descriptions of the facility and sampling locations, and a summary of the quality assurance procedures used by Montrose. The average emission test results are summarized and compared to their respective performance specifications in Tables 1-2 through 1-9. Detailed results for individual test runs and all supporting data can be found in the appendices. The testing was conducted by the Montrose personnel listed in Table 1-10. The tests were conducted according to the test plan (protocol) that was submitted to and approved by UDEQ. GP043AS-023429-RT-1331 Page 7 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Table 1-2 Summary of Compliance Test Results – Unit CT11 May 18, 2023 Parameter Reporting Units Emission Limit Emission Limit Reference Average Value PM10 lb/hr 10.8 Permit 4900241002 14.7 PM10 lb/mmBtu 0.01 Permit 4900241002 0.009 NOX ppmvd@15% O2 2.0 Permit 4900241002 1.8 NOX lb/hr 14.9 Permit 4900241002 13.2 CO ppmvd@15% O2 3.0 Permit 4900241002 0.3 CO lb/hr 14.1 Permit 4900241002 1.5 Table 1-3 Summary of RATA Results – Unit CT11 May 18, 2023 Parameter/Units Regulatory Reference Performance Specification Actual Value Part 60 Nitrogen Oxides (NOx as NO2) ppmvd @ 15% O2 PS-2 ≤ 20.0% of RM 2.1% lb/hr PS-6 ≤ 20.0% of RM 4.2% Carbon Monoxide (CO) ppmvd @ 15% O2 PS-4A d+CC≤ 5 ppm CO d+CC=0.2 lb/hr PS-6 ≤ 10.0% of AS 5.0% Part 75 Oxygen (O2) % volume dry App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 0.8% Nitrogen Oxides (NOx as NO2) lb/mmBtu App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 5.3% GP043AS-023429-RT-1331 Page 8 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Table 1-4 7 Summary of Compliance Test Results – Unit CT12 May 19, 2023 Parameter Reporting Units Emission Limit Emission Limit Reference Average Value PM10 lb/hr 10.8 Permit 4900241002 9.8 PM10 lb/mmBtu 0.01 Permit 4900241002 0.006 NOX ppmvd@15% O2 2.0 Permit 4900241002 1.8 NOX lb/hr 14.9 Permit 4900241002 13.5 CO ppmvd@15% O2 3.0 Permit 4900241002 1.4 CO lb/hr 14.1 Permit 4900241002 6.2 Table 1-5 Summary of RATA Results – Unit CT12 May 19, 2023 Parameter/Units Regulatory Reference Performance Specification Actual Value Part 60 Nitrogen Oxides (NOx as NO2) ppmvd @ 15% O2 PS-2 ≤ 20.0% of RM 3.9% lb/hr PS-6 ≤ 20.0% of RM 3.9% Carbon Monoxide (CO) ppmvd @ 15% O2 PS-4A ≤ 10% of RM 9.7% lb/hr PS-6 ≤ 20.0% of RM 7.4% Part 75 Oxygen (O2) % volume dry App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 0.6% Nitrogen Oxides (NOx as NO2) lb/mmBtu App. B Sect. 2.3.1.2 Annual: d ≤ 0.015 d=0.000 GP043AS-023429-RT-1331 Page 9 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Table 1-6 Summary of Compliance Test Results – Unit CT21 May 16, 2023 Parameter Reporting Units Emission Limit Emission Limit Reference Average Value PM10/PM2.5 lb/hr 14 Permit 4900241002 11 NOX ppmvd@15% O2 2.0 Permit 4900241002 1.7 NOX lb/hr 18.1 Permit 4900241002 11.4 CO ppmvd@15% O2 3.0 Permit 4900241002 0.1 CO lb/hr 16.6 Permit 4900241002 0.3 Table 1-7 Summary of RATA Results – Unit CT21 May 16, 2023 Parameter/Units Regulatory Reference Performance Specification Actual Value Part 60 Nitrogen Oxides (NOx as NO2) ppmvd @ 15% O2 PS-2 ≤ 20.0% of RM 5.1% lb/hr PS-6 ≤ 20.0% of RM 6.9% Carbon Monoxide (CO) ppmvd @ 15% O2 PS-4A ≤ 5% of AS 3.3% lb/hr PS-6 ≤ 10.0% of AS 2.7% Part 75 Oxygen (O2) % volume dry App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 2.2% Nitrogen Oxides (NOx as NO2) lb/mmBtu App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 6.0% GP043AS-023429-RT-1331 Page 10 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Table 1-8 Summary of Compliance Test Results – Unit CT22 May 19, 2023 Parameter Reporting Units Emission Limit Emission Limit Reference Average Value PM10/PM2.5 lb/hr 14 Permit 4900241002 13 NOX ppmvd@15% O2 2.0 Permit 4900241002 1.7 NOX lb/hr 18.1 Permit 4900241002 13.7 CO ppmvd@15% O2 3.0 Permit 4900241002 0.1 CO lb/hr 16.6 Permit 4900241002 0.4 Table 1-9 Summary of RATA Results – Unit CT22 May 19, 2023 Parameter/Units Regulatory Reference Performance Specification Actual Value Part 60 Nitrogen Oxides (NOx as NO2) ppmvd @ 15% O2 PS-2 ≤ 20.0% of RM 5.2% lb/hr PS-6 ≤ 20.0% of RM 4.4% Carbon Monoxide (CO) ppmvd @ 15% O2 PS-4A ≤ 5% of AS 1.2% lb/hr PS-6 ≤ 10.0% of AS 2.8% Part 75 Oxygen (O2) % volume dry App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 1.2% Nitrogen Oxides (NOx as NO2) lb/mmBtu App. B Sect. 2.3.1.2 Annual: ≤ 7.5% of RM 0.0% GP043AS-023429-RT-1331 Page 11 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 1.2 Key Personnel A list of project participants is included below: Facility Information Source Location: PacifiCorp Lake Side Power Plant 1825 N. Pioneer Lane Lindon, Utah 84024 Project Contact: Tom Wiscomb Veronica Reyes Role: Environmental Advisor Environmental Analyst Telephone: 801-220-2373 801-796-1916 Email: Tom.Wiscomb@PacifiCorp.com Veronica.Reyes@PacifiCorp.com Agency Information Regulatory Agency: Utah Division of Air Quality Agency Contact: Rob Leishman Telephone: 801-536-4438 Email: RLeishman@utah.gov Testing Company Information Testing Firm: Montrose Air Quality Services, LLC Contact: Jeff Goldfine Title: Project Manager Telephone: 303-495-3936 Email: JGoldfine@montrose-env.com Laboratory Information Laboratory: Montrose Air Quality Services, LLC City, State: Denver, Colorado Methods: 40 CFR Part 51, Appendix M, Methods 201A and 202 GP043AS-023429-RT-1331 Page 12 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Test personnel and observers are summarized in Table 1-10. Table 1-10 Test Personnel and Observers Name Affiliation Role/Responsibility Jeff Goldfine Montrose Project Manager Qualified Individual (QI) Trailer operator Colt Weils Montrose Sample train operator William Sweeney Montrose Sample train operator Matthew Parks Montrose Calculations and report preparation Tom Wiscomb PacifiCorp Test Coordinator Veronica Reyes PacifiCorp Plant Representative GP043AS-023429-RT-1331 Page 13 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 2.0 Plant and Sampling Location Descriptions 2.1 Process Description, Operation, and Control Equipment The Lake Side Power Plant comprises four combined-cycle combustion turbines designated CTG11, CTG12, CTG21 and CTG22. 2.2 Flue Gas Sampling Locations Information regarding the sampling locations is presented in Table 2-1. Table 2-1 Sampling Locations Sampling Location Stack Inside Diameter (in.) Distance from Nearest Disturbance Anticipated Number of Traverse Points Downstream EPA “B” (in./dia.) Upstream EPA “A” (in./dia.) CTG11 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below CTG12 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below CTG21 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below CTG22 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below Sample location(s) were verified in the field to conform to EPA Method 1. See Appendix A.1 for more information. 2.3 Operating Conditions and Process Data Emission tests were performed while the source/units and air pollution control devices were operating at the conditions required by the relevant performance specifications. The units were tested when operating within the load levels required by 40 CFR Part 75. Plant personnel were responsible for establishing the test conditions and collecting all applicable unit-operating data. The process data that was provided is presented in Appendix B. Data collected includes the following parameters: • Unit Load (MW) • Relevant CEMS Parameters GP043AS-023429-RT-1331 Page 14 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 2.4 CEMS Description Information regarding the monitoring systems is presented in Table 2-2. Table 2-2 CEMS Information Monitor Location Parameter Monitor Make / Model Part 75 ID Unit CT11 O2 Servomex Model 1440D 111 NOx Thermo Model 42C 112 CO Thermo Model 48C ––– Unit CT12 O2 Servomex Model 1440D 211 NOx Thermo Model 42C 212 CO Thermo Model 48C ––– Unit CT21 O2 Servomex Model 1440D 311 NOx Thermo Model 42C 312 CO Thermo Model 48C ––– Unit CT22 O2 Servomex Model 1440D 411 NOx Thermo Model 42C 412 CO Thermo Model 48C ––– GP043AS-023429-RT-1331 Page 15 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 3.0 Sampling and Analytical Procedures 3.1 Test Methods The test methods for this test program have been presented in Table 1-1. Additional information regarding specific applications or modifications to standard procedures is presented below. 3.1.1 EPA Method 1, Sample and Velocity Traverses for Stationary Sources EPA Method 1 is used to assure that representative samples or measurements of volumetric flow rate are obtained by dividing the cross-section of the stack or duct into equal areas, and then locating a traverse point within each of the equal areas. Acceptable sample locations must be located at least two stack or duct equivalent diameters downstream from a flow disturbance and one-half equivalent diameter upstream from a flow disturbance. 3.1.2 EPA Method 2, Determination of Gas Velocity and Volumetric Flow Rate (Type S Pitot Tube) EPA Method 2 is used to measure the gas velocity using an S-type pitot tube connected to a pressure measurement device, and to measure the gas temperature using a calibrated thermocouple connected to a thermocouple indicator. Typically, Type S (Stausscheibe) pitot tubes conforming to the geometric specifications in the test method are used, along with an inclined manometer. The measurements are made at traverse points specified by EPA Method 1. The molecular weight of the gas stream is determined from independent measurements of O2, CO2, and moisture. The stack gas volumetric flow rate is calculated using the measured average velocity head, the area of the duct at the measurement plane, the measured average temperature, the measured duct static pressure, the molecular weight of the gas stream, and the measured moisture. The typical sampling system is detailed in Figure 3-1, as part of the EPA Method 201A/202 sampling train. GP043AS-023429-RT-1331 Page 16 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Figure 3-1 EPA Methods 201A/202 Sampling Train FILTER HOLDERTHERMOCOUPLE Empty (modified / no tip) Empty (modified / no tip) WATER BATH WATER IN 200-300g Silica Gel (modified / no tip) VACUUM LINE ADAPTOR VACUUM LINE ICE BATH 100 ml H2O (modified / no tip) MANOMETER BY-PASS VALVE (fine adjust) AIR TIGHT PUMP VACUUM GAUGE MAIN VALVE (coarse adjust) THERMOCOUPLES DRY GAS METER ORIFICE GAS EXIT WATER OUTTYPE “S” PITOT CONDENSER THERMOCOUPLE MANOMETER THERMOCOUPLETHERMOCOUPLE HEATED PROBEPM10SAMPLER GP043AS-023429-RT-1331 Page 17 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 3.1.3 EPA Methods 3A, 7E, and 10, Determination of Oxygen, Carbon Dioxide, Nitrogen Oxides, and Carbon Monoxide Concentrations in Emissions from Stationary Sources (Instrumental Analyzer Procedure) Concentrations of O2, CO2, NOX, and CO are measured simultaneously using EPA Methods 3A, 7E, and 10, which are instrumental test methods. Conditioned gas is sent to a series of analyzers to measure the gaseous emission concentrations. The performance requirements of the method must be met to validate the data. Pertinent information regarding the performance of the method is presented below: o A dry extractive sampling system is used to report emissions on a dry basis o A paramagnetic analyzer is used to measure O2 o A nondispersive infrared analyzer is used to measure CO2 o A chemiluminescent analyzer is used to measure NOx o A gas filter correlation nondispersive infrared analyzer is used to measure CO o The alternative NOx converter efficiency test described in EPA Method 7E Section 16.2 is used (bag procedure) o Anticipated calibration span values are ~0-21% O2, ~0-20% CO2, ~0-20 ppm NOx, and ~0-10 ppm CO The typical sampling system is detailed in Figure 3-2. GP043AS-023429-RT-1331 Page 18 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Figure 3-2 US EPA Methods 3A, 7E and 10 Sampling Train O2 AND/OR CO2 ANALYZER NOx ANALYZER Exhaust Exhaust CO ANALYZER Exhaust SIGNAL SIGNAL SIGNAL Sample / Calibration Gas Sample / Calibration Gas Sample / Calibration Gas DATA OUTPUT DAS “ANALYZER” ROTAMETERS WITH FLOW CONTROL VALVES SAMPLE CONDITIONING SYSTEM WITH PUMP CALIBRATION GAS LINE STACK GAS STACK WALL HEATED SAMPLE LINE HEATED FILTER "SAMPLE” AND “BY-PASS" ROTAMETERS WITH FLOW CONTROL VALVES THREE WAY VALVE BY-PASS “BIAS” ROTAMETER WITH FLOW CONTROL VALVES EPA Protocol Calibration Gases MASS FLOW CONTROLLER / CALIBRATION GAS MANIFOLD GP043AS-023429-RT-1331 Page 19 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 3.1.4 EPA Method 4, Determination of Moisture Content in Stack Gas EPA Method 4 is a manual method used to measure the moisture content of gas streams. Gas is sampled through a probe and impinger train. Moisture is removed using a series of pre-weighed impingers containing methodology-specific liquids and silica gel immersed in an ice water bath. The impingers are weighed after each run to determine the percent moisture. Pertinent information regarding the performance of the method is presented below: o Moisture sampling is performed as part of the pollutant (Method 201A/202) sample trains o Since it is theoretically impossible for measured moisture to be higher than psychrometric moisture, the psychrometric moisture is also calculated, and the lower moisture value is used in the calculations o Minimum Required Sample Volume: 21 scf The typical sampling system is detailed in Figure 3-1, as part of the EPA Method 201A/202 sampling train. 3.1.5 EPA Method 201A, Determination of PM10 and PM2.5 Emissions from Stationary Sources (Constant Sampling Rate Procedure) To measure PM10 and PM2.5, extract a sample of gas at a predetermined constant flow rate through an in-stack sizing device. The particle-sizing device separates particles with nominal aerodynamic diameters of 10 micrometers and 2.5 micrometers. To minimize variations in the isokinetic sampling conditions, you must establish well-defined limits. After a sample is obtained, remove uncombined water from the particulate, then use gravimetric analysis to determine the particulate mass for each size fraction. The original method, as promulgated in 1990, has been changed by adding a PM2.5 cyclone downstream of the PM10 cyclone. Both cyclones were developed and evaluated as part of a conventional five-stage cascade cyclone train. The addition of a PM2.5 cyclone between the PM10 cyclone and the stack temperature filter in the sampling train supplements the measurement of PM10 with the measurement of PM2.5. Without the addition of the PM2.5 cyclone, the filterable particulate portion of the sampling train may be used to measure total and PM10 emissions. Likewise, with the exclusion of the PM10 cyclone, the filterable particulate portion of the sampling train may be used to measure total and PM2.5 emissions. The typical sampling system is detailed in Figure 3-1. 3.1.6 EPA Method 202, Dry Impinger Method for Determining Condensable Particulate Emissions from Stationary Sources The CPM is collected in dry impingers after filterable PM has been collected on a filter maintained as specified in Method 201A of Appendix M to 40 CFR 51. The organic and GP043AS-023429-RT-1331 Page 20 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant aqueous fractions of the impingers and an out-of-stack CPM filter are then taken to dryness and weighed. The total of the impinger fractions and the CPM filter represents the CPM. Compared to the version of Method 202 that was promulgated on December 17, 1991, this method eliminates the use of water as the collection media in impingers and includes the addition of a condenser followed by a water dropout impinger immediately after the final in- stack or heated filter. This method also includes the addition of one modified Greenburg Smith impinger (backup impinger) and a CPM filter following the water dropout impinger. CPM is collected in the water dropout impinger, the modified Greenburg Smith impinger, and the CPM filter of the sampling train as described in this method. The impinger contents are purged with nitrogen immediately after sample collection to remove dissolved SO2 gases from the impinger. The CPM filter is extracted with water and hexane. The impinger solution is then extracted with hexane. The organic and aqueous fractions are dried and the residues are weighed. The total of the aqueous and organic fractions represents the CPM. The potential artifacts from SO2 are reduced using a condenser and water dropout impinger to separate CPM from reactive gases. No water is added to the impingers prior to the start of sampling. To improve the collection efficiency of CPM, an additional filter (the “CPM filter”) is placed between the second and third impingers. The typical sampling system is detailed in Figure 3-1. 3.2 Process Test Methods The test plan did not require that process samples be collected during this test program; therefore, no process sample data are presented in this test report. GP043AS-023429-RT-1331 Page 21 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 4.0 Test Discussion and Results 4.1 Field Test Deviations and Exceptions No field deviations or exceptions from the test plan or test methods were identified by the project manager during this test program. 4.2 Presentation of Results The average results are compared to the permit limits in Tables 1-2 through 1-9. Emissions are reported in units consistent with those in the applicable performance specifications. Additional information is included in the appendices as presented in the Table of Contents. GP043AS-023429-RT-1331 Page 22 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant 5.0 Internal QA/QC Activities 5.1 QA/QC Audits The meter boxes and sampling trains used during sampling performed within the requirements of their respective methods. All post-test leak checks, minimum metered volumes, and minimum sample durations met the applicable QA/QC criteria, except where noted in Section 5.2. EPA Method 3A, 6C, 7E, and 10 calibration audits were all within the measurement system performance specifications for the calibration drift checks, system calibration bias checks, and calibration error checks, except where noted in Section 5.2. The NO2 to NO converter efficiency check of the analyzer was conducted per the procedures in EPA Method 7E, Section 8.2.4. The conversion efficiency met the criteria, except where noted in Section 5.2. 5.2 QA/QC Discussion All QA/QC criteria were met during this test program. 5.3 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 Individual (QI) 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). GP043AS-023429-RT-1331 Page 23 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A Field Data and Calculations GP043AS-023429-RT-1331 Page 24 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.1 Sampling Locations GP043AS-023429-RT-1331 Page 25 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant PacifiCorp Lake Side Power Plant Sampling Locations Pollutant Stratification Test Points Unit 11-22 Diameter (D) 216” Upstream Distance (A) 120” Downstream Distance (B) 576” Sample Point Distances from Stack Wall Traverse Point 1 9.5” Traverse Point 2 31.5” Traverse Point 3 63.9” 1 5 2 1 2 3 3 1 2 3 3 2 1 Stack Cross Section (A-A) D A B A A GP043AS-023429-RT-1331 Page 26 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.2 RATA Results GP043AS-023429-RT-1331 Page 27 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.2 .1 Unit CT11 GP043AS-023429-RT-1331 Page 28 of 261 Job Code PROJ‐023429 PacifiCorp, Lakeside CT11 Test Date: 5/18/23 Parameter: NOx (lb/mmBtu) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:40 8:00 249 0.007 0.007 0.000 x Number of Runs:9 2 8:18 8:38 246 0.006 0.007 ‐0.001 x T‐value 2.306 3 8:56 9:16 244 0.007 0.007 0.000 x Standard Deviation 0.000 4 9:32 9:52 244 0.007 0.007 0.000 x Confidence Coefficient 0.000 5 10:14 10:34 247 0.007 0.007 0.000 x Relative Accuracy (%RM) 5.3% 6 10:49 11:09 246 0.007 0.007 0.000 x Emission Limit n/a 7 11:24 11:44 246 0.007 0.007 0.000 x Relative Accuracy (%EL)n/a 8 11:59 12:19 246 0.007 0.007 0.000 x Bias Adjustment Factor 1.000 9 12:34 12:54 245 0.007 0.007 0.000 x 10 11 P75, Annual: NOx lb/mmBtu 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.015 lb/mmBtu 14 15 Average 246 0.007 0.007 0.000 Parameter:O2 (%vd) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:40 8:00 249 13.5 13.4 0.1 x Number of Runs:9 2 8:18 8:38 246 13.4 13.4 0.0 x T‐value 2.306 3 8:56 9:16 244 13.6 13.4 0.2 x Standard Deviation 0.1 4 9:32 9:52 244 13.5 13.4 0.1 x Confidence Coefficient 0.1 5 10:14 10:34 247 13.4 13.4 0.0 x Relative Accuracy (%RM) 0.8% 6 10:49 11:09 246 13.4 13.4 0.0 x Emission Limit n/a 7 11:24 11:44 246 13.4 13.4 0.0 x Relative Accuracy (%EL)n/a 8 11:59 12:19 246 13.5 13.4 0.1 x Bias Adjustment Factor n/a 9 12:34 12:54 245 13.4 13.4 0.0 x 10 11 P75, Annual: O2 / CO2 % 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.7% 14 15 Average 246 13.5 13.4 0.1 *3$6E573MJH E RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT11 Test Date: 5/18/23 Parameter: NOx (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:40 8:00 249 1.8 1.8 0.0 x Number of Runs:9 2 8:18 8:38 246 1.7 1.8 ‐0.1 x T‐value 2.306 3 8:56 9:16 244 1.8 1.8 0.0 x Standard Deviation 0.1 4 9:32 9:52 244 1.9 1.8 0.1 x Confidence Coefficient 0.0 5 10:14 10:34 247 1.8 1.8 0.0 x Relative Accuracy (%RM) 2.1% 6 10:49 11:09 246 1.8 1.8 0.0 x Emission Limit 112 7 11:24 11:44 246 1.8 1.8 0.0 x Relative Accuracy (%EL) 0.0% 8 11:59 12:19 246 1.8 1.8 0.0 x Bias Adjustment Factor n/a 9 12:34 12:54 245 1.8 1.8 0.0 x 10 11 P60, PS2: SO2 / NOx ppm 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 246 1.8 1.8 0.0 Parameter:NOx (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:40 8:00 249 13.5 14.0 ‐0.5 x Number of Runs:9 2 8:18 8:38 246 12.6 13.7 ‐1.1 x T‐value 2.306 3 8:56 9:16 244 13.2 13.3 ‐0.1 x Standard Deviation 0.4 4 9:32 9:52 244 13.5 13.0 0.5 x Confidence Coefficient 0.3 5 10:14 10:34 247 13.3 13.6 ‐0.3 x Relative Accuracy (%RM) 4.2% 6 10:49 11:09 246 13.4 13.4 0.0 x Emission Limit n/a 7 11:24 11:44 246 13.3 13.6 ‐0.3 x Relative Accuracy (%EL)n/a 8 11:59 12:19 246 13.4 13.4 0.0 x Bias Adjustment Factor n/a 9 12:34 12:54 245 13.0 13.2 ‐0.2 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 246 13.2 13.5 ‐0.2 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT11 Test Date: 5/18/23 Parameter: CO (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:40 8:00 249 0.6 0.3 0.3 x Number of Runs:9 2 8:18 8:38 246 0.4 0.3 0.1 x T‐value 2.306 3 8:56 9:16 244 0.4 0.2 0.2 x Standard Deviation 0.1 4 9:32 9:52 244 0.3 0.3 0.0 x Confidence Coefficient 0.1 5 10:14 10:34 247 0.3 0.3 0.0 x Relative Accuracy (%RM) 45.5% 6 10:49 11:09 246 0.3 0.3 0.0 x Emission Limit 3 7 11:24 11:44 246 0.3 0.3 0.0 x Relative Accuracy (%EL) 5.4% 8 11:59 12:19 246 0.3 0.3 0.0 x Bias Adjustment Factor n/a 9 12:34 12:54 245 0.3 0.2 0.1 x |d|+CC=0.2 10 11 P60, PS4A: CO ppm <200 12 Relative Accuracy Limit: 13 10% RM or 5%EL or |d|+CC<5ppm 14 15 Average 246 0.4 0.3 0.1 Parameter:CO (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:40 8:00 249 2.7 1.3 1.4 x Number of Runs:9 2 8:18 8:38 246 2.0 1.2 0.8 x T‐value 2.306 3 8:56 9:16 244 1.6 1.0 0.6 x Standard Deviation 0.5 4 9:32 9:52 244 1.2 1.2 0.0 x Confidence Coefficient 0.4 5 10:14 10:34 247 1.2 1.3 ‐0.1 x Relative Accuracy (%RM) 46.8% 6 10:49 11:09 246 1.3 1.3 0.0 x Emission Limit 14.1 7 11:24 11:44 246 1.2 1.2 0.0 x Relative Accuracy (%EL) 5.0% 8 11:59 12:19 246 1.3 1.2 0.1 x Bias Adjustment Factor n/a 9 12:34 12:54 245 1.2 1.1 0.1 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 246 1.5 1.2 0.3 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.2.2 Unit CT12 GP043AS-023429-RT-1331 Page 32 of 261 Job Code PROJ‐023429 PacifiCorp, Lakeside CT12 Test Date: 5/19/23 Parameter: NOx (lb/mmBtu) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:17 7:37 258 0.007 0.007 0.000 x Number of Runs:9 2 7:54 8:14 258 0.006 0.007 ‐0.001 x T‐value 2.306 3 8:30 8:50 258 0.006 0.007 ‐0.001 x Standard Deviation 0.000 4 9:06 9:26 257 0.007 0.007 0.000 x Confidence Coefficient 0.000 5 9:44 10:04 256 0.007 0.007 0.000 x Relative Accuracy (%RM) 8.3% 6 10:31 10:51 256 0.007 0.007 0.000 x Emission Limit n/a 7 10:57 11:17 255 0.007 0.007 0.000 x Relative Accuracy (%EL)n/a 8 11:32 11:52 255 0.007 0.007 0.000 x Bias Adjustment Factor 1.000 9 12:06 12:26 255 0.007 0.007 0.000 x 10 11 P75, Annual: NOx lb/mmBtu 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.015 lb/mmBtu 14 15 Average 256 0.007 0.007 0.000 Parameter:O2 (%vd) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:17 7:37 258 13.5 13.4 0.1 x Number of Runs:9 2 7:54 8:14 258 13.3 13.4 ‐0.1 x T‐value 2.306 3 8:30 8:50 258 13.2 13.4 ‐0.2 x Standard Deviation 0.1 4 9:06 9:26 257 13.4 13.4 0.0 x Confidence Coefficient 0.1 5 9:44 10:04 256 13.4 13.4 0.0 x Relative Accuracy (%RM) 0.6% 6 10:31 10:51 256 13.4 13.4 0.0 x Emission Limit n/a 7 10:57 11:17 255 13.4 13.4 0.0 x Relative Accuracy (%EL)n/a 8 11:32 11:52 255 13.4 13.4 0.0 x Bias Adjustment Factor n/a 9 12:06 12:26 255 13.4 13.4 0.0 x 10 11 P75, Annual: O2 / CO2 % 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.7% 14 15 Average 256 13.4 13.4 0.0 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT12 Test Date: 5/19/23 Parameter: NOx (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:17 7:37 258 1.8 1.8 0.0 x Number of Runs:9 2 7:54 8:14 258 1.7 1.8 ‐0.1 x T‐value 2.306 3 8:30 8:50 258 1.7 1.8 ‐0.1 x Standard Deviation 0.1 4 9:06 9:26 257 1.8 1.8 0.0 x Confidence Coefficient 0.1 5 9:44 10:04 256 1.9 1.8 0.1 x Relative Accuracy (%RM) 3.9% 6 10:31 10:51 256 1.8 1.8 0.0 x Emission Limit 112 7 10:57 11:17 255 1.9 1.8 0.1 x Relative Accuracy (%EL) 0.1% 8 11:32 11:52 255 1.9 1.8 0.1 x Bias Adjustment Factor n/a 9 12:06 12:26 255 1.8 1.8 0.0 x 10 11 P60, PS2: SO2 / NOx ppm 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 256 1.8 1.8 0.0 Parameter:NOx (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:17 7:37 258 13.3 13.7 ‐0.4 x Number of Runs:9 2 7:54 8:14 258 12.8 13.7 ‐0.9 x T‐value 2.306 3 8:30 8:50 258 12.8 13.9 ‐1.1 x Standard Deviation 0.6 4 9:06 9:26 257 13.7 13.5 0.2 x Confidence Coefficient 0.5 5 9:44 10:04 256 14.1 13.5 0.6 x Relative Accuracy (%RM) 3.9% 6 10:31 10:51 256 13.7 13.5 0.2 x Emission Limit n/a 7 10:57 11:17 255 13.9 13.3 0.6 x Relative Accuracy (%EL)n/a 8 11:32 11:52 255 13.9 13.5 0.4 x Bias Adjustment Factor n/a 9 12:06 12:26 255 13.2 13.2 0.0 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 256 13.5 13.5 0.0 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT12 Test Date: 5/19/23 Parameter: CO (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:17 7:37 258 1.5 1.3 0.2 x Number of Runs:9 2 7:54 8:14 258 1.2 1.3 ‐0.1 x T‐value 2.306 3 8:30 8:50 258 1.3 1.3 0.0 x Standard Deviation 0.1 4 9:06 9:26 257 1.4 1.3 0.1 x Confidence Coefficient 0.1 5 9:44 10:04 256 1.3 1.3 0.0 x Relative Accuracy (%RM) 9.7% 6 10:31 10:51 256 1.4 1.3 0.1 x Emission Limit 3 7 10:57 11:17 255 1.4 1.3 0.1 x Relative Accuracy (%EL) 4.4% 8 11:32 11:52 255 1.4 1.3 0.1 x Bias Adjustment Factor n/a 9 12:06 12:26 255 1.4 1.3 0.1 x |d|+CC=0.1 10 11 P60, PS4A: CO ppm <200 12 Relative Accuracy Limit: 13 10% RM or 5%EL or |d|+CC<5ppm 14 15 Average 256 1.4 1.3 0.1 Parameter:CO (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:17 7:37 258 6.7 6.0 0.7 x Number of Runs:9 2 7:54 8:14 258 5.6 6.0 ‐0.4 x T‐value 2.306 3 8:30 8:50 258 6.0 6.0 0.0 x Standard Deviation 0.3 4 9:06 9:26 257 6.2 6.0 0.2 x Confidence Coefficient 0.2 5 9:44 10:04 256 6.1 6.0 0.1 x Relative Accuracy (%RM) 7.4% 6 10:31 10:51 256 6.2 5.9 0.3 x Emission Limit 14.1 7 10:57 11:17 255 6.3 5.9 0.4 x Relative Accuracy (%EL) 3.3% 8 11:32 11:52 255 6.2 5.8 0.4 x Bias Adjustment Factor n/a 9 12:06 12:26 255 6.1 5.8 0.3 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 256 6.2 5.9 0.2 *3$6E573MJH D RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.2.3 Unit CT21 GP043AS-023429-RT-1331 Page 36 of 261 Job Code PROJ‐023429 PacifiCorp, Lakeside CT21 Test Date: 5/16/23 Parameter: NOx (lb/mmBtu) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:41 8:01 305 0.007 0.006 0.001 x Number of Runs:9 2 8:19 8:39 306 0.006 0.006 0.000 x T‐value 2.306 3 8:57 9:17 306 0.006 0.006 0.000 x Standard Deviation 0.000 4 9:35 9:55 305 0.006 0.006 0.000 x Confidence Coefficient 0.000 5 10:13 10:33 304 0.006 0.006 0.000 x Relative Accuracy (%RM) 6.0% 6 10:51 11:11 304 0.006 0.006 0.000 x Emission Limit n/a 7 11:28 11:48 304 0.006 0.006 0.000 x Relative Accuracy (%EL)n/a 8 12:03 12:23 305 0.006 0.006 0.000 x Bias Adjustment Factor 1.000 9 12:41 13:01 305 0.006 0.006 0.000 x 10 11 P75, Annual: NOx lb/mmBtu 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.015 lb/mmBtu 14 15 Average 305 0.006 0.006 0.000 Parameter:O2 (%vd) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:41 8:01 305 12.3 12.0 0.3 x Number of Runs:9 2 8:19 8:39 306 12.2 12.0 0.2 x T‐value 2.306 3 8:57 9:17 306 12.0 12.0 0.0 x Standard Deviation 0.1 4 9:35 9:55 305 12.3 12.0 0.3 x Confidence Coefficient 0.1 5 10:13 10:33 304 12.3 12.0 0.3 x Relative Accuracy (%RM) 2.2% 6 10:51 11:11 304 12.2 12.0 0.2 x Emission Limit n/a 7 11:28 11:48 304 11.9 12.0 ‐0.1 x Relative Accuracy (%EL)n/a 8 12:03 12:23 305 12.0 11.9 0.1 x Bias Adjustment Factor n/a 9 12:41 13:01 305 12.0 11.9 0.1 x 10 11 P75, Annual: O2 / CO2 % 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.7% 14 15 Average 305 12.1 12.0 0.2 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT21 Test Date: 5/16/23 Parameter: NOx (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:41 8:01 305 1.9 1.7 0.2 x Number of Runs:9 2 8:19 8:39 306 1.7 1.7 0.0 x T‐value 2.306 3 8:57 9:17 306 1.7 1.7 0.0 x Standard Deviation 0.1 4 9:35 9:55 305 1.8 1.7 0.1 x Confidence Coefficient 0.1 5 10:13 10:33 304 1.7 1.7 0.0 x Relative Accuracy (%RM) 5.1% 6 10:51 11:11 304 1.7 1.7 0.0 x Emission Limit 112 7 11:28 11:48 304 1.7 1.7 0.0 x Relative Accuracy (%EL) 0.1% 8 12:03 12:23 305 1.7 1.7 0.0 x Bias Adjustment Factor n/a 9 12:41 13:01 305 1.7 1.7 0.0 x 10 11 P60, PS2: SO2 / NOx ppm 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 305 1.7 1.7 0.0 Parameter:NOx (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:41 8:01 305 12.4 10.8 1.6 x Number of Runs:9 2 8:19 8:39 306 11.4 10.9 0.5 x T‐value 2.306 3 8:57 9:17 306 11.1 11.2 ‐0.1 x Standard Deviation 0.5 4 9:35 9:55 305 11.6 11.2 0.4 x Confidence Coefficient 0.4 5 10:13 10:33 304 11.3 11.0 0.3 x Relative Accuracy (%RM) 6.9% 6 10:51 11:11 304 11.5 11.0 0.5 x Emission Limit n/a 7 11:28 11:48 304 11.1 11.0 0.1 x Relative Accuracy (%EL)n/a 8 12:03 12:23 305 11.3 11.0 0.3 x Bias Adjustment Factor n/a 9 12:41 13:01 305 11.3 11.1 0.2 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 305 11.4 11.0 0.4 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT21 Test Date: 5/16/23 Parameter: CO (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:41 8:01 305 0.1 0.0 0.1 x Number of Runs:9 2 8:19 8:39 306 0.1 0.0 0.1 x T‐value 2.306 3 8:57 9:17 306 0.1 0.0 0.1 x Standard Deviation 0.0 4 9:35 9:55 305 0.1 0.0 0.1 x Confidence Coefficient 0.0 5 10:13 10:33 304 0.1 0.0 0.1 x Relative Accuracy (%RM) 100.0% 6 10:51 11:11 304 0.1 0.0 0.1 x Emission Limit 3 7 11:28 11:48 304 0.1 0.0 0.1 x Relative Accuracy (%EL) 3.3% 8 12:03 12:23 305 0.1 0.0 0.1 x Bias Adjustment Factor n/a 9 12:41 13:01 305 0.1 0.0 0.1 x |d|+CC=0.1 10 11 P60, PS4A: CO ppm <200 12 Relative Accuracy Limit: 13 10% RM or 5%EL or |d|+CC<5ppm 14 15 Average 305 0.1 0.0 0.1 Parameter:CO (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:41 8:01 305 0.3 0.0 0.3 x Number of Runs:9 2 8:19 8:39 306 0.5 0.0 0.5 x T‐value 2.306 3 8:57 9:17 306 0.3 0.0 0.3 x Standard Deviation 0.1 4 9:35 9:55 305 0.3 0.0 0.3 x Confidence Coefficient 0.1 5 10:13 10:33 304 0.2 0.0 0.2 x Relative Accuracy (%RM) 119.9% 6 10:51 11:11 304 0.4 0.0 0.4 x Emission Limit 14.1 7 11:28 11:48 304 0.3 0.0 0.3 x Relative Accuracy (%EL) 2.7% 8 12:03 12:23 305 0.3 0.0 0.3 x Bias Adjustment Factor n/a 9 12:41 13:01 305 0.3 0.0 0.3 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 305 0.3 0.0 0.3 *3$6E573MJH E RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.2.4 Unit CT22 GP043AS-023429-RT-1331 Page 40 of 261 Job Code PROJ‐023429 PacifiCorp, Lakeside CT22 Test Date: 5/17/23 Parameter: NOx (lb/mmBtu) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:24 7:44 309 0.006 0.006 0.000 x Number of Runs:9 2 7:59 8:19 309 0.006 0.006 0.000 x T‐value 2.306 3 8:45 9:05 307 0.006 0.006 0.000 x Standard Deviation 0.000 4 9:25 9:45 307 0.006 0.006 0.000 x Confidence Coefficient 0.000 5 10:02 10:22 307 0.006 0.006 0.000 x Relative Accuracy (%RM) 0.0% 6 10:40 11:00 307 0.006 0.006 0.000 x Emission Limit n/a 7 11:15 11:35 306 0.006 0.006 0.000 x Relative Accuracy (%EL)n/a 8 11:50 12:10 305 0.006 0.006 0.000 x Bias Adjustment Factor 1.000 9 12:24 12:44 303 0.006 0.006 0.000 x 10 11 P75, Annual: NOx lb/mmBtu 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.015 lb/mmBtu 14 15 Average 307 0.006 0.006 0.000 Parameter:O2 (%vd) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:24 7:44 309 12.1 12.2 ‐0.1 x Number of Runs:9 2 7:59 8:19 309 12.1 12.1 0.0 x T‐value 2.306 3 8:45 9:05 307 12.2 12.1 0.1 x Standard Deviation 0.1 4 9:25 9:45 307 12.1 12.1 0.0 x Confidence Coefficient 0.1 5 10:02 10:22 307 12.1 12.1 0.0 x Relative Accuracy (%RM) 1.2% 6 10:40 11:00 307 12.2 12.1 0.1 x Emission Limit n/a 7 11:15 11:35 306 12.3 12.1 0.2 x Relative Accuracy (%EL)n/a 8 11:50 12:10 305 12.3 12.1 0.2 x Bias Adjustment Factor n/a 9 12:24 12:44 303 12.2 12.1 0.1 x 10 11 P75, Annual: O2 / CO2 % 12 Relative Accuracy Limit: 13 RA≤7.5% or ±0.7% 14 15 Average 307 12.2 12.1 0.1 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT22 Test Date: 5/17/23 Parameter: NOx (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:24 7:44 309 1.7 1.6 0.1 x Number of Runs:9 2 7:59 8:19 309 1.6 1.6 0.0 x T‐value 2.306 3 8:45 9:05 307 1.6 1.7 ‐0.1 x Standard Deviation 0.1 4 9:25 9:45 307 1.6 1.7 ‐0.1 x Confidence Coefficient 0.1 5 10:02 10:22 307 1.6 1.7 ‐0.1 x Relative Accuracy (%RM) 5.2% 6 10:40 11:00 307 1.7 1.6 0.1 x Emission Limit 112 7 11:15 11:35 306 1.7 1.7 0.0 x Relative Accuracy (%EL) 0.1% 8 11:50 12:10 305 1.7 1.7 0.0 x Bias Adjustment Factor n/a 9 12:24 12:44 303 1.6 1.7 ‐0.1 x 10 11 P60, PS2: SO2 / NOx ppm 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 307 1.6 1.7 0.0 Parameter:NOx (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:24 7:44 309 14.0 13.5 0.5 x Number of Runs:9 2 7:59 8:19 309 13.4 13.0 0.4 x T‐value 2.306 3 8:45 9:05 307 13.4 13.4 0.0 x Standard Deviation 0.3 4 9:25 9:45 307 13.3 13.1 0.2 x Confidence Coefficient 0.2 5 10:02 10:22 307 13.6 13.4 0.2 x Relative Accuracy (%RM) 4.4% 6 10:40 11:00 307 14.1 13.3 0.8 x Emission Limit n/a 7 11:15 11:35 306 14.2 13.4 0.8 x Relative Accuracy (%EL)n/a 8 11:50 12:10 305 13.8 13.4 0.4 x Bias Adjustment Factor n/a 9 12:24 12:44 303 13.4 13.4 0.0 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 307 13.7 13.3 0.4 *3$6E573MJH RI Job Code PROJ‐023429 PacifiCorp, Lakeside CT22 Test Date: 5/17/23 Parameter: CO (ppmvd @ 15% O2) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:24 7:44 309 0.0 0.1 ‐0.1 x Number of Runs:9 2 7:59 8:19 309 0.1 0.1 0.0 x T‐value 2.306 3 8:45 9:05 307 0.1 0.1 0.0 x Standard Deviation 0.0 4 9:25 9:45 307 0.1 0.1 0.0 x Confidence Coefficient 0.0 5 10:02 10:22 307 0.1 0.1 0.0 x Relative Accuracy (%RM) 41.3% 6 10:40 11:00 307 0.1 0.1 0.0 x Emission Limit 3 7 11:15 11:35 306 0.1 0.1 0.0 x Relative Accuracy (%EL) 1.2% 8 11:50 12:10 305 0.1 0.1 0.0 x Bias Adjustment Factor n/a 9 12:24 12:44 303 0.1 0.1 0.0 x |d|+CC=0.0 10 11 P60, PS4A: CO ppm <200 12 Relative Accuracy Limit: 13 10% RM or 5%EL or |d|+CC<5ppm 14 15 Average 307 0.1 0.1 0.0 Parameter:CO (lb/hr) Run # Start Time Stop Time Unit Load RM CEM Difference Used?RATA Results 1 7:24 7:44 309 0.1 0.7 ‐0.6 x Number of Runs:9 2 7:59 8:19 309 0.5 0.7 ‐0.2 x T‐value 2.306 3 8:45 9:05 307 0.5 0.7 ‐0.2 x Standard Deviation 0.1 4 9:25 9:45 307 0.4 0.7 ‐0.3 x Confidence Coefficient 0.1 5 10:02 10:22 307 0.4 0.7 ‐0.3 x Relative Accuracy (%RM) 95.8% 6 10:40 11:00 307 0.5 0.7 ‐0.2 x Emission Limit 14.1 7 11:15 11:35 306 0.5 0.7 ‐0.2 x Relative Accuracy (%EL) 2.8% 8 11:50 12:10 305 0.3 0.7 ‐0.4 x Bias Adjustment Factor n/a 9 12:24 12:44 303 0.5 0.7 ‐0.2 x 10 11 P60, PS6: Mass Emissions 12 Relative Accuracy Limit: 13 20% RM or 10%EL 14 15 Average 307 0.4 0.7 ‐0.3 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3 Field Data GP043AS-023429-RT-1331 Page 44 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3 .1 Unit CT11 GP043AS-023429-RT-1331 Page 45 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.1.1 PM Data GP043AS-023429-RT-1331 Page 46 of 261 PROJ‐023429 PacifiCorp Lake Side CT11 5/18/2023 Run # 1 2 3 Start Time 9:26 12:03 15:13 Stop Time 11:41 14:37 18:32 EPA Method 2 Data 1 2 3 Average Ds Stack Diameter (inches)216.0 216.0 216.0 216.0 Pbar Barometric Pressure ("Hg)25.36 25.36 25.36 25.36 Pg Stack Static Pressure ("H2O)‐0.50 ‐0.50 ‐0.50 ‐0.50 Cp Pitot Tube Coefficient (unitless) 0.7640 0.7640 0.7640 0.7640 √∆pavg Avg. Velocity Head of Stack Gas √("H2O)1.1434 1.1475 1.1414 1.1441 Ts Avg. Stack Gas Temperature (°F)218.8 216 162 199 EPA Method 3 or 3A Data 1 2 3 Average O2 (%vd)13.4 13.4 13.4 13.4 CO2 (%vd)4.4 4.4 4.4 4.4 EPA Method 4 Data 1 2 3 Average Ѳ Actual Sampling Time (minutes) 118.00 120.25 119.50 119.25 Vlc Volume of Water Condensed (mL)53.9 75.7 76.5 68.7 Vm Volume of Stack Gas Collected (dcf) 44.354 46.665 47.036 46.018 Y Meter Calibration Factor (unitless)1.0062 1.0062 1.0062 1.0062 ∆H Pressure Differential Across Orifice ("H2O)0.41 0.42 0.42 0.42 Tm Temperature at Gas Meter (°F)69.5 75 80.3 75 EPA Method 201A & 202 Data 1 2 3 Average Dn Nozzle diameter (") 0.145 0.145 0.145 0.145 Cyclone Catch, PM10+ (g)0.0000 0.0000 0.0000 0.0000 PM10 Catch ‐ Filter (g)0.0000 0.0001 0.0000 0.0000 PM10 Catch ‐ Rinse (g)0.0001 0.0001 0.0000 0.0001 Inorganic CPM Catch (g)0.0040 0.0000 0.0095 0.0045 Organic CPM Catch (g)0.0038 0.0039 0.0032 0.0036 CPM Blank (g)0.0020 0.0020 0.0020 0.0020 EPA Method 201A Calculations 1 2 3 Average Vm(std)Sample Gas Volume (dscf)37.747 39.309 39.233 38.763 Vws Volume of Water Vapor (scf)2.537 3.563 3.601 3.234 Pm Absolute Pressure at Gas Meter ("Hg)25.32 25.32 25.32 25.32 Bws Moisture Content (%/100)0.063 0.083 0.084 0.077 Md Stack Gas Molecular Weight, dry basis (lb/lb‐mole) 29.24 29.24 29.24 29.24 Ms Stack Gas Molecular Weight, wet basis (lb/lb‐mole)28.53 28.31 28.30 28.38 Vs Stack Gas Velocity (ft/sec) 72.4 72.8 69.5 71.5 Qacfm Stack Gas Volumetric Flow Rate (acf/min) 1,105,203 1,111,407 1,060,668 1,092,426 Qdscfm Stack Gas Dry Volumetric Flow Rate (dscf/min) 681,502 673,380 697,705 684,196 I Isokinetic variation (%) 104.2 107.8 104.5 105.5 An Cross‐sectional area of nozzle (ft2)1.1E‐04 1.1E‐04 1.1E‐04 1.1E‐04 Vn Nozzle Velocity (ft/sec) 75.4 78.4 72.5 75.4 µ Gas Viscosity (micropoise) 210.9 208.3 195.4 204.9 Qs Dry std Cyclone Flow Rate (ft^3/min) 0.32 0.33 0.33 0.33 Qs Actual Cyclone Flow Rate (ft^3/min)0.52 0.54 0.50 0.52 D50 (PM10)Actual Particle Cut Diamter for Cyclone I (µm) 10.9 10.5 10.5 10.6 Particulate Emission Calculations 1 2 3 Average PM10+ emissions (lb/hr) 0.0 0.0 0.0 0.0 PM10+ emissions (gr/dscf) 0.0000 0.0000 0.0000 0.0000 PM10+ emissions (lb/MMBtu) 0.0000 0.0000 0.0000 0.0000 Total PM10 emissions (lb/hr)0.2 0.5 0.0 0.2 Total PM10 emissions (gr/dscf)0.0000 0.0001 0.0000 0.0000 Total PM10 emissions (lb/MMBtu)0.0001 0.0003 0.0000 0.0001 Total CPM emissions (lb/hr)13.9 4.3 25.2 14.4 Total CPM emissions (gr/dscf)0.0024 0.0007 0.0042 0.0024 Total CPM emissions (lb/MMBtu)0.0082 0.0026 0.0146 0.0085 Total PM10/CPM emissions (lb/hr)14.1 4.8 25.2 14.7 Total PM10/CPM emissions (gr/dscf)0.0024 0.0008 0.0042 0.0025 Total PM10/CPM emissions (lb/MMBtu)0.0084 0.0029 0.0146 0.0086 *3$6E573MJH RI GP043AS-023429-RT-1331 Page 48 of 261 GP043AS-023429-RT-1331 Page 49 of 261 GP043AS-023429-RT-1331 Page 50 of 261 GP043AS-023429-RT-1331 Page 51 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.1.2 RATA Data GP043AS-023429-RT-1331 Page 52 of 261 Run #123456789 Start Time 7:40 8:18 8:56 9:32 10:14 10:49 11:24 11:59 12:34 Stop Time 8:00 8:38 9:16 9:52 10:34 11:09 11:44 12:19 12:54 EPA Method 3A, 7E and 10 Data 123456789 O2 (%vd)13.5 13.4 13.6 13.5 13.4 13.4 13.4 13.5 13.4 CO2 (%vd)4.4 4.4 4.4 4.5 4.5 4.5 4.5 4.3 4.4 NOx (ppmvd)2.3 2.2 2.3 2.4 2.3 2.3 2.3 2.3 2.3 15%NOx (ppmvd @ 15% O2)1.8 1.7 1.8 1.9 1.8 1.8 1.8 1.8 1.8 CO (ppmvd) 0.8 0.6 0.5 0.3 0.3 0.4 0.4 0.4 0.4 15%CO (ppmvd @ 15% O2)0.6 0.4 0.4 0.3 0.3 0.3 0.3 0.3 0.3 Mass Emission Calculations (Using EPA Method 19 and Fuel Use)1 2 3456789 Fuel Use (mmBtu/hr)1993.8 1973.2 1963.6 1964.2 1980.4 1979.4 1976 1970.8 1970.2 NOx (lb/hr)13.5 12.6 13.2 13.5 13.3 13.4 13.3 13.4 13.0 CO (lb/hr) 2.7 2.0 1.6 1.2 1.2 1.3 1.2 1.3 1.2 Mass Emission Calculations (Using EPA Method 19)123456789 Fd dscf/mmBtu 8710 Fd NOx (lb/mmBtu)0.007 0.006 0.007 0.007 0.007 0.007 0.007 0.007 0.007 Fd CO (lb/mmBtu)0.001 0.001 0.001 0.001 0.001 0.001 0.001 0.001 0.001 Plant CEMS Data 123456789 Unit Load (MW) 249 246 244 244 247 246 246 246 245 Heat Input (mmBtu/hr) 1993.8 1973.2 1963.6 1964.2 1980.4 1979.4 1976.0 1970.8 1970.2 O2 (%vd)13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 NOx (ppmvd @ 15% O2)1.8 1.8 1.8 1.8 1.8 1.8 1.8 1.8 1.8 NOx (lb/hr)14.0 13.7 13.3 13.0 13.6 13.4 13.6 13.4 13.2 NOx (lb/mmBtu)0.007 0.007 0.007 0.007 0.007 0.007 0.007 0.007 0.007 CO (ppmvd @ 15% O2)0.3 0.3 0.2 0.3 0.3 0.3 0.3 0.3 0.2 CO (lb/hr) 1.3 1.2 1.0 1.2 1.3 1.3 1.2 1.2 1.1 PROJ‐023429 PacifiCorp Lakeside CT11 5/18/2023 *3$6E573MJH D RI 40 CFR Part 75, Appendix A §6.5.6 Pollutant Stratification Test Stack Diameter: 216.0 '' Stratification Test Point 1: 9.5 ''(4.4%) Stratification Test Point 2: 31.5 ''(14.6%) Stratification Test Point 3: 63.9 ''(29.6%) Point Time O2 NOx 1 6:55 13.40 2.33 1 6:56 13.43 2.35 2 6:57 13.44 2.34 2 6:58 13.42 2.35 3 6:59 13.37 2.37 3 7:00 13.31 2.43 4 7:07 13.31 2.43 4 7:08 13.30 2.32 5 7:09 13.30 2.34 5 7:10 13.30 2.31 6 7:11 13.31 2.33 6 7:12 13.32 2.26 7 7:17 13.37 2.35 7 7:18 13.38 2.30 8 7:19 13.37 2.30 8 7:20 13.39 2.30 9 7:21 13.38 2.30 9 7:22 13.37 2.28 10 7:27 13.26 2.40 10 7:28 13.42 2.33 11 7:29 13.37 2.34 11 7:30 13.32 2.41 12 7:31 13.33 2.38 12 7:32 13.39 2.36 Mean 13.4 2.4 Max Deviation From Mean 0.1 0.1 Max Deviation (%) 1.0% 4.3% Short Line? OK OK Single Point? OK OK PROJ‐023429 PacifiCorp Lakeside CT11 5/18/2023 *3$6E573MJH D RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT11 Lakeside CT11 5/18/2023 5/18/2023 Test Run #1 Test Run #2 Start Time 7:40 Start Time 8:18 Run Length 21 Run Length 21 Stop Time 8:00 Stop Time 8:38 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 7:40 13.4 4.4 2.3 1.0 1 8:18 13.4 4.4 2.4 0.7 2 7:41 13.4 4.4 2.3 1.0 2 8:19 13.4 4.4 2.4 0.6 3 7:42 13.4 4.4 2.3 0.9 3 8:20 13.3 4.4 2.4 0.6 4 7:43 13.4 4.4 2.4 0.7 4 8:21 13.3 4.4 2.4 0.6 5 7:44 13.4 4.4 2.3 0.7 5 8:22 13.3 4.4 2.3 0.6 6 7:45 13.4 4.4 2.4 0.7 6 8:23 13.3 4.4 2.3 0.6 7 7:46 13.4 4.4 2.4 0.7 7 8:24 13.3 4.4 2.4 0.4 8 7:47 13.4 4.4 2.4 0.7 8 8:25 13.3 4.4 2.4 0.6 9 7:48 13.4 4.4 2.4 0.8 9 8:26 13.3 4.4 2.3 0.6 10 7:49 13.4 4.4 2.4 0.7 10 8:27 13.3 4.4 2.3 0.6 11 7:50 13.4 4.4 2.4 0.8 11 8:28 13.3 4.4 2.3 0.6 12 7:51 13.4 4.4 2.4 0.7 12 8:29 13.3 4.4 2.3 0.6 13 7:52 13.4 4.4 2.4 0.7 13 8:30 13.3 4.4 2.3 0.6 14 7:53 13.4 4.4 2.4 0.7 14 8:31 13.3 4.4 2.3 0.6 15 7:54 13.5 4.4 2.4 0.7 15 8:32 13.3 4.4 2.2 0.6 16 7:55 13.5 4.4 2.4 0.8 16 8:33 13.3 4.5 2.1 0.6 17 7:56 13.5 4.4 2.4 0.8 17 8:34 13.3 4.5 2.2 0.6 18 7:57 13.3 4.4 2.4 0.8 18 8:35 13.3 4.4 2.3 0.6 19 7:58 13.3 4.4 2.4 0.8 19 8:36 13.3 4.4 2.4 0.6 20 7:59 13.3 4.4 2.4 0.7 20 8:37 13.3 4.4 2.3 0.6 21 8:00 13.3 4.4 2.4 0.8 21 8:38 13.3 4.4 2.3 0.6 Average 13.4 4.4 2.4 0.8 Average 13.3 4.4 2.3 0.6 Co 0.0 0.0 0.0 0.0 Co 0.2 0.1 0.2 0.0 Cm 10.6 9.0 6.4 2.8 Cm 10.7 9.0 6.3 2.8 Cma 10.7 9.0 6.3 2.8 Cma 10.7 9.0 6.3 2.8 Corrected Average: 13.5 4.4 2.3 0.8 Corrected Average: 13.4 4.4 2.2 0.6 *3$6E573MJH DD RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT11 Lakeside CT11 5/18/2023 5/18/2023 Test Run #3 Test Run #4 Start Time 8:56 Start Time 9:32 Run Length 21 Run Length 21 Stop Time 9:16 Stop Time 9:52 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 8:56 13.4 4.4 2.3 0.6 1 9:32 13.3 4.5 2.4 0.4 2 8:57 13.5 4.4 2.3 0.6 2 9:33 13.3 4.5 2.5 0.5 3 8:58 13.4 4.4 2.4 0.6 3 9:34 13.3 4.5 2.5 0.4 4 8:59 13.4 4.4 2.4 0.6 4 9:35 13.3 4.5 2.3 0.3 5 9:00 13.5 4.4 2.4 0.6 5 9:36 13.3 4.5 2.4 0.4 6 9:01 13.5 4.4 2.4 0.5 6 9:37 13.3 4.5 2.4 0.4 7 9:02 13.5 4.4 2.4 0.4 7 9:38 13.4 4.5 2.4 0.4 8 9:03 13.4 4.4 2.4 0.4 8 9:39 13.3 4.5 2.4 0.4 9 9:04 13.4 4.4 2.4 0.5 9 9:40 13.3 4.5 2.5 0.4 10 9:05 13.4 4.4 2.4 0.4 10 9:41 13.3 4.5 2.5 0.4 11 9:06 13.5 4.4 2.4 0.4 11 9:42 13.3 4.5 2.5 0.4 12 9:07 13.4 4.4 2.4 0.5 12 9:43 13.3 4.5 2.4 0.4 13 9:08 13.4 4.4 2.4 0.5 13 9:44 13.3 4.5 2.5 0.4 14 9:09 13.4 4.3 2.5 0.5 14 9:45 13.3 4.5 2.6 0.4 15 9:10 13.5 4.4 2.4 0.4 15 9:46 13.3 4.6 2.7 0.3 16 9:11 13.5 4.4 2.4 0.5 16 9:47 13.3 4.6 2.4 0.4 17 9:12 13.4 4.4 2.4 0.4 17 9:48 13.3 4.6 2.4 0.4 18 9:13 13.5 4.4 2.4 0.5 18 9:49 13.3 4.6 2.5 0.4 19 9:14 13.5 4.4 2.2 0.5 19 9:50 13.3 4.6 2.4 0.4 20 9:15 13.5 4.4 2.3 0.4 20 9:51 13.4 4.6 2.5 0.4 21 9:16 13.5 4.4 2.3 0.5 21 9:52 13.4 4.6 2.4 0.4 Average 13.4 4.4 2.4 0.5 Average 13.3 4.5 2.4 0.4 Co 0.1 0.1 0.2 0.0 Co 0.1 0.1 0.1 0.0 Cm 10.6 8.9 6.3 2.8 Cm 10.7 9.0 6.4 2.8 Cma 10.7 9.0 6.3 2.8 Cma 10.7 9.0 6.3 2.8 Corrected Average: 13.6 4.4 2.3 0.5 Corrected Average: 13.5 4.5 2.4 0.3 *3$6E573MJH D RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT11 Lakeside CT11 5/18/2023 5/18/2023 Test Run #5 Test Run #6 Start Time 10:14 Start Time 10:49 Run Length 21 Run Length 21 Stop Time 10:34 Stop Time 11:09 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO NO2 O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 10:14 13.3 4.6 2.3 0.4 0.3 1 10:49 13.4 4.5 2.6 0.5 2 10:15 13.3 4.6 2.3 0.4 ‐0.1 2 10:50 13.4 4.5 2.4 0.5 3 10:16 13.3 4.6 2.3 0.4 ‐0.4 3 10:51 13.4 4.5 2.4 0.5 4 10:17 13.3 4.6 2.3 0.4 ‐0.1 4 10:52 13.4 4.5 2.4 0.5 5 10:18 13.3 4.6 2.3 0.4 ‐0.1 5 10:53 13.4 4.5 2.4 0.4 6 10:19 13.3 4.6 2.3 0.4 ‐0.1 6 10:54 13.4 4.5 2.4 0.4 7 10:20 13.3 4.6 2.3 0.4 ‐0.1 7 10:55 13.4 4.5 2.5 0.4 8 10:21 13.3 4.6 2.4 0.4 ‐0.2 8 10:56 13.4 4.5 2.6 0.4 9 10:22 13.3 4.5 2.4 0.4 ‐0.3 9 10:57 13.4 4.5 2.4 0.4 10 10:23 13.3 4.6 2.5 0.4 0.1 10 10:58 13.4 4.5 2.4 0.4 11 10:24 13.3 4.6 2.5 0.4 ‐0.5 11 10:59 13.4 4.5 2.4 0.4 12 10:25 13.3 4.5 2.4 0.4 ‐0.9 12 11:00 13.4 4.5 2.4 0.4 13 10:26 13.3 4.5 2.3 0.4 ‐0.5 13 11:01 13.4 4.5 2.4 0.4 14 10:27 13.3 4.5 2.4 0.4 ‐0.6 14 11:02 13.4 4.5 2.3 0.4 15 10:28 13.2 4.5 2.5 0.4 0.2 15 11:03 13.4 4.5 2.3 0.4 16 10:29 13.3 4.5 2.4 0.4 ‐0.1 16 11:04 13.4 4.5 2.3 0.4 17 10:30 13.3 4.5 2.4 0.4 0.3 17 11:05 13.4 4.5 2.2 0.4 18 10:31 13.3 4.5 2.4 0.4 ‐0.6 18 11:06 13.4 4.5 2.2 0.4 19 10:32 13.3 4.5 2.4 0.4 0.1 19 11:07 13.3 4.6 2.3 0.4 20 10:33 13.3 4.5 2.4 0.4 0.3 20 11:08 13.3 4.5 2.3 0.4 21 10:34 13.3 4.5 2.3 0.4 ‐0.2 21 11:09 13.4 4.6 2.3 0.4 Average 13.3 4.5 2.4 0.4 ‐0.2 Average 13.4 4.5 2.4 0.4 Co 0.1 0.1 0.0 0.0 Co 0.0 0.1 0.0 0.1 Cm 10.7 9.0 6.3 2.8 Cm 10.7 8.9 6.3 2.8 Cma 10.7 9.0 6.3 2.8 Cma 10.7 9.0 6.3 2.8 Corrected Average: 13.4 4.5 2.3 0.3 ‐0.2 Corrected Average: 13.4 4.5 2.3 0.4 *3$6E573MJH D RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT11 Lakeside CT11 5/18/2023 5/18/2023 Test Run #7 Test Run #8 Start Time 11:24 Start Time 11:59 Run Length 21 Run Length 21 Stop Time 11:44 Stop Time 12:19 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 11:24 13.4 4.6 2.3 0.4 1 11:59 13.4 4.3 2.3 0.4 2 11:25 13.3 4.6 2.4 0.4 2 12:00 13.4 4.3 2.4 0.4 3 11:26 13.3 4.6 2.4 0.4 3 12:01 13.4 4.3 2.4 0.3 4 11:27 13.3 4.6 2.4 0.4 4 12:02 13.4 4.3 2.3 0.4 5 11:28 13.3 4.6 2.4 0.4 5 12:03 13.4 4.3 2.4 0.4 6 11:29 13.3 4.6 2.4 0.4 6 12:04 13.4 4.3 2.4 0.4 7 11:30 13.3 4.6 2.5 0.4 7 12:05 13.4 4.3 2.4 0.4 8 11:31 13.3 4.6 2.4 0.4 8 12:06 13.4 4.3 2.4 0.4 9 11:32 13.3 4.6 2.4 0.4 9 12:07 13.4 4.3 2.4 0.4 10 11:33 13.3 4.6 2.3 0.4 10 12:08 13.4 4.3 2.4 0.4 11 11:34 13.3 4.5 2.4 0.4 11 12:09 13.4 4.3 2.4 0.4 12 11:35 13.3 4.6 2.4 0.4 12 12:10 13.4 4.3 2.4 0.4 13 11:36 13.3 4.6 2.4 0.4 13 12:11 13.3 4.3 2.4 0.4 14 11:37 13.3 4.6 2.3 0.4 14 12:12 13.4 4.3 2.4 0.4 15 11:38 13.3 4.6 2.4 0.4 15 12:13 13.4 4.3 2.4 0.4 16 11:39 13.3 4.6 2.4 0.4 16 12:14 13.5 4.3 2.4 0.4 17 11:40 13.3 4.5 2.4 0.4 17 12:15 13.4 4.3 2.5 0.4 18 11:41 13.3 4.5 2.4 0.4 18 12:16 13.4 4.3 2.4 0.4 19 11:42 13.3 4.5 2.3 0.4 19 12:17 13.4 4.3 2.4 0.4 20 11:43 13.3 4.5 2.4 0.4 20 12:18 13.3 4.3 2.3 0.4 21 11:44 13.3 4.5 2.4 0.4 21 12:19 13.3 4.3 2.4 0.4 Average 13.3 4.6 2.4 0.4 Average 13.4 4.3 2.4 0.4 Co 0.1 0.1 0.0 0.0 Co 0.1 0.0 0.0 0.0 Cm 10.7 9.0 6.4 2.7 Cm 10.7 9.0 6.4 2.7 Cma 10.7 9.0 6.3 2.8 Cma 10.7 9.0 6.3 2.8 Corrected Average: 13.4 4.5 2.3 0.4 Corrected Average: 13.5 4.3 2.3 0.4 *3$6E573MJH D RI PROJ‐023429 PacifiCorp Lakeside CT11 5/18/2023 Test Run #9 Start Time 12:34 Run Length 21 Stop Time 12:54 Uncorrected Analyzer Data O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd 1 12:34 13.3 4.3 2.4 0.3 2 12:35 13.3 4.3 2.4 0.3 3 12:36 13.3 4.3 2.4 0.3 4 12:37 13.3 4.3 2.4 0.3 5 12:38 13.3 4.3 2.4 0.3 6 12:39 13.3 4.3 2.5 0.3 7 12:40 13.3 4.3 2.4 0.4 8 12:41 13.3 4.3 2.4 0.3 9 12:42 13.3 4.3 2.4 0.3 10 12:43 13.3 4.3 2.3 0.3 11 12:44 13.3 4.3 2.3 0.4 12 12:45 13.3 4.3 2.3 0.3 13 12:46 13.3 4.3 2.3 0.3 14 12:47 13.3 4.3 2.4 0.3 15 12:48 13.3 4.3 2.3 0.4 16 12:49 13.3 4.3 2.4 0.3 17 12:50 13.3 4.3 2.4 0.3 18 12:51 13.3 4.3 2.4 0.3 19 12:52 13.2 4.3 2.4 0.4 20 12:53 13.2 4.3 2.4 0.4 21 12:54 13.3 4.3 2.4 0.4 Average 13.3 4.3 2.4 0.3 Co 0.1 0.0 0.1 0.0 Cm 10.7 8.9 6.3 2.7 Cma 10.7 9.0 6.3 2.8 Corrected Average: 13.4 4.4 2.3 0.4 *3$6E573MJH DE RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3 .2 Unit CT12 GP043AS-023429-RT-1331 Page 60 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.2.1 PM Data GP043AS-023429-RT-1331 Page 61 of 261 PROJ‐006935 PacifiCorp Lakeside CT12 5/19/2023 Run # 1 2 3 Start Time 7:31 11:00 14:00 Stop Time 10:13 13:27 16:23 EPA Method 2 Data 1 2 3 Average Ds Stack Diameter (inches)216.0 216.0 216.0 216.0 Pbar Barometric Pressure ("Hg)25.45 25.45 25.49 25.46 Pg Stack Static Pressure ("H2O)‐0.50 ‐0.50 ‐0.50 ‐0.50 Cp Pitot Tube Coefficient (unitless) 0.7640 0.7640 0.7640 0.7640 √∆pavg Avg. Velocity Head of Stack Gas √("H2O)1.1798 1.1909 1.1976 1.1894 Ts Avg. Stack Gas Temperature (°F)217.08 216.5 162 199 EPA Method 3 or 3A Data 1 2 3 Average O2 (%vd)13.4 13.4 13.4 13.4 CO2 (%vd)4.3 4.3 4.3 4.3 EPA Method 4 Data 1 2 3 Average Ѳ Actual Sampling Time (minutes) 117.00 121.50 120.50 119.67 Vlc Volume of Water Condensed (mL)74.5 76.4 78.9 76.6 Vm Volume of Stack Gas Collected (dcf) 44.381 47.319 47.170 46.290 Y Meter Calibration Factor (unitless)1.0062 1.0062 1.0062 1.0062 ∆H Pressure Differential Across Orifice ("H2O)0.41 0.41 0.41 0.41 Tm Temperature at Gas Meter (°F)71.67 77.33 88.75 79 EPA Method 201A & 202 Data 1 2 3 Average Dn Nozzle diameter (") 0.145 0.145 0.145 0.145 Cyclone Catch, PM10+ (g)0.0001 0.0005 0.0009 0.0005 PM10 Catch ‐ Filter (g)0.0000 0.0006 0.0004 0.0003 PM10 Catch ‐ Rinse (g)0.0000 0.0002 0.0000 0.0001 Inorganic CPM Catch (g)0.0021 0.0022 0.0024 0.0022 Organic CPM Catch (g)0.0035 0.0035 0.0033 0.0034 CPM Blank (g)0.0020 0.0020 0.0020 0.0020 EPA Method 201A Calculations 1 2 3 Average Vm(std)Sample Gas Volume (dscf)37.752 39.827 38.937 38.839 Vws Volume of Water Vapor (scf)3.507 3.596 3.714 3.606 Pm Absolute Pressure at Gas Meter ("Hg)25.41 25.41 25.45 25.43 Bws Moisture Content (%/100)0.085 0.083 0.087 0.085 Md Stack Gas Molecular Weight, dry basis (lb/lb‐mole) 29.22 29.22 29.22 29.22 Ms Stack Gas Molecular Weight, wet basis (lb/lb‐mole)28.27 28.29 28.25 28.27 Vs Stack Gas Velocity (ft/sec) 74.8 75.4 72.8 74.3 Qacfm Stack Gas Volumetric Flow Rate (acf/min) 1,142,183 1,152,096 1,110,938 1,135,072 Qdscfm Stack Gas Dry Volumetric Flow Rate (dscf/min) 691,956 700,222 732,109 708,096 I Isokinetic variation (%) 103.5 103.9 98.0 101.8 An Cross‐sectional area of nozzle (ft2)1.1E‐04 1.1E‐04 1.1E‐04 1.1E‐04 Vn Nozzle Velocity (ft/sec) 77.4 78.4 71.2 75.7 µ Gas Viscosity (micropoise) 208.4 208.5 195.1 204.0 Qs Dry std Cyclone Flow Rate (ft^3/min) 0.32 0.33 0.32 0.32 Qs Actual Cyclone Flow Rate (ft^3/min)0.53 0.54 0.49 0.52 D50 (PM10)Actual Particle Cut Diamter for Cyclone I (µm) 10.6 10.5 10.6 10.6 Particulate Emission Calculations 1 2 3 Average PM10+ emissions (lb/hr) 0.2 1.2 2.2 1.2 PM10+ emissions (gr/dscf) 0.0000 0.0002 0.0004 0.0002 PM10+ emissions (lb/MMBtu) 0.0001 0.0007 0.0012 0.0007 Total PM10 emissions (lb/hr)0.0 1.9 1.0 1.0 Total PM10 emissions (gr/dscf)0.0000 0.0003 0.0002 0.0002 Total PM10 emissions (lb/MMBtu)0.0000 0.0011 0.0005 0.0005 Total CPM emissions (lb/hr)8.7 8.6 9.2 8.8 Total CPM emissions (gr/dscf)0.0015 0.0014 0.0015 0.0015 Total CPM emissions (lb/MMBtu)0.0051 0.0050 0.0051 0.0051 Total PM10/CPM emissions (lb/hr)8.7 10.5 10.2 9.8 Total PM10/CPM emissions (gr/dscf)0.0015 0.0017 0.0016 0.0016 Total PM10/CPM emissions (lb/MMBtu)0.0051 0.0060 0.0056 0.0056 *3$6E573MJH RI GP043AS-023429-RT-1331 Page 63 of 261 GP043AS-023429-RT-1331 Page 64 of 261 GP043AS-023429-RT-1331 Page 65 of 261 GP043AS-023429-RT-1331 Page 66 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.2.2 RATA Data GP043AS-023429-RT-1331 Page 67 of 261 Run #123456789 Start Time 7:17 7:54 8:30 9:06 9:44 10:31 10:57 11:32 12:06 Stop Time 7:37 8:14 8:50 9:26 10:04 10:51 11:17 11:52 12:26 EPA Method 3A, 7E and 10 Data 123456789 O2 (%vd)13.5 13.3 13.2 13.4 13.4 13.4 13.4 13.4 13.4 CO2 (%vd)4.3 4.3 4.3 4.3 4.3 4.2 4.3 4.3 4.4 15%NOx (ppmvd @ 15% O2)1.8 1.7 1.7 1.8 1.9 1.8 1.9 1.9 1.8 CO (ppmvd) 1.9 1.6 1.7 1.7 1.7 1.7 1.8 1.7 1.7 15%CO (ppmvd @ 15% O2)1.5 1.2 1.3 1.4 1.3 1.4 1.4 1.4 1.4 Mass Emission Calculations (Using EPA Method 19 and Fuel Use)1 2 3456789 Fuel Use (mmBtu/hr)2023.9 2026.0 2025.4 2021.4 2016.1 2016.2 2006.5 2008.7 2005.8 NOx (lb/hr)13.3 12.8 12.8 13.7 14.1 13.7 13.9 13.9 13.2 CO (lb/hr) 6.7 5.6 6.0 6.2 6.1 6.2 6.3 6.2 6.1 Mass Emission Calculations (Using EPA Method 19)123456789 Fd dscf/mmBtu 8710 Fd NOx (lb/mmBtu)0.007 0.006 0.006 0.007 0.007 0.007 0.007 0.007 0.007 Fd CO (lb/mmBtu)0.003 0.003 0.003 0.003 0.003 0.003 0.003 0.003 0.003 Plant CEMS Data 123456789 Unit Load (MW) 258 258 258 257 256 256 255 255 255 Heat Input (mmBtu/hr) 2023.9 2026.0 2025.4 2021.4 2016.1 2016.2 2006.5 2008.7 2005.8 O2 (%vd)13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 NOx (ppmvd @ 15% O2)1.8 1.8 1.8 1.8 1.8 1.8 1.8 1.8 1.8 NOx (lb/hr)13.7 13.7 13.9 13.5 13.5 13.5 13.3 13.5 13.2 NOx (lb/mmBtu)0.007 0.007 0.007 0.007 0.007 0.007 0.007 0.007 0.007 CO (ppmvd @ 15% O2)1.3 1.3 1.3 1.3 1.3 1.3 1.3 1.3 1.3 CO (lb/hr) 6.0 6.0 6.0 6.0 6.0 5.9 5.9 5.8 5.8 PROJ‐023429 PacifiCorp Lakeside CT12 5/19/2023 *3$6E573MJH RI 40 CFR Part 75, Appendix A §6.5.6 Pollutant Stratification Test Stack Diameter: 216.0 '' Stratification Test Point 1: 9.5 ''(4.4%) Stratification Test Point 2: 31.5 ''(14.6%) Stratification Test Point 3: 63.9 ''(29.6%) Point Time O2 NOx 1 6:37 13.43 2.08 1 6:38 13.59 2.12 2 6:39 13.61 2.22 2 6:40 13.62 2.24 3 6:41 13.62 2.29 3 6:42 13.60 2.36 4 6:47 13.51 2.35 4 6:48 13.50 2.40 5 6:49 13.51 2.42 5 6:50 13.54 2.30 6 6:51 13.53 2.25 6 6:52 13.53 2.26 7 6:57 13.52 2.28 7 6:58 13.59 2.32 8 6:59 13.57 2.30 8 7:00 13.59 2.37 9 7:01 13.59 2.38 9 7:02 13.58 2.39 10 7:07 13.56 2.35 10 7:08 13.55 2.36 11 7:09 13.56 2.46 11 7:10 13.53 2.39 12 7:11 13.54 2.35 12 7:12 13.53 2.47 Mean 13.6 2.2 Max Deviation From Mean 0.1 0.3 Max Deviation (%) 1.1% 11.3% Short Line? OK OK Single Point? OK OK PROJ‐023429 PacifiCorp Lakeside CT12 5/19/2023 *3$6E573MJH E RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT12 Lakeside CT12 5/19/2023 5/19/2023 Test Run #1 Test Run #2 Start Time 7:17 Start Time 7:54 Run Length 21 Run Length 21 Stop Time 7:37 Stop Time 8:14 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 7:17 13.5 4.4 2.4 1.8 1 7:54 13.3 4.4 2.1 1.7 2 7:18 13.5 4.4 2.5 1.8 2 7:55 13.3 4.4 2.3 1.6 3 7:19 13.5 4.4 2.2 1.9 3 7:56 13.4 4.4 2.3 1.6 4 7:20 13.5 4.4 2.4 1.9 4 7:57 13.4 4.4 2.4 1.6 5 7:21 13.5 4.4 2.4 1.9 5 7:58 13.4 4.4 2.3 1.6 6 7:22 13.5 4.4 2.3 1.9 6 7:59 13.4 4.4 2.3 1.6 7 7:23 13.5 4.4 2.3 1.9 7 8:00 13.5 4.4 2.3 1.6 8 7:24 13.5 4.4 2.4 1.9 8 8:01 13.4 4.4 2.3 1.6 9 7:25 13.5 4.4 2.3 1.9 9 8:02 13.4 4.4 2.3 1.6 10 7:26 13.5 4.4 2.3 1.9 10 8:03 13.4 4.4 2.4 1.6 11 7:27 13.5 4.4 2.3 1.9 11 8:04 13.4 4.4 2.3 1.6 12 7:28 13.5 4.4 2.4 1.9 12 8:05 13.4 4.4 2.3 1.6 13 7:29 13.5 4.4 2.4 2.0 13 8:06 13.4 4.4 2.2 1.6 14 7:30 13.5 4.4 2.4 2.0 14 8:07 13.5 4.4 2.2 1.6 15 7:31 13.5 4.4 2.5 2.0 15 8:08 13.5 4.4 2.3 1.6 16 7:32 13.5 4.4 2.4 2.0 16 8:09 13.5 4.4 2.4 1.6 17 7:33 13.5 4.4 2.4 1.9 17 8:10 13.5 4.4 2.3 1.6 18 7:34 13.5 4.4 2.4 1.8 18 8:11 13.5 4.4 2.3 1.6 19 7:35 13.5 4.4 2.4 1.8 19 8:12 13.5 4.4 2.3 1.6 20 7:36 13.5 4.4 2.4 1.8 20 8:13 13.5 4.4 2.3 1.6 21 7:37 13.5 4.4 2.4 1.8 21 8:14 13.5 4.4 2.4 1.6 Average 13.5 4.4 2.4 1.9 Average 13.4 4.4 2.3 1.6 Co 0.0 0.1 0.2 0.0 Co 0.0 0.1 0.1 0.0 Cm 10.7 9.0 12.2 6.0 Cm 10.8 9.1 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Corrected Average: 13.5 4.3 2.2 1.9 Corrected Average: 13.3 4.3 2.2 1.6 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT12 Lakeside CT12 5/19/2023 5/19/2023 Test Run #3 Test Run #4 Start Time 8:30 Start Time 9:06 Run Length 21 Run Length 21 Stop Time 8:50 Stop Time 9:26 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 8:30 13.3 4.4 2.4 1.8 1 9:06 13.4 4.4 2.3 1.8 2 8:31 13.3 4.4 2.4 1.7 2 9:07 13.4 4.4 2.4 1.8 3 8:32 13.3 4.4 2.4 1.8 3 9:08 13.4 4.4 2.5 1.8 4 8:33 13.3 4.4 2.3 1.8 4 9:09 13.4 4.4 2.4 1.8 5 8:34 13.3 4.4 2.3 1.8 5 9:10 13.4 4.4 2.4 1.8 6 8:35 13.3 4.4 2.3 1.7 6 9:11 13.4 4.4 2.5 1.8 7 8:36 13.4 4.4 2.3 1.8 7 9:12 13.4 4.4 2.4 1.8 8 8:37 13.4 4.4 2.2 1.8 8 9:13 13.5 4.4 2.3 1.7 9 8:38 13.4 4.4 2.3 1.8 9 9:14 13.5 4.4 2.4 1.7 10 8:39 13.4 4.4 2.2 1.7 10 9:15 13.5 4.4 2.5 1.7 11 8:40 13.4 4.4 2.3 1.8 11 9:16 13.5 4.4 2.5 1.7 12 8:41 13.4 4.4 2.3 1.7 12 9:17 13.5 4.4 2.4 1.7 13 8:42 13.4 4.4 2.4 1.8 13 9:18 13.5 4.4 2.4 1.7 14 8:43 13.4 4.4 2.3 1.8 14 9:19 13.5 4.4 2.4 1.7 15 8:44 13.4 4.4 2.2 1.8 15 9:20 13.5 4.4 2.4 1.7 16 8:45 13.4 4.4 2.2 1.7 16 9:21 13.5 4.4 2.4 1.7 17 8:46 13.4 4.4 2.3 1.8 17 9:22 13.5 4.4 2.4 1.7 18 8:47 13.4 4.4 2.4 1.8 18 9:23 13.5 4.4 2.5 1.7 19 8:48 13.4 4.4 2.3 1.8 19 9:24 13.5 4.4 2.4 1.7 20 8:49 13.4 4.4 2.3 1.8 20 9:25 13.5 4.4 2.4 1.7 21 8:50 13.4 4.4 2.3 1.8 21 9:26 13.5 4.4 2.4 1.7 Average 13.4 4.4 2.3 1.8 Average 13.5 4.4 2.4 1.7 Co 0.0 0.1 0.1 0.0 Co 0.0 0.1 0.1 0.0 Cm 10.8 9.1 12.2 6.0 Cm 10.7 9.1 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Corrected Average: 13.2 4.3 2.2 1.7 Corrected Average: 13.4 4.3 2.3 1.7 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT12 Lakeside CT12 5/19/2023 5/19/2023 Test Run #5 Test Run #6 Start Time 9:44 Start Time 10:31 Run Length 21 Run Length 21 Stop Time 10:04 Stop Time 10:51 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO NO2 O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 9:44 13.3 4.4 2.5 1.8 0.4 1 10:31 13.3 4.3 2.4 1.8 2 9:45 13.3 4.4 2.5 1.7 0.6 2 10:32 13.3 4.3 2.5 1.8 3 9:46 13.3 4.4 2.4 1.7 0.4 3 10:33 13.3 4.3 2.5 1.8 4 9:47 13.3 4.4 2.5 1.7 ‐0.6 4 10:34 13.3 4.3 2.5 1.7 5 9:48 13.5 4.4 2.5 1.7 0.8 5 10:35 13.5 4.3 2.5 1.7 6 9:49 13.5 4.4 2.5 1.7 0.9 6 10:36 13.5 4.3 2.5 1.7 7 9:50 13.5 4.4 2.4 1.7 0.5 7 10:37 13.5 4.3 2.6 1.7 8 9:51 13.5 4.4 2.3 1.7 0.6 8 10:38 13.5 4.3 2.4 1.7 9 9:52 13.5 4.4 2.4 1.7 0.4 9 10:39 13.5 4.3 2.3 1.7 10 9:53 13.5 4.4 2.5 1.7 0.6 10 10:40 13.5 4.4 2.4 1.7 11 9:54 13.5 4.4 2.5 1.7 0.0 11 10:41 13.5 4.3 2.5 1.7 12 9:55 13.5 4.4 2.5 1.7 0.2 12 10:42 13.5 4.3 2.5 1.7 13 9:56 13.5 4.4 2.5 1.7 1.0 13 10:43 13.5 4.4 2.4 1.7 14 9:57 13.5 4.4 2.4 1.8 0.8 14 10:44 13.5 4.3 2.4 1.7 15 9:58 13.5 4.4 2.4 1.7 0.7 15 10:45 13.5 4.3 2.5 1.7 16 9:59 13.5 4.4 2.4 1.7 0.3 16 10:46 13.5 4.4 2.5 1.7 17 10:00 13.5 4.4 2.5 1.7 0.7 17 10:47 13.5 4.3 2.3 1.7 18 10:01 13.5 4.4 2.5 1.7 0.7 18 10:48 13.5 4.4 2.4 1.8 19 10:02 13.5 4.3 2.4 1.7 1.2 19 10:49 13.5 4.4 2.4 1.8 20 10:03 13.5 4.3 2.4 1.7 0.0 20 10:50 13.5 4.4 2.4 1.8 21 10:04 13.5 4.3 2.5 1.7 ‐0.3 21 10:51 13.5 4.4 2.4 1.8 Average 13.5 4.4 2.4 1.7 0.5 Average 13.5 4.3 2.4 1.7 Co 0.0 0.1 0.1 0.0 Co 0.0 0.1 0.2 0.0 Cm 10.7 9.1 12.2 6.0 Cm 10.7 9.1 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Corrected Average: 13.4 4.3 2.4 1.7 0.5 Corrected Average: 13.4 4.2 2.3 1.7 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT12 Lakeside CT12 5/19/2023 5/19/2023 Test Run #7 Test Run #8 Start Time 10:57 Start Time 11:32 Run Length 21 Run Length 21 Stop Time 11:17 Stop Time 11:52 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 10:57 13.3 4.4 2.3 1.8 1 11:32 13.2 4.3 2.4 1.7 2 10:58 13.3 4.4 2.4 1.8 2 11:33 13.2 4.3 2.3 1.7 3 10:59 13.2 4.4 2.4 1.8 3 11:34 13.2 4.3 2.2 1.8 4 11:00 13.3 4.4 2.4 1.8 4 11:35 13.2 4.3 2.4 1.8 5 11:01 13.5 4.4 2.4 1.7 5 11:36 13.3 4.3 2.4 1.7 6 11:02 13.5 4.4 2.6 1.7 6 11:37 13.5 4.3 2.4 1.7 7 11:03 13.5 4.4 2.7 1.7 7 11:38 13.5 4.3 2.4 1.7 8 11:04 13.5 4.4 2.7 1.7 8 11:39 13.5 4.3 2.4 1.7 9 11:05 13.5 4.4 2.7 1.7 9 11:40 13.5 4.3 2.3 1.7 10 11:06 13.5 4.4 2.5 1.7 10 11:41 13.5 4.3 2.3 1.7 11 11:07 13.5 4.4 2.4 1.7 11 11:42 13.5 4.3 2.4 1.7 12 11:08 13.5 4.4 2.4 1.7 12 11:43 13.5 4.3 2.4 1.7 13 11:09 13.5 4.4 2.3 1.7 13 11:44 13.5 4.3 2.4 1.7 14 11:10 13.5 4.4 2.4 1.7 14 11:45 13.5 4.3 2.3 1.8 15 11:11 13.5 4.4 2.4 1.7 15 11:46 13.5 4.3 2.3 1.8 16 11:12 13.5 4.4 2.5 1.7 16 11:47 13.5 4.3 2.4 1.7 17 11:13 13.5 4.3 2.4 1.7 17 11:48 13.5 4.3 2.4 1.8 18 11:14 13.5 4.3 2.4 1.7 18 11:49 13.5 4.3 2.4 1.7 19 11:15 13.5 4.3 2.4 1.7 19 11:50 13.5 4.3 2.4 1.8 20 11:16 13.5 4.3 2.5 1.7 20 11:51 13.5 4.3 2.4 1.8 21 11:17 13.5 4.3 2.2 1.7 21 11:52 13.5 4.3 2.4 1.8 Average 13.4 4.4 2.4 1.7 Average 13.4 4.3 2.4 1.7 Co 0.0 0.1 0.1 ‐0.1 Co 0.0 0.0 0.0 0.0 Cm 10.6 9.1 12.2 6.0 Cm 10.7 9.1 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Cma 10.7 9.0 12.2 6.0 Corrected Average: 13.4 4.3 2.4 1.8 Corrected Average: 13.4 4.3 2.4 1.7 *3$6E573MJH RI PROJ‐023429 PacifiCorp Lakeside CT12 5/19/2023 Test Run #9 Start Time 12:06 Run Length 21 Stop Time 12:26 Uncorrected Analyzer Data O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd 1 12:06 13.4 4.5 2.3 1.7 2 12:07 13.5 4.5 2.3 1.8 3 12:08 13.5 4.5 2.4 1.8 4 12:09 13.5 4.5 2.4 1.8 5 12:10 13.5 4.4 2.4 1.8 6 12:11 13.5 4.4 2.4 1.8 7 12:12 13.5 4.4 2.3 1.7 8 12:13 13.5 4.4 2.3 1.7 9 12:14 13.5 4.4 2.4 1.7 10 12:15 13.5 4.4 2.5 1.7 11 12:16 13.5 4.4 2.4 1.7 12 12:17 13.5 4.3 2.3 1.7 13 12:18 13.5 4.4 2.4 1.7 14 12:19 13.5 4.3 2.4 1.7 15 12:20 13.5 4.4 2.4 1.7 16 12:21 13.5 4.4 2.3 1.7 17 12:22 13.5 4.4 2.3 1.8 18 12:23 13.5 4.3 2.1 1.8 19 12:24 13.5 4.3 2.0 1.8 20 12:25 13.5 4.3 2.1 1.7 21 12:26 13.5 4.3 2.3 1.7 Average 13.5 4.4 2.3 1.7 Co 0.0 0.0 0.1 0.0 Cm 10.7 8.9 12.2 5.9 Cma 10.7 9.0 12.2 6.0 Corrected Average: 13.4 4.4 2.3 1.7 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3 .3 Unit CT21 GP043AS-023429-RT-1331 Page 75 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.3.1 PM Data GP043AS-023429-RT-1331 Page 76 of 261 PROJ‐023429 PacifiCorp Lake Side CT21 5/16/2023 Run # 1 2 3 Start Time 8:25 11:41 15:12 Stop Time 10:28 14:03 17:36 EPA Method 2 Data 1 2 3 Average Ds Stack Diameter (inches)216.0 216.0 216.0 216.0 Pbar Barometric Pressure ("Hg)25.50 25.50 25.50 25.50 Pg Stack Static Pressure ("H2O)‐0.50 ‐0.50 ‐0.60 ‐0.53 Cp Pitot Tube Coefficient (unitless) 0.7640 0.7640 0.7640 0.7640 √∆pavg Avg. Velocity Head of Stack Gas √("H2O)1.1043 1.0482 1.0659 1.0728 Ts Avg. Stack Gas Temperature (°F)163.58 164.67 164 164 EPA Method 3 or 3A Data 1 2 3 Average O2 (%vd)12.0 12.0 12.0 12.0 CO2 (%vd)5.0 4.8 4.8 4.9 EPA Method 4 Data 1 2 3 Average Ѳ Actual Sampling Time (minutes) 123.25 113.75 122.25 119.75 Vlc Volume of Water Condensed (mL)93.2 63.4 82.9 79.8 Vm Volume of Stack Gas Collected (dcf) 49.853 45.223 46.844 47.307 Y Meter Calibration Factor (unitless)1.0062 1.0062 1.0062 1.0062 ∆H Pressure Differential Across Orifice ("H2O)0.40 0.40 0.39 0.40 Tm Temperature at Gas Meter (°F)86.96 92.63 81.96 87 EPA Method 201A & 202 Data 1 2 3 Average Dn Nozzle diameter (") 0.158 0.158 0.158 0.158 Cyclone Catch, PM10+ (g)0.0004 0.0005 0.0006 0.0005 PM10 Catch ‐ Filter (g)0.0000 0.0000 0.0000 0.0000 PM10 Catch ‐ Rinse (g)0.0003 0.0003 0.0003 0.0003 Inorganic CPM Catch (g)0.0042 0.0032 0.0018 0.0031 Organic CPM Catch (g)0.0038 0.0030 0.0037 0.0035 CPM Blank (g)0.0020 0.0020 0.0020 0.0020 EPA Method 201A Calculations 1 2 3 Average Vm(std)Sample Gas Volume (dscf)41.301 37.081 39.165 39.182 Vws Volume of Water Vapor (scf)4.387 2.984 3.902 3.758 Pm Absolute Pressure at Gas Meter ("Hg)25.46 25.46 25.46 25.46 Bws Moisture Content (%/100)0.096 0.074 0.091 0.087 Md Stack Gas Molecular Weight, dry basis (lb/lb‐mole) 29.28 29.25 29.25 29.26 Ms Stack Gas Molecular Weight, wet basis (lb/lb‐mole)28.20 28.41 28.23 28.28 Vs Stack Gas Velocity (ft/sec) 67.2 63.6 64.9 65.2 Qacfm Stack Gas Volumetric Flow Rate (acf/min) 1,026,313 971,440 990,650 996,134 Qdscfm Stack Gas Dry Volumetric Flow Rate (dscf/min) 668,281 646,489 648,298 654,356 I Isokinetic variation (%) 93.7 94.3 92.4 93.5 An Cross‐sectional area of nozzle (ft2)1.4E‐04 1.4E‐04 1.4E‐04 1.4E‐04 Vn Nozzle Velocity (ft/sec) 63.0 59.9 59.9 60.9 µ Gas Viscosity (micropoise) 193.9 196.2 194.5 194.9 Qs Dry std Cyclone Flow Rate (ft^3/min) 0.34 0.33 0.32 0.33 Qs Actual Cyclone Flow Rate (ft^3/min)0.51 0.49 0.49 0.50 D50 (PM10)Actual Particle Cut Diamter for Cyclone I (µm) 10.2 10.6 10.6 10.5 Particulate Emission Calculations 1 2 3 Average PM10+ emissions (lb/hr) 0.9 1.2 1.3 1.1 PM10+ emissions (gr/dscf) 0.0001 0.0002 0.0002 0.0002 PM10+ emissions (lb/MMBtu) 0.0004 0.0006 0.0007 0.0006 Total PM10 emissions (lb/hr)0.6 0.7 0.7 0.7 Total PM10 emissions (gr/dscf)0.0001 0.0001 0.0001 0.0001 Total PM10 emissions (lb/MMBtu)0.0003 0.0004 0.0003 0.0003 Total CPM emissions (lb/hr)12.8 9.7 7.7 10.1 Total CPM emissions (gr/dscf)0.0022 0.0017 0.0014 0.0018 Total CPM emissions (lb/MMBtu)0.0066 0.0051 0.0040 0.0052 Total PM10/CPM emissions (lb/hr)13.5 10.4 8.3 10.7 Total PM10/CPM emissions (gr/dscf)0.0024 0.0019 0.0015 0.0019 Total PM10/CPM emissions (lb/MMBtu)0.0069 0.0055 0.0044 0.0056 *3$6E573MJH RI GP043AS-023429-RT-1331 Page 78 of 261 GP043AS-023429-RT-1331 Page 79 of 261 GP043AS-023429-RT-1331 Page 80 of 261 GP043AS-023429-RT-1331 Page 81 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.3.2 RATA Data GP043AS-023429-RT-1331 Page 82 of 261 Run #123456789 Start Time 7:41 8:19 8:57 9:35 10:13 10:51 11:28 12:03 12:41 Stop Time 8:01 8:39 9:17 9:55 10:33 11:11 11:48 12:23 13:01 EPA Method 3A, 6C, 7E and 10 Data 123456789 O2 (%vd)12.3 12.2 12.0 12.3 12.3 12.2 11.9 12.0 12.0 CO2 (%vd)4.8 5.0 5.1 4.7 4.8 4.8 4.9 4.9 4.9 NOx (ppmvd)2.7 2.5 2.5 2.6 2.5 2.6 2.6 2.6 2.6 15%NOx (ppmvd @ 15% O2)1.9 1.7 1.7 1.8 1.7 1.7 1.7 1.7 1.7 CO (ppmvd) 0.1 0.2 0.1 0.1 0.1 0.2 0.1 0.1 0.1 15%CO (ppmvd @ 15% O2)0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Mass Emission Calculations (Using EPA Method 19 and Fuel Use)1 2 3456789 Fuel Use (mmBtu/hr)1789.3 1791 1792.9 1788 1780.6 1780.9 1783.8 1785.8 1787.5 NOx (lb/hr)12.4 11.4 11.1 11.6 11.3 11.5 11.1 11.3 11.3 CO (lb/hr) 0.3 0.5 0.3 0.3 0.2 0.4 0.3 0.3 0.3 Mass Emission Calculations (Using EPA Method 19)123456789 Fd dscf/mmBtu 8710 Fd NOx (lb/mmBtu)0.007 0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 Fd CO (lb/mmBtu)0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Plant CEMS Data 123456789 Unit Load (MW) 305 306 306 305 304 304 304 305 305 Heat Input (mmBtu/hr) 1789.3 1791.1 1792.9 1788.0 1780.6 1780.9 1783.8 1785.8 1787.5 O2 (%vd)12.0 12.0 12.0 12.0 12.0 12.0 12.0 11.9 11.9 NOx (ppmvd @ 15% O2)1.7 1.7 1.7 1.7 1.7 1.7 1.7 1.7 1.7 NOx (lb/hr)10.8 10.9 11.2 11.2 11.0 11.0 11.0 11.0 11.1 NOx (lb/mmBtu)0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 CO (ppmvd @ 15% O2)0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 CO (lb/hr) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 *3$6E573MJH RI 40 CFR Part 75, Appendix A §6.5.6 Pollutant Stratification Test Stack Diameter: 216.0 '' Stratification Test Point 1: 9.5 ''(4.4%) Stratification Test Point 2: 31.5 ''(14.6%) Stratification Test Point 3: 63.9 ''(29.6%) Point Time O2 NOx 1 6:55 11.72 2.45 1 6:56 11.68 2.56 2 6:57 11.86 2.59 2 6:58 11.96 2.50 3 6:59 12.04 2.37 3 7:00 11.93 2.32 4 7:04 12.15 2.18 4 7:05 12.15 2.36 5 7:06 12.14 2.45 5 7:07 12.12 2.40 6 7:08 12.13 2.32 6 7:09 12.11 2.30 7 7:14 11.90 2.20 7 7:15 11.88 2.38 8 7:16 11.86 2.30 8 7:17 11.88 2.34 9 7:18 11.92 2.38 9 7:19 11.94 2.51 10 7:55 11.96 2.18 10 7:56 11.89 2.35 11 7:57 11.90 2.21 11 7:58 11.81 2.23 12 7:59 11.82 2.32 12 8:00 11.84 2.38 Mean 11.9 2.5 Max Deviation From Mean 0.3 0.3 Max Deviation (%) 2.4% 11.6% Short Line? OK OK Single Point? OK OK PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT21 Lakeside CT21 5/16/2023 5/16/2023 Test Run #1 Test Run #2 Start Time 7:41 Start Time 8:19 Run Length 21 Run Length 21 Stop Time 8:01 Stop Time 8:39 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 7:41 12.0 4.8 2.6 0.0 1 8:19 11.8 5.0 2.6 0.1 2 7:42 12.1 4.8 2.7 0.0 2 8:20 12.0 5.0 2.6 0.2 3 7:43 12.3 4.8 2.7 0.0 3 8:21 12.2 5.0 2.5 0.2 4 7:44 12.3 4.8 2.7 0.1 4 8:22 12.2 5.0 2.6 0.2 5 7:45 12.3 4.8 2.7 0.1 5 8:23 12.2 5.0 2.6 0.2 6 7:46 12.3 4.8 2.8 0.1 6 8:24 12.2 5.0 2.6 0.1 7 7:47 12.3 4.8 2.8 0.0 7 8:25 12.2 5.0 2.5 0.2 8 7:48 12.3 4.8 2.8 0.0 8 8:26 12.2 5.0 2.4 0.2 9 7:49 12.3 4.8 2.8 0.1 9 8:27 12.2 5.0 2.4 0.2 10 7:50 12.3 4.8 2.7 0.1 10 8:28 12.2 5.0 2.7 0.2 11 7:51 12.3 4.8 2.7 0.1 11 8:29 12.2 5.0 2.8 0.1 12 7:52 12.3 4.8 2.8 0.0 12 8:30 12.2 5.0 2.7 0.1 13 7:53 12.3 4.8 2.8 0.1 13 8:31 12.2 5.0 2.6 0.2 14 7:54 12.3 4.8 2.8 0.1 14 8:32 12.2 5.0 2.7 0.1 15 7:55 12.3 4.8 2.9 0.1 15 8:33 12.2 5.0 2.7 0.1 16 7:56 12.3 4.8 2.9 0.0 16 8:34 12.2 5.0 2.7 0.1 17 7:57 12.3 4.8 2.7 0.1 17 8:35 12.2 5.0 2.6 0.1 18 7:58 12.3 4.8 2.8 0.1 18 8:36 12.2 5.0 2.7 0.1 19 7:59 12.3 4.8 2.8 0.1 19 8:37 12.2 5.0 2.7 0.1 20 8:00 12.3 4.8 2.8 0.1 20 8:38 12.2 5.0 2.7 0.1 21 8:01 12.3 4.8 2.8 0.1 21 8:39 12.2 5.0 2.7 0.2 Average 12.3 4.8 2.8 0.0 Average 12.2 5.0 2.6 0.1 Co 0.1 0.0 0.0 ‐0.1 Co 0.1 0.0 0.1 0.0 Cm 10.7 8.9 6.3 2.7 Cm 10.7 8.9 6.3 2.7 Cma 10.7 9.0 6.2 2.7 Cma 10.7 9.0 6.2 2.7 Corrected Average: 12.3 4.8 2.7 0.1 Corrected Average: 12.2 5.0 2.5 0.2 *3$6E573MJH D RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT21 Lakeside CT21 5/16/2023 5/16/2023 Test Run #3 Test Run #4 Start Time 8:57 Start Time 9:35 Run Length 21 Run Length 21 Stop Time 9:17 Stop Time 9:55 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 8:57 11.7 5.1 2.5 0.1 1 9:35 12.1 4.9 2.4 0.1 2 8:58 11.9 5.1 2.5 0.1 2 9:36 12.1 4.8 2.5 0.1 3 8:59 12.0 5.1 2.4 0.1 3 9:37 12.2 4.8 2.6 0.1 4 9:00 11.9 5.1 2.6 0.1 4 9:38 12.1 4.9 2.6 0.1 5 9:01 12.0 5.1 2.6 0.1 5 9:39 12.2 4.8 2.5 0.1 6 9:02 12.0 5.1 2.3 0.1 6 9:40 12.1 4.8 2.7 0.1 7 9:03 11.9 5.1 2.5 0.1 7 9:41 12.1 4.8 2.5 0.1 8 9:04 12.0 5.1 2.6 0.1 8 9:42 12.0 4.8 2.4 0.1 9 9:05 12.0 5.1 2.5 0.1 9 9:43 12.0 4.8 2.4 0.1 10 9:06 11.9 5.1 2.5 0.1 10 9:44 12.0 4.8 2.6 0.1 11 9:07 11.9 5.2 2.6 0.1 11 9:45 12.1 4.8 2.6 0.1 12 9:08 11.9 5.1 2.6 0.1 12 9:46 12.1 4.8 2.6 0.1 13 9:09 12.0 5.1 2.6 0.1 13 9:47 12.1 4.8 2.7 0.1 14 9:10 12.0 5.1 2.4 0.1 14 9:48 12.1 4.8 2.7 0.1 15 9:11 11.9 5.1 2.5 0.1 15 9:49 12.1 4.8 2.6 0.1 16 9:12 12.0 5.1 2.6 0.1 16 9:50 12.1 4.8 2.8 0.1 17 9:13 12.0 5.1 2.5 0.1 17 9:51 12.1 4.8 2.5 0.1 18 9:14 11.9 5.1 2.4 0.1 18 9:52 12.1 4.8 2.5 0.1 19 9:15 11.9 5.1 2.7 0.1 19 9:53 12.1 4.8 2.6 0.1 20 9:16 11.9 5.1 2.7 0.1 20 9:54 12.1 4.8 2.6 0.1 21 9:17 11.9 5.1 2.6 0.1 21 9:55 12.1 4.8 2.5 0.1 Average 11.9 5.1 2.5 0.1 Average 12.1 4.8 2.6 0.1 Co 0.1 0.0 ‐0.1 0.0 Co 0.0 0.0 ‐0.1 0.0 Cm 10.6 9.1 6.3 2.7 Cm 10.6 9.1 6.3 2.8 Cma 10.7 9.0 6.2 2.7 Cma 10.7 9.0 6.2 2.7 Corrected Average: 12.0 5.1 2.5 0.1 Corrected Average: 12.3 4.7 2.6 0.1 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT21 Lakeside CT21 5/16/2023 5/16/2023 Test Run #5 Test Run #6 Start Time 10:13 Start Time 10:51 Run Length 21 Run Length 21 Stop Time 10:33 Stop Time 11:11 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 10:13 11.9 4.8 2.5 0.1 1 10:51 12.0 4.9 2.4 0.1 2 10:14 12.1 4.8 2.5 0.1 2 10:52 12.1 4.9 2.4 0.1 3 10:15 12.1 4.8 2.7 0.0 3 10:53 12.2 4.9 2.4 0.1 4 10:16 12.1 4.8 2.7 0.1 4 10:54 12.2 4.9 2.4 0.1 5 10:17 12.1 4.8 2.7 0.0 5 10:55 12.2 4.9 2.6 0.1 6 10:18 12.1 4.8 2.7 0.0 6 10:56 12.2 4.9 2.6 0.1 7 10:19 12.1 4.8 2.5 0.0 7 10:57 12.2 4.9 2.6 0.1 8 10:20 12.1 4.8 2.4 0.0 8 10:58 12.2 4.9 2.6 0.1 9 10:21 12.1 4.8 2.4 0.0 9 10:59 12.2 4.9 2.6 0.1 10 10:22 12.1 4.8 2.5 0.0 10 11:00 12.3 4.9 2.7 0.1 11 10:23 12.1 4.8 2.6 0.0 11 11:01 12.2 4.8 2.7 0.1 12 10:24 12.1 4.8 2.6 0.0 12 11:02 12.2 4.9 2.6 0.1 13 10:25 12.1 4.8 2.6 0.0 13 11:03 12.2 4.9 2.6 0.1 14 10:26 12.1 4.8 2.5 0.0 14 11:04 12.3 4.8 2.6 0.1 15 10:27 12.1 4.8 2.5 0.0 15 11:05 12.3 4.8 2.7 0.1 16 10:28 12.2 4.8 2.5 0.0 16 11:06 12.3 4.8 2.8 0.1 17 10:29 12.2 4.8 2.6 0.0 17 11:07 12.3 4.8 2.7 0.1 18 10:30 12.1 4.8 2.6 0.0 18 11:08 12.2 4.9 2.8 0.1 19 10:31 12.1 4.8 2.5 0.0 19 11:09 12.3 4.8 2.7 0.1 20 10:32 12.2 4.8 2.4 0.0 20 11:10 12.3 4.8 2.7 0.1 21 10:33 12.2 4.8 2.4 0.0 21 11:11 12.2 4.8 2.7 0.1 Average 12.1 4.8 2.5 0.0 Average 12.2 4.9 2.6 0.1 Co 0.0 0.0 ‐0.1 ‐0.1 Co 0.0 0.0 0.0 ‐0.1 Cm 10.5 9.0 6.4 2.8 Cm 10.7 9.0 6.4 2.8 Cma 10.7 9.0 6.2 2.7 Cma 10.7 9.0 6.2 2.7 Corrected Average: 12.3 4.8 2.5 0.1 Corrected Average: 12.2 4.8 2.6 0.2 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT21 Lakeside CT21 5/16/2023 5/16/2023 Test Run #7 Test Run #8 Start Time 11:28 Start Time 12:03 Run Length 21 Run Length 21 Stop Time 11:48 Stop Time 12:23 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 11:28 11.9 4.8 2.5 0.1 1 12:03 11.8 5.0 2.7 0.1 2 11:29 11.9 4.9 2.4 0.1 2 12:04 11.9 5.0 2.6 0.0 3 11:30 12.0 4.9 2.6 0.0 3 12:05 11.9 5.0 2.7 0.0 4 11:31 12.0 4.9 2.6 0.1 4 12:06 11.8 5.0 2.7 0.0 5 11:32 11.9 5.0 2.5 0.0 5 12:07 11.9 5.0 2.9 0.0 6 11:33 11.9 5.0 2.6 0.0 6 12:08 11.9 5.0 2.9 0.0 7 11:34 12.0 5.0 2.5 0.1 7 12:09 11.9 5.0 2.8 0.0 8 11:35 12.0 5.0 2.6 0.0 8 12:10 11.9 5.0 2.9 0.0 9 11:36 12.0 5.0 2.7 0.0 9 12:11 11.9 5.0 2.9 0.0 10 11:37 12.0 5.0 2.6 0.0 10 12:12 11.9 5.0 2.8 0.0 11 11:38 12.0 4.9 2.7 0.0 11 12:13 12.0 5.0 2.9 0.0 12 11:39 11.9 5.0 2.6 0.0 12 12:14 11.9 5.0 2.9 0.0 13 11:40 11.9 5.0 2.6 0.0 13 12:15 11.9 5.0 3.0 0.0 14 11:41 11.9 5.0 2.7 0.0 14 12:16 11.9 5.0 2.9 0.0 15 11:42 12.0 5.0 2.8 0.0 15 12:17 12.0 5.0 2.9 0.0 16 11:43 12.0 5.0 2.7 0.0 16 12:18 11.9 5.0 2.5 0.0 17 11:44 11.9 5.0 2.6 0.0 17 12:19 12.0 5.0 2.1 0.0 18 11:45 12.0 5.0 2.5 0.0 18 12:20 12.0 5.0 2.1 0.0 19 11:46 12.0 5.0 2.6 0.0 19 12:21 12.0 5.0 2.0 0.0 20 11:47 11.9 5.0 2.8 0.0 20 12:22 12.0 5.0 2.1 0.0 21 11:48 12.0 5.0 2.8 0.0 21 12:23 11.9 5.0 2.2 0.0 Average 11.9 5.0 2.6 0.0 Average 11.9 5.0 2.6 0.0 Co 0.0 0.0 0.0 ‐0.1 Co 0.0 0.0 0.0 ‐0.1 Cm 10.8 9.0 6.3 2.7 Cm 10.7 9.0 6.3 2.7 Cma 10.7 9.0 6.2 2.7 Cma 10.7 9.0 6.2 2.7 Corrected Average: 11.9 4.9 2.6 0.1 Corrected Average: 12.0 4.9 2.6 0.1 *3$6E573MJH RI PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 Test Run #9 Start Time 12:41 Run Length 21 Stop Time 13:01 Uncorrected Analyzer Data O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd 1 12:41 11.7 4.9 2.8 0.0 2 12:42 11.9 4.9 2.7 0.0 3 12:43 11.9 4.9 2.7 0.0 4 12:44 11.9 5.0 2.6 0.0 5 12:45 12.0 4.9 2.6 0.0 6 12:46 11.9 5.0 2.8 0.0 7 12:47 12.0 4.9 2.7 0.0 8 12:48 11.9 5.0 2.5 0.0 9 12:49 11.9 5.0 2.6 0.0 10 12:50 11.9 4.9 2.9 0.0 11 12:51 11.9 5.0 2.5 0.0 12 12:52 12.0 4.9 2.5 0.0 13 12:53 11.9 5.0 2.6 0.0 14 12:54 12.0 4.9 2.6 0.0 15 12:55 11.9 5.0 2.6 0.0 16 12:56 11.9 5.0 2.7 0.0 17 12:57 11.9 5.0 2.7 0.0 18 12:58 11.9 5.0 2.6 0.0 19 12:59 11.9 5.0 2.7 0.0 20 13:00 11.9 5.0 2.7 0.0 21 13:01 11.9 5.0 2.7 0.0 Average 11.9 4.9 2.7 0.0 Co 0.0 0.0 0.0 ‐0.1 Cm 10.7 9.1 6.4 2.7 Cma 10.7 9.0 6.2 2.7 Corrected Average: 12.0 4.9 2.6 0.1 *3$6E573MJH E RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3 .4 Unit CT22 GP043AS-023429-RT-1331 Page 90 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.4.1 PM Data GP043AS-023429-RT-1331 Page 91 of 261 PROJ‐023429 PacifiCorp Lake Side CT22 5/17/2023 Run # 1 2 3 Start Time 7:35 12:34 15:09 Stop Time 10:26 14:45 17:28 EPA Method 2 Data 1 2 3 Average Ds Stack Diameter (inches)216.0 216.0 216.0 216.0 Pbar Barometric Pressure ("Hg)25.48 25.48 25.48 25.48 Pg Stack Static Pressure ("H2O)‐0.40 ‐0.40 ‐0.40 ‐0.40 Cp Pitot Tube Coefficient (unitless) 0.7640 0.7640 0.7640 0.7640 √∆pavg Avg. Velocity Head of Stack Gas √("H2O)1.0840 1.0855 1.0943 1.0880 Ts Avg. Stack Gas Temperature (°F)165.8 164.2 163.8 165 EPA Method 3 or 3A Data 1 2 3 Average O2 (%vd)12.1 12.2 12.1 12.1 CO2 (%vd)4.8 4.8 4.8 4.8 EPA Method 4 Data 1 2 3 Average Ѳ Actual Sampling Time (minutes) 150.75 120.25 121.00 130.67 Vlc Volume of Water Condensed (mL)90.4 80.9 90.9 87.4 Vm Volume of Stack Gas Collected (dcf) 50.671 44.071 46.317 47.020 Y Meter Calibration Factor (unitless)1.0062 1.0062 1.0062 1.0062 ∆H Pressure Differential Across Orifice ("H2O)0.39 0.39 0.39 0.39 Tm Temperature at Gas Meter (°F)73.54 85.63 82.9 81 EPA Method 201A & 202 Data 1 2 3 Average Dn Nozzle diameter (") 0.158 0.158 0.158 0.158 Cyclone Catch, PM10+ (g)0.0004 0.0000 0.0003 0.0002 PM10 Catch ‐ Filter (g)0.0013 0.0004 0.0001 0.0006 PM10 Catch ‐ Rinse (g)0.0001 0.0000 0.0000 0.0000 Inorganic CPM Catch (g)0.0054 0.0026 0.0037 0.0039 Organic CPM Catch (g)0.0033 0.0033 0.0036 0.0034 CPM Blank (g)0.0020 0.0020 0.0020 0.0020 EPA Method 201A Calculations 1 2 3 Average Vm(std)Sample Gas Volume (dscf)42.999 36.570 38.627 39.399 Vws Volume of Water Vapor (scf)4.255 3.808 4.279 4.114 Pm Absolute Pressure at Gas Meter ("Hg)25.45 25.45 25.45 25.45 Bws Moisture Content (%/100)0.090 0.094 0.100 0.095 Md Stack Gas Molecular Weight, dry basis (lb/lb‐mole) 29.25 29.26 29.25 29.25 Ms Stack Gas Molecular Weight, wet basis (lb/lb‐mole)28.24 28.19 28.13 28.19 Vs Stack Gas Velocity (ft/sec) 66.1 66.1 66.7 66.3 Qacfm Stack Gas Volumetric Flow Rate (acf/min) 1,008,708 1,009,756 1,018,824 1,012,429 Qdscfm Stack Gas Dry Volumetric Flow Rate (dscf/min) 658,484 657,796 660,094 658,791 I Isokinetic variation (%) 81.0 86.4 90.4 85.9 An Cross‐sectional area of nozzle (ft2)1.4E‐04 1.4E‐04 1.4E‐04 1.4E‐04 Vn Nozzle Velocity (ft/sec) 53.5 57.1 60.3 57.0 µ Gas Viscosity (micropoise) 195.1 194.3 193.7 194.4 Qs Dry std Cyclone Flow Rate (ft^3/min) 0.29 0.30 0.32 0.30 Qs Actual Cyclone Flow Rate (ft^3/min)0.44 0.47 0.49 0.47 D50 (PM10)Actual Particle Cut Diamter for Cyclone I (µm) 11.5 10.9 10.5 10.97 Particulate Emission Calculations 1 2 3 Average PM10+ emissions (lb/hr) 0.8 0.0 0.7 0.5 PM10+ emissions (gr/dscf) 0.0001 0.0000 0.0001 0.0001 PM10+ emissions (lb/MMBtu) 0.0004 0.0000 0.0004 0.0003 Total PM10 emissions (lb/hr)2.8 1.0 0.2 1.3 Total PM10 emissions (gr/dscf)0.0005 0.0002 0.0000 0.0002 Total PM10 emissions (lb/MMBtu)0.0015 0.0005 0.0001 0.0007 Total CPM emissions (lb/hr)13.6 9.3 12.0 11.6 Total CPM emissions (gr/dscf)0.0024 0.0016 0.0021 0.0021 Total CPM emissions (lb/MMBtu)0.0071 0.0049 0.0063 0.0061 Total PM10/CPM emissions (lb/hr)16.4 10.2 12.2 13.0 Total PM10/CPM emissions (gr/dscf)0.0029 0.0018 0.0022 0.0023 Total PM10/CPM emissions (lb/MMBtu)0.0086 0.0054 0.0064 0.0068 *3$6E573MJH E RI GP043AS-023429-RT-1331 Page 93 of 261 GP043AS-023429-RT-1331 Page 94 of 261 GP043AS-023429-RT-1331 Page 95 of 261 GP043AS-023429-RT-1331 Page 96 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.3.4.2 RATA Data GP043AS-023429-RT-1331 Page 97 of 261 Run #123456789 Start Time 7:24 7:59 8:45 9:25 10:02 10:40 11:15 11:50 12:24 Stop Time 7:44 8:19 9:05 9:45 10:22 11:00 11:35 12:10 12:44 EPA Method 3A,7E and 10 Data 123456789 O2 (%vd)12.1 12.1 12.2 12.1 12.1 12.2 12.3 12.3 12.2 CO2 (%vd)5.0 5.0 4.9 5.0 4.9 4.9 4.8 4.8 4.8 NOx (ppmvd)2.5 2.4 2.4 2.4 2.4 2.5 2.5 2.5 2.4 15%NOx (ppmvd @ 15% O2)1.7 1.6 1.6 1.6 1.6 1.7 1.7 1.7 1.6 CO (ppmvd) 0.0 0.1 0.2 0.1 0.1 0.1 0.1 0.1 0.1 15%CO (ppmvd @ 15% O2)0.0 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Mass Emission Calculations (Using EPA Method 19 and Fuel Use)1 2 3456789 Fuel Use (mmBtu/hr)2248.3 2249.4 2240.2 2241.8 2240.4 2237.1 2234.5 2224.8 2216.6 NOx (lb/hr)14.0 13.4 13.4 13.3 13.6 14.1 14.2 13.8 13.4 CO (lb/hr) 0.1 0.5 0.5 0.4 0.4 0.5 0.5 0.3 0.5 Mass Emission Calculations (Using EPA Method 19)123456789 Fd dscf/mmBtu 8710 Fd NOx (lb/mmBtu)0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 Fd CO (lb/mmBtu)0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Plant CEMS Data 123456789 Unit Load (MW) 309 309 307 307 307 307 306 305 303 Heat Input (mmBtu/hr) 2248.3 2249.4 2240.2 2241.8 2240.4 2237.1 2234.5 2224.8 2216.6 O2 (%vd)12.2 12.1 12.1 12.1 12.1 12.1 12.1 12.1 12.1 NOx (ppmvd @ 15% O2)1.6 1.6 1.7 1.7 1.7 1.6 1.7 1.7 1.7 NOx (lb/hr)13.5 13.0 13.4 13.1 13.4 13.3 13.4 13.4 13.4 NOx (lb/mmBtu)0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 0.006 CO (ppmvd @ 15% O2)0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 CO (lb/hr) 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 *3$6E573MJH E RI 40 CFR Part 75, Appendix A §6.5.6 Pollutant Stratification Test Stack Diameter: 216.0 '' Stratification Test Point 1: 9.5 ''(4.4%) Stratification Test Point 2: 31.5 ''(14.6%) Stratification Test Point 3: 63.9 ''(29.6%) Point Time O2 NOx 1 6:38 11.78 2.59 1 6:39 11.80 2.55 2 6:40 12.10 2.51 2 6:41 12.16 2.50 3 6:42 12.25 2.63 3 6:43 12.37 2.52 4 6:47 11.79 2.49 4 6:48 11.77 2.47 5 6:49 11.77 2.52 5 6:50 11.76 2.64 6 6:51 11.80 2.69 6 6:52 11.80 2.85 7 6:57 12.37 2.43 7 6:58 12.37 2.55 8 6:59 12.46 2.70 8 7:00 12.47 2.64 9 7:01 12.50 2.67 9 7:02 12.51 2.42 10 7:07 12.28 2.58 10 7:08 12.20 2.62 11 7:09 12.21 2.60 11 7:10 12.21 2.52 12 7:11 12.19 2.54 12 7:12 12.21 2.62 Mean 12.1 2.6 Max Deviation From Mean 0.4 0.3 Max Deviation (%) 3.6% 11.8% Short Line? OK OK Single Point? OK OK PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 *3$6E573MJH EE RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT22 Lakeside CT22 5/17/2023 5/17/2023 Test Run #1 Test Run #2 Start Time 7:24 Start Time 7:59 Run Length 21 Run Length 21 Stop Time 7:44 Stop Time 8:19 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 7:24 12.1 5.0 2.4 0.0 1 7:59 12.1 5.0 2.2 0.1 2 7:25 12.1 5.0 2.4 0.0 2 8:00 12.1 5.0 2.8 0.1 3 7:26 12.2 5.0 2.5 0.0 3 8:01 12.1 5.0 2.6 0.1 4 7:27 12.1 5.0 2.5 0.0 4 8:02 12.1 5.0 2.4 0.1 5 7:28 12.2 5.0 2.6 0.0 5 8:03 12.1 5.0 2.9 0.1 6 7:29 12.2 5.0 2.4 0.0 6 8:04 12.1 5.0 2.7 0.1 7 7:30 12.1 5.0 2.5 0.0 7 8:05 12.1 5.0 3.2 0.1 8 7:31 12.1 5.0 2.6 0.0 8 8:06 12.1 5.0 2.7 0.1 9 7:32 12.1 5.0 2.8 0.0 9 8:07 12.1 5.0 2.1 0.1 10 7:33 12.1 5.0 2.4 0.0 10 8:08 12.1 5.0 2.4 0.1 11 7:34 12.1 5.0 2.5 0.0 11 8:09 12.1 5.0 2.5 0.1 12 7:35 12.1 5.0 2.2 0.0 12 8:10 12.1 5.0 2.8 0.1 13 7:36 12.1 5.0 2.7 0.0 13 8:11 12.1 5.0 2.9 0.1 14 7:37 12.1 5.0 2.7 0.0 14 8:12 12.1 5.0 2.7 0.1 15 7:38 12.1 5.0 2.7 0.0 15 8:13 12.1 5.0 2.6 0.1 16 7:39 12.1 4.9 2.7 0.0 16 8:14 12.1 5.0 2.4 0.1 17 7:40 12.1 4.9 2.7 0.0 17 8:15 12.1 5.0 2.4 0.1 18 7:41 12.1 5.0 2.4 0.0 18 8:16 12.1 5.0 2.3 0.1 19 7:42 12.1 5.0 2.5 0.0 19 8:17 12.1 5.0 2.1 0.1 20 7:43 12.1 5.0 2.5 0.0 20 8:18 12.1 5.0 1.9 0.1 21 7:44 12.1 5.0 2.4 0.0 21 8:19 12.1 5.0 1.7 0.1 Average 12.1 5.0 2.5 0.0 Average 12.1 5.0 2.5 0.1 Co 0.1 0.1 0.0 0.0 Co 0.1 0.0 0.1 0.0 Cm 10.7 9.0 6.3 2.8 Cm 10.6 9.0 6.3 2.8 Cma 10.6 9.0 6.3 2.8 Cma 10.6 9.0 6.3 2.8 Corrected Average: 12.1 5.0 2.5 0.0 Corrected Average: 12.1 5.0 2.4 0.1 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp Lakeside CT22 Lakeside CT22 5/17/2023 5/17/2023 Test Run #3 Test Run #4 Start Time 8:45 Start Time 9:25 Run Length 21 Run Length 21 Stop Time 9:05 Stop Time 9:45 Uncorrected Analyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 1 8:45 12.2 4.9 3.0 0.2 1 9:25 12.2 4.9 2.5 0.2 2 8:46 12.2 4.9 3.0 0.2 2 9:26 12.2 4.9 2.5 0.2 3 8:47 12.2 4.9 2.5 0.2 3 9:27 12.2 4.9 2.5 0.2 4 8:48 12.2 4.9 2.2 0.2 4 9:28 12.2 4.9 2.5 0.1 5 8:49 12.2 4.9 2.4 0.2 5 9:29 12.2 4.9 2.7 0.2 6 8:50 12.2 4.9 2.5 0.2 6 9:30 12.2 4.9 2.7 0.2 7 8:51 12.2 4.9 2.4 0.2 7 9:31 12.2 4.9 2.6 0.1 8 8:52 12.2 4.9 2.1 0.2 8 9:32 12.2 4.9 2.7 0.1 9 8:53 12.2 4.8 2.3 0.2 9 9:33 12.2 4.9 2.7 0.2 10 8:54 12.2 4.9 2.5 0.2 10 9:34 12.2 4.9 2.7 0.2 11 8:55 12.2 4.8 2.5 0.2 11 9:35 12.2 4.9 2.4 0.2 12 8:56 12.2 4.8 2.5 0.2 12 9:36 12.2 4.9 2.5 0.2 13 8:57 12.2 4.9 2.4 0.2 13 9:37 12.2 4.9 2.6 0.2 14 8:58 12.3 4.8 2.4 0.2 14 9:38 12.2 4.9 2.6 0.2 15 8:59 12.3 4.8 2.5 0.2 15 9:39 12.2 4.9 2.6 0.1 16 9:00 12.2 4.9 2.6 0.2 16 9:40 12.2 4.9 2.5 0.2 17 9:01 12.2 4.8 2.6 0.2 17 9:41 12.2 4.9 2.5 0.2 18 9:02 12.3 4.8 2.6 0.2 18 9:42 12.2 4.9 2.0 0.2 19 9:03 12.3 4.8 2.5 0.2 19 9:43 12.2 4.9 2.2 0.2 20 9:04 12.2 4.9 2.6 0.2 20 9:44 12.2 4.9 2.6 0.2 21 9:05 12.2 4.8 2.6 0.2 21 9:45 12.2 4.9 2.6 0.2 Average 12.2 4.8 2.5 0.2 Average 12.2 4.9 2.5 0.2 Co 0.1 ‐0.1 0.2 0.0 Co 0.1 0.0 0.2 0.0 Cm 10.6 9.0 6.3 2.8 Cm 10.7 8.9 6.4 2.8 Cma 10.6 9.0 6.3 2.8 Cma 10.6 9.0 6.3 2.8 Corrected Average: 12.2 4.9 2.4 0.2 Corrected Average: 12.1 5.0 2.4 0.1 *3$6E573MJH RI PROJ‐023429 PROJ‐023429 PROJ‐023429 PacifiCorp PacifiCorp PacifiCorp Lakeside CT22 Lakeside CT22 Lakeside CT22 5/17/2023 5/17/2023 5/17/2023 Test Run #5 Test Run #6 Test Run #7 Start Time 10:02 Start Time 10:40 Start Time Run Length 21 Run Length 21 Run Length Stop Time 10:22 Stop Time 11:00 Stop Time Uncorrected Analyzer Data Uncorrected Analyzer Data Uncorrected Ana O2 CO2 NOx CO O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd Minute 1 10:02 12.2 5.0 2.4 0.2 1 10:40 12.2 4.9 2.7 0.1 1 2 10:03 12.2 5.0 2.6 0.2 2 10:41 12.2 4.9 2.9 0.1 2 3 10:04 12.2 5.0 2.6 0.2 3 10:42 12.2 4.9 2.7 0.2 3 4 10:05 12.2 5.0 2.6 0.2 4 10:43 12.2 4.9 2.0 0.1 4 5 10:06 12.2 5.0 2.6 0.2 5 10:44 12.2 4.9 2.4 0.1 5 6 10:07 12.2 5.0 2.8 0.2 6 10:45 12.2 4.9 2.7 0.1 6 7 10:08 12.2 5.0 2.9 0.2 7 10:46 12.2 4.9 2.7 0.1 7 8 10:09 12.2 5.0 2.4 0.2 8 10:47 12.2 4.9 2.6 0.2 8 9 10:10 12.2 5.0 2.5 0.2 9 10:48 12.2 4.9 2.5 0.1 9 10 10:11 12.2 5.0 2.5 0.2 10 10:49 12.2 5.0 2.5 0.1 10 11 10:12 12.2 5.0 2.4 0.2 11 10:50 12.2 4.9 2.5 0.1 11 12 10:13 12.2 5.0 2.5 0.2 12 10:51 12.2 4.9 2.4 0.1 12 13 10:14 12.2 5.0 2.6 0.2 13 10:52 12.2 5.0 2.3 0.1 13 14 10:15 12.2 5.0 2.5 0.2 14 10:53 12.2 5.0 2.4 0.1 14 15 10:16 12.2 4.9 2.5 0.2 15 10:54 12.2 5.0 2.6 0.1 15 16 10:17 12.2 4.9 2.5 0.2 16 10:55 12.2 4.9 2.6 0.1 16 17 10:18 12.2 4.9 2.4 0.1 17 10:56 12.2 5.0 2.6 0.1 17 18 10:19 12.2 4.9 2.5 0.2 18 10:57 12.2 5.0 2.6 0.1 18 19 10:20 12.2 4.9 2.3 0.2 19 10:58 12.2 5.0 2.5 0.1 19 20 10:21 12.2 4.9 2.5 0.2 20 10:59 12.2 5.0 2.5 0.1 20 21 10:22 12.2 4.9 2.6 0.2 21 11:00 12.2 5.0 2.5 0.1 21 Average 12.2 5.0 2.5 0.2 Average 12.2 4.9 2.5 0.1 Average Co 0.1 0.1 0.1 0.0 Co 0.1 0.1 0.0 0.0 Co Cm 10.7 9.0 6.4 2.7 Cm 10.6 9.1 6.3 2.7 Cm Cma 10.6 9.0 6.3 2.8 Cma 10.6 9.0 6.3 2.8 Cma Corrected Average: 12.1 4.9 2.4 0.1 Corrected Average: 12.2 4.9 2.5 0.1 Corrected Averag *3$6E573MJH RI PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 Test Run #8 11:15 Start Time 11:50 21 Run Length 21 11:35 Stop Time 12:10 lyzer Data Uncorrected Analyzer Data O2 CO2 NOx CO O2 CO2 NOx CO Time %vd %vd ppmvd ppmvd Minute Time %vd %vd ppmvd ppmvd 11:15 12.2 4.8 2.5 0.1 1 11:50 12.2 4.7 2.5 0.1 11:16 12.2 4.8 2.6 0.1 2 11:51 12.2 4.8 2.7 0.1 11:17 12.2 4.8 2.6 0.1 3 11:52 12.2 4.7 2.6 0.1 11:18 12.2 4.8 2.5 0.1 4 11:53 12.2 4.8 2.4 0.1 11:19 12.2 4.8 2.5 0.1 5 11:54 12.2 4.7 2.5 0.1 11:20 12.2 4.8 2.6 0.1 6 11:55 12.2 4.7 2.6 0.1 11:21 12.2 4.8 2.5 0.1 7 11:56 12.2 4.8 2.6 0.1 11:22 12.2 4.8 2.5 0.1 8 11:57 12.2 4.8 2.5 0.1 11:23 12.2 4.8 2.6 0.1 9 11:58 12.2 4.8 2.4 0.0 11:24 12.2 4.8 2.6 0.1 10 11:59 12.2 4.8 2.4 0.0 11:25 12.2 4.8 2.5 0.1 11 12:00 12.2 4.8 2.6 0.0 11:26 12.2 4.8 2.6 0.1 12 12:01 12.2 4.8 2.5 0.1 11:27 12.2 4.8 2.6 0.1 13 12:02 12.2 4.8 2.5 0.0 11:28 12.2 4.8 2.6 0.1 14 12:03 12.2 4.8 2.6 0.0 11:29 12.2 4.8 2.6 0.1 15 12:04 12.2 4.8 2.6 0.0 11:30 12.2 4.8 2.6 0.1 16 12:05 12.2 4.8 2.5 0.1 11:31 12.2 4.8 2.5 0.1 17 12:06 12.2 4.8 2.5 0.1 11:32 12.2 4.8 2.6 0.1 18 12:07 12.2 4.8 2.5 0.1 11:33 12.2 4.8 2.6 0.1 19 12:08 12.2 4.8 2.5 0.1 11:34 12.2 4.8 2.5 0.1 20 12:09 12.2 4.8 2.6 0.1 11:35 12.2 4.8 2.6 0.1 21 12:10 12.2 4.8 2.6 0.1 12.2 4.8 2.6 0.1 Average 12.2 4.8 2.5 0.1 0.1 0.1 0.0 0.0 Co 0.1 0.1 0.1 0.0 10.6 9.0 6.3 2.7 Cm 10.6 9.0 6.3 2.7 10.6 9.0 6.3 2.8 Cma 10.6 9.0 6.3 2.8 ge: 12.3 4.8 2.5 0.1 Corrected Average:12.3 4.8 2.5 0.1 *3$6E573MJH RI PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 Test Run #9 Start Time 12:24 Run Length 21 Stop Time 12:44 Uncorrected Analyzer Data O2 CO2 NOx CO Minute Time %vd %vd ppmvd ppmvd 1 12:24 12.2 4.8 2.5 0.1 2 12:25 12.2 4.8 2.5 0.1 3 12:26 12.2 4.8 2.6 0.1 4 12:27 12.2 4.8 2.6 0.1 5 12:28 12.2 4.8 2.5 0.1 6 12:29 12.2 4.8 2.5 0.1 7 12:30 12.2 4.8 2.6 0.1 8 12:31 12.2 4.8 2.6 0.1 9 12:32 12.2 4.8 2.5 0.1 10 12:33 12.2 4.8 2.4 0.1 11 12:34 12.2 4.8 2.5 0.1 12 12:35 12.2 4.8 2.5 0.1 13 12:36 12.2 4.8 2.5 0.1 14 12:37 12.2 4.8 2.6 0.1 15 12:38 12.2 4.8 2.5 0.1 16 12:39 12.2 4.8 2.2 0.1 17 12:40 12.2 4.8 2.3 0.1 18 12:41 12.0 4.8 2.4 0.1 19 12:42 12.1 4.8 2.5 0.1 20 12:43 12.0 4.8 2.4 0.1 21 12:44 12.1 4.8 2.6 0.1 Average 12.2 4.8 2.5 0.1 Co 0.1 0.0 0.1 0.0 Cm 10.6 9.0 6.3 2.8 Cma 10.6 9.0 6.3 2.8 Corrected Average: 12.2 4.8 2.4 0.1 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix A.4 Example Calculations GP043AS-023429-RT-1331 Page 105 of 261 Run #1 Sample Calculations EPA Methods 201A/202: Determination of Particulate Matter Emissions Variables Variable Value DefinitionUnit of Measurement Ds 216 Stack Diameter inches A 254.47 Cross-Sectional Area of the Stack ft2 Pg -0.50 Stack Static Pressure in. H2O Pg -0.04 Stack Static Pressure in. Hg %CO2 4.4 Concentration of Carbon Dioxide Dry Volume Percent (%vd) %O2 13.4 Concentration of Oxygen Dry Volume Percent (%vd) Md 29.24 Dry Molecular Weight of the Stack Gas (default)lb/lb-mole Pbar 25.36 Barometric Pressure in. Hg ∆H 0.41 Pressure Differential across Orifice in. H2O Pm 25.39 Absolute Pressure at Gas Meter in.Hg tm 70 Temperature at Gas Meter °F Tm 530 Absolute Temperature at Gas Meter °R K1 0.04706 Conversion Factor ft3/mL Vlc 53.9 Volume of Water Condensed g Vwc(std)2.54 Volume of Water Condensed scf K4 17.64 Constant °R/in.Hg Y 1.0062 Meter Calibration Factor Unitless Vm 44.354 Volume of Stack Gas Collected dcf Vm(std)37.747 Sample Gas Volume dscf Bws 0.063 Stack Gas Moisture Content %/100 Ms 28.53 Actual Molecular Weight of the Stack Gas lb/lb-mole Ps 25.32 Absolute Stack Pressure in. Hg Ts 218.8 Average Stack Temperature °F Ts(abs)679 Average Absolute Stack Temperature °R Kp 85.49 Conversion Factor (ft/sec) x √(((lb/lb-mole)(in.Hg))/((°R)(in.H2O))) Cp 0.764 Pitot Coefficient Dimensionless Avg√∆p 1.1434 Average Square Root of Velocity Head Readings in. H2O Vs 72.39 Average Stack Gas Velocity ft/sec Tstd 528 Standard Absolute Temperature °R Pstd 29.92 Standard Absolute Pressure in. Hg Q 40,906,473 Dry Volumetric Flow Rate Corrected to Standard Conditions dscf/hr Dn 0.145 Nozzle Diameter inches An 1.15E-04 Cross-Sectional Area of the Nozzle ft2 mn 5.90 Total PM and CPM Mass mg Cs 3.45E-07 Particulate Concentration lb/dscf Elb/hr 14.1 PM Mass Emission Rate pounds per hour Fd 8710 F-Factor from EPA Method 19 scf/mmBtu Elb/mmBtu 0.008 PM Mass Emission Rate pounds per million Btu Etons/yr 61.7 PM Mass Emission Rate tons per year K5 0.0945 Constant (in.Hg ∙ min) / (°R ∙ sec) Ѳ 118.00 Sample Time minutes I 104.2 % Isokinetic variation percent PROJ‐023429 PacifiCorp Lake Side CT11 *3$6E573MJH RI PROJ‐023429 PacifiCorp Lake Side CT11 Run #1 Sample Calculations EPA Methods 201A/202: Determination of Particulate Matter Emissions A=π(Ds/24)2 π(216/24)^2 =254.47 ft^2 Pg =Pg/13.6 =-0.5/13.6 = ‐0.04 in. Hg Md =(0.44 x %CO2) + (0.32 x %O2) + 0.28(100-%CO2-%O2) =(0.44 x 4.4) + (0.32 x 13.4) + 0.28(100 - 4.4 - 13.4) = 29.24 lb/lb‐mole Pm =Pbar + (∆H/13.6) =25.36 + (0.41/13.6) = 25.39 in. Hg Tm =460 + tm =460 + 69.54 = 530 R Vwc(std) =K1 x Vlc =0.04706 x 53.9 =2.54 scf (Eq. 4‐1) Vm(std)=K4 x Y x Vm x Pm Tm =17.64 x 1.0062 x 44.354 x 25.39 530 =37.75 dscf (Eq. 4‐3) Bws=Vwc(std) Vwc(std) + Vm(std) =2.54 2.54 + 37.75 =0.063 (%/100)(Eq. 4‐4) Ms =Md x (1-Bws) + (18.0 x Bws) =(0.44 x 4.4) + (0.32 x 13.4) + 0.28(100 - 4.4 - 13.4) x (1 - 0.063) + (18.0 x 0.063) = 28.53 lb/lb‐mole (Eq. 2‐6) Ps=Pbar + Pg = 25.36 + (-0.04) = 25.32 in. Hg Ts(abs) =460 + Ts =460 + 218.8 = 679 R *3$6E573MJH RI PROJ‐023429 PacifiCorp Lake Side CT11 Run #1 Sample Calculations EPA Methods 201A/202: Determination of Particulate Matter Emissions Vs =Kp x Cp x Avg√∆p x = 85.49 x 0.764 x 1.1434 x =72.4 ft/sec (Eq. 2‐7) Q =3600 x (1-Bws) x (Vs) x (A) x = 3600 x (1 - 0.063) x (72.39) x (254.47) x =40,906,473 dscf/hr (Eq. 2‐8) An =π(Dn/24)2 π(0.145/24)^2 =1.15E‐04 ft^2 Cs = mn (mg/g) (g/lb) (Vm(std)) = 5.9 (1000) (453.592) (37.747) =3.45E‐07 lb/dscf Elb/hr =Cs x Q = 3.45E-07 x 40,906,473 =14.1 lb/hr Elb/mmBtu =Cs x Fd x 20.9 (20.9 - O2%vd) = 3.45E-07 x 8710 x 20.9 (20.9 - 13.4) =0.0084 lb/mmBtu Etons/yr =Elb/hr x (Hrs/yr) (lbs/ton) = 14.10 x 8,760 2000 =61.7 tons/year I = = =104.2 % (Eq. 5‐7) 25.32 x 72.39 x 1.1E-04 x 118 x (1 - 0.063) K5 x Ts(abs) x Vm(std) x 100 Ps(abs) x Vs x An x Ѳ x (1‐Bws) 0.0945 x 679 x 37.747 x 100 Ts(abs) (Ps x Ms) 679 (25.32 x 28.53) (Tstd x Ps) (Ts(abs) x Pstd) (528 x 25.32) (679 x 29.92) *3$6E573MJH RI PROJ‐023429 PacifiCorp Lakeside CT11 Run #1 Sample Calculations EPA Method 3A: Determination of Oxygen and Carbon Dioxide Concentrations in Emissions from Stationary Sources (Instrumental Analyzer Procedure) (40 CFR Part 60, Appendix A‐2) Variable Value Definition Unit of Measurement O2 Cavg 13.4 Average Unadjusted Gas Concentration %vd O2 C0 0.0 Average Pre/Post Zero Gas Response %vd O2 Cma 10.7 Concentration of Upscale Calibration Gas % O2 Cm 10.6 Average Pre/Post Upscale Gas Reponse %vd O2 Cgas 13.5 Average Gas Concentration Adjusted for Bias %vd CO2 Cavg 4.4 Average Unadjusted Gas Concentration %vd CO2 C0 0.0 Average Pre/Post Zero Gas Response %vd CO2 Cma 9.0 Concentration of Upscale Calibration Gas % CO2 Cm 9.0 Average Pre/Post Upscale Gas Reponse %vd CO2 Cgas 4.4 Average Gas Concentration Adjusted for Bias %vd O2 Cgas=(Cavg ‐ C0) x Cma (Cm ‐ C0) =(13.4 ‐ (0.048)) x 10.715 (10.6425 ‐ (0.048)) =13.5 %vd (Eq. 7E‐5b) CO2 Cgas=(Cavg ‐ C0) x Cma (Cm ‐ C0) =(4.4 ‐ ‐0.036) x 9.047 (9.035 ‐ ‐0.036) =4.4 %vd (Eq. 7E‐5b) *3$6E573MJH E RI PROJ‐023429 PacifiCorp Lakeside CT11 Run #1 Sample Calculations EPA Method 7E: Determination of Nitrogen Oxides Emissions from Stationary Sources (Instrumental Analyzer Procedure) (40 CFR Part 60, Appendix A‐4) Variable Value Definition Unit of Measurement Cavg 2.4 Average Unadjusted Gas Concentration ppmvd C0 0.0 Average Pre/Post Zero Gas Response ppmvd Cma 6.3 Concentration of Upscale Calibration Gas ppm Cm 6.4 Average Pre/Post Upscale Gas Reponse ppmvd Cgas 2.3 Average Gas Concentration Adjusted for Bias ppmvd MW 46.01 Molecular Weight lb/lb‐mole 385.3 385.3 Volume of One Pound of Ideal Gas at Standard Conditions scf/lb‐mole Fd 8710 F Factor from EPA Method 19 dscf/mmBtu Cd 2.76E‐07 Pollutant Concentration, Dry Basis pounds per standard cubic foot O2 %vd 13.5 O2 Concentration (From EPA Method 3A)dry volume percent Fd Elb/mmBtu 0.007 Emission Rate pounds per million British thermal units HI 1,994 Heat Input million British thermal units per hour Elb/hr 13.54 Emission Rate pounds per hour Cgas=(Cavg ‐ C0) x Cma (Cm ‐ C0) =(2.4 ‐ (0.043)) x 6.288 (6.361 ‐ (0.043)) =2.3 ppmvd (Eq. 7E‐5b) Cgas @ 15% O2 =(Cgas) (20.9 ‐ 15) (20.9 ‐ O2) =(2.3) (20.9 ‐ 15) (20.9 ‐ 13.5) =1.8 ppmvd @ 15% O2 Cd=(Cgas) (MW) (106) (385.3) =(2.3) (46.01) (106) (385.3) =2.76E‐07 lb/scf Fd Elb/mmBtu=(Cd) (Fd) (20.9) (20.9 ‐ O2%) =(2.76E‐07) (8710) (20.9) (20.9 ‐ 13.5) =0.007 lb/mmBtu (Eq. 19‐1) Elb/hr=(Elb/mmBtu) (HI) = (0.007) (1,994) =13.5 lb/hr *3$6E573MJH RI PROJ‐023429 PacifiCorp Lakeside CT11 Run #1 Sample Calculations EPA Method 10: Determination of Carbon Monoxide Emissions from Stationary Sources (Instrumental Analyzer Procedure) (40 CFR Part 60, Appendix A‐4) Variable Value Definition Unit of Measurement Cavg 0.8 Average Unadjusted Gas Concentration ppmvd C0 0.0 Average Pre/Post Zero Gas Response ppmvd Cma 2.8 Concentration of Upscale Calibration Gas ppm Cm 2.8 Average Pre/Post Upscale Gas Reponse ppmvd Cgas 0.8 Average Gas Concentration Adjusted for Bias ppmvd MW 28.01 Molecular Weight lb/lb‐mole 385.3 385.3 Volume of One Pound of Ideal Gas at Standard Conditions scf/lb‐mole Fd 8710 F Factor from EPA Method 19 dscf/mmBtu Cd 5.55E‐08 Pollutant Concentration, Dry Basis pounds per standard cubic foot O2 %vd 13.5 O2 Concentration dry volume percent Fd Elb/mmBtu 0.001 Emission Rate pounds per million British thermal units HI 1,994 Heat Input million British thermal units per hour Elb/hr 2.7 Emission Rate pounds per hour Cgas=(Cavg ‐ C0) x Cma (Cm ‐ C0) =(0.8 ‐ (0.008)) x 2.77 (2.775 ‐ (0.008)) =0.8 ppmvd (Eq. 7E‐5b) Cgas @ 15% O2 =(Cgas) (20.9 ‐ 15) (20.9 ‐ O2) =(0.8) (20.9 ‐15) (20.9 ‐ 13.5) =0.6 ppmvd @ 15% O2 Cd=(Cgas) (MW) (106) (385.3) =(0.8) (28.01) (106) (385.3) =5.55E‐08 lb/scf Fd Elb/mmBtu=(Cd) (Fd) (20.9) (20.9 ‐ O2%) =(5.55E‐08) (8710) (20.9) (20.9 ‐ 13.5) =0.001 lb/mmBtu (Eq. 19‐7) Elb/hr=(Elb/mmBtu) (HI) = (0.001) (1,994) =2.7 lb/hr *3$6E573MJH RI PacifiCorp Lakeside CT11 5/18/2023 Relative Accuracy Test Audit Sample Calculations NOx (lb/mmBtu) Run # RM CEM d d2 1 0.007 0.007 0.000 0.00000 2 0.006 0.007 0.001 0.00000 [∑di]2 3 0.007 0.007 0.000 0.00000 ∑d2 i ‐n 4 0.007 0.007 0.000 0.00000 Sd= 5 0.007 0.007 0.000 0.00000 6 0.007 0.007 0.000 0.00000 7 0.007 0.007 0.000 0.00000 0.000 8 0.007 0.007 0.000 0.00000 0.000 ‐ 9 9 0.007 0.007 0.000 0.00000 10 11 =0.000 12 Average 0.007 0.007 0.000 0.00000 Sum n/a n/a 0.001 0.00000 Sum2 n/a n/a 0.0000 n/a CC=(t0.0975)Sd Variables ∑d2 i 0.00000 = [∑di]2 0.0000 n9 Sd 0.000 =0.000 t0.0975 2.306 CC 0.000 |d| 0.000 RA=|d|+|CC| |CC| 0.000 RM RM 0.007 RA 5.3% = 0.000 + 0.000 0.007 =5.3% Square of the Summed Differences 3 n‐1 8 √n Sum of the Squared Differences (2.306) (0.000) Average RM Value Relative Accuracy (100) Number of Test Runs Standard Deviation of Differences T‐value from PS2, Table 2‐1 2.5% Confidence Coefficient Absolute Average Difference (100)Absolute Confidence Coefficient *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix B Facility Process Data GP043AS-023429-RT-1331 Page 113 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix B.1 Unit CT11 GP043AS-023429-RT-1331 Page 114 of 261 07:40 1.4 0.4 0.3 18,227.3 2,005.0 14.0 0.007 2.3 1.8 13.4 251 07:41 1.4 0.4 0.3 18,220.6 2,004.3 14.0 0.007 2.3 1.8 13.4 251 07:42 1.1 0.3 0.2 18,100.9 1,991.1 13.9 0.007 2.3 1.8 13.4 251 07:43 1.3 0.4 0.3 18,210.2 2,003.1 14.0 0.007 2.3 1.8 13.4 251 07:44 1.3 0.4 0.3 18,201.4 2,002.2 14.0 0.007 2.3 1.8 13.4 250 07:45 1.4 0.4 0.3 18,194.2 2,001.4 14.0 0.007 2.3 1.8 13.4 250 07:46 1.1 0.3 0.2 18,177.9 1,999.6 14.0 0.007 2.3 1.8 13.4 250 07:47 1.6 0.5 0.4 18,168.1 1,998.5 14.0 0.007 2.3 1.8 13.4 250 07:48 1.2 0.4 0.3 18,156.5 1,997.2 14.0 0.007 2.3 1.8 13.4 250 07:49 1.4 0.4 0.3 18,154.3 1,997.0 14.0 0.007 2.3 1.8 13.4 250 07:50 1.2 0.3 0.3 18,147.4 1,996.2 14.0 0.007 2.3 1.8 13.4 250 07:51 1.2 0.3 0.3 18,129.9 1,994.3 14.0 0.007 2.3 1.8 13.4 249 07:52 1.3 0.4 0.3 18,121.9 1,993.4 14.0 0.007 2.3 1.8 13.4 249 07:53 1.4 0.4 0.3 18,113.4 1,992.5 13.9 0.007 2.3 1.8 13.4 249 07:54 1.2 0.3 0.3 18,094.0 1,990.3 13.9 0.007 2.3 1.8 13.4 249 07:55 1.3 0.4 0.3 18,078.7 1,988.7 13.9 0.007 2.3 1.8 13.4 249 07:56 1.3 0.4 0.3 18,063.6 1,987.0 13.9 0.007 2.3 1.8 13.4 249 07:57 1.4 0.4 0.3 18,060.8 1,986.7 13.9 0.007 2.3 1.8 13.4 248 07:58 1.3 0.4 0.3 18,047.9 1,985.3 13.9 0.007 2.3 1.8 13.4 248 07:59 1.5 0.4 0.4 17,929.5 1,972.2 13.8 0.007 2.3 1.8 13.4 248 08:00 1.3 0.4 0.3 18,028.9 1,983.2 13.9 0.007 2.3 1.8 13.4 247 1.3 0.4 0.3 18,125.1 1,993.8 14.0 0.007 2.3 1.8 13.4 249 1.1 0.3 0.2 17,929.5 1,972.2 13.8 0.007 2.3 1.8 13.4 247 1.6 0.5 0.4 18,227.3 2,005.0 14.0 0.007 2.3 1.8 13.4 251 27.6 8.0 6.3 380,627.4 41,869.2 293.0 0.147 48.3 37.8 281.4 5,239 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 1 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 07:40 Through 05/18/2023 08:00 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 08:18 1.3 0.4 0.3 17,972.2 1,976.9 13.8 0.007 2.3 1.8 13.4 246 08:19 1.2 0.3 0.3 17,967.1 1,976.4 13.8 0.007 2.3 1.8 13.4 246 08:20 1.2 0.3 0.3 17,963.7 1,976.0 13.8 0.007 2.3 1.8 13.4 246 08:21 1.2 0.4 0.3 17,961.7 1,975.8 13.8 0.007 2.3 1.8 13.4 246 08:22 1.2 0.4 0.3 17,959.3 1,975.5 13.8 0.007 2.3 1.8 13.4 246 08:23 1.1 0.3 0.3 17,951.3 1,974.6 13.8 0.007 2.3 1.8 13.4 246 08:24 1.4 0.4 0.3 17,972.3 1,977.0 11.9 0.006 2.2 1.8 13.4 246 08:25 1.1 0.3 0.2 17,944.1 1,973.9 13.8 0.007 2.3 1.8 13.4 246 08:26 1.4 0.4 0.3 17,939.3 1,973.3 13.8 0.007 2.3 1.8 13.4 246 08:27 1.1 0.3 0.2 17,936.6 1,973.0 13.8 0.007 2.3 1.8 13.4 246 08:28 1.3 0.4 0.3 17,934.8 1,972.8 13.8 0.007 2.3 1.8 13.4 246 08:29 1.1 0.3 0.2 17,935.7 1,972.9 13.8 0.007 2.3 1.8 13.4 245 08:30 1.4 0.4 0.3 17,938.9 1,973.3 13.8 0.007 2.3 1.8 13.4 245 08:31 1.1 0.3 0.3 17,937.6 1,973.1 13.8 0.007 2.3 1.8 13.4 245 08:32 1.3 0.4 0.3 17,919.2 1,971.1 13.8 0.007 2.3 1.8 13.4 245 08:33 1.2 0.4 0.3 17,910.3 1,970.1 13.8 0.007 2.3 1.8 13.4 245 08:34 1.3 0.4 0.3 17,919.0 1,971.1 13.8 0.007 2.3 1.8 13.4 245 08:35 1.1 0.3 0.2 17,923.6 1,971.6 13.8 0.007 2.3 1.8 13.4 246 08:36 1.3 0.4 0.3 17,913.9 1,970.5 13.8 0.007 2.3 1.8 13.4 246 08:37 1.2 0.3 0.3 17,908.6 1,969.9 13.8 0.007 2.3 1.8 13.4 245 08:38 1.3 0.4 0.3 17,903.2 1,969.4 13.8 0.007 2.3 1.8 13.4 245 1.2 0.4 0.3 17,938.7 1,973.2 13.7 0.007 2.3 1.8 13.4 246 1.1 0.3 0.2 17,903.2 1,969.4 11.9 0.006 2.2 1.8 13.4 245 1.4 0.4 0.3 17,972.3 1,977.0 13.8 0.007 2.3 1.8 13.4 246 25.8 7.5 5.9 376,712.4 41,438.2 287.9 0.146 48.2 37.8 281.4 5,158 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 2 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 08:18 Through 05/18/2023 08:38 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 08:56 1.2 0.3 0.3 17,874.6 1,966.2 13.8 0.007 2.3 1.8 13.4 245 08:57 1.3 0.4 0.3 17,885.1 1,967.4 11.8 0.006 2.2 1.8 13.4 245 08:58 1.3 0.4 0.3 17,880.2 1,966.8 11.8 0.006 2.2 1.8 13.4 245 08:59 1.3 0.4 0.3 17,869.7 1,965.7 11.8 0.006 2.2 1.8 13.4 244 09:00 1.2 0.3 0.3 17,834.3 1,961.8 11.8 0.006 2.2 1.8 13.4 244 09:01 1.2 0.4 0.3 17,837.8 1,962.2 13.7 0.007 2.3 1.8 13.4 244 09:02 1.4 0.4 0.3 17,837.5 1,962.1 13.7 0.007 2.3 1.8 13.5 244 09:03 1.0 0.3 0.2 17,839.1 1,962.3 13.7 0.007 2.3 1.8 13.4 244 09:04 0.8 0.2 0.2 17,838.8 1,962.3 13.7 0.007 2.3 1.8 13.5 244 09:05 0.9 0.2 0.2 17,849.0 1,963.4 13.7 0.007 2.3 1.8 13.4 244 09:06 1.1 0.3 0.3 17,838.5 1,962.2 13.7 0.007 2.3 1.8 13.4 244 09:07 0.6 0.2 0.1 17,847.3 1,963.2 13.7 0.007 2.3 1.8 13.4 244 09:08 0.7 0.2 0.2 17,865.8 1,965.2 11.8 0.006 2.2 1.8 13.4 245 09:09 0.6 0.2 0.1 17,860.6 1,964.7 13.8 0.007 2.3 1.8 13.4 244 09:10 0.8 0.2 0.2 17,852.2 1,963.7 13.7 0.007 2.3 1.8 13.4 245 09:11 0.8 0.2 0.2 17,846.8 1,963.1 13.7 0.007 2.3 1.8 13.4 244 09:12 0.9 0.2 0.2 17,840.0 1,962.4 13.7 0.007 2.3 1.8 13.5 244 09:13 0.6 0.2 0.1 17,853.3 1,963.9 13.7 0.007 2.3 1.8 13.5 244 09:14 0.8 0.2 0.2 17,840.5 1,962.5 13.7 0.007 2.3 1.8 13.5 244 09:15 0.8 0.2 0.2 17,834.3 1,961.8 13.7 0.007 2.3 1.8 13.5 244 09:16 0.9 0.2 0.2 17,835.4 1,961.9 13.7 0.007 2.3 1.8 13.5 243 1.0 0.3 0.2 17,850.5 1,963.6 13.3 0.007 2.3 1.8 13.4 244 0.6 0.2 0.1 17,834.3 1,961.8 11.8 0.006 2.2 1.8 13.4 243 1.4 0.4 0.3 17,885.1 1,967.4 13.8 0.007 2.3 1.8 13.5 245 20.2 5.6 4.7 374,860.8 41,234.8 278.4 0.142 47.8 37.8 282.1 5,128 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 3 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 08:56 Through 05/18/2023 09:16 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 09:32 1.1 0.3 0.2 17,868.9 1,965.6 13.8 0.007 2.3 1.8 13.5 245 09:33 1.1 0.3 0.3 17,854.0 1,963.9 13.7 0.007 2.3 1.8 13.4 244 09:34 1.2 0.4 0.3 17,847.5 1,963.2 13.7 0.007 2.3 1.8 13.5 244 09:35 1.3 0.4 0.3 17,858.0 1,964.4 13.8 0.007 2.3 1.8 13.5 244 09:36 1.2 0.3 0.3 17,858.5 1,964.4 13.8 0.007 2.3 1.8 13.5 244 09:37 1.1 0.3 0.2 17,836.6 1,962.0 11.8 0.006 2.2 1.8 13.5 244 09:38 1.2 0.3 0.3 17,845.4 1,963.0 11.8 0.006 2.2 1.8 13.5 243 09:39 1.4 0.4 0.3 17,841.6 1,962.6 11.8 0.006 2.2 1.8 13.5 243 09:40 1.2 0.3 0.3 17,860.2 1,964.6 11.8 0.006 2.2 1.8 13.5 243 09:41 1.5 0.4 0.4 17,839.0 1,962.3 13.7 0.007 2.3 1.8 13.4 243 09:42 1.3 0.4 0.3 17,834.8 1,961.8 13.7 0.007 2.3 1.8 13.4 243 09:43 1.3 0.4 0.3 17,839.7 1,962.4 13.7 0.007 2.3 1.8 13.5 244 09:44 1.3 0.4 0.3 17,851.1 1,963.6 11.8 0.006 2.2 1.8 13.5 244 09:45 1.4 0.4 0.3 17,846.8 1,963.1 11.8 0.006 2.2 1.8 13.4 244 09:46 1.1 0.3 0.2 17,860.4 1,964.6 11.8 0.006 2.2 1.8 13.4 244 09:47 1.2 0.4 0.3 17,862.9 1,964.9 11.8 0.006 2.2 1.8 13.4 244 09:48 1.1 0.3 0.3 17,868.7 1,965.6 13.8 0.007 2.3 1.8 13.4 244 09:49 1.2 0.3 0.3 17,874.1 1,966.2 13.8 0.007 2.3 1.8 13.4 245 09:50 1.3 0.4 0.3 17,892.8 1,968.2 13.8 0.007 2.3 1.8 13.4 245 09:51 1.4 0.4 0.3 17,891.3 1,968.0 13.8 0.007 2.3 1.8 13.4 245 09:52 1.2 0.3 0.3 17,856.3 1,964.2 13.7 0.007 2.3 1.8 13.4 244 1.2 0.4 0.3 17,856.6 1,964.2 13.0 0.007 2.3 1.8 13.4 244 1.1 0.3 0.2 17,834.8 1,961.8 11.8 0.006 2.2 1.8 13.4 243 1.5 0.4 0.4 17,892.8 1,968.2 13.8 0.007 2.3 1.8 13.5 245 26.1 7.4 6.1 374,988.6 41,248.6 273.2 0.139 47.5 37.8 282.4 5,123 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 4 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 09:32 Through 05/18/2023 09:52 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 10:14 1.5 0.4 0.3 18,003.2 1,980.4 13.9 0.007 2.3 1.8 13.4 247 10:15 1.3 0.4 0.3 17,991.0 1,979.0 13.9 0.007 2.3 1.8 13.4 247 10:16 1.4 0.4 0.3 18,002.1 1,980.2 13.9 0.007 2.3 1.8 13.4 247 10:17 1.2 0.4 0.3 18,008.8 1,981.0 13.9 0.007 2.3 1.8 13.4 247 10:18 1.5 0.4 0.3 17,994.2 1,979.4 13.9 0.007 2.3 1.8 13.4 247 10:19 1.4 0.4 0.3 17,979.2 1,977.7 13.8 0.007 2.3 1.8 13.4 246 10:20 1.4 0.4 0.3 17,976.7 1,977.4 13.8 0.007 2.3 1.8 13.4 247 10:21 1.2 0.3 0.3 17,878.9 1,966.7 11.8 0.006 2.2 1.8 13.4 247 10:22 1.5 0.4 0.3 17,998.5 1,979.8 11.9 0.006 2.2 1.8 13.4 247 10:23 1.2 0.3 0.3 18,021.1 1,982.3 13.9 0.007 2.3 1.8 13.4 248 10:24 1.4 0.4 0.3 18,026.5 1,982.9 13.9 0.007 2.3 1.8 13.4 248 10:25 1.4 0.4 0.3 18,016.9 1,981.9 13.9 0.007 2.3 1.8 13.4 247 10:26 1.4 0.4 0.3 18,022.1 1,982.4 13.9 0.007 2.3 1.8 13.4 247 10:27 1.3 0.4 0.3 18,026.0 1,982.9 13.9 0.007 2.3 1.8 13.4 248 10:28 1.2 0.3 0.3 18,029.1 1,983.2 13.9 0.007 2.3 1.8 13.4 248 10:29 1.3 0.4 0.3 18,015.0 1,981.7 13.9 0.007 2.3 1.8 13.4 247 10:30 1.2 0.4 0.3 18,003.9 1,980.4 13.9 0.007 2.3 1.8 13.4 248 10:31 1.3 0.4 0.3 18,010.5 1,981.2 13.9 0.007 2.3 1.8 13.4 248 10:32 1.4 0.4 0.3 18,004.9 1,980.5 13.9 0.007 2.3 1.8 13.4 248 10:33 1.4 0.4 0.3 18,028.5 1,983.1 11.9 0.006 2.2 1.8 13.4 248 10:34 1.2 0.3 0.3 18,030.8 1,983.4 13.9 0.007 2.3 1.8 13.4 248 1.3 0.4 0.3 18,003.2 1,980.4 13.6 0.007 2.3 1.8 13.4 247 1.2 0.3 0.3 17,878.9 1,966.7 11.8 0.006 2.2 1.8 13.4 246 1.5 0.4 0.3 18,030.8 1,983.4 13.9 0.007 2.3 1.8 13.4 248 28.1 8.0 6.3 378,067.9 41,587.5 285.6 0.144 48.0 37.8 281.4 5,195 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 5 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 10:14 Through 05/18/2023 10:34 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 10:49 0.9 0.3 0.2 18,004.7 1,980.5 13.9 0.007 2.3 1.8 13.4 247 10:50 1.3 0.4 0.3 18,012.9 1,981.4 13.9 0.007 2.3 1.8 13.4 247 10:51 1.4 0.4 0.3 18,020.0 1,982.2 13.9 0.007 2.3 1.8 13.4 247 10:52 1.5 0.4 0.3 18,005.8 1,980.6 13.9 0.007 2.3 1.8 13.4 247 10:53 1.5 0.4 0.3 18,002.0 1,980.2 13.9 0.007 2.3 1.8 13.4 247 10:54 1.1 0.3 0.2 17,995.5 1,979.5 13.9 0.007 2.3 1.8 13.4 246 10:55 1.5 0.4 0.3 18,007.9 1,980.9 13.9 0.007 2.3 1.8 13.4 246 10:56 1.2 0.3 0.3 17,999.9 1,980.0 13.9 0.007 2.3 1.8 13.4 246 10:57 1.4 0.4 0.3 17,982.7 1,978.1 13.8 0.007 2.3 1.8 13.4 246 10:58 1.1 0.3 0.3 17,974.3 1,977.2 13.8 0.007 2.3 1.8 13.4 246 10:59 1.4 0.4 0.3 18,009.6 1,981.1 11.9 0.006 2.2 1.8 13.4 246 11:00 1.4 0.4 0.3 18,035.8 1,983.9 11.9 0.006 2.2 1.8 13.4 247 11:01 1.3 0.4 0.3 18,029.7 1,983.3 13.9 0.007 2.3 1.8 13.4 247 11:02 1.1 0.3 0.3 18,012.4 1,981.4 13.9 0.007 2.3 1.8 13.4 246 11:03 1.4 0.4 0.3 17,997.2 1,979.7 13.9 0.007 2.3 1.8 13.4 246 11:04 1.1 0.3 0.2 17,994.2 1,979.4 13.9 0.007 2.3 1.8 13.4 246 11:05 1.1 0.3 0.2 17,988.3 1,978.7 13.9 0.007 2.3 1.8 13.4 246 11:06 1.1 0.3 0.2 17,982.0 1,978.0 11.9 0.006 2.2 1.8 13.4 246 11:07 1.4 0.4 0.3 17,982.6 1,978.1 11.9 0.006 2.2 1.8 13.4 246 11:08 1.1 0.3 0.3 17,869.6 1,965.7 11.8 0.006 2.2 1.8 13.4 247 11:09 1.2 0.4 0.3 17,970.4 1,976.7 13.8 0.007 2.3 1.8 13.4 246 1.3 0.4 0.3 17,994.2 1,979.4 13.4 0.007 2.3 1.8 13.4 246 0.9 0.3 0.2 17,869.6 1,965.7 11.8 0.006 2.2 1.8 13.4 246 1.5 0.4 0.3 18,035.8 1,983.9 13.9 0.007 2.3 1.8 13.4 247 26.5 7.5 5.8 377,877.5 41,566.6 281.5 0.142 47.8 37.8 281.4 5,174 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 6 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 10:49 Through 05/18/2023 11:09 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 11:24 1.4 0.4 0.3 17,960.7 1,975.7 13.8 0.007 2.3 1.8 13.4 246 11:25 1.2 0.3 0.3 17,979.1 1,977.7 13.8 0.007 2.3 1.8 13.4 246 11:26 1.1 0.3 0.2 17,976.2 1,977.4 13.8 0.007 2.3 1.8 13.4 246 11:27 1.2 0.3 0.3 17,963.7 1,976.0 13.8 0.007 2.3 1.8 13.4 246 11:28 1.3 0.4 0.3 17,971.5 1,976.9 13.8 0.007 2.3 1.8 13.4 246 11:29 1.2 0.3 0.3 17,955.7 1,975.1 13.8 0.007 2.3 1.8 13.4 246 11:30 1.2 0.3 0.3 17,963.8 1,976.0 13.8 0.007 2.3 1.8 13.4 246 11:31 1.1 0.3 0.2 17,963.7 1,976.0 13.8 0.007 2.3 1.8 13.4 246 11:32 1.0 0.3 0.2 17,957.6 1,975.3 13.8 0.007 2.3 1.8 13.4 246 11:33 0.9 0.3 0.2 17,940.7 1,973.5 13.8 0.007 2.3 1.8 13.4 246 11:34 1.4 0.4 0.3 17,960.4 1,975.6 13.8 0.007 2.3 1.8 13.4 246 11:35 1.3 0.4 0.3 17,985.9 1,978.4 13.8 0.007 2.3 1.8 13.4 247 11:36 1.2 0.3 0.3 17,973.9 1,977.1 13.8 0.007 2.3 1.8 13.4 247 11:37 0.9 0.3 0.2 17,969.1 1,976.6 13.8 0.007 2.3 1.8 13.4 246 11:38 1.2 0.3 0.3 17,971.6 1,976.9 13.8 0.007 2.3 1.8 13.4 246 11:39 1.2 0.3 0.3 17,955.9 1,975.1 11.9 0.006 2.2 1.8 13.4 246 11:40 1.2 0.3 0.3 17,954.2 1,975.0 13.8 0.007 2.3 1.8 13.4 246 11:41 1.0 0.3 0.2 17,955.7 1,975.1 11.9 0.006 2.2 1.8 13.4 246 11:42 1.3 0.4 0.3 17,958.5 1,975.4 13.8 0.007 2.3 1.8 13.4 246 11:43 1.1 0.3 0.3 17,972.3 1,977.0 13.8 0.007 2.3 1.8 13.4 246 11:44 1.3 0.4 0.3 17,943.7 1,973.8 13.8 0.007 2.3 1.8 13.4 245 1.2 0.3 0.3 17,963.5 1,976.0 13.6 0.007 2.3 1.8 13.4 246 0.9 0.3 0.2 17,940.7 1,973.5 11.9 0.006 2.2 1.8 13.4 245 1.4 0.4 0.3 17,985.9 1,978.4 13.8 0.007 2.3 1.8 13.4 247 24.7 6.9 5.7 377,233.9 41,495.6 286.0 0.145 48.1 37.8 281.4 5,167 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 7 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 11:24 Through 05/18/2023 11:44 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 11:59 1.1 0.3 0.2 17,949.4 1,974.4 13.8 0.007 2.3 1.8 13.4 246 12:00 1.2 0.3 0.3 17,960.5 1,975.7 13.8 0.007 2.3 1.8 13.4 246 12:01 1.3 0.4 0.3 17,947.4 1,974.2 13.8 0.007 2.3 1.8 13.4 246 12:02 1.0 0.3 0.2 17,935.2 1,972.9 13.8 0.007 2.3 1.8 13.4 246 12:03 1.0 0.3 0.2 17,928.5 1,972.1 13.8 0.007 2.3 1.8 13.4 246 12:04 1.1 0.3 0.3 17,837.5 1,962.1 13.7 0.007 2.3 1.8 13.4 246 12:05 1.2 0.4 0.3 17,945.1 1,974.0 13.8 0.007 2.3 1.8 13.4 246 12:06 0.9 0.3 0.2 17,931.2 1,972.4 13.8 0.007 2.3 1.8 13.4 246 12:07 1.1 0.3 0.2 17,903.3 1,969.4 13.8 0.007 2.3 1.8 13.4 245 12:08 1.1 0.3 0.3 17,817.4 1,959.9 11.8 0.006 2.2 1.8 13.4 245 12:09 1.5 0.4 0.3 17,920.2 1,971.2 11.8 0.006 2.2 1.8 13.4 246 12:10 1.2 0.4 0.3 17,960.2 1,975.6 13.8 0.007 2.3 1.8 13.4 246 12:11 1.2 0.4 0.3 17,935.3 1,972.9 13.8 0.007 2.3 1.8 13.4 245 12:12 1.2 0.3 0.3 17,893.1 1,968.2 13.8 0.007 2.3 1.8 13.4 245 12:13 1.3 0.4 0.3 17,870.7 1,965.8 13.8 0.007 2.3 1.8 13.4 245 12:14 1.1 0.3 0.2 17,887.9 1,967.7 11.8 0.006 2.2 1.8 13.4 245 12:15 1.3 0.4 0.3 17,912.3 1,970.4 11.8 0.006 2.2 1.8 13.4 246 12:16 1.1 0.3 0.2 17,943.1 1,973.7 13.8 0.007 2.3 1.8 13.4 246 12:17 1.3 0.4 0.3 17,938.1 1,973.2 13.8 0.007 2.3 1.8 13.4 246 12:18 1.0 0.3 0.2 17,899.1 1,968.9 13.8 0.007 2.3 1.8 13.4 245 12:19 1.3 0.4 0.3 17,919.1 1,971.1 13.8 0.007 2.3 1.8 13.4 246 1.2 0.3 0.3 17,915.9 1,970.8 13.4 0.007 2.3 1.8 13.4 246 0.9 0.3 0.2 17,817.4 1,959.9 11.8 0.006 2.2 1.8 13.4 245 1.5 0.4 0.3 17,960.5 1,975.7 13.8 0.007 2.3 1.8 13.4 246 24.5 7.2 5.5 376,234.6 41,385.8 281.7 0.143 47.9 37.8 281.4 5,159 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 8 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 11:59 Through 05/18/2023 12:19 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI 12:34 1.2 0.3 0.3 17,947.4 1,974.2 13.8 0.007 2.4 1.9 13.4 246 12:35 1.1 0.3 0.2 17,948.9 1,974.4 13.8 0.007 2.3 1.8 13.4 246 12:36 1.1 0.3 0.2 17,936.3 1,973.0 13.8 0.007 2.3 1.8 13.4 245 12:37 1.2 0.3 0.3 17,897.4 1,968.7 13.8 0.007 2.3 1.8 13.4 245 12:38 1.3 0.4 0.3 17,900.3 1,969.0 13.8 0.007 2.3 1.8 13.4 245 12:39 0.7 0.2 0.2 17,912.6 1,970.4 11.8 0.006 2.2 1.8 13.4 245 12:40 1.2 0.3 0.3 17,954.7 1,975.0 11.9 0.006 2.2 1.8 13.4 246 12:41 1.0 0.3 0.2 17,952.0 1,974.7 13.8 0.007 2.3 1.8 13.4 246 12:42 1.0 0.3 0.2 17,906.7 1,969.7 13.8 0.007 2.3 1.8 13.4 246 12:43 1.0 0.3 0.2 17,902.8 1,969.3 13.8 0.007 2.3 1.8 13.4 246 12:44 1.1 0.3 0.2 17,916.9 1,970.9 13.8 0.007 2.3 1.8 13.4 246 12:45 1.0 0.3 0.2 17,917.4 1,970.9 11.8 0.006 2.2 1.8 13.4 246 12:46 1.2 0.3 0.3 17,921.4 1,971.4 11.8 0.006 2.2 1.8 13.4 246 12:47 1.0 0.3 0.2 17,929.4 1,972.2 11.8 0.006 2.2 1.8 13.4 246 12:48 0.9 0.3 0.2 17,894.3 1,968.4 11.8 0.006 2.2 1.8 13.4 245 12:49 1.0 0.3 0.2 17,880.0 1,966.8 13.8 0.007 2.3 1.8 13.4 245 12:50 1.1 0.3 0.3 17,894.1 1,968.4 13.8 0.007 2.3 1.8 13.4 245 12:51 1.1 0.3 0.3 17,898.6 1,968.8 13.8 0.007 2.3 1.8 13.4 245 12:52 1.1 0.3 0.2 17,886.6 1,967.5 13.8 0.007 2.3 1.8 13.4 245 12:53 1.2 0.3 0.3 17,864.6 1,965.1 13.8 0.007 2.3 1.8 13.4 245 12:54 1.3 0.4 0.3 17,873.7 1,966.1 13.8 0.007 2.3 1.8 13.4 245 1.1 0.3 0.2 17,911.2 1,970.2 13.2 0.007 2.3 1.8 13.4 245 0.7 0.2 0.2 17,864.6 1,965.1 11.8 0.006 2.2 1.8 13.4 245 1.3 0.4 0.3 17,954.7 1,975.0 13.8 0.007 2.4 1.9 13.4 246 22.8 6.4 5.1 376,136.1 41,374.9 277.9 0.141 47.8 37.9 281.4 5,155 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 05/18/23 Source UNIT1 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 9 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/18/2023 12:34 Through 05/18/2023 12:54 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/18/23 *3$6573DJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix B.2 Unit CT12 GP043AS-023429-RT-1331 Page 124 of 261 07:17 6.1 1.7 1.3 18,435.0 2,027.9 14.2 0.007 2.3 1.8 13.4 258 07:18 6.0 1.7 1.3 18,428.6 2,027.1 14.2 0.007 2.4 1.9 13.4 258 07:19 5.9 1.7 1.3 18,234.7 2,005.8 14.0 0.007 2.4 1.9 13.4 258 07:20 6.0 1.7 1.3 18,433.2 2,027.7 14.2 0.007 2.4 1.8 13.4 258 07:21 6.0 1.7 1.3 18,422.7 2,026.5 14.2 0.007 2.3 1.8 13.4 258 07:22 6.0 1.7 1.3 18,419.6 2,026.2 14.2 0.007 2.3 1.8 13.4 258 07:23 6.0 1.7 1.3 18,428.9 2,027.2 14.2 0.007 2.3 1.8 13.4 258 07:24 6.0 1.7 1.3 18,449.3 2,029.4 14.2 0.007 2.3 1.8 13.4 258 07:25 6.1 1.7 1.3 18,436.8 2,028.0 14.2 0.007 2.3 1.8 13.4 258 07:26 6.1 1.7 1.3 18,414.2 2,025.6 14.2 0.007 2.3 1.8 13.4 257 07:27 6.0 1.7 1.3 18,397.1 2,023.7 12.1 0.006 2.2 1.7 13.4 257 07:28 6.0 1.7 1.3 18,399.2 2,023.9 12.1 0.006 2.2 1.7 13.4 257 07:29 6.0 1.7 1.3 18,414.4 2,025.6 12.2 0.006 2.2 1.8 13.4 257 07:30 6.1 1.7 1.3 18,419.2 2,026.1 14.2 0.007 2.4 1.8 13.4 258 07:31 6.1 1.7 1.4 18,222.5 2,004.5 14.0 0.007 2.4 1.9 13.4 258 07:32 6.1 1.7 1.4 18,433.1 2,027.6 14.2 0.007 2.4 1.9 13.4 258 07:33 6.0 1.7 1.3 18,438.8 2,028.3 14.2 0.007 2.4 1.8 13.4 258 07:34 6.1 1.7 1.3 18,429.5 2,027.2 14.2 0.007 2.3 1.8 13.4 258 07:35 6.0 1.7 1.3 18,285.0 2,011.4 14.1 0.007 2.3 1.8 13.4 258 07:36 6.1 1.7 1.3 18,416.4 2,025.8 12.2 0.006 2.2 1.8 13.4 258 07:37 6.1 1.7 1.3 18,428.8 2,027.2 12.2 0.006 2.2 1.8 13.4 258 6.0 1.7 1.3 18,399.4 2,023.9 13.7 0.007 2.3 1.8 13.4 258 5.9 1.7 1.3 18,222.5 2,004.5 12.1 0.006 2.2 1.7 13.4 257 6.1 1.7 1.4 18,449.3 2,029.4 14.2 0.007 2.4 1.9 13.4 258 126.8 35.7 27.5 386,387.0 42,502.7 287.5 0.142 48.5 38.0 281.4 5,414 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 1 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 07:17 Through 05/19/2023 07:37 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 07:54 6.0 1.7 1.3 18,422.9 2,026.5 14.2 0.007 2.3 1.8 13.4 258 07:55 6.1 1.7 1.3 18,428.8 2,027.2 12.2 0.006 2.2 1.7 13.4 258 07:56 6.0 1.7 1.3 18,444.5 2,028.9 12.2 0.006 2.2 1.7 13.4 258 07:57 6.0 1.7 1.3 18,443.8 2,028.8 14.2 0.007 2.3 1.8 13.4 258 07:58 6.0 1.7 1.3 18,443.2 2,028.8 14.2 0.007 2.4 1.9 13.4 258 07:59 5.9 1.7 1.3 18,456.7 2,030.2 14.2 0.007 2.4 1.9 13.4 258 08:00 6.0 1.7 1.3 18,323.4 2,015.6 14.1 0.007 2.3 1.8 13.4 258 08:01 6.0 1.7 1.3 18,452.3 2,029.8 14.2 0.007 2.3 1.8 13.4 258 08:02 6.0 1.7 1.3 18,445.3 2,029.0 14.2 0.007 2.3 1.8 13.4 258 08:03 6.0 1.7 1.3 18,441.9 2,028.6 12.2 0.006 2.2 1.8 13.4 258 08:04 5.9 1.7 1.3 18,446.7 2,029.1 14.2 0.007 2.3 1.8 13.4 258 08:05 5.9 1.7 1.3 18,310.3 2,014.1 14.1 0.007 2.3 1.8 13.4 258 08:06 5.9 1.7 1.3 18,431.4 2,027.5 14.2 0.007 2.3 1.8 13.4 258 08:07 6.0 1.7 1.3 18,409.8 2,025.1 14.2 0.007 2.3 1.8 13.4 257 08:08 6.0 1.7 1.3 18,415.5 2,025.7 12.2 0.006 2.2 1.7 13.4 258 08:09 6.0 1.7 1.3 18,424.4 2,026.7 12.2 0.006 2.2 1.7 13.4 258 08:10 6.0 1.7 1.3 18,436.3 2,028.0 14.2 0.007 2.3 1.8 13.4 258 08:11 5.9 1.7 1.3 18,444.7 2,028.9 14.2 0.007 2.3 1.8 13.4 258 08:12 5.9 1.6 1.3 18,435.1 2,027.9 14.2 0.007 2.3 1.8 13.4 258 08:13 6.0 1.7 1.3 18,299.2 2,012.9 14.1 0.007 2.3 1.8 13.4 258 08:14 6.0 1.7 1.3 18,419.2 2,026.1 14.2 0.007 2.3 1.8 13.4 258 6.0 1.7 1.3 18,417.9 2,026.0 13.7 0.007 2.3 1.8 13.4 258 5.9 1.6 1.3 18,299.2 2,012.9 12.2 0.006 2.2 1.7 13.4 257 6.1 1.7 1.3 18,456.7 2,030.2 14.2 0.007 2.4 1.9 13.4 258 125.5 35.6 27.3 386,775.4 42,545.4 287.9 0.142 48.0 37.6 281.4 5,417 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 2 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 07:54 Through 05/19/2023 08:14 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 08:30 5.9 1.7 1.3 18,303.6 2,013.4 14.1 0.007 2.3 1.8 13.4 258 08:31 6.0 1.7 1.3 18,441.7 2,028.6 12.2 0.006 2.2 1.8 13.4 258 08:32 6.0 1.7 1.3 18,454.5 2,030.0 14.2 0.007 2.3 1.8 13.4 258 08:33 5.9 1.7 1.3 18,448.3 2,029.3 14.2 0.007 2.4 1.9 13.4 258 08:34 6.0 1.7 1.3 18,439.6 2,028.4 14.2 0.007 2.4 1.9 13.4 258 08:35 6.0 1.7 1.3 18,439.4 2,028.3 14.2 0.007 2.3 1.8 13.4 258 08:36 5.9 1.6 1.3 18,450.8 2,029.6 12.2 0.006 2.2 1.8 13.4 258 08:37 5.9 1.7 1.3 18,450.6 2,029.6 14.2 0.007 2.3 1.8 13.4 258 08:38 6.0 1.7 1.3 18,451.5 2,029.7 14.2 0.007 2.3 1.8 13.4 258 08:39 6.0 1.7 1.3 18,440.6 2,028.5 14.2 0.007 2.3 1.8 13.4 258 08:40 6.0 1.7 1.3 18,426.7 2,026.9 14.2 0.007 2.3 1.8 13.4 258 08:41 5.9 1.7 1.3 18,411.8 2,025.3 14.2 0.007 2.3 1.8 13.4 257 08:42 5.9 1.7 1.3 18,281.1 2,010.9 14.1 0.007 2.3 1.8 13.4 257 08:43 5.9 1.7 1.3 18,428.1 2,027.1 14.2 0.007 2.3 1.8 13.4 258 08:44 6.0 1.7 1.3 18,416.7 2,025.8 14.2 0.007 2.3 1.8 13.4 257 08:45 6.0 1.7 1.3 18,410.1 2,025.1 14.2 0.007 2.3 1.8 13.4 257 08:46 6.0 1.7 1.3 18,415.3 2,025.7 14.2 0.007 2.3 1.8 13.4 258 08:47 5.9 1.7 1.3 18,287.7 2,011.6 12.1 0.006 2.2 1.7 13.4 258 08:48 6.0 1.7 1.3 18,426.3 2,026.9 14.2 0.007 2.3 1.8 13.4 258 08:49 6.0 1.7 1.3 18,426.5 2,026.9 14.2 0.007 2.4 1.9 13.4 258 08:50 6.0 1.7 1.3 18,413.3 2,025.5 14.2 0.007 2.3 1.8 13.4 257 6.0 1.7 1.3 18,412.6 2,025.4 13.9 0.007 2.3 1.8 13.4 258 5.9 1.6 1.3 18,281.1 2,010.9 12.1 0.006 2.2 1.7 13.4 257 6.0 1.7 1.3 18,454.5 2,030.0 14.2 0.007 2.4 1.9 13.4 258 125.2 35.6 27.3 386,664.2 42,533.1 291.9 0.144 48.3 38.0 281.4 5,413 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 3 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 08:30 Through 05/19/2023 08:50 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 09:06 5.9 1.7 1.3 18,388.7 2,022.8 14.2 0.007 2.3 1.8 13.4 257 09:07 6.0 1.7 1.3 18,398.5 2,023.8 12.1 0.006 2.2 1.8 13.4 257 09:08 5.9 1.7 1.3 18,387.4 2,022.6 12.1 0.006 2.2 1.8 13.4 257 09:09 5.9 1.6 1.3 18,385.0 2,022.4 14.2 0.007 2.3 1.8 13.4 257 09:10 5.9 1.6 1.3 18,383.5 2,022.2 14.2 0.007 2.3 1.8 13.4 257 09:11 6.0 1.7 1.3 18,410.8 2,025.2 12.2 0.006 2.2 1.8 13.4 258 09:12 6.1 1.7 1.3 18,410.9 2,025.2 14.2 0.007 2.3 1.8 13.4 258 09:13 5.9 1.7 1.3 18,383.7 2,022.2 14.2 0.007 2.4 1.9 13.4 257 09:14 6.0 1.7 1.3 18,383.7 2,022.2 14.2 0.007 2.3 1.8 13.4 257 09:15 5.9 1.7 1.3 18,393.5 2,023.3 12.1 0.006 2.2 1.7 13.4 257 09:16 6.0 1.7 1.3 18,263.3 2,009.0 12.1 0.006 2.2 1.7 13.4 258 09:17 6.1 1.7 1.3 18,388.5 2,022.7 14.2 0.007 2.3 1.8 13.4 258 09:18 6.1 1.7 1.3 18,382.0 2,022.0 14.2 0.007 2.3 1.8 13.4 258 09:19 6.2 1.7 1.4 18,385.4 2,022.4 14.2 0.007 2.3 1.8 13.4 258 09:20 6.1 1.7 1.3 18,365.9 2,020.2 14.1 0.007 2.3 1.8 13.4 257 09:21 6.1 1.7 1.4 18,363.4 2,020.0 12.1 0.006 2.2 1.8 13.4 257 09:22 6.1 1.7 1.4 18,364.0 2,020.0 12.1 0.006 2.2 1.7 13.4 257 09:23 6.1 1.7 1.3 18,369.7 2,020.7 14.1 0.007 2.3 1.8 13.4 257 09:24 6.1 1.7 1.3 18,371.1 2,020.8 14.1 0.007 2.3 1.8 13.4 257 09:25 6.0 1.7 1.3 18,370.5 2,020.8 14.1 0.007 2.3 1.8 13.4 257 09:26 6.0 1.7 1.3 18,349.4 2,018.4 14.1 0.007 2.3 1.8 13.4 256 6.0 1.7 1.3 18,376.1 2,021.4 13.5 0.007 2.3 1.8 13.4 257 5.9 1.6 1.3 18,263.3 2,009.0 12.1 0.006 2.2 1.7 13.4 256 6.2 1.7 1.4 18,410.9 2,025.2 14.2 0.007 2.4 1.9 13.4 258 126.4 35.5 27.6 385,898.9 42,448.9 283.1 0.140 47.7 37.6 281.4 5,402 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 4 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 09:06 Through 05/19/2023 09:26 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 09:44 6.1 1.7 1.3 18,383.1 2,022.1 14.2 0.007 2.3 1.8 13.4 257 09:45 6.1 1.7 1.4 18,369.7 2,020.7 14.1 0.007 2.4 1.9 13.4 257 09:46 6.1 1.7 1.3 18,360.6 2,019.7 14.1 0.007 2.4 1.9 13.4 257 09:47 6.0 1.7 1.3 18,362.1 2,019.8 12.1 0.006 2.2 1.8 13.4 256 09:48 6.0 1.7 1.3 18,359.3 2,019.5 12.1 0.006 2.2 1.7 13.4 257 09:49 6.0 1.7 1.3 18,374.4 2,021.2 14.1 0.007 2.3 1.8 13.4 257 09:50 6.0 1.7 1.3 18,356.0 2,019.2 14.1 0.007 2.3 1.8 13.4 256 09:51 6.0 1.7 1.3 18,336.6 2,017.0 14.1 0.007 2.4 1.9 13.4 256 09:52 6.0 1.7 1.3 18,331.3 2,016.4 14.1 0.007 2.3 1.8 13.4 256 09:53 5.8 1.6 1.3 18,320.1 2,015.2 12.1 0.006 2.2 1.7 13.4 256 09:54 5.9 1.7 1.3 18,207.6 2,002.8 14.0 0.007 2.3 1.8 13.4 256 09:55 6.0 1.7 1.3 18,335.8 2,016.9 14.1 0.007 2.3 1.8 13.4 256 09:56 6.0 1.7 1.3 18,325.5 2,015.8 14.1 0.007 2.3 1.8 13.4 256 09:57 5.9 1.7 1.3 18,316.3 2,014.8 14.1 0.007 2.3 1.8 13.4 256 09:58 6.0 1.7 1.3 18,303.6 2,013.4 14.1 0.007 2.3 1.8 13.4 256 09:59 6.3 1.8 1.4 18,310.7 2,014.2 12.1 0.006 2.2 1.7 13.4 256 10:00 6.1 1.7 1.4 18,321.1 2,015.3 12.1 0.006 2.2 1.8 13.4 257 10:01 6.0 1.7 1.3 18,337.9 2,017.2 14.1 0.007 2.3 1.8 13.4 257 10:02 6.1 1.7 1.4 18,317.2 2,014.9 14.1 0.007 2.3 1.8 13.4 256 10:03 6.1 1.7 1.4 18,280.0 2,010.8 14.1 0.007 2.3 1.8 13.4 256 10:04 6.0 1.7 1.3 18,286.8 2,011.5 12.1 0.006 2.2 1.7 13.4 256 6.0 1.7 1.3 18,328.4 2,016.1 13.5 0.007 2.3 1.8 13.4 256 5.8 1.6 1.3 18,207.6 2,002.8 12.1 0.006 2.2 1.7 13.4 256 6.3 1.8 1.4 18,383.1 2,022.1 14.2 0.007 2.4 1.9 13.4 257 126.5 35.7 27.8 384,895.7 42,338.4 284.1 0.141 48.0 37.7 281.4 5,383 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 5 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 09:44 Through 05/19/2023 10:04 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 10:20 5.9 1.7 1.3 18,339.4 2,017.3 14.1 0.007 2.3 1.8 13.4 257 10:21 6.0 1.7 1.3 18,349.1 2,018.4 12.1 0.006 2.2 1.8 13.4 257 10:22 6.0 1.7 1.3 18,338.6 2,017.2 12.1 0.006 2.2 1.8 13.4 257 10:23 6.0 1.7 1.3 18,318.3 2,015.0 14.1 0.007 2.3 1.8 13.4 256 10:24 6.1 1.7 1.3 18,303.2 2,013.4 14.1 0.007 2.3 1.8 13.4 256 10:25 6.0 1.7 1.3 18,326.8 2,015.9 12.1 0.006 2.2 1.7 13.4 256 10:26 5.9 1.7 1.3 18,346.2 2,018.1 14.1 0.007 2.3 1.8 13.4 257 10:27 5.9 1.6 1.3 18,357.3 2,019.3 14.1 0.007 2.4 1.9 13.4 257 10:28 5.8 1.6 1.3 18,331.3 2,016.4 14.1 0.007 2.4 1.9 13.4 256 10:29 5.9 1.6 1.3 18,330.9 2,016.4 14.1 0.007 2.3 1.8 13.4 256 10:30 5.8 1.6 1.3 18,322.8 2,015.5 12.1 0.006 2.2 1.7 13.4 256 10:31 5.9 1.6 1.3 18,328.6 2,016.1 12.1 0.006 2.2 1.7 13.4 256 10:32 5.8 1.6 1.3 18,323.4 2,015.6 14.1 0.007 2.3 1.8 13.4 256 10:33 5.9 1.7 1.3 18,312.0 2,014.3 14.1 0.007 2.3 1.8 13.4 256 10:34 5.9 1.6 1.3 18,333.6 2,016.7 14.1 0.007 2.3 1.8 13.4 256 10:35 5.8 1.6 1.3 18,331.1 2,016.4 14.1 0.007 2.3 1.8 13.4 256 10:36 5.9 1.7 1.3 18,326.8 2,015.9 14.1 0.007 2.4 1.9 13.4 257 10:37 5.9 1.6 1.3 18,322.8 2,015.5 14.1 0.007 2.3 1.8 13.4 257 10:38 5.9 1.7 1.3 18,323.9 2,015.6 12.1 0.006 2.2 1.8 13.4 257 10:39 5.9 1.7 1.3 18,318.9 2,015.1 12.1 0.006 2.2 1.8 13.4 257 10:40 6.0 1.7 1.3 18,319.9 2,015.2 14.1 0.007 2.3 1.8 13.4 256 5.9 1.7 1.3 18,328.8 2,016.2 13.4 0.007 2.3 1.8 13.4 256 5.8 1.6 1.3 18,303.2 2,013.4 12.1 0.006 2.2 1.7 13.4 256 6.1 1.7 1.3 18,357.3 2,019.3 14.1 0.007 2.4 1.9 13.4 257 124.2 34.8 27.3 384,904.9 42,339.3 282.1 0.140 47.9 37.8 281.4 5,385 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 6 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 10:20 Through 05/19/2023 10:40 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 10:57 6.0 1.7 1.3 18,286.2 2,011.5 14.1 0.007 2.3 1.8 13.4 256 10:58 5.9 1.7 1.3 18,279.5 2,010.7 14.1 0.007 2.3 1.8 13.4 255 10:59 6.0 1.7 1.3 18,260.8 2,008.7 12.1 0.006 2.2 1.8 13.4 255 11:00 5.9 1.7 1.3 18,233.2 2,005.7 12.0 0.006 2.2 1.7 13.4 254 11:01 5.8 1.6 1.3 18,210.1 2,003.1 12.0 0.006 2.2 1.8 13.4 254 11:02 5.9 1.7 1.3 18,225.9 2,004.8 12.0 0.006 2.2 1.8 13.4 255 11:03 5.9 1.7 1.3 18,250.4 2,007.5 14.1 0.007 2.3 1.8 13.4 255 11:04 5.7 1.6 1.3 18,248.4 2,007.3 14.1 0.007 2.4 1.9 13.4 254 11:05 5.7 1.6 1.3 18,241.0 2,006.5 14.0 0.007 2.4 1.9 13.4 254 11:06 5.9 1.7 1.3 18,238.2 2,006.2 14.0 0.007 2.3 1.8 13.4 254 11:07 5.8 1.7 1.3 18,253.4 2,007.9 12.0 0.006 2.2 1.7 13.4 255 11:08 5.8 1.6 1.3 18,253.4 2,007.9 14.1 0.007 2.3 1.8 13.4 255 11:09 5.9 1.7 1.3 18,250.2 2,007.5 14.1 0.007 2.3 1.8 13.4 255 11:10 6.0 1.7 1.3 18,227.8 2,005.1 14.0 0.007 2.3 1.8 13.4 255 11:11 6.0 1.7 1.3 18,227.1 2,005.0 14.0 0.007 2.3 1.8 13.4 255 11:12 6.0 1.7 1.3 18,236.5 2,006.0 12.0 0.006 2.2 1.7 13.4 255 11:13 6.0 1.7 1.3 18,220.2 2,004.2 12.0 0.006 2.2 1.8 13.4 254 11:14 5.9 1.7 1.3 18,226.2 2,004.9 14.0 0.007 2.3 1.8 13.4 255 11:15 6.0 1.7 1.3 18,230.6 2,005.4 14.0 0.007 2.3 1.8 13.4 255 11:16 5.9 1.7 1.3 18,231.3 2,005.4 12.0 0.006 2.2 1.8 13.4 254 11:17 5.9 1.7 1.3 18,228.6 2,005.1 14.0 0.007 2.3 1.8 13.4 254 5.9 1.7 1.3 18,240.9 2,006.5 13.3 0.007 2.3 1.8 13.4 255 5.7 1.6 1.3 18,210.1 2,003.1 12.0 0.006 2.2 1.7 13.4 254 6.0 1.7 1.3 18,286.2 2,011.5 14.1 0.007 2.4 1.9 13.4 256 123.9 35.3 27.3 383,059.0 42,136.4 278.7 0.139 47.7 37.7 281.4 5,348 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 7 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 10:57 Through 05/19/2023 11:17 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 11:32 5.7 1.6 1.3 18,261.9 2,008.8 14.1 0.007 2.3 1.8 13.4 255 11:33 5.8 1.6 1.3 18,269.2 2,009.6 14.1 0.007 2.3 1.8 13.4 255 11:34 5.8 1.6 1.3 18,266.6 2,009.3 14.1 0.007 2.3 1.8 13.4 255 11:35 5.8 1.6 1.3 18,253.0 2,007.8 14.1 0.007 2.3 1.8 13.4 255 11:36 5.8 1.6 1.3 18,243.5 2,006.8 12.0 0.006 2.2 1.8 13.4 255 11:37 5.9 1.7 1.3 18,244.0 2,006.8 12.0 0.006 2.2 1.8 13.4 255 11:38 5.8 1.6 1.3 18,273.2 2,010.1 14.1 0.007 2.3 1.8 13.4 256 11:39 5.9 1.7 1.3 18,270.2 2,009.7 14.1 0.007 2.4 1.9 13.4 256 11:40 5.9 1.7 1.3 18,269.6 2,009.7 14.1 0.007 2.3 1.8 13.4 256 11:41 5.9 1.7 1.3 18,261.2 2,008.7 14.1 0.007 2.3 1.8 13.4 255 11:42 5.9 1.7 1.3 18,259.5 2,008.5 12.1 0.006 2.2 1.7 13.4 255 11:43 5.8 1.6 1.3 18,262.3 2,008.9 12.1 0.006 2.2 1.7 13.4 255 11:44 5.9 1.6 1.3 18,289.5 2,011.8 14.1 0.007 2.3 1.8 13.4 256 11:45 5.8 1.6 1.3 18,280.2 2,010.8 14.1 0.007 2.4 1.9 13.4 255 11:46 5.7 1.6 1.3 18,255.4 2,008.1 14.1 0.007 2.3 1.8 13.4 255 11:47 5.9 1.7 1.3 18,252.8 2,007.8 12.0 0.006 2.2 1.7 13.4 255 11:48 5.8 1.6 1.3 18,254.9 2,008.0 12.0 0.006 2.2 1.7 13.4 255 11:49 5.8 1.6 1.3 18,243.3 2,006.8 14.0 0.007 2.3 1.8 13.4 254 11:50 5.8 1.6 1.3 18,253.6 2,007.9 14.1 0.007 2.3 1.8 13.4 255 11:51 5.8 1.6 1.3 18,261.5 2,008.8 14.1 0.007 2.3 1.8 13.4 255 11:52 5.8 1.6 1.3 18,256.7 2,008.2 14.1 0.007 2.3 1.8 13.4 255 5.8 1.6 1.3 18,261.1 2,008.7 13.5 0.007 2.3 1.8 13.4 255 5.7 1.6 1.3 18,243.3 2,006.8 12.0 0.006 2.2 1.7 13.4 254 5.9 1.7 1.3 18,289.5 2,011.8 14.1 0.007 2.4 1.9 13.4 256 122.3 34.2 27.3 383,482.1 42,182.9 283.6 0.141 47.9 37.6 281.4 5,358 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Tun 8 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 11:32 Through 05/19/2023 11:52 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI 12:06 5.7 1.6 1.3 18,241.4 2,006.6 14.0 0.007 2.4 1.9 13.4 255 12:07 5.8 1.6 1.3 18,243.2 2,006.8 14.0 0.007 2.3 1.8 13.4 255 12:08 5.8 1.6 1.3 18,243.1 2,006.7 12.0 0.006 2.2 1.7 13.4 255 12:09 5.9 1.7 1.3 18,253.4 2,007.9 12.0 0.006 2.1 1.7 13.4 256 12:10 5.9 1.7 1.3 18,252.2 2,007.7 14.1 0.007 2.3 1.8 13.4 256 12:11 5.9 1.7 1.3 18,253.8 2,007.9 14.1 0.007 2.4 1.9 13.4 255 12:12 5.9 1.7 1.3 18,221.6 2,004.4 14.0 0.007 2.3 1.8 13.4 255 12:13 5.8 1.7 1.3 18,203.7 2,002.4 12.0 0.006 2.2 1.8 13.4 254 12:14 5.7 1.6 1.3 18,215.6 2,003.7 12.0 0.006 2.2 1.7 13.4 254 12:15 5.7 1.6 1.3 18,236.3 2,006.0 12.0 0.006 2.2 1.7 13.4 254 12:16 5.8 1.6 1.3 18,232.4 2,005.6 14.0 0.007 2.3 1.8 13.4 254 12:17 5.8 1.6 1.3 18,200.4 2,002.0 14.0 0.007 2.4 1.9 13.4 254 12:18 5.7 1.6 1.3 18,218.2 2,004.0 14.0 0.007 2.3 1.8 13.4 254 12:19 5.7 1.6 1.3 18,232.7 2,005.6 12.0 0.006 2.2 1.8 13.4 255 12:20 5.7 1.6 1.3 18,241.2 2,006.5 14.0 0.007 2.3 1.8 13.4 255 12:21 5.8 1.6 1.3 18,265.8 2,009.2 14.1 0.007 2.3 1.8 13.4 255 12:22 5.8 1.6 1.3 18,276.6 2,010.4 14.1 0.007 2.3 1.8 13.4 256 12:23 5.9 1.7 1.3 18,258.1 2,008.4 14.1 0.007 2.3 1.8 13.4 255 12:24 5.9 1.7 1.3 18,223.7 2,004.6 12.0 0.006 2.2 1.8 13.4 255 12:25 5.9 1.7 1.3 18,209.2 2,003.0 12.0 0.006 2.1 1.7 13.4 254 12:26 5.9 1.7 1.3 18,210.5 2,003.2 12.0 0.006 2.1 1.7 13.4 254 5.8 1.6 1.3 18,234.9 2,005.8 13.2 0.007 2.3 1.8 13.4 255 5.7 1.6 1.3 18,200.4 2,002.0 12.0 0.006 2.1 1.7 13.4 254 5.9 1.7 1.3 18,276.6 2,010.4 14.1 0.007 2.4 1.9 13.4 256 122.0 34.5 27.3 382,933.1 42,122.6 276.5 0.138 47.4 37.5 281.4 5,350 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 05/19/23 Source UNIT2 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 9 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/19/2023 12:06 Through 05/19/2023 12:26 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/19/23 *3$6573DJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix B.3 Unit CT21 GP043AS-023429-RT-1331 Page 134 of 261 07:41 0.0 0.0 0.0 16,291.3 1,792.0 10.8 0.006 2.5 1.6 12.0 306 07:42 0.0 0.0 0.0 16,279.6 1,790.8 10.7 0.006 2.4 1.6 12.0 306 07:43 0.0 0.0 0.0 16,274.4 1,790.2 10.7 0.006 2.5 1.6 12.0 306 07:44 0.0 0.0 0.0 16,271.5 1,789.9 10.7 0.006 2.5 1.7 12.0 305 07:45 0.0 0.0 0.0 16,271.6 1,789.9 10.7 0.006 2.6 1.7 12.0 305 07:46 0.0 0.0 0.0 16,265.5 1,789.2 10.7 0.006 2.5 1.7 12.0 305 07:47 0.0 0.0 0.0 16,264.9 1,789.1 10.7 0.006 2.6 1.7 12.0 305 07:48 0.0 0.0 0.0 16,262.2 1,788.8 10.7 0.006 2.6 1.7 12.0 305 07:49 0.0 0.0 0.0 16,255.9 1,788.1 10.7 0.006 2.6 1.7 12.0 305 07:50 0.0 0.0 0.0 16,252.8 1,787.8 10.7 0.006 2.6 1.7 12.0 305 07:51 0.0 0.0 0.0 16,250.2 1,787.5 10.7 0.006 2.6 1.7 12.0 305 07:52 0.0 0.0 0.0 16,240.3 1,786.4 10.7 0.006 2.5 1.7 12.0 305 07:53 0.0 0.0 0.0 16,248.1 1,787.3 10.7 0.006 2.5 1.6 12.0 305 07:54 0.0 0.0 0.0 16,252.4 1,787.8 10.7 0.006 2.6 1.7 12.0 305 07:55 0.0 0.0 0.0 16,264.9 1,789.1 10.7 0.006 2.6 1.7 12.0 305 07:56 0.0 0.0 0.0 16,262.6 1,788.9 10.7 0.006 2.6 1.7 11.9 305 07:57 0.0 0.0 0.0 16,277.2 1,790.5 10.7 0.006 2.6 1.7 12.0 305 07:58 0.0 0.0 0.0 16,279.8 1,790.8 12.5 0.007 2.7 1.8 12.0 305 07:59 0.0 0.0 0.0 16,278.7 1,790.7 10.7 0.006 2.5 1.7 12.0 305 08:00 0.0 0.0 0.0 16,274.7 1,790.2 10.7 0.006 2.5 1.6 12.0 305 08:01 0.0 0.0 0.0 16,279.4 1,790.7 10.7 0.006 2.6 1.7 12.0 305 0.0 0.0 0.0 16,266.6 1,789.3 10.8 0.006 2.6 1.7 12.0 305 0.0 0.0 0.0 16,240.3 1,786.4 10.7 0.006 2.4 1.6 11.9 305 0.0 0.0 0.0 16,291.3 1,792.0 12.5 0.007 2.7 1.8 12.0 306 0.0 0.0 0.0 341,598.0 37,575.7 226.6 0.127 53.7 35.3 251.9 6,408 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 1 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 07:41 Through 05/16/2023 08:01 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 08:19 0.0 0.0 0.0 16,276.2 1,790.4 10.7 0.006 2.6 1.7 12.0 306 08:20 0.0 0.0 0.0 16,272.6 1,790.0 10.7 0.006 2.5 1.7 11.9 306 08:21 0.0 0.0 0.0 16,277.5 1,790.5 10.7 0.006 2.5 1.7 12.0 306 08:22 0.0 0.0 0.0 16,274.4 1,790.2 10.7 0.006 2.5 1.7 11.9 306 08:23 0.0 0.0 0.0 16,283.5 1,791.2 10.7 0.006 2.6 1.7 11.9 306 08:24 0.0 0.0 0.0 16,282.2 1,791.0 10.7 0.006 2.6 1.7 12.0 306 08:25 0.0 0.0 0.0 16,285.9 1,791.4 10.7 0.006 2.6 1.7 11.9 306 08:26 0.0 0.0 0.0 16,283.1 1,791.1 10.7 0.006 2.6 1.7 12.0 306 08:27 0.0 0.0 0.0 16,284.6 1,791.3 10.7 0.006 2.6 1.7 12.0 306 08:28 0.0 0.0 0.0 16,287.2 1,791.6 10.7 0.006 2.4 1.6 12.0 306 08:29 0.0 0.0 0.0 16,291.4 1,792.1 10.8 0.006 2.4 1.6 12.0 306 08:30 0.0 0.0 0.0 16,291.9 1,792.1 10.8 0.006 2.6 1.7 12.0 306 08:31 0.0 0.0 0.0 16,291.4 1,792.1 12.5 0.007 2.8 1.8 12.0 306 08:32 0.0 0.0 0.0 16,279.6 1,790.8 12.5 0.007 2.7 1.8 11.9 306 08:33 0.0 0.0 0.0 16,274.1 1,790.2 10.7 0.006 2.5 1.6 11.9 305 08:34 0.0 0.0 0.0 16,284.9 1,791.3 10.7 0.006 2.6 1.7 11.9 306 08:35 0.0 0.0 0.0 16,281.8 1,791.0 10.7 0.006 2.6 1.7 11.9 306 08:36 0.0 0.0 0.0 16,280.4 1,790.8 10.7 0.006 2.6 1.7 12.0 306 08:37 0.0 0.0 0.0 16,281.4 1,791.0 10.7 0.006 2.6 1.7 12.0 306 08:38 0.0 0.0 0.0 16,282.5 1,791.1 10.7 0.006 2.6 1.7 12.0 306 08:39 0.0 0.0 0.0 16,283.9 1,791.2 10.7 0.006 2.6 1.7 11.9 306 0.0 0.0 0.0 16,282.4 1,791.1 10.9 0.006 2.6 1.7 12.0 306 0.0 0.0 0.0 16,272.6 1,790.0 10.7 0.006 2.4 1.6 11.9 305 0.0 0.0 0.0 16,291.9 1,792.1 12.5 0.007 2.8 1.8 12.0 306 0.0 0.0 0.0 341,930.5 37,612.4 228.5 0.128 54.1 35.6 251.1 6,425 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 2 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 08:19 Through 05/16/2023 08:39 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 08:57 0.0 0.0 0.0 16,291.8 1,792.1 10.8 0.006 2.6 1.7 11.9 306 08:58 0.0 0.0 0.0 16,293.9 1,792.3 10.8 0.006 2.5 1.7 11.9 306 08:59 0.0 0.0 0.0 16,297.6 1,792.7 10.8 0.006 2.6 1.7 12.0 306 09:00 0.0 0.0 0.0 16,297.9 1,792.8 10.8 0.006 2.6 1.7 12.0 306 09:01 0.0 0.0 0.0 16,302.9 1,793.3 10.8 0.006 2.5 1.7 11.9 306 09:02 0.0 0.0 0.0 16,300.9 1,793.1 12.6 0.007 2.7 1.8 11.9 306 09:03 0.0 0.0 0.0 16,299.9 1,793.0 12.6 0.007 2.7 1.8 12.0 306 09:04 0.0 0.0 0.0 16,306.1 1,793.7 10.8 0.006 2.4 1.6 12.0 306 09:05 0.0 0.0 0.0 16,304.6 1,793.5 10.8 0.006 2.5 1.6 12.0 306 09:06 0.0 0.0 0.0 16,308.9 1,794.0 12.6 0.007 2.7 1.8 12.0 306 09:07 0.0 0.0 0.0 16,298.5 1,792.8 10.8 0.006 2.5 1.6 11.9 306 09:08 0.0 0.0 0.0 16,306.8 1,793.7 10.8 0.006 2.5 1.7 11.9 306 09:09 0.0 0.0 0.0 16,308.2 1,793.9 10.8 0.006 2.5 1.6 11.9 306 09:10 0.0 0.0 0.0 16,304.6 1,793.5 10.8 0.006 2.6 1.7 11.9 306 09:11 0.0 0.0 0.0 16,304.9 1,793.5 12.6 0.007 2.7 1.8 12.0 306 09:12 0.0 0.0 0.0 16,292.8 1,792.2 10.8 0.006 2.5 1.6 11.9 306 09:13 0.0 0.0 0.0 16,291.9 1,792.1 10.8 0.006 2.5 1.7 12.0 306 09:14 0.0 0.0 0.0 16,292.1 1,792.1 10.8 0.006 2.6 1.8 12.0 306 09:15 0.0 0.0 0.0 16,295.4 1,792.5 10.8 0.006 2.5 1.7 12.0 306 09:16 0.0 0.0 0.0 16,294.4 1,792.4 10.8 0.006 2.4 1.6 12.0 306 09:17 0.0 0.0 0.0 16,293.3 1,792.3 12.5 0.007 2.7 1.8 11.9 306 0.0 0.0 0.0 16,299.4 1,792.9 11.2 0.006 2.6 1.7 12.0 306 0.0 0.0 0.0 16,291.8 1,792.1 10.8 0.006 2.4 1.6 11.9 306 0.0 0.0 0.0 16,308.9 1,794.0 12.6 0.007 2.7 1.8 12.0 306 0.0 0.0 0.0 342,287.4 37,651.5 235.7 0.131 53.8 35.7 251.0 6,426 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 3 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 08:57 Through 05/16/2023 09:17 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 09:35 0.0 0.0 0.0 16,325.9 1,795.8 10.8 0.006 2.6 1.7 11.9 306 09:36 0.0 0.0 0.0 16,326.9 1,796.0 12.6 0.007 2.7 1.8 11.9 306 09:37 0.0 0.0 0.0 16,327.4 1,796.0 10.8 0.006 2.5 1.7 11.9 306 09:38 0.0 0.0 0.0 16,325.1 1,795.8 10.8 0.006 2.6 1.7 11.9 306 09:39 0.0 0.0 0.0 16,320.3 1,795.2 10.8 0.006 2.6 1.7 11.9 306 09:40 0.0 0.0 0.0 16,319.1 1,795.1 10.8 0.006 2.6 1.7 11.9 306 09:41 0.0 0.0 0.0 16,317.3 1,794.9 10.8 0.006 2.6 1.7 11.9 306 09:42 0.0 0.0 0.0 16,294.1 1,792.4 12.5 0.007 2.7 1.7 11.9 306 09:43 0.0 0.0 0.0 16,241.2 1,786.5 12.5 0.007 2.7 1.8 11.9 305 09:44 0.0 0.0 0.0 16,222.3 1,784.5 10.7 0.006 2.5 1.6 11.9 305 09:45 0.0 0.0 0.0 16,214.9 1,783.6 10.7 0.006 2.3 1.5 12.0 305 09:46 0.0 0.0 0.0 16,217.0 1,783.9 10.7 0.006 2.5 1.7 12.0 305 09:47 0.0 0.0 0.0 16,216.6 1,783.8 10.7 0.006 2.6 1.7 12.0 305 09:48 0.0 0.0 0.0 16,214.6 1,783.6 10.7 0.006 2.5 1.7 12.0 305 09:49 0.0 0.0 0.0 16,212.9 1,783.4 10.7 0.006 2.6 1.7 12.0 305 09:50 0.0 0.0 0.0 16,205.8 1,782.6 10.7 0.006 2.6 1.7 12.0 304 09:51 0.0 0.0 0.0 16,200.1 1,782.0 10.7 0.006 2.4 1.6 12.0 305 09:52 0.0 0.0 0.0 16,207.3 1,782.8 10.7 0.006 2.5 1.6 12.0 305 09:53 0.0 0.0 0.0 16,209.4 1,783.0 12.5 0.007 2.7 1.8 12.0 305 09:54 0.0 0.0 0.0 16,214.2 1,783.6 10.7 0.006 2.6 1.7 12.0 304 09:55 0.0 0.0 0.0 16,214.1 1,783.6 12.5 0.007 2.7 1.8 12.0 304 0.0 0.0 0.0 16,254.6 1,788.0 11.2 0.006 2.6 1.7 12.0 305 0.0 0.0 0.0 16,200.1 1,782.0 10.7 0.006 2.3 1.5 11.9 304 0.0 0.0 0.0 16,327.4 1,796.0 12.6 0.007 2.7 1.8 12.0 306 0.0 0.0 0.0 341,346.5 37,548.1 234.4 0.131 54.1 35.6 251.0 6,410 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 4 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 09:35 Through 05/16/2023 09:55 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 10:13 0.0 0.0 0.0 16,178.9 1,779.7 10.7 0.006 2.6 1.8 12.0 304 10:14 0.0 0.0 0.0 16,181.7 1,780.0 10.7 0.006 2.6 1.7 12.0 304 10:15 0.0 0.0 0.0 16,180.9 1,779.9 10.7 0.006 2.6 1.7 12.0 304 10:16 0.0 0.0 0.0 16,175.2 1,779.3 10.7 0.006 2.5 1.7 12.0 304 10:17 0.0 0.0 0.0 16,180.2 1,779.8 12.5 0.007 2.7 1.8 12.0 304 10:18 0.0 0.0 0.0 16,179.3 1,779.7 10.7 0.006 2.6 1.7 12.0 304 10:19 0.0 0.0 0.0 16,180.0 1,779.8 10.7 0.006 2.5 1.7 12.0 304 10:20 0.0 0.0 0.0 16,183.3 1,780.2 10.7 0.006 2.5 1.7 12.0 304 10:21 0.0 0.0 0.0 16,185.6 1,780.4 10.7 0.006 2.4 1.6 12.0 304 10:22 0.0 0.0 0.0 16,182.9 1,780.1 10.7 0.006 2.5 1.7 12.0 304 10:23 0.0 0.0 0.0 16,187.2 1,780.6 10.7 0.006 2.6 1.7 12.0 304 10:24 0.0 0.0 0.0 16,184.0 1,780.2 10.7 0.006 2.5 1.7 12.0 304 10:25 0.0 0.0 0.0 16,181.5 1,780.0 10.7 0.006 2.5 1.7 12.0 304 10:26 0.0 0.0 0.0 16,193.5 1,781.3 10.7 0.006 2.5 1.7 12.0 304 10:27 0.0 0.0 0.0 16,198.5 1,781.8 10.7 0.006 2.6 1.7 12.0 304 10:28 0.0 0.0 0.0 16,189.6 1,780.9 10.7 0.006 2.6 1.7 12.0 304 10:29 0.0 0.0 0.0 16,193.6 1,781.3 10.7 0.006 2.6 1.7 12.0 304 10:30 0.0 0.0 0.0 16,199.8 1,782.0 10.7 0.006 2.5 1.7 12.0 304 10:31 0.0 0.0 0.0 16,200.2 1,782.0 10.7 0.006 2.6 1.7 12.0 304 10:32 0.0 0.0 0.0 16,192.8 1,781.2 12.5 0.007 2.7 1.8 12.0 304 10:33 0.0 0.0 0.0 16,195.8 1,781.5 12.5 0.007 2.7 1.8 12.0 304 0.0 0.0 0.0 16,186.9 1,780.6 11.0 0.006 2.6 1.7 12.0 304 0.0 0.0 0.0 16,175.2 1,779.3 10.7 0.006 2.4 1.6 12.0 304 0.0 0.0 0.0 16,200.2 1,782.0 12.5 0.007 2.7 1.8 12.0 304 0.0 0.0 0.0 339,924.5 37,391.7 230.1 0.129 53.9 36.0 252.0 6,384 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 5 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 10:13 Through 05/16/2023 10:33 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 10:51 0.0 0.0 0.0 16,197.1 1,781.7 12.5 0.007 2.7 1.8 12.0 304 10:52 0.0 0.0 0.0 16,198.8 1,781.9 12.5 0.007 2.8 1.8 12.0 304 10:53 0.0 0.0 0.0 16,194.0 1,781.3 10.7 0.006 2.6 1.7 12.0 304 10:54 0.0 0.0 0.0 16,185.0 1,780.4 10.7 0.006 2.5 1.7 12.0 304 10:55 0.0 0.0 0.0 16,190.6 1,781.0 10.7 0.006 2.5 1.7 12.0 304 10:56 0.0 0.0 0.0 16,191.8 1,781.1 10.7 0.006 2.4 1.6 12.0 304 10:57 0.0 0.0 0.0 16,197.5 1,781.7 10.7 0.006 2.5 1.7 12.0 304 10:58 0.0 0.0 0.0 16,188.3 1,780.7 10.7 0.006 2.6 1.7 12.0 304 10:59 0.0 0.0 0.0 16,198.6 1,781.8 10.7 0.006 2.6 1.7 12.0 304 11:00 0.0 0.0 0.0 16,194.7 1,781.4 10.7 0.006 2.6 1.7 12.0 304 11:01 0.0 0.0 0.0 16,194.2 1,781.4 10.7 0.006 2.5 1.7 12.0 304 11:02 0.0 0.0 0.0 16,197.9 1,781.8 10.7 0.006 2.6 1.7 12.0 304 11:03 0.0 0.0 0.0 16,192.0 1,781.1 12.5 0.007 2.7 1.8 12.0 304 11:04 0.0 0.0 0.0 16,185.3 1,780.4 10.7 0.006 2.5 1.7 12.0 304 11:05 0.0 0.0 0.0 16,182.0 1,780.0 10.7 0.006 2.5 1.6 12.0 304 11:06 0.0 0.0 0.0 16,180.1 1,779.8 10.7 0.006 2.5 1.7 12.0 304 11:07 0.0 0.0 0.0 16,183.4 1,780.2 10.7 0.006 2.6 1.7 12.0 304 11:08 0.0 0.0 0.0 16,187.2 1,780.6 12.5 0.007 2.7 1.8 12.0 304 11:09 0.0 0.0 0.0 16,186.2 1,780.5 10.7 0.006 2.6 1.7 12.0 304 11:10 0.0 0.0 0.0 16,183.9 1,780.2 10.7 0.006 2.6 1.7 12.0 304 11:11 0.0 0.0 0.0 16,179.3 1,779.7 10.7 0.006 2.6 1.7 12.0 304 0.0 0.0 0.0 16,189.9 1,780.9 11.0 0.006 2.6 1.7 12.0 304 0.0 0.0 0.0 16,179.3 1,779.7 10.7 0.006 2.4 1.6 12.0 304 0.0 0.0 0.0 16,198.8 1,781.9 12.5 0.007 2.8 1.8 12.0 304 0.0 0.0 0.0 339,987.9 37,398.7 231.9 0.130 54.2 35.9 252.0 6,384 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 6 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 10:51 Through 05/16/2023 11:11 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 11:28 0.0 0.0 0.0 16,194.4 1,781.4 10.7 0.006 2.6 1.7 12.0 304 11:29 0.0 0.0 0.0 16,190.9 1,781.0 10.7 0.006 2.6 1.7 12.0 304 11:30 0.0 0.0 0.0 16,193.5 1,781.3 10.7 0.006 2.6 1.7 12.0 304 11:31 0.0 0.0 0.0 16,192.3 1,781.2 10.7 0.006 2.5 1.7 12.0 304 11:32 0.0 0.0 0.0 16,196.1 1,781.6 10.7 0.006 2.6 1.7 12.0 304 11:33 0.0 0.0 0.0 16,209.1 1,783.0 10.7 0.006 2.6 1.7 11.9 304 11:34 0.0 0.0 0.0 16,211.7 1,783.3 10.7 0.006 2.5 1.7 12.0 304 11:35 0.0 0.0 0.0 16,213.1 1,783.4 10.7 0.006 2.6 1.7 12.0 304 11:36 0.0 0.0 0.0 16,206.7 1,782.7 10.7 0.006 2.5 1.7 12.0 304 11:37 0.0 0.0 0.0 16,213.9 1,783.5 10.7 0.006 2.5 1.7 12.0 304 11:38 0.0 0.0 0.0 16,219.9 1,784.2 12.5 0.007 2.7 1.8 11.9 304 11:39 0.0 0.0 0.0 16,227.1 1,785.0 10.7 0.006 2.6 1.7 11.9 304 11:40 0.0 0.0 0.0 16,223.7 1,784.6 12.5 0.007 2.7 1.8 12.0 304 11:41 0.0 0.0 0.0 16,210.2 1,783.1 10.7 0.006 2.6 1.7 12.0 304 11:42 0.0 0.0 0.0 16,222.4 1,784.5 10.7 0.006 2.5 1.6 11.9 305 11:43 0.0 0.0 0.0 16,230.3 1,785.3 10.7 0.006 2.6 1.7 11.9 305 11:44 0.0 0.0 0.0 16,228.6 1,785.1 12.5 0.007 2.7 1.8 12.0 305 11:45 0.0 0.0 0.0 16,241.2 1,786.5 12.5 0.007 2.7 1.8 11.9 305 11:46 0.0 0.0 0.0 16,241.4 1,786.6 10.7 0.006 2.5 1.7 12.0 305 11:47 0.0 0.0 0.0 16,239.4 1,786.3 10.7 0.006 2.4 1.6 11.9 305 11:48 0.0 0.0 0.0 16,237.3 1,786.1 10.7 0.006 2.4 1.6 11.9 305 0.0 0.0 0.0 16,216.3 1,783.8 11.0 0.006 2.6 1.7 12.0 304 0.0 0.0 0.0 16,190.9 1,781.0 10.7 0.006 2.4 1.6 11.9 304 0.0 0.0 0.0 16,241.4 1,786.6 12.5 0.007 2.7 1.8 12.0 305 0.0 0.0 0.0 340,543.2 37,459.7 231.9 0.130 54.0 35.8 251.2 6,391 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 7 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 11:28 Through 05/16/2023 11:48 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 12:03 0.0 0.0 0.0 16,235.0 1,785.9 10.7 0.006 2.6 1.7 11.9 305 12:04 0.0 0.0 0.0 16,234.6 1,785.8 10.7 0.006 2.6 1.7 11.9 305 12:05 0.0 0.0 0.0 16,236.9 1,786.1 10.7 0.006 2.6 1.7 12.0 305 12:06 0.0 0.0 0.0 16,233.0 1,785.6 10.7 0.006 2.5 1.6 11.9 305 12:07 0.0 0.0 0.0 16,237.1 1,786.1 10.7 0.006 2.5 1.7 11.9 305 12:08 0.0 0.0 0.0 16,235.7 1,785.9 10.7 0.006 2.6 1.7 11.9 305 12:09 0.0 0.0 0.0 16,234.4 1,785.8 12.5 0.007 2.7 1.8 11.9 305 12:10 0.0 0.0 0.0 16,235.5 1,785.9 12.5 0.007 2.7 1.8 11.9 305 12:11 0.0 0.0 0.0 16,229.8 1,785.3 10.7 0.006 2.6 1.7 11.9 305 12:12 0.0 0.0 0.0 16,236.3 1,786.0 10.7 0.006 2.6 1.7 11.9 304 12:13 0.0 0.0 0.0 16,234.6 1,785.8 10.7 0.006 2.6 1.7 11.9 305 12:14 0.0 0.0 0.0 16,235.7 1,785.9 10.7 0.006 2.5 1.7 11.9 305 12:15 0.0 0.0 0.0 16,235.5 1,785.9 10.7 0.006 2.5 1.7 11.9 305 12:16 0.0 0.0 0.0 16,234.9 1,785.8 10.7 0.006 2.6 1.7 11.9 305 12:17 0.0 0.0 0.0 16,236.9 1,786.1 12.5 0.007 2.7 1.8 11.9 305 12:18 0.0 0.0 0.0 16,234.0 1,785.7 10.7 0.006 2.6 1.7 11.9 305 12:19 0.0 0.0 0.0 16,232.7 1,785.6 10.7 0.006 2.6 1.7 11.9 305 12:20 0.0 0.0 0.0 16,238.4 1,786.2 10.7 0.006 2.6 1.7 11.9 305 12:21 0.0 0.0 0.0 16,229.2 1,785.2 10.7 0.006 2.5 1.7 11.9 305 12:22 0.0 0.0 0.0 16,238.3 1,786.2 10.7 0.006 2.5 1.7 12.0 305 12:23 0.0 0.0 0.0 16,235.8 1,785.9 10.7 0.006 2.5 1.6 11.9 305 0.0 0.0 0.0 16,235.0 1,785.8 11.0 0.006 2.6 1.7 11.9 305 0.0 0.0 0.0 16,229.2 1,785.2 10.7 0.006 2.5 1.6 11.9 304 0.0 0.0 0.0 16,238.4 1,786.2 12.5 0.007 2.7 1.8 12.0 305 0.0 0.0 0.0 340,934.3 37,502.7 230.1 0.129 54.2 35.8 250.1 6,404 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 8 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 12:03 Through 05/16/2023 12:23 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI 12:41 0.0 0.0 0.0 16,241.3 1,786.5 10.7 0.006 2.6 1.7 11.9 305 12:42 0.0 0.0 0.0 16,252.5 1,787.8 10.7 0.006 2.5 1.7 11.9 305 12:43 0.0 0.0 0.0 16,249.1 1,787.4 12.5 0.007 2.7 1.8 11.9 305 12:44 0.0 0.0 0.0 16,252.2 1,787.7 12.5 0.007 2.7 1.8 11.9 305 12:45 0.0 0.0 0.0 16,257.5 1,788.3 12.5 0.007 2.7 1.8 11.9 305 12:46 0.0 0.0 0.0 16,255.2 1,788.1 10.7 0.006 2.5 1.7 11.9 305 12:47 0.0 0.0 0.0 16,250.1 1,787.5 10.7 0.006 2.5 1.7 11.9 305 12:48 0.0 0.0 0.0 16,246.1 1,787.1 10.7 0.006 2.6 1.7 11.9 305 12:49 0.0 0.0 0.0 16,244.5 1,786.9 10.7 0.006 2.6 1.7 12.0 305 12:50 0.0 0.0 0.0 16,253.4 1,787.9 10.7 0.006 2.5 1.7 11.9 305 12:51 0.0 0.0 0.0 16,254.9 1,788.0 10.7 0.006 2.5 1.7 11.9 305 12:52 0.0 0.0 0.0 16,247.8 1,787.3 12.5 0.007 2.8 1.8 11.9 305 12:53 0.0 0.0 0.0 16,249.8 1,787.5 10.7 0.006 2.6 1.7 11.9 305 12:54 0.0 0.0 0.0 16,245.6 1,787.0 10.7 0.006 2.4 1.6 11.9 305 12:55 0.0 0.0 0.0 16,246.6 1,787.1 10.7 0.006 2.5 1.6 11.9 305 12:56 0.0 0.0 0.0 16,247.6 1,787.2 10.7 0.006 2.6 1.7 11.9 305 12:57 0.0 0.0 0.0 16,256.1 1,788.2 10.7 0.006 2.5 1.7 11.9 305 12:58 0.0 0.0 0.0 16,249.3 1,787.4 10.7 0.006 2.6 1.7 11.9 305 12:59 0.0 0.0 0.0 16,250.2 1,787.5 12.5 0.007 2.7 1.7 11.9 305 13:00 0.0 0.0 0.0 16,256.0 1,788.2 10.7 0.006 2.5 1.6 11.9 305 13:01 0.0 0.0 0.0 16,250.2 1,787.5 10.7 0.006 2.6 1.7 11.9 305 0.0 0.0 0.0 16,250.3 1,787.5 11.1 0.006 2.6 1.7 11.9 305 0.0 0.0 0.0 16,241.3 1,786.5 10.7 0.006 2.4 1.6 11.9 305 0.0 0.0 0.0 16,257.5 1,788.3 12.5 0.007 2.8 1.8 12.0 305 0.0 0.0 0.0 341,256.0 37,538.1 233.7 0.131 54.2 35.8 250.0 6,405 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 05/16/23 Source UNIT3 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 9 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/16/2023 12:41 Through 05/16/2023 13:01 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/16/23 *3$6573DJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix B.4 Unit CT22 GP043AS-023429-RT-1331 Page 144 of 261 07:24 0.7 0.2 0.1 20,383.4 2,242.2 13.5 0.006 2.5 1.7 12.2 308 07:25 0.7 0.2 0.1 20,379.4 2,241.7 13.5 0.006 2.5 1.7 12.2 308 07:26 0.6 0.2 0.1 20,374.0 2,241.1 13.4 0.006 2.5 1.7 12.2 308 07:27 0.7 0.2 0.1 20,376.9 2,241.5 13.4 0.006 2.5 1.7 12.2 308 07:28 0.6 0.2 0.1 20,375.3 2,241.3 13.4 0.006 2.5 1.7 12.2 308 07:29 0.6 0.2 0.1 20,374.4 2,241.2 13.4 0.006 2.6 1.7 12.2 308 07:30 0.6 0.2 0.1 20,409.6 2,245.1 13.5 0.006 2.6 1.7 12.2 308 07:31 0.7 0.2 0.1 20,457.1 2,250.3 13.5 0.006 2.4 1.6 12.2 309 07:32 0.6 0.2 0.1 20,479.0 2,252.7 13.5 0.006 2.4 1.6 12.1 310 07:33 0.7 0.2 0.1 20,484.7 2,253.3 13.5 0.006 2.5 1.7 12.2 310 07:34 0.7 0.2 0.1 20,483.9 2,253.2 15.8 0.007 2.7 1.8 12.2 309 07:35 0.6 0.2 0.1 20,486.5 2,253.5 13.5 0.006 2.6 1.7 12.1 310 07:36 0.7 0.2 0.1 20,491.7 2,254.1 11.3 0.005 1.9 1.3 12.2 310 07:37 0.7 0.2 0.1 20,476.4 2,252.4 9.0 0.004 1.6 1.1 12.1 309 07:38 0.7 0.2 0.1 20,472.5 2,252.0 11.3 0.005 1.9 1.3 12.2 309 07:39 0.7 0.2 0.1 20,462.7 2,250.9 13.5 0.006 2.4 1.6 12.1 309 07:40 0.6 0.2 0.1 20,467.6 2,251.4 15.8 0.007 2.8 1.9 12.2 309 07:41 0.7 0.2 0.1 20,440.3 2,248.4 15.7 0.007 2.9 2.0 12.2 309 07:42 0.6 0.2 0.1 20,432.4 2,247.6 15.7 0.007 2.8 1.9 12.1 309 07:43 0.7 0.2 0.1 20,458.9 2,250.5 13.5 0.006 2.5 1.7 12.1 309 07:44 0.7 0.2 0.1 20,454.4 2,250.0 13.5 0.006 2.3 1.5 12.1 309 0.7 0.2 0.1 20,439.1 2,248.3 13.5 0.006 2.4 1.6 12.2 309 0.6 0.2 0.1 20,374.0 2,241.1 9.0 0.004 1.6 1.1 12.1 308 0.7 0.2 0.1 20,491.7 2,254.1 15.8 0.007 2.9 2.0 12.2 310 13.9 4.2 2.1 429,221.1 47,214.4 283.2 0.126 51.4 34.6 255.5 6,486 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 1 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 07:24 Through 05/17/2023 07:44 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 07:59 0.7 0.2 0.1 20,452.6 2,249.8 13.5 0.006 2.6 1.8 12.1 309 08:00 0.7 0.2 0.1 20,446.6 2,249.1 11.2 0.005 2.1 1.4 12.1 309 08:01 0.8 0.2 0.2 20,438.3 2,248.2 9.0 0.004 1.6 1.1 12.1 309 08:02 0.8 0.2 0.1 20,462.7 2,250.9 11.3 0.005 2.0 1.3 12.1 309 08:03 0.7 0.2 0.1 20,458.3 2,250.4 11.3 0.005 1.9 1.3 12.2 309 08:04 0.7 0.2 0.1 20,459.6 2,250.6 9.0 0.004 1.7 1.2 12.2 309 08:05 0.7 0.2 0.1 20,452.8 2,249.8 11.2 0.005 2.2 1.5 12.1 309 08:06 0.7 0.2 0.1 20,460.2 2,250.6 15.8 0.007 2.7 1.8 12.1 309 08:07 0.6 0.2 0.1 20,458.4 2,250.4 18.0 0.008 3.3 2.2 12.2 309 08:08 0.6 0.2 0.1 20,457.6 2,250.3 15.8 0.007 2.7 1.8 12.1 309 08:09 0.7 0.2 0.1 20,457.3 2,250.3 9.0 0.004 1.8 1.2 12.1 309 08:10 0.7 0.2 0.1 20,451.0 2,249.6 9.0 0.004 1.8 1.2 12.1 309 08:11 0.7 0.2 0.1 20,451.7 2,249.7 13.5 0.006 2.3 1.6 12.1 309 08:12 0.7 0.2 0.1 20,441.7 2,248.6 15.7 0.007 2.9 2.0 12.2 309 08:13 0.7 0.2 0.1 20,439.2 2,248.3 15.7 0.007 3.0 2.0 12.1 309 08:14 0.7 0.2 0.1 20,437.8 2,248.2 15.7 0.007 2.8 1.9 12.1 308 08:15 0.7 0.2 0.1 20,436.1 2,248.0 13.5 0.006 2.6 1.8 12.1 308 08:16 0.7 0.2 0.1 20,442.5 2,248.7 13.5 0.006 2.5 1.7 12.1 309 08:17 0.8 0.2 0.1 20,449.3 2,249.4 13.5 0.006 2.5 1.7 12.1 309 08:18 0.7 0.2 0.1 20,447.1 2,249.2 13.5 0.006 2.6 1.7 12.1 309 08:19 0.7 0.2 0.1 20,439.5 2,248.3 13.5 0.006 2.6 1.7 12.1 309 0.7 0.2 0.1 20,449.5 2,249.4 13.0 0.006 2.4 1.6 12.1 309 0.6 0.2 0.1 20,436.1 2,248.0 9.0 0.004 1.6 1.1 12.1 308 0.8 0.2 0.2 20,462.7 2,250.9 18.0 0.008 3.3 2.2 12.2 309 14.8 4.2 2.2 429,440.3 47,238.4 272.2 0.121 50.2 33.9 254.5 6,487 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 2 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 07:59 Through 05/17/2023 08:19 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 08:45 0.7 0.2 0.1 20,396.5 2,243.6 13.5 0.006 2.6 1.7 12.1 308 08:46 0.7 0.2 0.1 20,389.0 2,242.8 13.5 0.006 2.5 1.7 12.1 308 08:47 0.7 0.2 0.1 20,383.2 2,242.2 13.5 0.006 2.5 1.7 12.1 308 08:48 0.7 0.2 0.1 20,374.9 2,241.2 13.4 0.006 2.5 1.7 12.1 307 08:49 0.8 0.2 0.1 20,369.0 2,240.6 13.4 0.006 2.4 1.6 12.1 307 08:50 0.7 0.2 0.1 20,346.9 2,238.2 13.4 0.006 2.5 1.7 12.1 307 08:51 0.7 0.2 0.1 20,347.4 2,238.2 13.4 0.006 2.5 1.7 12.1 307 08:52 0.7 0.2 0.1 20,351.2 2,238.6 13.4 0.006 2.5 1.7 12.1 307 08:53 0.7 0.2 0.1 20,359.5 2,239.5 13.4 0.006 2.5 1.7 12.2 307 08:54 0.7 0.2 0.1 20,361.5 2,239.8 13.4 0.006 2.5 1.7 12.1 307 08:55 0.8 0.2 0.2 20,363.8 2,240.0 13.4 0.006 2.6 1.7 12.1 307 08:56 0.7 0.2 0.1 20,376.4 2,241.4 13.4 0.006 2.5 1.7 12.1 308 08:57 0.7 0.2 0.1 20,377.9 2,241.6 13.4 0.006 2.6 1.7 12.1 307 08:58 0.6 0.2 0.1 20,359.9 2,239.6 13.4 0.006 2.5 1.7 12.1 307 08:59 0.7 0.2 0.1 20,350.3 2,238.5 13.4 0.006 2.5 1.7 12.1 307 09:00 0.7 0.2 0.1 20,361.1 2,239.7 13.4 0.006 2.5 1.7 12.2 307 09:01 0.7 0.2 0.1 20,361.2 2,239.7 13.4 0.006 2.5 1.7 12.1 307 09:02 0.7 0.2 0.1 20,361.9 2,239.8 13.4 0.006 2.5 1.7 12.1 307 09:03 0.7 0.2 0.1 20,365.2 2,240.2 13.4 0.006 2.5 1.7 12.1 307 09:04 0.8 0.2 0.2 20,359.5 2,239.5 13.4 0.006 2.5 1.7 12.2 307 09:05 0.7 0.2 0.1 20,366.6 2,240.3 13.4 0.006 2.5 1.7 12.2 307 0.7 0.2 0.1 20,365.9 2,240.2 13.4 0.006 2.5 1.7 12.1 307 0.6 0.2 0.1 20,346.9 2,238.2 13.4 0.006 2.4 1.6 12.1 307 0.8 0.2 0.2 20,396.5 2,243.6 13.5 0.006 2.6 1.7 12.2 308 14.9 4.2 2.3 427,682.9 47,045.0 281.7 0.126 52.7 35.6 254.5 6,451 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 3 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 08:45 Through 05/17/2023 09:05 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 09:25 0.7 0.2 0.1 20,377.8 2,241.6 13.4 0.006 2.6 1.7 12.1 307 09:26 0.7 0.2 0.1 20,370.3 2,240.7 13.4 0.006 2.6 1.8 12.1 307 09:27 0.7 0.2 0.1 20,369.8 2,240.7 13.4 0.006 2.5 1.7 12.1 307 09:28 0.7 0.2 0.1 20,368.9 2,240.6 13.4 0.006 2.5 1.7 12.1 307 09:29 0.7 0.2 0.1 20,381.1 2,241.9 13.5 0.006 2.5 1.7 12.1 307 09:30 0.8 0.2 0.2 20,386.6 2,242.5 13.5 0.006 2.5 1.7 12.1 307 09:31 0.7 0.2 0.1 20,378.3 2,241.6 13.4 0.006 2.6 1.7 12.1 307 09:32 0.7 0.2 0.1 20,370.2 2,240.7 13.4 0.006 2.6 1.7 12.1 307 09:33 0.7 0.2 0.1 20,370.4 2,240.7 13.4 0.006 2.5 1.7 12.1 307 09:34 0.7 0.2 0.1 20,392.5 2,243.2 13.5 0.006 2.5 1.7 12.1 308 09:35 0.7 0.2 0.1 20,394.8 2,243.4 13.5 0.006 2.6 1.7 12.1 308 09:36 0.7 0.2 0.1 20,388.4 2,242.7 13.5 0.006 2.6 1.7 12.1 307 09:37 0.8 0.2 0.1 20,385.7 2,242.4 13.5 0.006 2.5 1.7 12.1 307 09:38 0.7 0.2 0.1 20,393.1 2,243.2 13.5 0.006 2.4 1.6 12.1 308 09:39 0.7 0.2 0.1 20,393.4 2,243.3 13.5 0.006 2.5 1.7 12.1 307 09:40 0.7 0.2 0.1 20,385.3 2,242.4 13.5 0.006 2.6 1.7 12.1 307 09:41 0.8 0.2 0.2 20,363.8 2,240.0 13.4 0.006 2.6 1.7 12.1 307 09:42 0.8 0.2 0.2 20,363.4 2,240.0 13.4 0.006 2.5 1.7 12.1 307 09:43 0.7 0.2 0.1 20,376.5 2,241.4 13.4 0.006 2.5 1.7 12.1 307 09:44 0.7 0.2 0.1 20,392.8 2,243.2 11.2 0.005 2.0 1.4 12.1 307 09:45 0.8 0.2 0.2 20,371.1 2,240.8 9.0 0.004 1.6 1.1 12.1 307 0.7 0.2 0.1 20,379.7 2,241.8 13.1 0.006 2.5 1.7 12.1 307 0.7 0.2 0.1 20,363.4 2,240.0 9.0 0.004 1.6 1.1 12.1 307 0.8 0.2 0.2 20,394.8 2,243.4 13.5 0.006 2.6 1.8 12.1 308 15.2 4.2 2.5 427,974.2 47,077.0 275.7 0.123 51.8 34.8 254.1 6,450 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 4 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 09:25 Through 05/17/2023 09:45 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 10:02 0.7 0.2 0.1 20,365.2 2,240.2 13.4 0.006 2.6 1.7 12.1 307 10:03 0.7 0.2 0.1 20,372.8 2,241.0 13.4 0.006 2.6 1.7 12.1 307 10:04 0.7 0.2 0.1 20,383.2 2,242.2 13.5 0.006 2.4 1.6 12.1 308 10:05 0.8 0.2 0.2 20,371.5 2,240.9 13.4 0.006 2.5 1.7 12.1 307 10:06 0.7 0.2 0.1 20,371.9 2,240.9 13.4 0.006 2.6 1.7 12.2 307 10:07 0.7 0.2 0.1 20,374.1 2,241.2 13.4 0.006 2.5 1.7 12.1 307 10:08 0.8 0.2 0.2 20,374.8 2,241.2 13.4 0.006 2.4 1.6 12.1 307 10:09 0.7 0.2 0.1 20,369.6 2,240.7 13.4 0.006 2.5 1.7 12.2 307 10:10 0.7 0.2 0.1 20,371.7 2,240.9 13.4 0.006 2.5 1.7 12.1 307 10:11 0.7 0.2 0.1 20,368.8 2,240.6 13.4 0.006 2.5 1.7 12.1 307 10:12 0.8 0.2 0.2 20,360.7 2,239.7 13.4 0.006 2.5 1.7 12.1 307 10:13 0.7 0.2 0.1 20,365.9 2,240.2 13.4 0.006 2.5 1.7 12.1 307 10:14 0.7 0.2 0.1 20,364.4 2,240.1 13.4 0.006 2.5 1.7 12.1 307 10:15 0.7 0.2 0.1 20,364.4 2,240.1 13.4 0.006 2.5 1.7 12.1 307 10:16 0.8 0.2 0.1 20,363.4 2,240.0 13.4 0.006 2.6 1.7 12.1 307 10:17 0.7 0.2 0.1 20,363.3 2,240.0 13.4 0.006 2.5 1.7 12.1 307 10:18 0.7 0.2 0.1 20,368.3 2,240.5 13.4 0.006 2.5 1.7 12.1 307 10:19 0.7 0.2 0.1 20,362.5 2,239.9 13.4 0.006 2.5 1.7 12.1 307 10:20 0.7 0.2 0.1 20,352.4 2,238.8 13.4 0.006 2.6 1.7 12.1 307 10:21 0.7 0.2 0.1 20,360.1 2,239.6 13.4 0.006 2.6 1.7 12.1 307 10:22 0.7 0.2 0.1 20,357.0 2,239.3 13.4 0.006 2.5 1.7 12.1 307 0.7 0.2 0.1 20,367.0 2,240.4 13.4 0.006 2.5 1.7 12.1 307 0.7 0.2 0.1 20,352.4 2,238.8 13.4 0.006 2.4 1.6 12.1 307 0.8 0.2 0.2 20,383.2 2,242.2 13.5 0.006 2.6 1.7 12.2 308 15.1 4.2 2.4 427,706.0 47,048.0 281.5 0.126 52.9 35.5 254.3 6,448 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 5 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 10:02 Through 05/17/2023 10:22 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 10:40 0.7 0.2 0.1 20,340.9 2,237.5 13.4 0.006 2.5 1.7 12.1 307 10:41 0.7 0.2 0.1 20,346.5 2,238.1 13.4 0.006 2.4 1.6 12.1 307 10:42 0.7 0.2 0.1 20,345.1 2,238.0 13.4 0.006 2.4 1.6 12.1 307 10:43 0.8 0.2 0.2 20,351.7 2,238.7 15.7 0.007 2.7 1.8 12.1 307 10:44 0.7 0.2 0.1 20,354.9 2,239.0 13.4 0.006 2.3 1.5 12.1 307 10:45 0.7 0.2 0.1 20,345.3 2,238.0 9.0 0.004 1.6 1.1 12.1 307 10:46 0.7 0.2 0.1 20,342.2 2,237.6 9.0 0.004 1.8 1.2 12.1 307 10:47 0.7 0.2 0.1 20,329.1 2,236.2 11.2 0.005 2.2 1.5 12.1 307 10:48 0.7 0.2 0.1 20,336.3 2,237.0 15.7 0.007 2.7 1.8 12.1 307 10:49 0.7 0.2 0.1 20,342.1 2,237.6 15.7 0.007 3.0 2.0 12.1 307 10:50 0.7 0.2 0.1 20,336.7 2,237.0 15.7 0.007 3.0 2.0 12.1 306 10:51 0.7 0.2 0.1 20,316.7 2,234.8 15.6 0.007 2.8 1.9 12.1 306 10:52 0.8 0.2 0.2 20,324.5 2,235.7 13.4 0.006 2.6 1.8 12.1 306 10:53 0.8 0.2 0.2 20,335.3 2,236.9 13.4 0.006 2.5 1.7 12.1 306 10:54 0.7 0.2 0.1 20,330.1 2,236.3 11.2 0.005 1.9 1.3 12.1 306 10:55 0.7 0.2 0.1 20,325.8 2,235.8 8.9 0.004 1.6 1.1 12.1 306 10:56 0.8 0.2 0.2 20,328.1 2,236.1 11.2 0.005 2.0 1.3 12.1 306 10:57 0.7 0.2 0.1 20,338.7 2,237.3 13.4 0.006 2.5 1.7 12.2 307 10:58 0.7 0.2 0.1 20,352.3 2,238.8 15.7 0.007 2.8 1.9 12.1 307 10:59 0.7 0.2 0.1 20,330.0 2,236.3 15.7 0.007 2.8 1.9 12.1 307 11:00 0.7 0.2 0.1 20,325.4 2,235.8 15.7 0.007 2.8 1.9 12.1 306 0.7 0.2 0.1 20,337.0 2,237.1 13.3 0.006 2.4 1.6 12.1 307 0.7 0.2 0.1 20,316.7 2,234.8 8.9 0.004 1.6 1.1 12.1 306 0.8 0.2 0.2 20,354.9 2,239.0 15.7 0.007 3.0 2.0 12.2 307 15.1 4.2 2.5 427,077.7 46,978.5 279.8 0.125 50.9 34.3 254.2 6,439 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 6 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 10:40 Through 05/17/2023 11:00 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 11:15 0.7 0.2 0.1 20,320.3 2,235.2 13.4 0.006 2.5 1.7 12.1 306 11:16 0.7 0.2 0.1 20,324.6 2,235.7 13.4 0.006 2.5 1.7 12.1 306 11:17 0.8 0.2 0.2 20,319.2 2,235.1 13.4 0.006 2.4 1.6 12.1 306 11:18 0.7 0.2 0.1 20,295.7 2,232.5 13.4 0.006 2.6 1.7 12.1 306 11:19 0.7 0.2 0.1 20,305.1 2,233.6 13.4 0.006 2.5 1.7 12.1 306 11:20 0.7 0.2 0.1 20,318.7 2,235.1 13.4 0.006 2.4 1.6 12.1 306 11:21 0.7 0.2 0.1 20,326.9 2,236.0 13.4 0.006 2.5 1.7 12.1 306 11:22 0.7 0.2 0.1 20,319.1 2,235.1 13.4 0.006 2.6 1.7 12.1 306 11:23 0.7 0.2 0.1 20,319.2 2,235.1 13.4 0.006 2.5 1.7 12.1 306 11:24 0.7 0.2 0.1 20,319.5 2,235.1 13.4 0.006 2.5 1.7 12.1 306 11:25 0.7 0.2 0.1 20,320.0 2,235.2 13.4 0.006 2.5 1.7 12.2 306 11:26 0.7 0.2 0.1 20,325.9 2,235.8 13.4 0.006 2.5 1.7 12.1 306 11:27 0.7 0.2 0.1 20,319.2 2,235.1 13.4 0.006 2.5 1.7 12.1 306 11:28 0.7 0.2 0.1 20,312.9 2,234.4 13.4 0.006 2.6 1.7 12.1 306 11:29 0.8 0.2 0.2 20,311.7 2,234.3 13.4 0.006 2.5 1.7 12.1 306 11:30 0.8 0.2 0.2 20,310.3 2,234.1 13.4 0.006 2.5 1.7 12.1 306 11:31 0.7 0.2 0.1 20,300.0 2,233.0 13.4 0.006 2.5 1.7 12.1 306 11:32 0.7 0.2 0.1 20,320.3 2,235.2 13.4 0.006 2.5 1.7 12.2 306 11:33 0.7 0.2 0.1 20,322.9 2,235.5 13.4 0.006 2.5 1.7 12.1 306 11:34 0.7 0.2 0.1 20,293.7 2,232.3 13.4 0.006 2.5 1.7 12.1 306 11:35 0.7 0.2 0.1 20,290.1 2,231.9 13.4 0.006 2.6 1.7 12.1 306 0.7 0.2 0.1 20,314.1 2,234.5 13.4 0.006 2.5 1.7 12.1 306 0.7 0.2 0.1 20,290.1 2,231.9 13.4 0.006 2.4 1.6 12.1 306 0.8 0.2 0.2 20,326.9 2,236.0 13.4 0.006 2.6 1.7 12.2 306 15.0 4.2 2.4 426,595.3 46,925.3 281.4 0.126 52.7 35.5 254.3 6,426 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 7 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 11:15 Through 05/17/2023 11:35 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 11:50 0.7 0.2 0.1 20,184.7 2,220.3 13.3 0.006 2.4 1.6 12.1 304 11:51 0.7 0.2 0.2 20,200.3 2,222.0 13.3 0.006 2.4 1.6 12.2 304 11:52 0.7 0.2 0.1 20,214.0 2,223.5 13.3 0.006 2.4 1.6 12.1 304 11:53 0.7 0.2 0.1 20,199.4 2,221.9 13.3 0.006 2.6 1.7 12.1 304 11:54 0.7 0.2 0.1 20,183.3 2,220.2 13.3 0.006 2.6 1.8 12.1 304 11:55 0.7 0.2 0.1 20,212.0 2,223.3 13.3 0.006 2.5 1.7 12.1 305 11:56 0.7 0.2 0.1 20,254.2 2,228.0 13.4 0.006 2.4 1.6 12.2 305 11:57 0.7 0.2 0.1 20,270.1 2,229.7 13.4 0.006 2.6 1.7 12.1 305 11:58 0.7 0.2 0.1 20,243.0 2,226.7 15.6 0.007 2.7 1.8 12.1 305 11:59 0.6 0.2 0.1 20,237.7 2,226.1 13.4 0.006 2.6 1.8 12.1 305 12:00 0.7 0.2 0.1 20,227.1 2,225.0 13.4 0.006 2.5 1.7 12.1 305 12:01 0.7 0.2 0.1 20,229.7 2,225.3 13.4 0.006 2.4 1.6 12.1 304 12:02 0.7 0.2 0.1 20,212.6 2,223.4 13.3 0.006 2.5 1.7 12.1 304 12:03 0.7 0.2 0.1 20,210.4 2,223.1 13.3 0.006 2.5 1.7 12.1 304 12:04 0.7 0.2 0.1 20,213.5 2,223.5 13.3 0.006 2.5 1.7 12.1 304 12:05 0.7 0.2 0.1 20,252.1 2,227.7 13.4 0.006 2.6 1.7 12.2 305 12:06 0.7 0.2 0.1 20,253.3 2,227.9 13.4 0.006 2.6 1.7 12.1 305 12:07 0.7 0.2 0.1 20,235.1 2,225.9 13.4 0.006 2.5 1.7 12.1 305 12:08 0.7 0.2 0.1 20,231.4 2,225.5 13.4 0.006 2.5 1.7 12.1 305 12:09 0.7 0.2 0.1 20,239.5 2,226.3 13.4 0.006 2.4 1.6 12.2 305 12:10 0.7 0.2 0.1 20,231.9 2,225.5 13.4 0.006 2.5 1.7 12.1 305 0.7 0.2 0.1 20,225.5 2,224.8 13.5 0.006 2.5 1.7 12.1 305 0.6 0.2 0.1 20,183.3 2,220.2 13.3 0.006 2.4 1.6 12.1 304 0.7 0.2 0.2 20,270.1 2,229.7 15.6 0.007 2.7 1.8 12.2 305 14.6 4.2 2.2 424,735.3 46,720.8 282.7 0.127 52.7 35.4 254.5 6,396 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run 8 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 11:50 Through 05/17/2023 12:10 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI 12:24 0.7 0.2 0.1 20,184.3 2,220.3 13.3 0.006 2.6 1.7 12.1 304 12:25 0.7 0.2 0.1 20,184.4 2,220.3 13.3 0.006 2.6 1.7 12.1 304 12:26 0.7 0.2 0.1 20,175.3 2,219.3 13.3 0.006 2.5 1.7 12.1 304 12:27 0.7 0.2 0.1 20,174.8 2,219.2 13.3 0.006 2.5 1.7 12.1 303 12:28 0.7 0.2 0.1 20,147.6 2,216.2 13.3 0.006 2.5 1.7 12.1 303 12:29 0.7 0.2 0.1 20,148.9 2,216.4 13.3 0.006 2.6 1.7 12.1 303 12:30 0.7 0.2 0.1 20,150.5 2,216.6 13.3 0.006 2.5 1.7 12.1 303 12:31 0.7 0.2 0.1 20,153.5 2,216.9 13.3 0.006 2.5 1.7 12.1 303 12:32 0.7 0.2 0.1 20,151.6 2,216.7 13.3 0.006 2.6 1.7 12.1 303 12:33 0.7 0.2 0.1 20,156.0 2,217.2 13.3 0.006 2.6 1.7 12.1 303 12:34 0.7 0.2 0.1 20,150.4 2,216.5 13.3 0.006 2.5 1.7 12.1 303 12:35 0.7 0.2 0.1 20,141.1 2,215.5 13.3 0.006 2.5 1.7 12.1 303 12:36 0.7 0.2 0.1 20,137.5 2,215.1 13.3 0.006 2.5 1.7 12.1 303 12:37 0.7 0.2 0.1 20,152.9 2,216.8 13.3 0.006 2.5 1.7 12.1 303 12:38 0.7 0.2 0.1 20,155.8 2,217.1 13.3 0.006 2.5 1.7 12.1 303 12:39 0.7 0.2 0.1 20,118.2 2,213.0 15.5 0.007 2.7 1.8 12.1 302 12:40 0.7 0.2 0.1 20,104.1 2,211.5 13.3 0.006 2.6 1.7 12.1 302 12:41 0.6 0.2 0.1 20,129.3 2,214.2 13.3 0.006 2.4 1.6 12.1 303 12:42 0.7 0.2 0.1 20,148.6 2,216.3 13.3 0.006 2.5 1.7 12.1 303 12:43 0.7 0.2 0.1 20,156.5 2,217.2 13.3 0.006 2.6 1.8 12.1 303 12:44 0.6 0.2 0.1 20,155.3 2,217.1 13.3 0.006 2.6 1.7 12.1 303 0.7 0.2 0.1 20,151.3 2,216.6 13.4 0.006 2.5 1.7 12.1 303 0.6 0.2 0.1 20,104.1 2,211.5 13.3 0.006 2.4 1.6 12.1 302 0.7 0.2 0.1 20,184.4 2,220.3 15.5 0.007 2.7 1.8 12.1 304 14.5 4.2 2.1 423,176.6 46,549.4 281.5 0.127 53.4 35.8 254.1 6,364 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 Average Minimum Maximum Summation Included Data Points Total number of Data Points 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 05/17/23 Source UNIT4 Parameter Unit COLB/HR (LB/HR) COPPM (PPM) COPPMC (PPMC) GASFLOW (HSCFH) GHEAT (MMBTU/HR) NOXLB/HR (LB/HR) NOXLB/MM (LB/MMBTU) NOXPPM (PPM) NOXPPMC (PPMC) O2 (PERCENT) UNITLOAD (MW) Average Data - Run9 Plant: LAKE SIDE POWERInterval: 1 Minute Type: Block Report Period: 05/17/2023 12:24 Through 05/17/2023 12:44 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance C = Calibration S = Substituted M = Maintenance T = Out Of Control * = Suspect U = Startup Report Generated: 05/17/23 *3$6573DJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix C Laboratory Data GP043AS-023429-RT-1331 Page 154 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix C.1 Gravimetric Analysis GP043AS-023429-RT-1331 Page 155 of 261 Analytical Narrative Instrumentation Detection Limit / Sensitivity Notes Attachments Gravimetric Analysis Logs Sample Chain of Custody No deviations from the analytical procedures from EPA Methods 201A or 202 were noted. All samples were received in good condition. After analysis, all samples are archived for a period of one year. Glass fiber filters were dessicated and tared to a constant weight in the Montrose laboratory prior to sampling. Following testing, the filters were dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The acetone rinses were measured to the nearest milliliter, transferred to tared aluminum weighing dishes, taken to dryness under a fume hood, then weighed to a constant weight (±0.5 mg). Each result above represents total filterable particulate matter for each test run (acetone rinse + filter catch), with no blank correction performed unless otherwise indicated. All measurements were taken using a Torbal Model AGCN200 Analytical Balance under laboratory conditions. The instrument is auto‐calibrated and challanged with three NIST‐traceable reference weights daily. Analyst: PROJ‐023429 6/14/2023 T. Wojtach Lakeside Unit 11, Run #1 Lakeside Unit 11, Run #2 Lakeside Unit 11, Run #3 Sample ID Condensable Particulate Matter (mg) Teflon CPM filters were extracted in a sonicator three times with water and three times with hexane. The extraction water was added to the back‐half impinger contents and extracted with hexane three times in a separatory funnel. The inorganic fraction was transferred to a tared Teflon baggie, baked at 105C until 10 mL remained, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The organic fraction was combined with the acetone and hexane field rinses, measured to the nearest milliliter, transferred to a tared aluminum weighing dish, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). No blank correction was performed unless otherwise indicated. Sample ID Total PM10 (mg) EPA Method 201A/202 Gravimetric Analysis Report Project Code: Date Finalized: Laboratory Results Summary All measurements are recorded to 0.0001g (0.1mg). *No blank corrections were performed in accordance with EPA Method 201A. 5.8 1.9 10.7 Lakeside Unit 11, Run #1 0.1 Lakeside Unit 11, Run #2 0.2 Lakeside Unit 11, Run #3 0.0 *3$6E573MJH D RI Project Code: Unit ID: PM10+ Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.4042 6/5/23 6.3970 6/5/23 6.3486 Final Weight (g)6/5/23 6.4045 6/5/23 6.3968 6/5/23 6.3489 Tare Weight (g)5/12/23 6.4042 5/12/23 6.3969 5/12/23 6.3490 5/15/23 6.4045 5/15/23 6.3972 5/15/23 6.3486 PM10 Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.3846 6/5/23 6.3556 6/5/23 6.427 6/5/23 6.4011 Final Weight (g)6/5/23 6.3846 6/5/23 6.3555 6/5/23 6.427 6/5/23 6.4013 Tare Weight (g)5/12/23 6.3845 5/12/23 6.3555 5/12/23 6.4272 5/12/23 6.4012 5/15/23 6.3844 5/15/23 6.3554 5/15/23 6.4267 5/15/23 6.4013 PM10 Filter Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/2/23 0.1026 6/2/23 0.1075 6/2/23 0.1054 6/2/23 0.1075 Final Weight (g)6/5/23 0.1022 6/5/23 0.1077 6/5/23 0.1055 6/5/23 0.1078 Tare Weight (g)2/17/23 0.1074 2/17/23 0.1074 2/17/23 0.1057 2/17/23 0.1079 2/17/23 0.1071 2/17/23 0.1076 2/17/23 0.1062 2/17/23 0.1078 Total PM10+ Catch Total PM10 Catch Tare Weight (g) 0.0000 ‐0.0001 0.0000PM10+ Catch (g) 0.00000.0001 0.0002 Run #1 Run #2 Filter Catch (g) + Rinse Catch (g) ‐ Acetone Blank (g) Total PM10 (g) Run #3 Lakeside Unit 11 0.0000 0.0001 0.0000 0.0001 0.0000 0.0000 0.0000 25.6 26.8 139.6 32.1 21.1 42.7 25.2 16.6 33.5 0.0000 0.0001 147 ‐0.0002 Run #3 Filter #164 148 156 Tare Weight (g) Filter Catch (g)‐0.0049 0.0001 ‐0.0005 Run #1 Final Weight (g) Run #2 Run #3 EPA Method 201A Gravimetric Analysis Log PROJ‐023429 Run #1 Run #2 Run #3 Blank Run #1 Run #2 Run #3 Dish #8071 8070 8067 Rinse Volume (mL) Final Weight (g) 8073 Rinse Volume (mL)23.7 Run #1 Run #2 Blank Tare Weight (g) PM10 Catch (g) 0.0001 0.0001 0.0000 Dish #8072 8074 8069 Final Weight (g) 109.618.6 20.1 21 ‐0.0001 0.0000 0.0000 ‐0.0001 ‐0.0001 0.0000 0.0000 0.0000 Rinse Catch (g)0.0000 ‐ Acetone Blank (g)0.0000 *3$6E573MJH D RI Project Code: Unit ID: Back‐Half Organic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/8/23 6.3951 6/8/23 6.4081 6/8/23 6.4611 6/8/23 6.4068 Final Weight #2 (g)6/9/23 6.3946 6/9/23 6.408 6/9/23 6.4609 6/9/23 6.4068 5/8/23 6.3911 5/8/23 6.4043 5/5/23 6.4576 5/8/23 6.4053 5/9/23 6.3910 5/9/23 6.4040 5/8/23 6.4580 5/9/23 6.4051 Back‐Half Inorganic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/9/23 4.0448 6/9/23 4.1716 6/9/23 4.1753 6/13/23 4.146 Final Weight #2 (g)6/13/23 4.0451 6/13/23 4.1719 6/13/23 4.1758 6/13/23 4.1455 4/3/23 4.0408 4/3/23 4.1725 2/23/23 4.1660 4/3/23 4.1446 4/4/23 4.0411 4/4/23 4.1726 2/24/23 4.1662 4/4/23 4.1450 Condensable Particulate Catch Total CPM (g) 0.0058 0.0019 0.0107 + Inorganic CPM Catch (g)0.0040 0.0000 0.0095 ‐ CPM Blank (g)0.0020 0.0020 0.0020 Run #1 Run #2 Run #3 Organic CPM Catch (g)0.0038 0.0039 0.0032 1684 1687 1764 1686 0.0040 ‐0.0008 0.0095 0.0010 Final Weight #1 (g) Tare Weight #1 (g) Tare Weight #2 (g) Inorganic CPM Catch (g) Teflon Baggie # Run #1 Run #2 Run #3 Blank 0.0038 0.0039 0.0032 0.0016 Tare Weight #2 (g) Organic CPM Catch (g) Tare Weight #1 (g) Final Weight #1 (g) EPA Method 202 Gravimetric Analysis Log PROJ‐023429 Lakeside Unit 11 Run #1 Run #2 Run #3 Blank Tin #7993 7995 7986 7997 *3$6E573MJH D RI Analytical Narrative Instrumentation Detection Limit / Sensitivity Notes Attachments Gravimetric Analysis Logs Sample Chain of Custody EPA Method 201A/202 Gravimetric Analysis Report Project Code: Date Finalized: Laboratory Results Summary All measurements are recorded to 0.0001g (0.1mg). *No blank corrections were performed in accordance with EPA Method 201A. 3.6 3.7 3.7 *Blank corrections were performed in accordance with EPA Method 202. Lakeside Unit 12, Run #1 0.0 Lakeside Unit 12, Run #2 0.8 Lakeside Unit 12, Run #3 0.4 No deviations from the analytical procedures from EPA Methods 201A or 202 were noted. All samples were received in good condition. After analysis, all samples are archived for a period of one year. Quartz fiber filters were dessicated and tared to a constant weight in the Montrose laboratory prior to sampling. Following testing, the filters were dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The acetone rinses were measured to the nearest milliliter, transferred to tared aluminum weighing dishes, taken to dryness under a fume hood, then weighed to a constant weight (±0.5 mg). Each result above represents total filterable particulate matter for each test run (acetone rinse + filter catch), with no blank correction performed unless otherwise indicated. All measurements were taken using a Torbal Model AGCN200 Analytical Balance under laboratory conditions. The instrument is auto‐calibrated and challanged with three NIST‐traceable reference weights daily. Analyst: PROJ‐023429 6/14/2023 T. Wojtach Lakeside Unit 12, Run #1 Lakeside Unit 12, Run #2 Lakeside Unit 12, Run #3 Sample ID Condensable Particulate Matter (mg) Teflon CPM filters were extracted in a sonicator three times with water and three times with hexane. The extraction water was added to the back‐half impinger contents and extracted with hexane three times in a separatory funnel. The inorganic fraction was transferred to a tared Teflon baggie, baked at 105C until 10 mL remained, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The organic fraction was combined with the acetone and hexane field rinses, measured to the nearest milliliter, transferred to a tared aluminum weighing dish, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). No blank correction was performed unless otherwise indicated. Sample ID Total PM10 (mg) *3$6E573MJH DE RI Project Code: Unit ID: PM10+ Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.3267 6/5/23 6.3747 6/5/23 6.3586 Final Weight (g)6/5/23 6.3271 6/6/23 6.3743 6/5/23 6.3591 Tare Weight (g)5/12/23 6.3270 5/12/23 6.3740 5/12/23 6.3580 5/15/23 6.3266 5/15/23 6.3740 5/15/23 6.358 PM10 Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.295 6/5/23 6.335 6/5/23 6.3627 6/5/23 6.4011 Final Weight (g)6/5/23 6.2949 6/5/23 6.3354 6/5/23 6.3627 6/5/23 6.4013 Tare Weight (g)5/12/23 6.2951 5/12/23 6.3351 5/12/23 6.3628 5/12/23 6.4012 5/15/23 6.2955 5/15/23 6.3350 5/15/23 6.3626 5/15/23 6.4013 PM10 Filter Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/2/23 0.1078 6/2/23 0.1085 6/2/23 0.1066 6/2/23 0.1075 Final Weight (g)6/5/23 0.1079 6/5/23 0.1084 6/5/23 0.1069 6/5/23 0.1078 Tare Weight (g)2/17/23 0.1084 2/17/23 0.1077 2/17/23 0.1061 2/17/23 0.1079 2/17/23 0.1085 2/17/23 0.1079 2/17/23 0.1065 2/17/23 0.1078 Total PM10+ Catch Total PM10 Catch 0.0001 0.0000 0.0005 0.0005 0.0009 0.0000 0.0009 Rinse Catch (g)0.0001 ‐ Acetone Blank (g)0.0000 29.7 Run #1 Run #2 Blank Tare Weight (g) PM10 Catch (g)‐0.0003 0.0002 0.0000 Dish #8066 8061 8049 Final Weight (g) 109.623.3 27.4 27.6 ‐0.0001 Run #1 Final Weight (g) Run #2 Run #3 EPA Method 201A Gravimetric Analysis Log PROJ‐023429 Run #1 Run #2 Run #3 Blank Run #1 Run #2 Run #3 Dish #8062 8050 8046 Rinse Volume (mL) Final Weight (g) 8073 Rinse Volume (mL) Filter #149 146 155 Tare Weight (g) Filter Catch (g) ‐0.0006 0.0006 0.0004 Lakeside Unit 12 0.0004 0.0000 0.0000 0.0002 0.0000 0.0000 0.0000 34.9 35.2 139.6 32.6 35.7 25.0 25.6 28.0 19.6 0.0000 0.0006 147 ‐0.0002 Run #3 Tare Weight (g) 0.0001 0.0005 0.0009PM10+ Catch (g) 0.00040.0000 0.0008 Run #1 Run #2 Filter Catch (g) + Rinse Catch (g) ‐ Acetone Blank (g) Total PM10 (g) Run #3 *3$6E573MJH RI Project Code: Unit ID: Back‐Half Organic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/8/23 6.3131 6/8/23 6.2691 6/8/23 6.2819 6/8/23 6.4068 Final Weight #2 (g)6/9/23 6.3134 6/9/23 6.269 6/9/23 6.2823 6/9/23 6.4068 5/5/23 6.3096 5/5/23 6.2654 5/5/23 6.2786 5/8/23 6.4053 5/8/23 6.3099 5/8/23 6.2658 5/8/23 6.2789 5/9/23 6.4051 Back‐Half Inorganic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/8/23 4.0552 6/8/23 3.9066 6/13/23 4.061 6/13/23 4.146 Final Weight #2 (g)6/9/23 4.0555 6/9/23 3.9065 6/13/23 4.0612 6/13/23 4.1455 2/23/23 4.0531 2/23/23 3.9044 2/23/23 4.0584 4/3/23 4.1446 2/24/23 4.0534 2/24/23 3.9043 2/24/23 4.0589 4/4/23 4.1450 Condensable Particulate Catch Tare Weight #1 (g) Final Weight #1 (g) EPA Method 202 Gravimetric Analysis Log PROJ‐023429 Lakeside Unit 12 Run #1 Run #2 Run #3 Blank Tin #7987 7988 7989 7997 0.0035 0.0035 0.0033 0.0016 Tare Weight #2 (g) Organic CPM Catch (g) Run #1 Run #2 Run #3 Blank Final Weight #1 (g) Tare Weight #1 (g) Tare Weight #2 (g) Inorganic CPM Catch (g) Teflon Baggie #1768 1763 1771 1686 0.0021 0.0022 0.0024 0.0010 Run #1 Run #2 Run #3 Organic CPM Catch (g)0.0035 0.0035 0.0033 Total CPM (g) 0.0036 0.0037 0.0037 + Inorganic CPM Catch (g)0.0021 0.0022 0.0024 ‐ CPM Blank (g)0.0020 0.0020 0.0020 *3$6E573MJH RI Analytical Narrative Instrumentation Detection Limit / Sensitivity Notes Attachments Gravimetric Analysis Logs Sample Chain of Custody EPA Method 201A/202 Gravimetric Analysis Report Project Code: Date Finalized: Laboratory Results Summary All measurements are recorded to 0.0001g (0.1mg). *No blank corrections were performed in accordance with EPA Method 201A. 6.0 4.2 3.5 *Blank corrections were performed in accordance with EPA Method 202. Lakeside Unit 21, Run #1 0.3 Lakeside Unit 21, Run #2 0.3 Lakeside Unit 21, Run #3 0.3 No deviations from the analytical procedures from EPA Methods 201A or 202 were noted. All samples were received in good condition. After analysis, all samples are archived for a period of one year. Quartz fiber filters were dessicated and tared to a constant weight in the Montrose laboratory prior to sampling. Following testing, the filters were dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The acetone rinses were measured to the nearest milliliter, transferred to tared aluminum weighing dishes, taken to dryness under a fume hood, then weighed to a constant weight (±0.5 mg). Each result above represents total filterable particulate matter for each test run (acetone rinse + filter catch), with no blank correction performed unless otherwise indicated. All measurements were taken using a Torbal Model AGCN200 Analytical Balance under laboratory conditions. The instrument is auto‐calibrated and challanged with three NIST‐traceable reference weights daily. Analyst: PROJ‐023429 6/14/2023 T. Wojtach Lakeside Unit 21, Run #1 Lakeside Unit 21, Run #2 Lakeside Unit 21, Run #3 Sample ID Condensable Particulate Matter (mg) Teflon CPM filters were extracted in a sonicator three times with water and three times with hexane. The extraction water was added to the back‐half impinger contents and extracted with hexane three times in a separatory funnel. The inorganic fraction was transferred to a tared Teflon baggie, baked at 105C until 10 mL remained, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The organic fraction was combined with the acetone and hexane field rinses, measured to the nearest milliliter, transferred to a tared aluminum weighing dish, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). No blank correction was performed unless otherwise indicated. Sample ID Total PM10 (mg) *3$6E573MJH RI Project Code: Unit ID: PM10+ Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.3393 6/5/23 6.4730 6/5/23 6.3949 Final Weight (g)6/5/23 6.3397 6/5/23 6.4734 6/5/23 6.3949 Tare Weight (g)5/12/23 6.3389 5/12/23 6.4727 5/12/23 6.3942 5/15/23 6.3392 5/15/23 6.4727 5/15/23 6.3944 PM10 Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.3872 6/5/23 6.4714 6/5/23 6.4303 6/5/23 6.4011 Final Weight (g)6/5/23 6.3877 6/5/23 6.4713 6/5/23 6.4308 6/5/23 6.4013 Tare Weight (g)5/12/23 6.3873 5/12/23 6.4711 5/12/23 6.4302 5/12/23 6.4012 5/15/23 6.3870 5/15/23 6.4711 5/15/23 6.4303 5/15/23 6.4013 PM10 Filter Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/2/23 0.1075 6/2/23 0.1063 6/2/23 0.1081 6/2/23 0.1075 Final Weight (g)6/5/23 0.1075 6/5/23 0.1064 6/5/23 0.1078 6/5/23 0.1078 Tare Weight (g)2/17/23 0.1076 2/17/23 0.1069 2/17/23 0.1081 2/17/23 0.1079 2/17/23 0.1077 2/17/23 0.1064 2/17/23 0.1079 2/17/23 0.1078 Total PM10+ Catch Total PM10 Catch 0.0004 0.0000 0.0005 0.0005 0.0006 0.0000 0.0006 Rinse Catch (g)0.0004 ‐ Acetone Blank (g)0.0000 43.6 Run #1 Run #2 Blank Tare Weight (g) PM10 Catch (g)0.0003 0.0003 0.0003 Dish #8045 8031 8039 Final Weight (g) 109.634.2 30.0 24.6 ‐0.0001 Run #1 Final Weight (g) Run #2 Run #3 EPA Method 201A Gravimetric Analysis Log PROJ‐023429 Run #1 Run #2 Run #3 Blank Run #1 Run #2 Run #3 Dish #8044 8032 8037 Rinse Volume (mL) Final Weight (g) 8073 Rinse Volume (mL) Filter #161 162 160 Tare Weight (g) Filter Catch (g) ‐0.0001 ‐0.0003 0.0000 Lakeside Unit 21 0.0000 0.0003 0.0000 0.0003 0.0000 0.0003 0.0000 38.2 31.3 139.6 30.2 29.0 31.2 23.7 22.8 24.5 0.0000 0.0000 147 ‐0.0002 Run #3 Tare Weight (g) 0.0004 0.0005 0.0006PM10+ Catch (g) 0.00030.0003 0.0003 Run #1 Run #2 Filter Catch (g) + Rinse Catch (g) ‐ Acetone Blank (g) Total PM10 (g) Run #3 *3$6E573MJH RI Project Code: Unit ID: Back‐Half Organic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/8/23 6.3871 6/8/23 6.3966 6/8/23 6.4848 6/8/23 6.4068 Final Weight #2 (g)6/9/23 6.3872 6/9/23 6.3969 6/9/23 6.4845 6/9/23 6.4068 5/5/23 6.3835 5/5/23 6.3938 5/5/23 6.4807 5/8/23 6.4053 5/8/23 6.3833 5/8/23 6.3937 5/8/23 6.4812 5/9/23 6.4051 Back‐Half Inorganic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/13/23 3.8991 6/9/23 4.0747 6/8/23 4.1568 6/13/23 4.146 Final Weight #2 (g)6/13/23 3.8987 6/13/23 4.0746 6/9/23 4.1573 6/13/23 4.1455 2/23/23 3.8948 3/2/23 4.0716 3/2/23 4.1555 4/3/23 4.1446 2/24/23 3.8946 3/6/23 4.0714 3/6/23 4.1551 4/4/23 4.1450 Condensable Particulate Catch Tare Weight #1 (g) Final Weight #1 (g) EPA Method 202 Gravimetric Analysis Log PROJ‐023429 Lakeside Unit 21 Run #1 Run #2 Run #3 Blank Tin #7999 7984 7998 7997 0.0038 0.0030 0.0037 0.0016 Tare Weight #2 (g) Organic CPM Catch (g) Run #1 Run #2 Run #3 Blank Final Weight #1 (g) Tare Weight #1 (g) Tare Weight #2 (g) Inorganic CPM Catch (g) Teflon Baggie #1761 1683 1737 1686 0.0042 0.0032 0.0018 0.0010 Run #1 Run #2 Run #3 Organic CPM Catch (g)0.0038 0.0030 0.0037 Total CPM (g) 0.0060 0.0042 0.0035 + Inorganic CPM Catch (g)0.0042 0.0032 0.0018 ‐ CPM Blank (g)0.0020 0.0020 0.0020 *3$6E573MJH RI Analytical Narrative Instrumentation Detection Limit / Sensitivity Notes Attachments Gravimetric Analysis Logs Sample Chain of Custody No deviations from the analytical procedures from EPA Methods 201A or 202 were noted. All samples were received in good condition. After analysis, all samples are archived for a period of one year. Quartz fiber filters were dessicated and tared to a constant weight in the Montrose laboratory prior to sampling. Following testing, the filters were dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The acetone rinses were measured to the nearest milliliter, transferred to tared aluminum weighing dishes, taken to dryness under a fume hood, then weighed to a constant weight (±0.5 mg). Each result above represents total filterable particulate matter for each test run (acetone rinse + filter catch), with no blank correction performed unless otherwise indicated. All measurements were taken using a Torbal Model AGCN200 Analytical Balance under laboratory conditions. The instrument is auto‐calibrated and challanged with three NIST‐traceable reference weights daily. Analyst: PROJ‐023429 6/14/2023 T. Wojtach Lakeside Unit 22, Run #1 Lakeside Unit 22, Run #2 Lakeside Unit 22, Run #3 Sample ID Condensable Particulate Matter (mg) Teflon CPM filters were extracted in a sonicator three times with water and three times with hexane. The extraction water was added to the back‐half impinger contents and extracted with hexane three times in a separatory funnel. The inorganic fraction was transferred to a tared Teflon baggie, baked at 105C until 10 mL remained, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The organic fraction was combined with the acetone and hexane field rinses, measured to the nearest milliliter, transferred to a tared aluminum weighing dish, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). No blank correction was performed unless otherwise indicated. Sample ID Total PM10 (mg) EPA Method 201A/202 Gravimetric Analysis Report Project Code: Date Finalized: Laboratory Results Summary All measurements are recorded to 0.0001g (0.1mg). *No blank corrections were performed in accordance with EPA Method 201A. 6.7 3.9 5.3 *Blank corrections were performed in accordance with EPA Method 202. Lakeside Unit 22, Run #1 1.4 Lakeside Unit 22, Run #2 0.4 Lakeside Unit 22, Run #3 0.1 *3$6E573MJH D RI Project Code: Unit ID: PM10+ Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.3714 6/5/23 6.3766 6/5/23 6.3495 Final Weight (g)6/5/23 6.3719 6/5/23 6.3767 6/5/23 6.3493 Tare Weight (g)5/12/23 6.3714 5/8/23 6.3766 5/8/23 6.3493 5/15/23 6.3712 5/9/23 6.3766 5/9/23 6.349 PM10 Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/5/23 6.3884 6/5/23 6.4239 6/5/23 6.3431 6/5/23 6.4011 Final Weight (g)6/5/23 6.3884 6/5/23 6.4242 6/5/23 6.3434 6/5/23 6.4013 Tare Weight (g)5/12/23 6.3883 5/8/23 6.4246 5/8/23 6.3434 5/12/23 6.4012 5/15/23 6.3883 5/9/23 6.4241 5/9/23 6.3432 5/15/23 6.4013 PM10 Filter Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/2/23 0.1082 6/2/23 0.1090 6/2/23 0.1082 6/2/23 0.1075 Final Weight (g)6/5/23 0.1086 6/5/23 0.1085 6/5/23 0.1080 6/5/23 0.1078 Tare Weight (g)2/17/23 0.1071 2/17/23 0.1081 2/17/23 0.1078 2/17/23 0.1079 2/17/23 0.1072 2/17/23 0.1086 2/17/23 0.1081 2/17/23 0.1078 Total PM10+ Catch Total PM10 Catch Tare Weight (g) 0.0004 0.0000 0.0003PM10+ Catch (g) 0.00010.0014 0.0004 Run #1 Run #2 Filter Catch (g) + Rinse Catch (g) ‐ Acetone Blank (g) Total PM10 (g) Run #3 Lakeside Unit 22 0.0001 0.0001 0.0000 0.0000 0.0000 0.0000 0.0000 29.2 28.5 139.6 26.6 29.8 35.0 20.9 23.4 27.5 0.0013 0.0004 147 ‐0.0002 Run #3 Filter #158 163 159 Tare Weight (g) Filter Catch (g)0.0013 0.0004 0.0001 Run #1 Final Weight (g) Run #2 Run #3 EPA Method 201A Gravimetric Analysis Log PROJ‐023429 Run #1 Run #2 Run #3 Blank Run #1 Run #2 Run #3 Dish #8035 7991 8000 Rinse Volume (mL) Final Weight (g) 8073 Rinse Volume (mL)38.6 Run #1 Run #2 Blank Tare Weight (g) PM10 Catch (g) 0.0001 ‐0.0003 ‐0.0001 Dish #8036 7990 7982 Final Weight (g) 109.630.3 22.9 22.4 ‐0.0001 0.0004 0.0000 0.0000 0.0000 0.0003 0.0000 0.0003 Rinse Catch (g)0.0004 ‐ Acetone Blank (g)0.0000 *3$6E573MJH RI Project Code: Unit ID: Back‐Half Organic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/8/23 6.3718 6/8/23 6.3645 6/8/23 6.4265 6/8/23 6.4068 Final Weight #2 (g)6/9/23 6.3717 6/9/23 6.3647 6/9/23 6.4265 6/9/23 6.4068 5/5/23 6.3685 5/5/23 6.3611 5/5/23 6.4228 5/8/23 6.4053 5/8/23 6.3684 5/8/23 6.3614 5/8/23 6.4230 5/9/23 6.4051 Back‐Half Inorganic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 6/8/23 4.0315 6/8/23 4.1098 6/9/23 4.0405 6/13/23 4.146 Final Weight #2 (g)6/9/23 4.0318 6/9/23 4.1101 6/13/23 4.0401 6/13/23 4.1455 3/2/23 4.0264 3/2/23 4.1076 3/2/23 4.0368 4/3/23 4.1446 3/6/23 4.0261 3/6/23 4.1072 3/6/23 4.0363 4/4/23 4.1450 Condensable Particulate Catch Total CPM (g) 0.0067 0.0039 0.0053 + Inorganic CPM Catch (g)0.0054 0.0026 0.0037 ‐ CPM Blank (g)0.0020 0.0020 0.0020 Run #1 Run #2 Run #3 Organic CPM Catch (g)0.0033 0.0033 0.0036 1754 1748 1731 1686 0.0054 0.0026 0.0037 0.0010 Final Weight #1 (g) Tare Weight #1 (g) Tare Weight #2 (g) Inorganic CPM Catch (g) Teflon Baggie # Run #1 Run #2 Run #3 Blank 0.0033 0.0033 0.0036 0.0016 Tare Weight #2 (g) Organic CPM Catch (g) Tare Weight #1 (g) Final Weight #1 (g) EPA Method 202 Gravimetric Analysis Log PROJ‐023429 Lakeside Unit 22 Run #1 Run #2 Run #3 Blank Tin #7985 7996 7992 7997 *3$6E573MJH RI GP043AS-023429-RT-1331 Page 168 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D Quality Assurance/Quality Control GP043AS-023429-RT-1331 Page 169 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.1 Units and Abbreviations GP043AS-023429-RT-1331 Page 170 of 261 @ X% O2 corrected to X% oxygen (corrected for dilution air) |CC|absolute value of the confidence coefficient |d|absolute value of the mean differences ºC degrees Celsius ºF degrees Fahrenheit ºR degrees Rankine " H2O inches of water column 13.6 specific gravity of mercury ΔH pressure drop across orifice meter, inches H2O ΔP velocity head of stack gas, inches H2O θ total sampling time, minutes µg microgram ρa density of acetone, mg/ml ρw density of water, 0.9982 g/ml or 0.002201 lb/ml acfm actual cubic feet of gas per minute at stack conditions An cross-sectional area of nozzle, ft2 As cross-sectional area of stack, square feet (ft2) Btu British thermal unit Bws proportion by volume of water vapor in gas stream Ca particulate matter concentration in stack gas, gr/acf CAvg average unadjusted gas concentration, ppmv CDir measured concentration of calibration gas, ppmv cf or ft3 cubic feet cfm cubic feet per minute CGas average gas concentration adjusted for bias, ppmv CM average of initial and final system bias check responses from upscale calibration gas, ppmv cm or m3 cubic meters CMA actual concentration of the upscale calibration gas, ppmv CO average of initial and final system bias check responses from low-level calibration gas, ppmv Cp pitot tube coefficient Cs particulate matter concentration in stack gas, gr/dscf CS calibration span, % or ppmv CS measured concentration of calibration gas, ppmv CV manufactured certified concentration of calibration gas, ppmv D drift assessment, % of span dcf dry cubic feet dcm dry cubic meters Dn diameter of nozzle, inches Ds diameter of stack, inches dscf dry standard cubic feet dscfm dry standard cubic feet per minute dscm dry standard cubic meters Fd F-factor, dscf/MMBtu of heat input fpm feet per minute fps feet per second ft feet ft2 square feet g gram gal gallons gr grains (7000 grains per pound) gr/dscf grains per dry standard cubic feet hr hour UNITS AND ABBREVIATIONS p9i)aH-niua)uvnAznlaal 94QLXlblXZWXuCl UNITS AND ABBREVIATIONS I percent of isokinetic sampling in inch k kilo or thousand (metric units, multiply by 103) K kelvin (temperature) K3 conversion factor 0.0154 gr/mg K4 conversion factor 0.002668 ((in. Hg)(ft3))/((ml)(°R)) kg kilogram Kp pitot tube constant (85.49 ft/sec) kwscfh thousand wet standard cubic feet per hour l liters lb/hr pounds per hour lb/MMBtu pounds per million Btu lpm liters per minute m meter or milli M thousand (English units) or mega (million, metric units) m3 cubic meters ma mass of residue of acetone after evaporation, mg Md molecular weight of stack gas; dry basis, lb/lb-mole meq milliequivalent mg milligram Mg megagram (106 grams) min minute ml or mL milliliter mm millimeter MM million (English units) MMBtu/hr million Btu per hour mn total amount of particulate matter collected, mg mol mole mol. wt. or MW molecular weight Ms molecular weight of stack gas; wet basis, lb/lb-mole MW molecular weight or megawatt n number of data points ng nanogram nm nanometer Pbar barometric pressure, inches Hg pg picogram Pg stack static pressure, inches H2O Pm barometric pressure of dry gas meter, inches Hg ppb parts per billion ppbv parts per billion, by volume ppbvd parts per billion by volume, dry basis ppm parts per million ppmv parts per million, by volume ppmvd parts per million by volume, dry basis ppmvw parts per million by volume, wet basis Ps absolute stack gas pressure, inches Hg psi pounds per square inch psia pounds per square inch absolute psig pounds per square inch gauge Pstd standard absolute pressure, 29.92 inches Hg Qa volumetric flow rate, actual conditions, acfm Qs volumetric flow rate, standard conditions, scfm Qstd volumetric flow rate, dry standard conditions, dscfm R ideal gas constant 21.85 ((in. Hg) (ft3))/((°R) (lbmole)) *3$6MM57M3DJHIIRII UNITS AND ABBREVIATIONS SBfinal post-run system bias check, % of span SBi pre-run system bias check, % of span scf standard cubic feet scfh standard cubic feet per hour scfm standard cubic feet per minute scm standard cubic meters scmh standard cubic meters per hour sec second sf, sq. ft., or ft2 square feet std standard t metric ton (1000 kg) T 0.975 t-value Ta absolute average ambient temperature, ºR (+459.67 for English) Tm absolute average dry gas meter temperature, ºR (+459.67 for English) ton or t ton = 2000 pounds tph or tons/hr tons per hour tpy or tons/yr tons per year Ts absolute average stack gas meter temperature, ºR (+459.67 for English) Tstd absolute temperature at standard conditions V volt Va volume of acetone blank, ml Vaw volume of acetone used in wash, ml Vlc total volume H2O collected in impingers and silica gel, grams Vm volume of gas sampled through dry gas meter, ft3 Vm(std)volume of gas measured by the dry gas meter, corrected to standard conditions, dscf Vma stack gas volume sampled, acf Vn volume collected at stack conditions through nozzle, acf Vs average stack gas velocity, feet per second Vwc(std)volume of water vapor condensed, corrected to standard conditions, scf Vwi(std)volume of water vapor in gas sampled from impingers, scf Vwsg(std)volume of water vapor in gas sampled from silica gel, scf W watt Wa weight of residue in acetone wash, mg Wimp total weight of impingers, grams Wsg total weight of silica gel, grams Y dry gas meter calibration factor, dimensionless *3$6MM57M3DJHIIRII AAS atomic absorption spectroscopy ACDP air contaminant discharge permit ACE analyzer calibration error, percent of span AD absolute difference ADL above detection limit AETB Air Emissions Testing Body AS applicable standard (emission limit) ASTM American Society For Testing And Materials BACT best achievable control technology BDL below detection limit BHP brake horsepower BIF boiler and industrial furnace BLS black liquor solids CC confidence coefficient CD calibration drift CE calibration error CEM continuous emissions monitor CEMS continuous emissions monitoring system CERMS continuous emissions rate monitoring system CET calibration error test CFR Code of Federal Regulations CGA cylinder gas audit CHNOS elemental analysis for determination of C, H, N, O, and S content in fuels CNCG concentrated non-condensable gas CO catalytic oxidizer COC chain of custody COMS continuous opacity monitoring system CPM condensible particulate matter CPMS continuous parameter monitoring system CT combustion turbine CTM conditional test method CTO catalytic thermal oxidizer CVAAS cold vapor atomic absorption spectroscopy De equivalent diameter DE destruction efficiency Dioxins polychlorinated dibenzo-p-dioxins (pcdd's) DLL detection level limited DNCG dilute non-condensable gas ECD electron capture detector EIT Engineer In Training ELCD electoconductivity detector (hall detector) EMPC estimated maximum possible concentration EPA US Environmental Protection Agency EPRI Electric Power Research Institute ES emission standard (applicable limit) ESP electrostatic precipitator EU emission unit FCCU fluid catalytic cracking unit FGD flue gas desulfurization FI flame ionization FIA flame ionization analyzer FID flame ionization detector FPD flame photometric detector FPM filterable particulate matter FTIR Fourier-transform infrared spectroscopy FTPB field train proof blank FTRB field train recovery blank Furans polychlorinated dibenzofurans (pcdf's) GC gas chromatography ACRONYMS p9i)aH-niua)uvnAznlaal 94QLXlb)XZWXuCl ACRONYMS GC/MS gas chromatography/mass spectroscopy GFAAS graphite furnace atomic absorption spectroscopy GFC gas filter correlation GHG greenhouse gas HAP hazardous air pollutant HC hydrocarbons HHV higher heating value HPLC high performance liquid chromatography HRGC/HRMS high-resolution gas chromatography/high-resolution mass spectroscopy HRSG heat recovery steam generator IC ion chromatography ICAP inductively-coupled argon plasmography ICPCR ion chromatography with a post-column reactor ICP-MS inductively coupled plasma-mass spectroscopy IR infrared radiation ISO International Standards Organization kW kilowatts LFG landfill gas LHV lower heating value LPG liquified petroleum gas MACT maximum achievable control technology MDI methylene diphyenyl diisocyanate MDL method detection limit MNOC maximum normal operating conditions MRL method reporting limit MS mass spectrometry NA not applicable or not available NCASI National Council For Air And Steam Improvement NCG non-condensable gases ND not detected NDIR non-dispersive infrared NESHAP National Emissions Standards For Hazardous Air Pollutants NG natural gas NIOSH National Institute For Occupational Safety And Health NIST National Institute Of Standards And Technology NMC non-methane cutter NMOC non-methane organic compounds NMVOC non-methane volatile organic compounds NPD nitrogen phosphorus detector NSPS New Source Performance Standards OSHA Occupational Safety And Health Administration PAH polycyclic aromatic hydrocarbons PCB polychlorinated biphenyl compounds PCWP plywood and composite wood products PE Professional Engineer PFAS per- and polyfluoroalkyl substances (PFAS) PI photoionization PID photoionization detector PM particulate matter PM10 particulate matter less than 10 microns in aerodynamic diameter PM2.5 particulate matter less than 2.5 microns in aerodynamic diameter POM polycyclic organic matter PS performance specification PSD particle size distribution PSEL plant site emission limits PST performance specification test PTE permanent total enclosure PTM performance test method *3$6MM57M3DJHIIRII ACRONYMS QA/QC quality assurance and quality control QI Qualified Individual QSTI Qualified Source Testing Individual RA relative accuracy RAA relative accuracy audit RACT reasonably available control technology RATA relative accuracy test audit RCTO rotary concentrator thermal oxidizer RICE stationary reciprocating internal combustion engine RM reference method RTO regenerative thermal oxidizer SAM sulfuric acid mist SCD sulfur chemiluminescent detector SCR selective catalytic reduction system SD standard deviation Semi-VOST semivolatile organic compounds sample train SRM standard reference material TAP toxic air pollutant TBD to be determined TCA thermal conductivity analyzer TCD thermal conductivity detector TGNENMOC total gaseous non-ethane non-methane organic compounds TGNMOC total gaseous non-methane organic compounds TGOC total gaseous organic compounds THC total hydrocarbons TIC tentatively identified compound TO thermal oxidizer TO toxic organic (as in EPA Method TO-15) TPM total particulate matter TSP total suspended particulate matter TTE temporary total enclosure ULSD ultra-low sulfur diesel UV ultraviolet radiation range VE visible emissions VOC volatile organic compounds VOST volatile organic sample train WC water column WWTP waste water treatment plant *3$6MM57M3DJHIIRII Ag silver Se selenium As arsenic SO2 sulfur dioxide Ba barium SO3 sulfur trioxide Be beryllium SOx sulfur oxides C carbon TCDD tetrachlorodibenzodioxin Cd cadmium TCDF tetrachlorodibenzofuran CdS cadmium sulfide TGOC total gaseous organic concentration CH2O formaldehyde THC total hydrocarbons CH3CHO acetaldehyde Tl thallium CH3OH methanol TRS total reduced sulfur compounds CH4 methane Zn zinc C2H4O ethylene oxide C2H6 ethane C3H4O acrolein C3H6O propionaldehyde C3H8 propane C6H5OH phenol Cl2 chlorine ClO2 chlorine dioxide CO carbon monoxide Co cobalt CO2 carbon dioxide Cr chromium Cu copper EtO ethylene oxide EtOH ethyl alcohol (ethanol) H2 hydrogen H2O water H2O2 hydrogen peroxide H2S hydrogen sulfide H2SO4 sulfuric acid HCl hydrogen chloride Hg mercury IPA isopropyl alcohol MDI methylene diphyenyl diisocyanate MeCl2 methylene chloride MEK methyl ethyl ketone MeOH methanol Mn manganese N2 nitrogen NH3 ammonia Ni nickel NO nitric oxide NO2 nitrogen dioxide NOx nitrogen oxides O2 oxygen P phosphorus Pb lead PCDD polychlorinated dibenzo-p-dioxins PCDF polychlorinated dibenzofurans Sb antimony CHEMICAL NOMENCLATURE p9i)aH-niua)uvnAznlaal 94QLXlbbXZWXuCl PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.2 Manual Test Method QA/QC Data GP043AS-023429-RT-1331 Page 178 of 261 GP043AS-023429-RT-1331 Page 179 of 261 Meter box ID:M5-19 Date: Meter ID (if applicable):1611031 Location: Orifice set ID:1721-s No. of orifices used (min. 3) Calibrated by:DJS Barometric pressure (in. Hg): Expires:9/20/23 Theoretical critical vacuum Meter Box Orifice Calibration IMPORTANT For valid test results, the Actual Vacuum should be 1 to 2 in. Hg greater than the Theoretical Critical Vacuum shown above IMPORTANT The Critical Orifice Coefficient, K', must be entered in English units, (ft)^3*(deg R)^0.5/((in.Hg)*(min)). Orifice K' Orifice ΔH Time Initial Final Net Inlet Outlet Inlet Outlet Serial#Coefficient Vacuum Initial Final Average (in H2O)(min)(cu ft)(cu ft)(cu ft)(deg F)(deg F)(deg F)(deg F)(number)(see above)(in Hg)(deg F)(deg F)(deg F) 0.45 15.00 424.096 430.279 6.183 75.0 75.0 75.0 75.0 12 0.3140 20.5 70.0 70.0 70.0 0.90 15.00 430.279 439.167 8.888 74.0 74.0 77.0 74.0 17 0.4528 19.0 70.0 69.0 69.5 1.10 15.00 375.010 384.873 9.863 69.0 69.0 70.0 70.0 19 0.5114 18.5 69.0 69.0 69.0 2.10 15.00 394.700 408.312 13.612 72.0 72.0 73.0 73.0 25 0.7019 16.5 69.0 70.0 69.5 2.80 15.00 408.312 424.096 15.784 73.0 73.0 75.0 75.0 30 0.8109 16.0 70.0 70.0 70.0 --------- ORIFICE ------------------ ORIFICE --------- VOLUME VOLUME CALIBRATION FACTOR CORRECTED NOMINAL Yd ΔH Sample Rate Vcr(std)Vcr Value Variation Value Variation (in. H2O)(scfm)(cu ft)(cu ft)(number)(number)(in H2O)(in H2O) 0.45 0.333 4.996 6.147 1.0022 -0.004 1.838 0.087 0.90 0.481 7.208 8.860 1.0040 -0.002 1.769 0.018 1.10 0.543 8.145 10.002 1.0117 0.005 1.708 -0.043 2.10 0.745 11.173 13.734 1.008 0.002 1.723 -0.028 2.80 0.860 12.902 15.874 1.005 -0.001 1.718 -0.033 For Calibration Factor Y, the ratio of the reading of the calibration meter to the dry gas meter,Average Yd 1.0062 acceptable tolerance of individual values from the average is +/-0.02.Average ΔH@ 1.7512 Variation of Yd's PASS For Orifice Calibration Factor ΔH@, the orifice differential pressure in inches of H20 that equates to 0.75 cfm of air Variation of ΔH@ PASS at 68 F and 29.92 inches of Hg, acceptable tolerance of individual values from the average is +/-0.2.Vacuum Criteria PASS Meter Box Pressure Leak Check Meter Box Vacuum Leak Check Test Pressure, (in H2O):6 Should be 5-7 in. H2O Test Vacuum, (in. Hg):22 Coarse adjust valve fully open, fine adjust fully closed, sample inlet plugged Leak Rate, (in H2O/min):0 Must be zero (manometer level stable for 1 minute)Leak Rate, (cfm):0 Must be zero (meter dial stable for 1 minute) Meter Box Thermocouple Readout Calibration Check Input Temperature Allowable Temp. Dev.*Low High Stack Probe Filter Exit Aux.Meter In / Out 32 7 25 39 Make: 68 8 60 76 Model: 120 9 111 129 Serial Numbe 250 11 239 261 Cal Date: 350 12 338 362 500 14 486 514 700 17 683 717 900 20 880 920 * Reading values must be within 1.5% of reference thermometer values (based on absolute temperature scale) for calibration to be acceptable. Performed by:Name:__________Allon Kienitz Singature______________________________________________________________Date:_______________________ Approved by:Name:__________________________________________Singature______________________________________________________________Date:_______________________ ΔH@ VOLUME CALIBRATION FACTORINDICATED VS. ACTUAL Meter box 6-month calibration form (orifices) R0 107078 502.00 Pratical Instrument Electronics 11.081 12.840 CORRECTED Vm(std) (cu ft) 4.985 7.179 8.051 Thermocouple simulator QA Criteria: EPA Method 5 Meter Box Calibration by Calibrated Critical Orifice, Leak Check, and Thermocouple Calibration Check English Meter Box Units, English K' Factor ΔH@: --- SAMPLE RATE ------ DRY GAS METER --- Yd:1.0062 1.751 11.52 in. Hg 24.42 in. Hg 3/20/23 5 Denver Office -- DRY GAS METER -- -- Ambient Temperature --Volume Initial Temps.Final Temps. *3$6573DJHRI GP043AS-023429-RT-1331 Page 181 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.3 Instrumental Test Method QA/QC Data GP043AS-023429-RT-1331 Page 182 of 261 PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.3.1 Unit CT11 GP043AS-023429-RT-1331 Page 183 of 261 PROJ‐023429 PacifiCorp Lakeside CT11 5/18/2023 Initial Linearity Initial Gas ID Concentration Value Response Error OK? O2 n/a Low 0 0.13 0.6% Y EB0094234 Mid 10.67 10.72 0.2% Y CC198046 High 21 20.99 0.0% Y CO2 n/a Low 0 0.00 0.0% Y EB0094234 Mid 8.895 9.05 0.9% Y CC198046 High 17.76 17.88 0.6% Y NOx n/a Low 0 0.00 0.0% Y CC73404 Mid 6.316 6.29 0.2% Y CC703698 High 12.17 12.24 0.6% Y CO n/a Low 0 ‐0.09 1.6% Y CC306048 Mid 2.773 2.77 0.1% Y XC023876B High 5.938 5.99 0.9% Y ≤2% *3$6E573DJH RI PROJ‐023429 PacifiCorp Lakeside CT11 5/18/2023 Analyzer Bias Checks Start Time 7:40 Start Time 8:18 Start Time 8:56 Start Time 9:32 Start Time 10:14 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 8:00 Stop Time 8:38 Stop Time 9:16 Stop Time 9:52 Stop Time 10:34 Gas Analyzer Gas Concentration Value Response Initial Bias Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift O2 Low 0.13 ‐0.07 ‐0.9% 0.16 1.1% 2.0% 0.15 1.0% 0.1% 0.14 1.0% 0.0% 0.15 1.0% 0.0% 0 0.3% 0.7% Span 10.72 10.62 ‐0.5% 10.67 0.2% 0.7% 10.67 0.2% 0.0% 10.62 0.0% 0.2% 10.69 0.3% 0.3% 10.65 0.2% 0.2% CO2 Low 0.00 ‐0.15 ‐0.8% 0.08 1.3% 2.1% 0.10 1.4% 0.1% 0.05 1.1% 0.3% 0.14 1.6% 0.5% 0.05 1.1% 0.5% Span 9.05 8.98 0.4% 9.09 0.6% 0.2% 8.85 ‐0.8% 1.4% 8.90 ‐0.4% 0.3% 9.06 0.4% 0.9% 8.95 ‐0.2% 0.6% NOx Low 0.00 ‐0.03 ‐0.3% 0.12 1.2% 1.5% 0.19 1.8% 0.6% 0.12 1.2% 0.6% 0.09 1.0% 0.2% ‐0.02 0.1% 0.9% Span 6.29 6.34 0.4% 6.38 0.3% 0.1% 6.27 ‐0.6% 0.9% 6.35 0.0% 0.6% 6.36 0.1% 0.1% 6.33 ‐0.1% 0.2% CO Low ‐0.09 0.01 1.7% 0.01 0.1% 1.5% 0.00 ‐0.1% 0.2% 0.04 0.6% 0.6% 0.02 0.3% 0.3% 0.06 0.9% 0.6% Span 2.77 2.81 0.6% 2.75 1.0% 0.4% 2.80 ‐0.1% 1.1% 2.79 ‐0.3% 0.2% 2.79 ‐0.2% 0.1% 2.76 ‐0.8% 0.6% ≤5%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 1 Run 2 Run 3 Run 4 Run 5 *3$6E573DJH D RI PROJ‐023429 PacifiCorp Lakeside CT11 5/18/2023 Analyzer Bias Checks Gas Gas Concentration Value O2 Low 0.13 Span 10.72 CO2 Low 0.00 Span 9.05 NOx Low 0.00 Span 6.29 CO Low ‐0.09 Span 2.77 Start Time 10:49 Start Time 11:24 Start Time 11:59 Start Time 12:34 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 11:09 Stop Time 11:44 Stop Time 12:19 Stop Time 12:54 Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift 0.09 0.8% 0.4% 0.10 0.8% 0.0% 0.11 0.8% 0.0% 0.10 0.8% 0.1% 10.75 0.6% 0.5% 10.61 0.0% 0.7% 10.75 0.6% 0.7% 10.62 0.0% 0.6% 0.13 1.6% 0.4% 0.05 1.1% 0.5% ‐0.01 0.8% 0.3% ‐0.02 0.8% 0.1% 8.90 ‐0.5% 0.3% 9.05 0.4% 0.9% 8.93 ‐0.3% 0.7% 8.85 ‐0.8% 0.5% 0.08 0.9% 0.8% 0.02 0.4% 0.5% 0.04 0.6% 0.2% 0.17 1.6% 1.0% 6.34 0.0% 0.1% 6.37 0.2% 0.3% 6.36 0.1% 0.1% 6.33 ‐0.1% 0.2% 0.07 1.1% 0.2% 0.01 0.1% 1.0% 0.03 0.4% 0.3% ‐0.07 ‐1.2% 1.6% 2.75 ‐0.9% 0.0% 2.74 ‐1.2% 0.3% 2.73 ‐1.3% 0.1% 2.71 ‐1.7% 0.4% ≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 7 Run 8 Run 9Run 6 *3$6E573DJH RI Time O2 CO2 NOx CO 5/18/23 8:05:21 10.68 9.13 0.18 ‐0.05 R1 5/18/23 8:05:31 10.68 9.15 0.15 0.01 10.67 % O2 5/18/23 8:05:41 10.67 9.1 0.12 0.01 9.09 % CO2 5/18/23 8:05:51 10.67 9.04 0.11 0.02 0.12 ppm NOx 5/18/23 8:06:01 10.67 9.08 0.1 0.02 0.01 ppm CO 5/18/23 8:06:11 10.66 9.08 0.09 0.01 5/18/23 8:06:21 10.66 9.08 0.13 0 5/18/23 8:06:31 10.66 9.11 0.08 0 5/18/23 8:06:41 10.66 9.13 0.07 ‐0.01 5/18/23 8:06:51 10.65 9.12 0.08 0 5/18/23 8:07:01 10.65 9.12 0.07 0 5/18/23 8:07:11 10.67 9.11 0.05 ‐0.01 5/18/23 8:07:21 8.53 7.54 0.06 0.02 5/18/23 8:07:31 1.35 1.32 0.05 0.03 5/18/23 8:07:41 1.03 0.86 1.58 0.11 5/18/23 8:07:51 1.01 0.71 5.54 0.22 5/18/23 8:08:01 1.14 0.66 6.25 0.28 5/18/23 8:08:11 1.16 0.6 6.36 0.32 5/18/23 8:08:21 0.94 0.49 6.35 0.32 5/18/23 8:08:31 0.16 0.18 6.35 0.33 0.16 % O2 5/18/23 8:08:41 0.17 0.11 6.45 0.32 0.08 % CO2 5/18/23 8:08:51 0.17 0.05 6.38 0.29 6.38 ppm NOx 5/18/23 8:09:01 0.16 0.06 6.37 0.29 5/18/23 8:09:11 0.16 0.04 6.38 0.3 5/18/23 8:09:21 0.16 0.04 6.36 0.31 5/18/23 8:09:31 0.15 0.03 6.35 0.32 5/18/23 8:09:41 0.15 0.02 6.4 0.31 5/18/23 8:09:51 0.16 0.01 6.39 0.31 5/18/23 8:10:01 0.15 0.01 6.37 0.28 5/18/23 8:10:11 0.15 0.01 6.36 0.31 5/18/23 8:10:21 0.14 0.01 6.42 0.31 5/18/23 8:10:31 0.14 0.02 6.38 0.33 5/18/23 8:10:41 0.58 0.14 6.37 0.32 5/18/23 8:10:51 0.18 0.02 6.38 0.47 5/18/23 8:11:01 0.15 0.01 3.65 1.23 5/18/23 8:11:11 0.15 0 0.44 2 5/18/23 8:11:21 0.15 0 0.12 2.54 5/18/23 8:11:31 0.14 0 0.06 2.75 2.75 ppm CO 5/18/23 8:11:41 0.14 ‐0.01 0.02 2.77 5/18/23 8:11:51 0.14 0.01 0 2.82 5/18/23 8:12:01 0.14 0 0.01 2.75 5/18/23 8:12:11 0.14 ‐0.01 ‐0.01 2.7 5/18/23 8:12:21 0.13 0 0 2.68 *3$6E573MJH RI Time O2 CO2 NOx CO 5/18/23 8:41:51 10.66 8.86 0.2 0.18 R2 5/18/23 8:42:01 10.66 8.85 0.2 0.01 10.67 % O2 5/18/23 8:42:11 10.67 8.85 0.19 0.02 8.85 % CO2 5/18/23 8:42:21 10.67 8.85 0.2 0 0.19 ppm Nox 5/18/23 8:42:31 10.68 8.84 0.18 ‐0.02 0.00 ppm CO 5/18/23 8:42:41 10.67 8.84 0.2 ‐0.01 5/18/23 8:42:51 10.66 8.84 0.19 0 5/18/23 8:43:01 10.67 8.84 0.2 0.01 5/18/23 8:43:11 10.69 8.84 0.18 0 5/18/23 8:43:21 10.68 8.85 0.16 ‐0.01 5/18/23 8:43:31 10.68 8.84 0.15 0 5/18/23 8:43:41 10.68 8.87 0.16 0.01 5/18/23 8:43:51 10.72 8.76 0.14 0.03 5/18/23 8:44:01 3.39 4 0.23 0.05 5/18/23 8:44:11 0.24 0.68 0.29 0.05 5/18/23 8:44:21 0.19 0.43 4.03 0.11 5/18/23 8:44:31 0.18 0.3 5.98 0.16 5/18/23 8:44:41 0.17 0.22 6.16 0.23 5/18/23 8:44:51 0.16 0.18 6.21 0.23 5/18/23 8:45:01 0.16 0.14 6.23 0.02 5/18/23 8:45:11 0.15 0.12 6.24 0.01 0.15 % O2 5/18/23 8:45:21 0.16 0.11 6.26 0.03 0.10 % CO2 5/18/23 8:45:31 0.15 0.09 6.28 0.05 6.27 ppm NOx 5/18/23 8:45:41 0.15 0.1 6.27 0.02 5/18/23 8:45:51 0.14 0.09 6.28 0.02 5/18/23 8:46:01 0.14 0.08 6.28 0.03 5/18/23 8:46:11 0.14 0.07 6.27 0.04 5/18/23 8:46:21 0.14 0.07 6.27 0.03 5/18/23 8:46:31 0.14 0.05 6.3 0.05 5/18/23 8:46:41 0.14 0.06 6.29 0.04 5/18/23 8:46:51 0.26 0.17 6.29 0.04 5/18/23 8:47:01 0.16 0.06 6.29 0.22 5/18/23 8:47:11 0.13 0.05 3.3 0.93 5/18/23 8:47:21 0.13 0.06 0.33 1.67 5/18/23 8:47:31 0.15 0.06 0.1 2.16 5/18/23 8:47:41 0.13 0.06 0.02 2.33 5/18/23 8:47:51 0.12 0.05 ‐0.02 2.41 5/18/23 8:48:01 0.12 0.04 ‐0.05 2.39 5/18/23 8:48:11 0.12 0.05 ‐0.05 2.41 5/18/23 8:48:21 0.13 0.05 ‐0.06 2.42 5/18/23 8:48:31 0.13 0.04 ‐0.05 2.4 5/18/23 8:48:41 0.12 0.02 ‐0.05 2.38 5/18/23 8:48:51 0.13 0.02 ‐0.06 2.42 5/18/23 8:49:01 0.13 0.04 ‐0.04 2.41 5/18/23 8:49:11 0.13 0.01 ‐0.04 2.41 5/18/23 8:49:21 0.12 0.02 ‐0.04 2.65 5/18/23 8:49:31 0.12 0.02 ‐0.02 2.84 5/18/23 8:49:41 0.13 0.04 ‐0.19 2.82 5/18/23 8:49:51 0.12 0.04 0.06 2.84 2.80 ppm CO 5/18/23 8:50:01 0.12 0.03 ‐0.02 2.85 5/18/23 8:50:11 0.12 0.04 ‐0.04 2.8 5/18/23 8:50:21 0.12 0.02 ‐0.03 2.78 5/18/23 8:50:31 0.11 0.01 ‐0.04 2.75 5/18/23 8:50:41 0.12 0.01 ‐0.04 2.77 *3$6E573MJH RI Time O2 CO2 NOx CO 5/18/23 9:18:51 10.63 8.87 0.14 ‐0.17 R3 5/18/23 9:19:01 10.63 8.89 0.13 0.01 10.62 % O2 5/18/23 9:19:11 10.63 8.87 0.12 0.04 8.90 % CO2 5/18/23 9:19:21 10.62 8.9 0.11 0.07 0.12 ppm Nox 5/18/23 9:19:31 10.62 8.91 0.12 0.06 0.04 ppm CO 5/18/23 9:19:41 10.61 8.92 0.12 0.03 5/18/23 9:19:51 10.63 8.93 0.12 0.02 5/18/23 9:20:01 10.68 8.93 0.13 0.02 5/18/23 9:20:11 10.68 8.91 0.12 0.01 5/18/23 9:20:21 10.68 8.93 0.11 0.03 5/18/23 9:20:31 10.67 8.94 0.11 0.04 5/18/23 9:20:41 10.64 9.01 0.13 0.05 5/18/23 9:20:51 6.27 5.37 0.12 0.04 5/18/23 9:21:01 0.41 0.73 0.08 0.04 5/18/23 9:21:11 0.2 0.43 1.53 0.08 5/18/23 9:21:21 0.18 0.29 3.68 0.18 5/18/23 9:21:31 0.17 0.2 3.95 0.21 5/18/23 9:21:41 0.17 0.15 4.02 0.24 5/18/23 9:21:51 0.16 0.11 4.04 0.24 5/18/23 9:22:01 0.15 0.09 5.2 0.24 5/18/23 9:22:11 0.15 0.07 6.35 0.27 0.14 % O2 5/18/23 9:22:21 0.15 0.07 6.35 0.26 0.05 % CO2 5/18/23 9:22:31 0.14 0.04 6.35 0.26 6.35 ppm Nox 5/18/23 9:22:41 0.14 0.04 6.35 0.27 5/18/23 9:22:51 0.14 0.02 6.32 0.28 5/18/23 9:23:01 0.14 0.04 6.35 0.3 5/18/23 9:23:11 0.14 0.04 6.38 0.28 5/18/23 9:23:21 0.14 0.05 6.26 0.27 5/18/23 9:23:31 0.14 0.02 6.6 0.3 5/18/23 9:23:41 0.13 0.03 6.27 0.28 5/18/23 9:23:51 0.14 0.04 6.3 0.27 5/18/23 9:24:01 0.13 0.13 6.02 0.27 5/18/23 9:24:11 0.13 0.02 6.26 0.28 5/18/23 9:24:21 0.29 0.18 6.28 0.31 5/18/23 9:24:31 0.14 0.02 6.18 0.68 5/18/23 9:24:41 0.13 0.01 2.19 1.56 5/18/23 9:24:51 0.13 0.02 0.23 2.35 5/18/23 9:25:01 0.13 0.02 0.05 2.8 5/18/23 9:25:11 0.13 0.01 0.01 3.01 5/18/23 9:25:21 0.13 0 ‐0.03 2.88 5/18/23 9:25:31 0.12 0.03 ‐0.11 2.84 5/18/23 9:25:41 0.13 0.15 ‐0.66 2.86 5/18/23 9:25:51 0.12 0.07 0.1 2.84 5/18/23 9:26:01 0.13 0 ‐0.06 2.83 5/18/23 9:26:11 0.12 0 ‐0.07 2.81 2.79 ppm CO 5/18/23 9:26:21 0.13 0.05 ‐0.37 2.78 5/18/23 9:26:31 0.12 0.07 0 2.78 5/18/23 9:26:41 0.12 0.02 ‐0.07 2.8 5/18/23 9:26:51 0.11 0.01 ‐0.07 2.77 5/18/23 9:27:01 0.12 0 ‐0.09 2.77 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 9:56:11 10.69 9.05 ‐0.06 0.04 R4 5/18/23 9:56:21 10.69 9.03 0.1 0.03 10.69 % O2 5/18/23 9:56:31 10.69 9.05 0.11 0.01 9.06 % CO2 5/18/23 9:56:41 10.69 9.06 ‐0.01 0.01 0.09 ppm NOx 5/18/23 9:56:51 10.69 9.07 0.14 0.04 0.02 ppm CO 5/18/23 9:57:01 10.67 9.07 0.19 0.03 5/18/23 9:57:11 10.68 9.07 0.03 0 5/18/23 9:57:21 10.68 9.05 ‐0.07 ‐0.01 5/18/23 9:57:31 10.67 9.07 0.13 0.01 5/18/23 9:57:41 10.67 9.07 0.13 0.02 5/18/23 9:57:51 10.68 9.05 0.59 0.02 5/18/23 9:58:01 8.77 7.56 ‐0.21 0.02 5/18/23 9:58:11 0.83 1.04 0.01 0.04 5/18/23 9:58:21 0.22 0.56 11.19 0.09 5/18/23 9:58:31 0.19 0.41 22.01 0.16 5/18/23 9:58:41 0.17 0.3 22.01 0.21 5/18/23 9:58:51 0.16 0.23 14.17 0.23 5/18/23 9:59:01 0.15 0.17 6.34 0.23 0.15 % O2 5/18/23 9:59:11 0.16 0.16 6.35 0.23 0.14 % CO2 5/18/23 9:59:21 0.15 0.13 6.36 0.23 6.36 ppm NOx 5/18/23 9:59:31 0.14 0.14 6.35 0.23 5/18/23 9:59:41 0.15 0.12 6.36 0.24 5/18/23 9:59:51 0.14 0.11 6.37 0.24 5/18/23 10:00:01 0.14 0.1 6.35 0.23 5/18/23 10:00:11 0.14 0.09 6.36 0.24 5/18/23 10:00:21 0.13 0.08 6.35 0.25 5/18/23 10:00:31 0.14 0.1 6.36 0.26 5/18/23 10:00:41 0.24 0.14 6.38 0.26 5/18/23 10:00:51 0.33 0.25 6.38 0.25 5/18/23 10:01:01 0.18 0.1 6.36 0.57 5/18/23 10:01:11 0.24 0.12 2.9 1.32 5/18/23 10:01:21 0.33 0.15 0.19 2.09 5/18/23 10:01:31 0.38 0.17 ‐0.12 2.55 5/18/23 10:01:41 0.39 0.17 ‐0.19 2.73 5/18/23 10:01:51 0.4 0.18 ‐0.24 2.78 2.79 ppm CO 5/18/23 10:02:01 0.37 0.18 ‐0.19 2.79 5/18/23 10:02:11 0.35 0.17 ‐0.26 2.79 5/18/23 10:02:21 0.36 0.18 ‐0.27 2.8 5/18/23 10:02:31 0.4 0.19 ‐0.28 2.79 5/18/23 10:02:41 0.36 0.18 ‐0.28 2.8 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 10:36:31 10.62 8.83 0.05 0.12 R5 5/18/23 10:36:41 10.67 8.9 0.03 0.07 10.65 % O2 5/18/23 10:36:51 10.65 8.91 0.01 0.07 8.95 % CO2 5/18/23 10:37:01 10.65 8.92 ‐0.04 0.05 ‐0.02 ppm NOx 5/18/23 10:37:11 10.65 8.96 ‐0.02 0.04 0.06 ppm CO 5/18/23 10:37:21 10.64 8.99 ‐0.04 0.06 5/18/23 10:37:31 10.65 9.03 ‐0.03 0.05 5/18/23 10:37:41 10.66 9.01 ‐0.07 0.03 5/18/23 10:37:51 10.66 9.03 ‐0.07 0.02 5/18/23 10:38:01 10.65 9.03 ‐0.06 0.04 5/18/23 10:38:11 10.66 9.01 ‐0.07 0.05 5/18/23 10:38:21 10.68 9.01 ‐0.09 0.05 5/18/23 10:38:31 10.69 8.98 ‐0.1 0.05 5/18/23 10:38:41 10.99 8.41 ‐0.1 0.06 5/18/23 10:38:51 12.38 5.7 ‐0.09 0.1 5/18/23 10:39:01 7.08 5.76 0.17 0.26 5/18/23 10:39:11 0.41 0.75 1.02 0.37 5/18/23 10:39:21 0.15 0.45 2.48 0.31 5/18/23 10:39:31 0.12 0.31 5.52 0.26 5/18/23 10:39:41 0.12 0.23 5.93 0.21 5/18/23 10:39:51 0.11 0.15 6.07 0.22 5/18/23 10:40:01 0.1 0.1 6.15 0.25 5/18/23 10:40:11 0.1 0.1 6.18 0.24 5/18/23 10:40:21 0.09 0.1 6.16 0.25 5/18/23 10:40:31 0.09 0.08 6.25 0.25 5/18/23 10:40:41 0.09 0.06 6.29 0.24 0.08 % O2 5/18/23 10:40:51 0.09 0.06 6.32 0.25 0.04 % CO2 5/18/23 10:41:01 0.08 0.04 6.3 0.25 6.33 ppm NOx 5/18/23 10:41:11 0.08 0.04 6.32 0.25 5/18/23 10:41:21 0.07 0.04 6.39 0.25 5/18/23 10:41:31 0.08 0.02 6.34 0.26 5/18/23 10:41:41 0.08 0.05 6.34 0.27 5/18/23 10:41:51 0.08 0.03 6.33 0.27 5/18/23 10:42:01 0.5 0.13 6.35 0.27 5/18/23 10:42:11 4.1 1.4 6.34 0.27 5/18/23 10:42:21 0.22 0.12 6.05 0.38 5/18/23 10:42:31 0.08 0.05 4.74 0.93 5/18/23 10:42:41 0.08 0.02 1.1 1.73 5/18/23 10:42:51 0.08 0.03 ‐0.16 2.38 5/18/23 10:43:01 0.08 0.02 ‐0.28 2.65 5/18/23 10:43:11 0.07 0.03 ‐0.32 2.74 2.76 ppm CO 5/18/23 10:43:21 0.07 0.02 ‐0.35 2.74 5/18/23 10:43:31 0.07 0.01 ‐0.34 2.75 5/18/23 10:43:41 0.06 0 ‐0.35 2.76 5/18/23 10:43:51 0.07 0.02 ‐0.37 2.77 5/18/23 10:44:01 0.06 0.02 ‐0.35 2.77 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 11:13:01 10.76 8.78 0.16 0.27 R6 5/18/23 11:13:11 10.74 8.83 0.11 0.12 10.75 % O2 5/18/23 11:13:21 10.76 8.83 0.08 0.08 8.90 % CO2 5/18/23 11:13:31 10.75 8.85 0.06 0.05 0.08 ppm NOx 5/18/23 11:13:41 10.74 8.86 0.04 0.05 0.07 ppm CO 5/18/23 11:13:51 10.78 8.98 0.11 0.06 5/18/23 11:14:01 10.73 9.02 0.06 0.05 5/18/23 11:14:11 10.62 9.13 0 0.04 5/18/23 11:14:21 10.61 9.14 ‐0.05 0.02 5/18/23 11:14:31 10.61 9.14 ‐0.08 0.01 5/18/23 11:14:41 10.58 9.22 ‐0.08 ‐0.01 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 11:14:51 3.83 3.59 ‐0.08 0.01 5/18/23 11:15:01 0.22 0.76 0.04 0.04 5/18/23 11:15:11 0.14 0.48 3.82 0.08 5/18/23 11:15:21 0.12 0.35 6.21 0.13 5/18/23 11:15:31 0.12 0.27 6.31 0.17 5/18/23 11:15:41 0.1 0.21 6.35 0.22 5/18/23 11:15:51 0.11 0.16 6.32 0.21 0.09 % O2 5/18/23 11:16:01 0.1 0.14 6.33 0.25 0.13 % CO2 5/18/23 11:16:11 0.09 0.14 6.34 0.24 6.34 ppm NOx 5/18/23 11:16:21 0.09 0.14 6.32 0.23 5/18/23 11:16:31 0.09 0.09 6.34 0.26 5/18/23 11:16:41 0.08 0.1 6.36 0.26 5/18/23 11:16:51 0.08 0.09 6.36 0.24 5/18/23 11:17:01 0.07 0.09 6.37 0.23 5/18/23 11:17:11 0.08 0.08 6.36 0.24 5/18/23 11:17:21 0.08 0.07 6.36 0.23 5/18/23 11:17:31 0.17 0.15 6.36 0.24 5/18/23 11:17:41 0.09 0.08 6.36 0.44 5/18/23 11:17:51 0.07 0.08 4.24 1.12 5/18/23 11:18:01 0.07 0.06 0.37 1.91 5/18/23 11:18:11 0.07 0.04 ‐0.18 2.5 5/18/23 11:18:21 0.07 0.06 ‐0.24 2.72 2.75 ppm CO 5/18/23 11:18:31 0.07 0.1 ‐0.29 2.74 5/18/23 11:18:41 0.07 0.06 ‐0.27 2.78 5/18/23 11:18:51 0.07 0.06 ‐0.3 2.76 5/18/23 11:19:01 0.07 0.06 ‐0.32 2.77 5/18/23 11:19:11 0.07 0.05 ‐0.31 2.75 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 11:46:31 10.59 9.07 0.07 0.1 R7 5/18/23 11:46:41 10.61 9.05 0.05 0.04 10.61 % O2 5/18/23 11:46:51 10.6 9 0.04 0 9.05 % CO2 5/18/23 11:47:01 10.61 9.04 0.03 0.03 0.02 ppm NOx 5/18/23 11:47:11 10.61 9.06 0.01 0.03 0.01 ppm CO 5/18/23 11:47:21 10.61 9.08 ‐0.01 ‐0.03 5/18/23 11:47:31 10.6 9.08 ‐0.02 ‐0.02 5/18/23 11:47:41 10.62 9.05 ‐0.13 0 5/18/23 11:47:51 10.61 9.07 ‐0.04 ‐0.02 5/18/23 11:48:01 10.62 9.09 0 0 5/18/23 11:48:11 10.61 9.07 ‐0.01 0 5/18/23 11:48:21 10.58 9.11 ‐0.02 0 5/18/23 11:48:31 10.57 9.09 ‐0.03 0 5/18/23 11:48:41 6.31 5.38 ‐0.04 ‐0.03 5/18/23 11:48:51 0.36 0.82 ‐0.03 ‐0.12 5/18/23 11:49:01 0.15 0.52 2.95 ‐0.08 5/18/23 11:49:11 0.13 0.33 6.42 0.04 5/18/23 11:49:21 0.12 0.24 6.33 0.09 5/18/23 11:49:31 0.11 0.19 6.35 0.13 0.10 % O2 5/18/23 11:49:41 0.11 0.13 6.38 0.12 0.05 % CO2 5/18/23 11:49:51 0.1 0.02 6.39 0.15 6.37 ppm NOx 5/18/23 11:50:01 0.1 ‐0.02 6.4 0.17 5/18/23 11:50:11 0.1 ‐0.04 6.38 0.15 5/18/23 11:50:21 0.1 0.01 6.31 0.12 5/18/23 11:50:31 0.1 ‐0.02 6.28 0.15 5/18/23 11:50:41 0.09 ‐0.06 6.42 0.16 5/18/23 11:50:51 0.09 ‐0.05 6.35 0.16 5/18/23 11:51:01 0.1 ‐0.05 6.33 0.15 5/18/23 11:51:11 0.08 ‐0.06 6.31 0.13 5/18/23 11:51:21 0.08 ‐0.08 6.31 0.15 5/18/23 11:51:31 0.08 ‐0.09 6.31 0.12 5/18/23 11:51:41 0.08 ‐0.07 6.31 0.16 5/18/23 11:51:51 0.15 ‐0.01 6.31 0.16 5/18/23 11:52:01 0.11 ‐0.08 6.31 0.24 5/18/23 11:52:11 0.08 ‐0.1 4.97 0.86 5/18/23 11:52:21 0.07 ‐0.11 0.79 1.67 5/18/23 11:52:31 0.07 ‐0.11 0.02 2.33 5/18/23 11:52:41 0.07 ‐0.1 ‐0.06 2.64 5/18/23 11:52:51 0.07 ‐0.09 ‐0.09 2.76 2.74 ppm CO 5/18/23 11:53:01 0.07 ‐0.11 ‐0.11 2.74 5/18/23 11:53:11 0.06 ‐0.09 ‐0.15 2.71 5/18/23 11:53:21 0.08 ‐0.04 ‐0.19 2.7 5/18/23 11:53:31 0.07 ‐0.1 ‐0.13 2.75 5/18/23 11:53:41 0.06 ‐0.11 ‐0.12 2.75 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 12:22:41 10.76 8.9 0.07 0.08 R8 5/18/23 12:22:51 10.74 8.92 0.05 0.08 10.75 % O2 5/18/23 12:23:01 10.74 8.92 0.05 0.01 8.93 % CO2 5/18/23 12:23:11 10.73 8.93 0.04 0.01 0.04 ppm NOx 5/18/23 12:23:21 10.73 8.94 0.04 0.04 0.03 ppm CO 5/18/23 12:23:31 10.75 8.93 0.04 0.01 5/18/23 12:23:41 10.78 8.93 0.04 0.01 5/18/23 12:23:51 10.78 8.93 0.03 ‐0.02 5/18/23 12:24:01 10.76 8.93 0.02 ‐0.12 5/18/23 12:24:11 10.74 8.95 0.02 ‐0.14 5/18/23 12:24:21 10.81 8.94 ‐0.01 ‐0.1 5/18/23 12:24:31 10.85 8.94 0.01 ‐0.12 5/18/23 12:24:41 7.21 5.94 0 ‐0.12 5/18/23 12:24:51 0.43 0.82 ‐0.01 ‐0.12 5/18/23 12:25:01 0.18 0.4 2.41 0 5/18/23 12:25:11 0.15 0.23 5.79 0.04 5/18/23 12:25:21 0.13 0.13 6.26 0.14 5/18/23 12:25:31 0.12 0.06 6.34 0.19 0.11 % O2 5/18/23 12:25:41 0.11 0.03 6.37 0.19 ‐0.01 % CO2 5/18/23 12:25:51 0.11 ‐0.01 6.38 0.16 6.36 ppm NOx 5/18/23 12:26:01 0.11 ‐0.01 6.41 0.21 5/18/23 12:26:11 0.1 ‐0.05 6.39 0.23 5/18/23 12:26:21 0.11 ‐0.05 6.25 0.19 5/18/23 12:26:31 0.1 ‐0.05 6.45 0.23 5/18/23 12:26:41 0.1 ‐0.06 6.4 0.23 5/18/23 12:26:51 0.1 ‐0.06 6.4 0.2 5/18/23 12:27:01 0.09 ‐0.04 6.4 0.19 5/18/23 12:27:11 0.09 ‐0.07 6.38 0.12 5/18/23 12:27:21 0.1 ‐0.08 6.4 0.14 5/18/23 12:27:31 0.21 0.04 6.4 0.16 5/18/23 12:27:41 0.09 ‐0.06 6 0.61 5/18/23 12:27:51 0.09 ‐0.08 1.7 1.48 5/18/23 12:28:01 0.08 ‐0.09 0.16 2.18 5/18/23 12:28:11 0.08 ‐0.08 0 2.61 5/18/23 12:28:21 0.08 ‐0.09 ‐0.04 2.71 5/18/23 12:28:31 0.08 ‐0.09 ‐0.05 2.69 5/18/23 12:28:41 0.08 ‐0.1 ‐0.07 2.73 2.73 ppm CO 5/18/23 12:28:51 0.07 ‐0.09 ‐0.08 2.73 5/18/23 12:29:01 0.08 ‐0.11 ‐0.08 2.71 5/18/23 12:29:11 0.07 ‐0.09 ‐0.09 2.73 5/18/23 12:29:21 0.07 ‐0.09 ‐0.09 2.73 5/18/23 12:29:31 0.07 ‐0.1 ‐0.09 2.73 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/18/23 12:57:11 10.64 8.66 0.34 ‐0.02 R9 5/18/23 12:57:21 10.63 8.86 0.19 ‐0.06 10.62 % O2 5/18/23 12:57:31 10.63 8.89 0.22 ‐0.05 8.85 % CO2 5/18/23 12:57:41 10.62 8.87 0.15 ‐0.06 0.17 ppm Nox 5/18/23 12:57:51 10.62 8.83 0.13 ‐0.08 ‐0.07 ppm CO 5/18/23 12:58:01 10.61 8.82 0.16 ‐0.09 5/18/23 12:58:11 10.61 8.82 0.14 ‐0.06 5/18/23 12:58:21 10.61 8.84 0.24 ‐0.08 5/18/23 12:58:31 10.61 8.75 0.22 ‐0.07 5/18/23 12:58:41 10.63 8.75 0.23 ‐0.08 5/18/23 12:58:51 10.64 8.71 0.11 ‐0.1 5/18/23 12:59:01 10.72 8.62 0.31 ‐0.11 5/18/23 12:59:11 8.3 7.26 0.23 ‐0.08 5/18/23 12:59:21 0.46 1.06 0.27 ‐0.05 5/18/23 12:59:31 0.15 0.48 1.83 0.01 5/18/23 12:59:41 0.13 0.28 5.64 0.07 5/18/23 12:59:51 0.12 0.15 6.39 0.15 5/18/23 13:00:01 0.11 0.09 6.48 0.15 5/18/23 13:00:11 0.11 0.05 6.37 0.19 0.10 % O2 5/18/23 13:00:21 0.1 0.01 6.31 0.19 ‐0.02 % CO2 5/18/23 13:00:31 0.1 ‐0.01 6.32 0.17 6.33 ppm NOx 5/18/23 13:00:41 0.09 ‐0.04 6.33 0.17 5/18/23 13:00:51 0.09 ‐0.04 6.34 0.15 5/18/23 13:01:01 0.08 ‐0.06 6.32 0.19 5/18/23 13:01:11 0.08 ‐0.04 6.34 0.2 5/18/23 13:01:21 0.08 ‐0.07 6.33 0.2 5/18/23 13:01:31 0.08 ‐0.06 6.35 0.1 5/18/23 13:01:41 0.08 ‐0.06 6.32 0.09 5/18/23 13:01:51 0.21 0.04 6.36 0.12 5/18/23 13:02:01 0.07 ‐0.05 6.27 0.43 5/18/23 13:02:11 0.07 ‐0.07 2.85 1.26 5/18/23 13:02:21 0.08 ‐0.07 0.39 2.03 5/18/23 13:02:31 0.07 ‐0.08 0.14 2.5 5/18/23 13:02:41 0.07 ‐0.07 0.1 2.67 5/18/23 13:02:51 0.07 ‐0.08 0.07 2.69 2.71 ppm CO 5/18/23 13:03:01 0.07 ‐0.09 0.06 2.68 5/18/23 13:03:11 0.07 ‐0.09 0.05 2.75 5/18/23 13:03:21 0.07 ‐0.09 0.04 2.71 5/18/23 13:03:31 0.07 ‐0.07 0.04 2.71 5/18/23 13:03:41 0.07 ‐0.1 0.03 2.69 *3$6E573MJH E RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.3.2 Unit CT12 GP043AS-023429-RT-1331 Page 197 of 261 PROJ‐023429 PacifiCorp Lakeside CT12 5/19/2023 Initial Linearity Initial Gas ID Concentration Value Response Error OK? O2 n/a Low 0 0.03 0.1% Y EB0094234 Mid 10.67 10.67 0.0% Y CC198046 High 21 21.01 0.1% Y CO2 n/a Low 0 ‐0.04 0.2% Y EB0094234 Mid 8.895 9.00 0.6% Y CC198046 High 17.76 17.75 0.1% Y NOx n/a Low 0 ‐0.05 0.4% Y CC73404 Mid 6.316 6.29 0.2% Y CC703698 High 12.17 12.24 0.6% Y CO n/a Low 0 0.01 0.1% Y CC306048 Mid 2.773 2.73 0.8% Y XC023876B High 5.938 5.97 0.5% Y *3$6E573DJH E RI PROJ‐023429 PacifiCorp Lakeside CT12 5/19/2023 Analyzer Bias Checks Start Time 7:17 Start Time 7:54 Start Time 8:30 Start Time 9:06 Start Time 9:44 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 7:37 Stop Time 8:14 Stop Time 8:50 Stop Time 9:26 Stop Time 10:04 Gas Analyzer Gas Concentration Value Response Initial Bias Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift O2 Low 0.03 0.01 ‐0.1% 0.06 0.3% 0.3% 0.02 0.0% 0.2% 0.05 0.2% 0.1% 0.01 0.0% 0.2% 0 0.0% 0.0% Span 10.67 10.69 0.1% 10.79 0.5% 0.4% 10.79 0.5% 0.0% 10.79 0.5% 0.0% 10.67 ‐0.1% 0.5% 10.74 0.3% 0.3% CO2 Low ‐0.04 0.06 0.6% 0.11 0.3% 0.3% 0.08 0.1% 0.1% 0.09 0.2% 0.0% 0.10 0.3% 0.1% 0.05 0.0% 0.3% Span 9.00 8.90 0.5% 9.03 0.7% 0.2% 9.12 1.2% 0.5% 9.12 1.2% 0.0% 9.14 1.3% 0.1% 9.10 1.1% 0.2% NOx Low ‐0.05 0.18 1.9% 0.18 0.0% 1.9% 0.06 ‐1.0% 1.0% 0.14 ‐0.3% 0.7% 0.03 ‐1.2% 0.9% 0.14 ‐0.3% 0.9% Span 12.24 12.21 ‐0.2% 12.10 ‐0.9% 0.7% 12.21 ‐0.1% 0.8% 12.24 0.2% 0.3% 12.20 ‐0.1% 0.3% 12.14 ‐0.6% 0.5% CO Low 0.01 0.03 0.4% 0.00 ‐0.6% 1.0% ‐0.02 ‐0.8% 0.2% 0.05 0.3% 1.1% ‐0.03 ‐1.0% 1.2% 0.05 0.4% 1.3% Span 5.97 6.04 1.1% 5.96 1.2% 0.1% 6.04 0.1% 1.2% 6.04 0.0% 0.1% 5.94 ‐1.6% 1.6% 6.00 ‐0.7% 0.9% ≤5%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 1 Run 2 Run 3 Run 4 Run 5 *3$6E573DJH EE RI PROJ‐023429 PacifiCorp Lakeside CT12 5/19/2023 Analyzer Bias Checks Gas Gas Concentration Value O2 Low 0.03 Span 10.67 CO2 Low ‐0.04 Span 9.00 NOx Low ‐0.05 Span 12.24 CO Low 0.01 Span 5.97 Start Time 10:31 Start Time 10:57 Start Time 11:32 Start Time 12:06 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 10:51 Stop Time 11:17 Stop Time 11:52 Stop Time 12:26 Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift ‐0.04 ‐0.2% 0.2% ‐0.02 0.1% 0.4% 0.00 0.0% 0.2% ‐0.03 ‐0.2% 0.2% 10.63 ‐0.3% 0.5% 10.67 ‐0.1% 0.2% 10.66 ‐0.2% 0.0% 10.82 0.6% 0.8% 0.10 0.2% 0.3% 0.02 ‐0.2% 0.5% 0.08 0.1% 0.3% 0.01 ‐0.3% 0.4% 9.13 1.3% 0.2% 9.08 1.0% 0.3% 9.10 1.1% 0.1% 8.78 ‐0.7% 1.8% 0.17 ‐0.1% 0.3% ‐0.01 ‐1.6% 1.5% ‐0.02 ‐1.6% 0.1% 0.13 ‐0.4% 1.2% 12.20 ‐0.1% 0.5% 12.18 ‐0.3% 0.1% 12.25 0.3% 0.5% 12.25 0.3% 0.0% ‐0.08 ‐1.9% 2.2% ‐0.04 ‐1.2% 0.7% ‐0.01 ‐0.6% 0.5% 0.06 0.4% 1.1% 5.97 ‐1.2% 0.5% 5.95 ‐1.5% 0.3% 5.97 ‐1.1% 0.4% 5.89 ‐2.4% 1.3% ≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 7 Run 8 Run 9Run 6 *3$6E573DJH RI Time O2 CO2 NOx CO 5/19/23 5:46:41 0.01 ‐0.11 12.73 0.04 Calibration Error Tests 5/19/23 5:46:51 0.02 ‐0.04 12.76 0.04 0.03 % O2 5/19/23 5:47:01 0.02 ‐0.01 12.77 0.03 ‐0.04 % CO2 5/19/23 5:47:11 0.03 ‐0.03 12.79 0.02 5/19/23 5:47:21 0.03 ‐0.05 12.83 0.05 5/19/23 5:47:31 0.04 ‐0.06 12.81 0.06 5/19/23 5:47:41 0.03 ‐0.06 12.82 0.04 5/19/23 5:47:51 0.03 15.64 12.82 0.02 5/19/23 5:48:01 ‐0.9 18.09 12.34 ‐0.09 5/19/23 5:48:11 ‐13.16 18.17 4.89 ‐0.26 5/19/23 5:48:21 ‐20.41 18.2 0.68 ‐0.37 5/19/23 5:48:31 12.78 18.19 0.1 ‐0.41 5/19/23 5:48:41 21.34 17.75 0 ‐0.4 5/19/23 5:48:51 21.38 17.73 ‐0.06 ‐0.4 5/19/23 5:49:01 21.39 17.74 ‐0.1 ‐0.37 5/19/23 5:49:11 21.17 17.75 ‐0.11 ‐0.39 5/19/23 5:49:21 21.61 17.72 ‐0.12 ‐0.39 5/19/23 5:49:31 21.02 17.74 ‐0.14 ‐0.36 21.01 % O2 5/19/23 5:49:41 21.01 17.77 ‐0.05 ‐0.38 17.75 % CO2 5/19/23 5:49:51 21.01 17.75 0 ‐0.39 5/19/23 5:50:01 21.01 17.73 ‐0.01 ‐0.38 5/19/23 5:50:11 21.02 17.73 ‐0.01 ‐0.38 5/19/23 5:50:21 21.01 17.75 ‐0.01 ‐0.4 5/19/23 5:50:31 21.02 17.41 ‐0.03 ‐0.41 5/19/23 5:50:41 21.02 9.78 ‐0.04 ‐0.37 5/19/23 5:50:51 20.71 9.1 ‐0.04 ‐0.32 5/19/23 5:51:01 15.04 9.05 ‐0.05 ‐0.28 5/19/23 5:51:11 11.25 9.04 ‐0.04 ‐0.25 5/19/23 5:51:21 10.73 9.03 ‐0.04 ‐0.24 5/19/23 5:51:31 10.67 9.03 ‐0.06 ‐0.23 5/19/23 5:51:41 10.65 9.02 ‐0.03 ‐0.1 5/19/23 5:51:51 10.63 8.99 ‐0.04 ‐0.1 5/19/23 5:52:01 10.63 8.99 ‐0.04 ‐0.12 5/19/23 5:52:11 10.63 9 0.03 ‐0.09 5/19/23 5:52:21 10.63 8.99 ‐0.04 ‐0.07 5/19/23 5:52:31 10.63 9 ‐0.07 ‐0.01 5/19/23 5:52:41 10.52 8.99 ‐0.06 ‐0.01 5/19/23 5:52:51 10.67 8.98 ‐0.05 ‐0.01 10.67 % O2 5/19/23 5:53:01 10.67 8.99 ‐0.03 0 9.00 % CO2 5/19/23 5:53:11 10.68 8.99 ‐0.05 0.02 0.01 ppm CO 5/19/23 5:53:21 10.67 9.01 ‐0.05 0.01 ‐0.05 ppm Nox 5/19/23 5:53:31 10.68 9.02 ‐0.06 0 5/19/23 5:53:41 10.67 9 ‐0.07 0.02 5/19/23 5:53:51 10.67 8.36 ‐0.06 0 5/19/23 5:54:01 10.67 0.74 ‐0.07 0.01 5/19/23 5:54:11 10.31 0.13 0.3 0.06 5/19/23 5:54:21 4.78 0.08 6.68 0.15 5/19/23 5:54:31 0.71 0.05 11.27 0.22 5/19/23 5:54:41 0.14 0.05 12.04 0.26 5/19/23 5:54:51 0.05 0.02 12.16 0.29 5/19/23 5:55:01 0.03 0.01 12.21 0.32 5/19/23 5:55:11 0.01 0.03 12.29 0.32 5/19/23 5:55:21 0012.17 0.3 12.19 ppm NOx 5/19/23 5:55:31 0012.18 0.3 5/19/23 5:55:41 0 ‐0.01 12.19 0.31 5/19/23 5:55:51 0 0.01 12.2 0.31 5/19/23 5:56:01 ‐0.01 ‐0.01 12.21 0.29 5/19/23 5:56:11 ‐0.01 0 12.2 0.3 5/19/23 5:56:21 ‐0.01 0.01 12.19 0.31 5/19/23 5:56:31 ‐0.01 0.03 12.2 0.32 5/19/23 5:56:41 ‐0.01 0.02 12.21 0.32 5/19/23 5:56:51 0.01 0.01 12.14 0.33 5/19/23 5:57:01 0.26 0.01 9.75 0.34 5/19/23 5:57:11 0.07 0.01 6.82 0.32 5/19/23 5:57:21 ‐0.01 0 6.29 0.32 5/19/23 5:57:31 ‐0.01 0 6.2 0.35 5/19/23 5:57:41 ‐0.02 ‐0.01 6.2 0.37 5/19/23 5:57:51 ‐0.02 0.01 6.31 0.36 6.29 ppm NOx 5/19/23 5:58:01 ‐0.03 ‐0.01 6.3 0.33 5/19/23 5:58:11 ‐0.02 ‐0.01 6.28 0.32 5/19/23 5:58:21 ‐0.02 ‐0.01 6.29 0.33 5/19/23 5:58:31 ‐0.02 0 6.28 0.32 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 5:58:41 ‐0.03 0 6.28 0.34 5/19/23 5:58:51 ‐0.03 0.02 6.28 0.34 5/19/23 5:59:01 ‐0.03 0 6.29 0.31 5/19/23 5:59:11 ‐0.03 ‐0.01 6.28 0.31 5/19/23 5:59:21 ‐0.02 0.28 6.28 0.34 5/19/23 5:59:31 ‐0.01 ‐0.02 6.27 1.09 5/19/23 5:59:41 0.32 ‐0.01 3.78 2.7 5/19/23 5:59:51 0.06 ‐0.02 0.64 4.32 5/19/23 6:00:01 ‐0.04 ‐0.01 0.14 5.36 5/19/23 6:00:11 ‐0.04 ‐0.01 0.06 5.74 5/19/23 6:00:21 ‐0.05 0 0.02 5.83 5/19/23 6:00:31 ‐0.05 ‐0.02 0 5.84 5/19/23 6:00:41 ‐0.06 ‐0.03 0.01 5.94 5/19/23 6:00:51 ‐0.05 ‐0.05 ‐0.01 6.07 5/19/23 6:01:01 ‐0.05 ‐0.03 ‐0.04 6.09 5/19/23 6:01:11 ‐0.05 ‐0.04 ‐0.04 6.04 5/19/23 6:01:21 ‐0.05 ‐0.03 ‐0.05 6.01 5/19/23 6:01:31 ‐0.04 ‐0.04 ‐0.04 6 5/19/23 6:01:41 ‐0.05 ‐0.03 ‐0.01 6.02 5/19/23 6:01:51 ‐0.05 ‐0.03 ‐0.05 6.01 5/19/23 6:02:01 ‐0.05 ‐0.02 ‐0.04 5.98 5.97 ppm CO 5/19/23 6:02:11 ‐0.05 ‐0.05 0.02 5.98 5/19/23 6:02:21 ‐0.05 ‐0.02 ‐0.06 6 5/19/23 6:02:31 ‐0.05 ‐0.04 ‐0.05 5.96 5/19/23 6:02:41 ‐0.05 ‐0.03 ‐0.06 5.93 5/19/23 6:02:51 ‐0.05 ‐0.01 ‐0.07 5.97 5/19/23 6:03:01 ‐0.05 ‐0.02 ‐0.06 5.99 5/19/23 6:03:11 ‐0.05 ‐0.02 ‐0.06 5.96 5/19/23 6:03:21 ‐0.05 ‐0.03 ‐0.08 5.96 5/19/23 6:03:31 ‐0.04 ‐0.02 ‐0.06 5.66 5/19/23 6:03:41 0.16 ‐0.03 ‐0.05 4.86 5/19/23 6:03:51 0.02 0 ‐0.06 3.99 5/19/23 6:04:01 ‐0.05 ‐0.01 ‐0.07 3.44 5/19/23 6:04:11 ‐0.06 ‐0.03 ‐0.08 3.17 5/19/23 6:04:21 ‐0.06 ‐0.04 ‐0.08 3.13 5/19/23 6:04:31 ‐0.06 ‐0.04 ‐0.07 3.03 5/19/23 6:04:41 ‐0.05 ‐0.02 ‐0.07 2.74 2.73 ppm CO 5/19/23 6:04:51 ‐0.06 ‐0.03 ‐0.06 2.74 5/19/23 6:05:01 ‐0.05 ‐0.02 ‐0.07 2.73 5/19/23 6:05:11 ‐0.06 ‐0.04 ‐0.07 2.73 5/19/23 6:05:21 ‐0.06 ‐0.04 ‐0.06 2.72 5/19/23 6:05:31 ‐0.06 ‐0.02 ‐0.07 2.7 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 6:17:21 ‐0.01 4.28 12.52 0.28 5/19/23 6:17:31 ‐0.02 9.22 12.35 0.22 5/19/23 6:17:41 2.15 8.74 11.25 0.13 5/19/23 6:17:51 9.7 8.78 3.57 0.05 5/19/23 6:18:01 10.49 8.81 0.83 0.01 5/19/23 6:18:11 10.49 8.82 0.45 0.02 5/19/23 6:18:21 10.52 8.85 0.27 0.03 5/19/23 6:18:31 10.28 8.86 0.23 0.03 System Bias 5/19/23 6:18:41 10.69 8.87 0.2 0.02 10.69 % O2 5/19/23 6:18:51 10.69 8.89 0.2 0.04 8.90 % CO2 5/19/23 6:19:01 10.69 8.9 0.18 0.05 0.18 ppm NOx 5/19/23 6:19:11 10.68 8.92 0.16 0.02 0.03 ppm CO 5/19/23 6:19:21 10.68 8.91 0.19 0.03 5/19/23 6:19:31 10.69 8.92 0.15 0.03 5/19/23 6:19:41 10.7 8.92 0.14 0.04 5/19/23 6:19:51 10.68 8.94 0.13 0.06 5/19/23 6:20:01 10.7 8.93 0.13 0.04 5/19/23 6:20:11 10.7 8.93 0.23 0.01 5/19/23 6:20:21 10.7 8.93 0.31 0.02 5/19/23 6:20:31 10.7 8.94 0.27 0.05 5/19/23 6:20:41 10.7 5.99 0.36 0.04 5/19/23 6:20:51 10.7 0.48 0.23 0.06 5/19/23 6:21:01 9.66 0.27 1.11 0.14 5/19/23 6:21:11 3.38 0.22 8.19 0.21 5/19/23 6:21:21 0.54 0.18 11.76 0.25 5/19/23 6:21:31 0.16 0.15 12.33 0.29 5/19/23 6:21:41 0.08 0.12 12.45 0.28 5/19/23 6:21:51 0.06 0.12 12.49 0.27 5/19/23 6:22:01 0.03 0.12 12.54 0.29 5/19/23 6:22:11 0.02 0.1 12.54 0.3 5/19/23 6:22:21 0.02 0.09 12.55 0.28 5/19/23 6:22:31 0.01 0.07 12.22 0.28 12.21 ppm NOx 5/19/23 6:22:41 0.02 0.06 12.2 0.29 0.01 % O2 5/19/23 6:22:51 0.01 0.06 12.2 0.29 0.06 % CO2 5/19/23 6:23:01 0.01 0.06 12.21 0.29 5/19/23 6:23:11 0.01 0.05 12.22 0.27 5/19/23 6:23:21 0 0.05 12.22 0.29 5/19/23 6:23:31 0 0.07 12.23 0.3 5/19/23 6:23:41 0 0.05 12.25 0.3 5/19/23 6:23:51 0 0.05 12.24 0.3 5/19/23 6:24:01 0 0.06 12.26 0.32 5/19/23 6:24:11 ‐0.01 0.05 12.26 0.3 5/19/23 6:24:21 ‐0.01 0.06 12.28 0.29 5/19/23 6:24:31 ‐0.01 0.1 12.28 0.3 5/19/23 6:24:41 1.38 0.09 11.55 0.33 5/19/23 6:24:51 10.8 0.05 6.04 0.94 5/19/23 6:25:01 4.05 0.03 6.37 2.31 5/19/23 6:25:11 0.45 0.03 1.65 3.77 5/19/23 6:25:21 0.07 0.03 0.58 4.76 5/19/23 6:25:31 0.02 0.02 0.41 5.18 5/19/23 6:25:41 0 0.04 0.37 5.29 5/19/23 6:25:51 ‐0.01 0.01 0.34 5.69 5/19/23 6:26:01 ‐0.02 0.02 0.32 5.96 5/19/23 6:26:11 ‐0.02 0.02 0.33 5.95 5/19/23 6:26:21 ‐0.03 0.01 0.32 6.01 6.04 ppm CO 5/19/23 6:26:31 ‐0.03 0.02 0.38 6.03 5/19/23 6:26:41 ‐0.03 0.03 0.35 6.06 5/19/23 6:26:51 ‐0.03 0.04 0.33 6.04 5/19/23 6:27:01 ‐0.02 0.04 0.33 6.03 5/19/23 6:27:11 ‐0.03 0.03 0.33 6.05 5/19/23 6:27:21 ‐0.03 0.03 0.33 6.06 5/19/23 6:27:31 ‐0.03 0.03 0.34 6.06 5/19/23 6:27:41 ‐0.02 0.02 0.36 6.05 5/19/23 6:27:51 ‐0.03 0.02 0.35 6.04 5/19/23 6:28:01 ‐0.03 0.02 0.35 6.04 5/19/23 6:28:11 ‐0.03 0.02 0.38 6.02 5/19/23 6:28:21 ‐0.02 4.85 0.38 6 5/19/23 6:28:31 ‐0.02 8.69 0.39 5.13 5/19/23 6:28:41 2.74 8.81 0.42 3.41 5/19/23 6:28:51 8.96 8.86 0.45 1.75 5/19/23 6:29:01 10.47 8.9 0.43 0.71 5/19/23 6:29:11 10.66 8.92 0.38 0.26 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 6:29:21 10.71 8.94 0.22 0.12 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 7:40:21 10.8 9 0.22 ‐0.05 R1 5/19/23 7:40:31 10.8 9.02 0.21 ‐0.01 10.79 % O2 5/19/23 7:40:41 10.79 9.03 0.19 ‐0.03 9.03 % CO2 5/19/23 7:40:51 10.79 9.02 0.18 0 0.18 ppm NOx 5/19/23 7:41:01 10.79 9.04 0.17 0 0.00 ppm CO 5/19/23 7:41:11 10.78 9.02 0.17 0.02 5/19/23 7:41:21 10.78 9.02 0.15 0 5/19/23 7:41:31 10.78 9.04 0.15 ‐0.02 5/19/23 7:41:41 10.78 9.04 0.17 0.02 5/19/23 7:41:51 10.78 9.04 0.14 0.01 5/19/23 7:42:01 10.78 9.06 0.13 ‐0.01 5/19/23 7:42:11 10.79 9.07 0.13 0 5/19/23 7:42:21 10.79 4.69 0.12 0.01 5/19/23 7:42:31 10.76 0.37 0.12 0.07 5/19/23 7:42:41 7.11 0.25 3.13 0.15 5/19/23 7:42:51 1.33 0.21 10.21 0.2 5/19/23 7:43:01 0.3 0.17 11.71 0.25 5/19/23 7:43:11 0.16 0.13 11.94 0.23 5/19/23 7:43:21 0.12 0.1 12.1 0.23 5/19/23 7:43:31 0.09 0.11 12.06 0.25 0.06 % O2 5/19/23 7:43:41 0.07 0.1 12.08 0.27 0.11 % CO2 5/19/23 7:43:51 0.06 0.11 12.07 0.27 12.10 ppm NOx 5/19/23 7:44:01 0.06 0.09 12.19 0.25 5/19/23 7:44:11 0.05 0.11 12.13 0.25 5/19/23 7:44:21 0.05 0.11 12.09 0.25 5/19/23 7:44:31 0.04 0.09 12.14 0.27 5/19/23 7:44:41 0.05 0.06 12.13 0.27 5/19/23 7:44:51 0.04 0.08 12.16 0.22 5/19/23 7:45:01 0.03 0.08 12.13 0.24 5/19/23 7:45:11 0.04 0.07 12.13 0.23 5/19/23 7:45:21 0.03 0.08 12.1 0.24 5/19/23 7:45:31 0.03 0.08 12.07 0.25 5/19/23 7:45:41 0.03 0.08 12.07 0.23 5/19/23 7:45:51 0.03 0.21 12.07 0.23 5/19/23 7:46:01 0.03 0.69 12.08 0.25 5/19/23 7:46:11 0.44 0.06 11.93 0.45 5/19/23 7:46:21 1.33 0.05 10.21 1.77 5/19/23 7:46:31 0.23 0.04 3.74 3.44 5/19/23 7:46:41 0.03 0.04 0.74 4.81 5/19/23 7:46:51 0.01 0.03 0.33 5.48 5/19/23 7:47:01 0.01 0.06 0.27 5.71 5/19/23 7:47:11 ‐0.01 0.05 0.19 5.73 5/19/23 7:47:21 0 0.05 0.16 5.74 5/19/23 7:47:31 0 0.05 0.13 5.72 5/19/23 7:47:41 ‐0.01 0.03 0.11 5.92 5.96 ppm CO 5/19/23 7:47:51 ‐0.01 0.04 0.1 5.97 5/19/23 7:48:01 ‐0.01 0.05 0.09 5.98 5/19/23 7:48:11 0 0.04 0.08 6 5/19/23 7:48:21 ‐0.01 0.05 0.08 5.97 5/19/23 7:48:31 ‐0.02 0.04 0.08 5.94 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 8:17:01 10.84 9.1 0.1 ‐0.1 R2 5/19/23 8:17:11 10.81 9.1 0.09 ‐0.04 10.79 % O2 5/19/23 8:17:21 10.79 9.13 0.07 ‐0.03 9.12 % CO2 5/19/23 8:17:31 10.79 9.11 0.06 ‐0.03 0.06 ppm Nox 5/19/23 8:17:41 10.78 9.15 0.04 0.01 ‐0.02 ppm CO 5/19/23 8:17:51 10.79 9.11 0.05 0.01 5/19/23 8:18:01 10.78 9.12 0.04 ‐0.02 5/19/23 8:18:11 10.78 9.14 0.03 ‐0.01 5/19/23 8:18:21 10.77 9.12 0.04 ‐0.03 5/19/23 8:18:31 10.78 9.12 0.05 0 5/19/23 8:18:41 10.77 9.13 0.03 ‐0.03 5/19/23 8:18:51 10.78 9.13 0.04 ‐0.03 5/19/23 8:19:01 10.77 9.16 0.03 ‐0.03 5/19/23 8:19:11 10.77 4.43 0.02 ‐0.03 5/19/23 8:19:21 10.75 0.35 0.03 0.05 5/19/23 8:19:31 7.78 0.24 2.46 0.14 5/19/23 8:19:41 1.65 0.19 9.29 0.2 5/19/23 8:19:51 0.3 0.15 11.2 0.26 5/19/23 8:20:01 0.14 0.14 11.44 0.3 5/19/23 8:20:11 0.09 0.11 11.55 0.28 5/19/23 8:20:21 0.06 0.12 11.59 0.3 5/19/23 8:20:31 0.04 0.11 11.61 0.3 5/19/23 8:20:41 0.03 0.09 11.91 0.26 5/19/23 8:20:51 0.03 0.11 12.16 0.33 0.02 % O2 5/19/23 8:21:01 0.02 0.08 12.19 0.32 0.08 % CO2 5/19/23 8:21:11 0.02 0.1 12.2 0.31 12.21 ppm NOx 5/19/23 8:21:21 0.02 0.08 12.22 0.3 5/19/23 8:21:31 0.01 0.06 12.23 0.32 5/19/23 8:21:41 0.01 0.07 12.23 0.29 5/19/23 8:21:51 0.01 0.08 12.25 0.3 5/19/23 8:22:01 0 0.06 12.25 0.31 5/19/23 8:22:11 0 0.07 12.26 0.31 5/19/23 8:22:21 0 0.06 12.25 0.26 5/19/23 8:22:31 0 0.08 12.26 0.28 5/19/23 8:22:41 0 0.05 12.3 0.31 5/19/23 8:22:51 0 0.03 12.3 0.28 5/19/23 8:23:01 0 0.05 12.27 1.1 5/19/23 8:23:11 ‐0.01 0.04 8.47 3.1 5/19/23 8:23:21 ‐0.02 0.04 1.7 4.84 5/19/23 8:23:31 ‐0.02 0.04 0.37 5.87 5/19/23 8:23:41 ‐0.02 0.04 0.21 6.17 5/19/23 8:23:51 ‐0.03 0.03 0.12 6.21 5/19/23 8:24:01 ‐0.02 0.04 0.1 6.14 5/19/23 8:24:11 ‐0.03 0.02 0.08 6.05 6.04 ppm CO 5/19/23 8:24:21 ‐0.03 0.02 0.05 6.01 5/19/23 8:24:31 ‐0.02 0.03 0.05 6.05 5/19/23 8:24:41 ‐0.03 0.02 0.02 6.03 5/19/23 8:24:51 ‐0.03 0.03 0.04 6.05 5/19/23 8:25:01 ‐0.03 0.02 0.03 6.05 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 8:53:31 10.81 9.11 0.17 0.02 R3 5/19/23 8:53:41 10.78 9.12 0.16 0.03 10.79 % O2 5/19/23 8:53:51 10.79 9.13 0.15 0.04 9.12 % CO2 5/19/23 8:54:01 10.79 9.13 0.15 0.06 0.14 ppm Nox 5/19/23 8:54:11 10.79 9.12 0.14 0.08 0.05 ppm CO 5/19/23 8:54:21 10.78 9.12 0.12 0.03 5/19/23 8:54:31 10.78 9.12 0.13 0.04 5/19/23 8:54:41 10.78 9.12 0.12 0.03 5/19/23 8:54:51 10.78 9.15 0.12 0.06 5/19/23 8:55:01 10.77 9.14 0.11 0.04 5/19/23 8:55:11 10.78 9.13 0.1 0.04 5/19/23 8:55:21 10.78 7.34 0.1 0.02 5/19/23 8:55:31 10.78 0.55 0.09 0.05 5/19/23 8:55:41 9.79 0.25 0.8 0.09 5/19/23 8:55:51 3.38 0.19 7.43 0.17 5/19/23 8:56:01 0.53 0.15 10.9 0.24 5/19/23 8:56:11 0.17 0.14 11.43 0.33 5/19/23 8:56:21 0.11 0.11 11.79 0.31 5/19/23 8:56:31 0.07 0.11 12.2 0.35 0.05 % O2 5/19/23 8:56:41 0.06 0.09 12.2 0.33 0.09 % CO2 5/19/23 8:56:51 0.05 0.07 12.27 0.31 12.24 ppm Nox 5/19/23 8:57:01 0.04 0.09 12.3 0.31 5/19/23 8:57:11 0.02 0.09 12.24 0.35 5/19/23 8:57:21 0.03 0.08 12.24 0.33 5/19/23 8:57:31 0.02 0.07 12.26 0.35 5/19/23 8:57:41 0.02 0.07 12.25 0.35 5/19/23 8:57:51 0.01 0.07 12.16 0.32 5/19/23 8:58:01 0.01 0.05 12.16 0.33 5/19/23 8:58:11 0.02 0.1 12.18 0.35 5/19/23 8:58:21 0.01 0.26 12.2 0.41 5/19/23 8:58:31 0.05 0.04 12.08 1.42 5/19/23 8:58:41 0.19 0.03 6.61 3.33 5/19/23 8:58:51 0.03 0.02 1.23 4.91 5/19/23 8:59:01 ‐0.02 0.04 0.37 5.75 5/19/23 8:59:11 ‐0.02 0.01 0.23 6.01 5/19/23 8:59:21 ‐0.02 0.02 0.18 6.07 5/19/23 8:59:31 ‐0.02 0.04 0.15 6.11 5/19/23 8:59:41 ‐0.02 0.03 0.13 6.13 5/19/23 8:59:51 ‐0.02 0.04 0.18 6.05 6.04 ppm CO 5/19/23 9:00:01 ‐0.03 0.04 0.1 6.05 5/19/23 9:00:11 ‐0.03 0.03 0.11 6.01 5/19/23 9:00:21 ‐0.03 0.02 0.11 6.03 5/19/23 9:00:31 ‐0.03 0.02 0.09 6.03 5/19/23 9:00:41 ‐0.03 0.03 0.08 6.05 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 9:31:01 10.68 9.12 0.03 0.02 R4 5/19/23 9:31:11 10.68 9.14 0.01 0 10.67 % O2 5/19/23 9:31:21 10.68 9.13 0.02 ‐0.04 9.14 % CO2 5/19/23 9:31:31 10.67 9.13 0.01 ‐0.06 0.03 ppm NOx 5/19/23 9:31:41 10.67 9.12 0.13 ‐0.06 ‐0.03 ppm CO 5/19/23 9:31:51 10.67 9.15 0.01 0.01 5/19/23 9:32:01 10.67 9.14 0.01 0 5/19/23 9:32:11 10.66 9.16 0 ‐0.02 5/19/23 9:32:21 10.67 9.14 ‐0.01 ‐0.01 5/19/23 9:32:31 10.67 9.16 ‐0.01 0 5/19/23 9:32:41 10.67 9.16 ‐0.02 ‐0.15 5/19/23 9:32:51 10.65 9.13 0.08 ‐0.13 5/19/23 9:33:01 10.66 3.43 ‐0.02 ‐0.12 5/19/23 9:33:11 10.56 0.34 0 ‐0.11 5/19/23 9:33:21 5.89 0.24 4.69 ‐0.02 5/19/23 9:33:31 0.84 0.2 10.71 0.06 5/19/23 9:33:41 0.11 0.18 11.81 0.09 5/19/23 9:33:51 0 0.17 12.01 0.13 5/19/23 9:34:01 ‐0.03 0.17 12.1 0.15 5/19/23 9:34:11 ‐0.05 0.15 12.05 0.13 5/19/23 9:34:21 ‐0.06 0.15 12.02 0.13 5/19/23 9:34:31 ‐0.06 0.12 12.04 0.15 5/19/23 9:34:41 ‐0.03 0.11 12.08 0.15 5/19/23 9:34:51 0.02 0.13 12.09 0.14 5/19/23 9:35:01 0.01 0.12 12.11 0.11 0.01 % O2 5/19/23 9:35:11 0.01 0.12 12.13 0.13 0.10 % CO2 5/19/23 9:35:21 0.01 0.11 12.25 0.13 12.20 ppm NOx 5/19/23 9:35:31 0.01 0.1 12.29 0.16 5/19/23 9:35:41 0.01 0.09 12.21 0.16 5/19/23 9:35:51 0.01 0.08 12.21 0.13 5/19/23 9:36:01 0 0.09 12.22 0.13 5/19/23 9:36:11 0 0.09 12.25 0.15 5/19/23 9:36:21 0 0.09 12.24 0.15 5/19/23 9:36:31 0 0.07 12.25 0.15 5/19/23 9:36:41 0 0.07 12.26 0.15 5/19/23 9:36:51 ‐0.01 0.37 12.27 0.15 5/19/23 9:37:01 ‐0.01 0.2 12.28 0.34 5/19/23 9:37:11 0.18 0.08 11.29 1.52 5/19/23 9:37:21 0.22 0.06 3.57 3.42 5/19/23 9:37:31 ‐0.01 0.05 0.71 4.92 5/19/23 9:37:41 ‐0.04 0.05 0.37 5.66 5/19/23 9:37:51 ‐0.04 0.04 0.29 5.88 5/19/23 9:38:01 ‐0.03 0.05 0.26 5.93 5.94 ppm CO 5/19/23 9:38:11 ‐0.04 0.05 0.24 5.93 5/19/23 9:38:21 ‐0.04 0.05 0.22 5.93 5/19/23 9:38:31 ‐0.04 0.05 0.2 5.93 5/19/23 9:38:41 ‐0.03 0.04 0.2 5.97 5/19/23 9:38:51 ‐0.04 0.04 0.21 5.96 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 10:07:31 10.75 9.08 0.17 ‐0.03 R5 5/19/23 10:07:41 10.74 9.09 0.15 0.06 10.74 % O2 5/19/23 10:07:51 10.75 9.1 0.16 0.05 9.10 % CO2 5/19/23 10:08:01 10.74 9.09 0.13 0.03 0.14 ppm NOx 5/19/23 10:08:11 10.74 9.09 0.13 0.03 0.05 ppm CO 5/19/23 10:08:21 10.74 9.1 0.13 0.07 5/19/23 10:08:31 10.74 9.1 0.13 0.08 5/19/23 10:08:41 10.74 9.09 0.13 0.04 5/19/23 10:08:51 10.74 9.11 0.13 0.05 5/19/23 10:09:01 10.73 9.11 0.12 0.05 5/19/23 10:09:11 10.73 9.07 0.12 0.05 5/19/23 10:09:21 10.74 7.34 0.11 0.08 5/19/23 10:09:31 10.73 0.47 0.12 0.09 5/19/23 10:09:41 9.2 0.23 1.68 0.12 5/19/23 10:09:51 2.44 0.17 9.16 0.2 5/19/23 10:10:01 0.37 0.11 11.67 0.29 5/19/23 10:10:11 0.15 0.1 11.97 0.32 5/19/23 10:10:21 0.1 0.09 12.04 0.36 5/19/23 10:10:31 0.07 0.07 12.09 0.37 5/19/23 10:10:41 0.06 0.05 12.11 0.34 0.04 % O2 5/19/23 10:10:51 0.05 0.05 12.13 0.36 0.04 % CO2 5/19/23 10:11:01 0.04 0.04 12.13 0.37 12.14 ppm NOx 5/19/23 10:11:11 0.04 0.04 12.14 0.36 5/19/23 10:11:21 0.03 0.04 12.15 0.35 5/19/23 10:11:31 0.03 0.02 12.16 0.33 5/19/23 10:11:41 0.02 0.02 12.16 0.35 5/19/23 10:11:51 0.03 0.04 12.17 0.33 5/19/23 10:12:01 0.02 0.02 12.17 0.36 5/19/23 10:12:11 0.02 0.01 12.19 0.35 5/19/23 10:12:21 0.02 0.03 12.17 0.37 5/19/23 10:12:31 0.02 0.23 12.18 0.4 5/19/23 10:12:41 0.02 0 12.19 0.87 5/19/23 10:12:51 0.19 0 8.72 2.41 5/19/23 10:13:01 0.07 0 1.66 4.18 5/19/23 10:13:11 0.01 ‐0.01 0.37 5.43 5/19/23 10:13:21 0.01 0 0.19 5.96 5/19/23 10:13:31 0.01 0.01 0.13 6.07 5/19/23 10:13:41 0.01 0 0.1 6.12 5/19/23 10:13:51 0.01 0 0.09 6.12 5/19/23 10:14:01 0 0 0.07 6.09 5/19/23 10:14:11 0 ‐0.01 0.06 6.05 6.00 ppm CO 5/19/23 10:14:21 0 ‐0.01 0.09 5.95 5/19/23 10:14:31 0 ‐0.01 0.04 5.97 5/19/23 10:14:41 0 ‐0.01 0.04 5.98 5/19/23 10:14:51 ‐0.01 ‐0.01 0.02 6.02 5/19/23 10:15:01 0 ‐0.02 0.02 6.01 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/19/23 10:43:51 10.64 9.14 0.18 ‐0.08 R6 5/19/23 10:44:01 10.64 9.14 0.18 ‐0.1 10.63 % O2 5/19/23 10:44:11 10.63 9.13 0.18 ‐0.09 9.13 % CO2 5/19/23 10:44:21 10.63 9.13 0.16 ‐0.06 0.17 ppm NOx 5/19/23 10:44:31 10.63 9.13 0.14 ‐0.06 ‐0.08 ppm CO 5/19/23 10:44:41 10.63 9.13 0.2 ‐0.07 5/19/23 10:44:51 10.63 9.13 0.16 ‐0.09 5/19/23 10:45:01 10.62 9.16 0.14 ‐0.06 5/19/23 10:45:11 10.63 9.15 0.16 ‐0.03 5/19/23 10:45:21 10.63 9.13 0.15 ‐0.04 5/19/23 10:45:31 10.63 9.14 0.15 ‐0.06 5/19/23 10:45:41 10.63 9.14 0.15 ‐0.08 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 10:45:51 10.63 9.15 0.12 ‐0.07 5/19/23 10:46:01 10.63 9.02 0.16 ‐0.03 5/19/23 10:46:11 10.63 1.46 0.13 ‐0.03 5/19/23 10:46:21 10.17 0.27 0.47 0 5/19/23 10:46:31 4.1 0.2 7.14 0.06 5/19/23 10:46:41 0.49 0.18 11.47 0.14 5/19/23 10:46:51 0.08 0.15 12.09 0.2 5/19/23 10:47:01 0.01 0.12 12.2 0.23 ‐0.04 % O2 5/19/23 10:47:11 ‐0.03 0.11 12.25 0.25 0.10 % CO2 5/19/23 10:47:21 ‐0.04 0.1 12.23 0.25 12.20 Nox 5/19/23 10:47:31 ‐0.05 0.08 12.21 0.24 5/19/23 10:47:41 ‐0.05 0.1 12.16 0.22 5/19/23 10:47:51 ‐0.06 0.08 12.12 0.25 5/19/23 10:48:01 ‐0.06 0.08 12.07 0.29 5/19/23 10:48:11 ‐0.07 0.06 12.06 0.26 5/19/23 10:48:21 ‐0.07 0.06 12.04 0.24 5/19/23 10:48:31 ‐0.08 0.06 12.04 0.24 5/19/23 10:48:41 ‐0.08 0.08 12.02 0.25 5/19/23 10:48:51 ‐0.08 0.12 11.99 0.25 5/19/23 10:49:01 ‐0.08 0.19 12.04 0.45 5/19/23 10:49:11 ‐0.03 0.04 11.56 1.56 5/19/23 10:49:21 0.06 0.05 4.62 3.4 5/19/23 10:49:31 ‐0.07 0.05 0.73 4.99 5/19/23 10:49:41 ‐0.09 0.05 0.26 5.87 5/19/23 10:49:51 ‐0.09 0.05 0.17 6.19 5/19/23 10:50:01 ‐0.09 0.06 0.13 6.28 5/19/23 10:50:11 ‐0.09 0.04 0.1 6.28 5/19/23 10:50:21 ‐0.1 0.02 0.07 6.28 5/19/23 10:50:31 ‐0.1 0.03 0.07 6.22 5/19/23 10:50:41 ‐0.1 0.02 0.05 6.02 5.97 ppm CO 5/19/23 10:50:51 ‐0.1 0.04 0.05 5.95 5/19/23 10:51:01 ‐0.1 0.04 0.05 5.94 5/19/23 10:51:11 ‐0.1 0 0.03 5.95 5/19/23 10:51:21 ‐0.1 0.02 0.05 5.97 5/19/23 10:51:31 ‐0.1 0.02 0.05 5.96 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 11:20:11 10.67 9.07 0.2 ‐0.03 R7 5/19/23 11:20:21 10.67 9.09 ‐0.01 ‐0.04 10.67 % O2 5/19/23 11:20:31 10.67 9.07 ‐0.01 ‐0.04 9.08 % CO2 5/19/23 11:20:41 10.66 9.08 ‐0.02 ‐0.03 ‐0.01 ppm NOx 5/19/23 11:20:51 10.66 9.07 0.01 ‐0.05 ‐0.04 ppm CO 5/19/23 11:21:01 10.66 9.08 ‐0.02 ‐0.04 5/19/23 11:21:11 10.67 9.07 ‐0.01 ‐0.03 5/19/23 11:21:21 10.66 9.09 ‐0.01 ‐0.02 5/19/23 11:21:31 10.66 9.09 ‐0.02 ‐0.03 5/19/23 11:21:41 10.66 9.14 ‐0.12 ‐0.02 5/19/23 11:21:51 10.66 9.08 ‐0.05 ‐0.02 5/19/23 11:22:01 10.66 9.09 ‐0.06 ‐0.03 5/19/23 11:22:11 10.67 6.31 ‐0.07 ‐0.05 5/19/23 11:22:21 10.66 0.36 ‐0.02 ‐0.01 5/19/23 11:22:31 8.49 0.19 2.02 0.07 5/19/23 11:22:41 1.91 0.12 9.34 0.13 5/19/23 11:22:51 0.27 0.09 11.45 0.17 5/19/23 11:23:01 0.09 0.06 11.64 0.24 5/19/23 11:23:11 0.04 0.07 11.66 0.27 5/19/23 11:23:21 0.01 0.05 11.68 0.25 5/19/23 11:23:31 0 0.04 11.99 0.27 5/19/23 11:23:41 ‐0.01 0.03 12.2 0.29 ‐0.02 % O2 5/19/23 11:23:51 ‐0.01 0.04 12.21 0.26 0.02 % CO2 5/19/23 11:24:01 ‐0.01 0.03 12.2 0.21 12.18 ppm NOx 5/19/23 11:24:11 ‐0.02 0.01 12.14 0.23 5/19/23 11:24:21 ‐0.03 0 12.16 0.28 5/19/23 11:24:31 ‐0.03 0 12.17 0.29 5/19/23 11:24:41 ‐0.03 ‐0.01 12.23 0.26 5/19/23 11:24:51 ‐0.03 0.01 12.14 0.25 5/19/23 11:25:01 ‐0.04 ‐0.01 12.13 0.25 5/19/23 11:25:11 ‐0.03 0.01 12.15 0.26 5/19/23 11:25:21 ‐0.03 0.05 12.17 0.33 5/19/23 11:25:31 ‐0.03 ‐0.02 12.08 1.2 5/19/23 11:25:41 0.03 ‐0.01 6.59 2.91 5/19/23 11:25:51 ‐0.02 ‐0.01 0.92 4.51 5/19/23 11:26:01 ‐0.04 ‐0.02 0.13 5.51 5/19/23 11:26:11 ‐0.04 ‐0.01 ‐0.03 5.84 5/19/23 11:26:21 ‐0.05 ‐0.01 ‐0.08 5.93 5.95 ppm CO 5/19/23 11:26:31 ‐0.05 ‐0.03 ‐0.1 5.94 5/19/23 11:26:41 ‐0.05 ‐0.03 ‐0.12 5.96 5/19/23 11:26:51 ‐0.05 ‐0.02 ‐0.1 5.96 5/19/23 11:27:01 ‐0.05 ‐0.02 ‐0.15 5.94 5/19/23 11:27:11 ‐0.05 ‐0.01 ‐0.15 5.97 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 11:55:01 10.67 9.06 ‐0.07 0.01 R8 5/19/23 11:55:11 10.67 9.08 ‐0.01 0 10.66 % O2 5/19/23 11:55:21 10.66 9.09 0.02 0.01 9.10 % CO2 5/19/23 11:55:31 10.65 9.1 ‐0.03 0 ‐0.02 ppm NOx 5/19/23 11:55:41 10.66 9.1 ‐0.04 ‐0.02 ‐0.01 ppm CO 5/19/23 11:55:51 10.64 9.1 ‐0.06 ‐0.01 5/19/23 11:56:01 10.65 9.1 0 ‐0.02 5/19/23 11:56:11 10.64 9.11 0 ‐0.02 5/19/23 11:56:21 10.65 9.12 0 0 5/19/23 11:56:31 10.64 9.1 ‐0.03 ‐0.01 5/19/23 11:56:41 10.64 7.03 ‐0.02 ‐0.01 5/19/23 11:56:51 10.65 0.44 ‐0.02 0.01 5/19/23 11:57:01 8.53 0.22 2.05 0.04 5/19/23 11:57:11 1.85 0.16 9.77 0.11 5/19/23 11:57:21 0.25 0.14 11.83 0.19 5/19/23 11:57:31 0.09 0.11 12.11 0.28 5/19/23 11:57:41 0.04 0.09 12.19 0.31 0.00 % O2 5/19/23 11:57:51 0.01 0.1 12.23 0.29 0.08 % CO2 5/19/23 11:58:01 ‐0.01 0.08 12.25 0.27 12.25 ppm NOx 5/19/23 11:58:11 ‐0.01 0.07 12.28 0.26 5/19/23 11:58:21 ‐0.01 0.07 12.29 0.27 5/19/23 11:58:31 ‐0.02 0.05 12.23 0.3 5/19/23 11:58:41 ‐0.02 0.05 12.2 0.28 5/19/23 11:58:51 ‐0.02 0.06 12.21 0.3 5/19/23 11:59:01 ‐0.03 0.05 12.23 0.27 5/19/23 11:59:11 ‐0.04 0.05 12.23 0.29 5/19/23 11:59:21 ‐0.03 0.12 12.22 0.28 5/19/23 11:59:31 ‐0.03 0.06 12.22 0.86 5/19/23 11:59:41 0.05 0.04 7.5 2.46 5/19/23 11:59:51 ‐0.01 0.04 1.1 4.2 5/19/23 12:00:01 ‐0.04 0.04 0.25 5.36 5/19/23 12:00:11 ‐0.05 0.04 0.05 5.84 5/19/23 12:00:21 ‐0.05 0.05 0.01 5.95 5.97 ppm CO 5/19/23 12:00:31 ‐0.04 0.03 ‐0.03 5.99 5/19/23 12:00:41 ‐0.05 0.03 ‐0.04 5.96 5/19/23 12:00:51 ‐0.06 0.03 ‐0.06 5.95 5/19/23 12:01:01 ‐0.05 0.03 ‐0.07 5.97 5/19/23 12:01:11 ‐0.05 0.02 ‐0.07 6.01 *3$6E573MJH RI Time O2 CO2 NOx CO 5/19/23 12:29:11 10.86 8.74 0.26 0.09 R9 5/19/23 12:29:21 10.83 8.75 0.2 0.07 10.82 % O2 5/19/23 12:29:31 10.83 8.77 0.17 0.06 8.78 % CO2 5/19/23 12:29:41 10.82 8.77 0.13 0.06 0.13 ppm Nox 5/19/23 12:29:51 10.81 8.79 0.11 0.05 0.06 ppm CO 5/19/23 12:30:01 10.8 8.79 0.08 0.04 5/19/23 12:30:11 10.8 8.8 0.08 0.07 5/19/23 12:30:21 10.8 8.81 0.07 0.07 5/19/23 12:30:31 10.79 8.8 0.07 0.07 5/19/23 12:30:41 10.8 8.8 0.09 0.08 5/19/23 12:30:51 10.79 8.83 0.07 0.05 5/19/23 12:31:01 10.79 8.07 0.06 0.06 5/19/23 12:31:11 10.77 0.69 0.03 0.05 5/19/23 12:31:21 9.46 0.22 0.81 0.08 5/19/23 12:31:31 2.68 0.15 7.05 0.13 5/19/23 12:31:41 0.34 0.12 9.66 0.17 5/19/23 12:31:51 0.1 0.09 10.05 0.2 5/19/23 12:32:01 0.04 0.11 10.11 0.23 5/19/23 12:32:11 0.02 0.1 10.37 0.26 5/19/23 12:32:21 0.01 0.07 12.21 0.25 ‐0.03 % O2 5/19/23 12:32:31 0 0.06 12.27 0.23 0.01 % CO2 5/19/23 12:32:41 ‐0.01 0.05 12.26 0.23 12.25 ppm NOx 5/19/23 12:32:51 ‐0.02 0.04 12.22 0.24 5/19/23 12:33:01 ‐0.03 0.03 12.25 0.23 5/19/23 12:33:11 ‐0.03 0.02 12.27 0.24 5/19/23 12:33:21 ‐0.03 0.01 12.3 0.25 5/19/23 12:33:31 ‐0.03 0 12.37 0.23 5/19/23 12:33:41 ‐0.03 0 12.37 0.24 5/19/23 12:33:51 ‐0.03 0.02 12.37 0.21 5/19/23 12:34:01 ‐0.04 0.01 12.4 0.11 5/19/23 12:34:11 ‐0.03 0.01 12.4 0.81 5/19/23 12:34:21 ‐0.04 0.01 7.11 2.49 5/19/23 12:34:31 ‐0.05 0 1 4.25 5/19/23 12:34:41 ‐0.04 0 0.13 5.35 5/19/23 12:34:51 ‐0.05 0.01 0.01 5.77 5/19/23 12:35:01 ‐0.05 0 ‐0.02 5.87 5/19/23 12:35:11 ‐0.05 ‐0.01 ‐0.06 5.89 5.89 ppm CO 5/19/23 12:35:21 ‐0.05 ‐0.01 ‐0.08 5.9 5/19/23 12:35:31 ‐0.06 ‐0.01 ‐0.11 5.87 5/19/23 12:35:41 ‐0.05 ‐0.02 ‐0.09 5.9 5/19/23 12:35:51 ‐0.05 ‐0.01 ‐0.11 5.89 5/19/23 12:36:01 ‐0.05 ‐0.01 ‐0.14 5.9 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.3.3 Unit CT21 GP043AS-023429-RT-1331 Page 215 of 261 PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 Initial Linearity Initial Gas ID Concentration Value Response Error OK? O2 n/a Low 0 0.05 0.2% Y EB0094234 Mid 10.67 10.73 0.3% Y CC198046 High 21 20.97 0.2% Y CO2 n/a Low 0 ‐0.02 0.1% Y EB0094234 Mid 8.895 8.95 0.3% Y CC198046 High 17.76 17.84 0.4% Y NOx n/a Low 0 ‐0.04 0.3% Y CC73404 Mid 6.316 6.25 0.6% Y CC703698 High 12.17 12.24 0.6% Y CO n/a Low 0 0.00 0.1% Y CC306048 Mid 2.773 2.73 0.7% Y XC023876B High 5.938 5.975 0.6% Y *3$6E573DJH RI PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 Analyzer Bias Checks Start Time 7:41 Start Time 8:19 Start Time 8:57 Start Time 9:35 Start Time 10:13 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 8:01 Stop Time 8:39 Stop Time 9:17 Stop Time 9:55 Stop Time 10:33 Gas Analyzer Gas Concentration Value Response Initial Bias Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift O2 Low 0.05 0.13 0.4% 0.05 ‐0.4% 0.8% 0.06 ‐0.3% 0.1% 0.04 ‐0.4% 0.1% 0.00 ‐0.6% 0.2% 0 ‐0.6% 0.0% Span 10.73 10.71 ‐0.1% 10.74 0.1% 0.2% 10.66 ‐0.2% 0.4% 10.61 ‐0.5% 0.3% 10.51 ‐0.9% 0.4% 10.59 ‐0.6% 0.4% CO2 Low ‐0.02 ‐0.02 0.0% 0.01 0.2% 0.2% 0.02 0.2% 0.0% 0.04 0.3% 0.1% 0.01 0.1% 0.2% 0.05 0.4% 0.2% Span 8.95 8.76 1.1% 8.99 1.3% 0.2% 8.90 0.8% 0.5% 9.2 2.5% 1.7% 8.99 1.3% 1.2% 9.02 1.5% 0.2% NOx Low ‐0.04 ‐0.04 0.0% 0.13 1.3% 1.3% ‐0.03 0.1% 1.3% ‐0.09 ‐0.5% 0.5% ‐0.03 0.0% 0.5% ‐0.07 ‐0.3% 0.3% Span 6.25 6.18 ‐0.5% 6.34 1.3% 1.8% 6.33 1.2% 0.1% 6.31 1.1% 0.1% 6.35 1.4% 0.3% 6.39 1.8% 0.4% CO Low 0.00 ‐0.07 ‐1.1% ‐0.07 ‐0.1% 1.1% 0.02 1.5% 1.5% ‐0.06 0.2% 1.3% ‐0.02 0.9% 0.8% ‐0.13 ‐0.9% 1.9% Span 2.73 2.69 ‐0.8% 2.74 0.8% 1.6% 2.71 0.3% 0.5% 2.79 1.7% 1.3% 2.82 2.2% 0.6% 2.79 1.8% 0.5% ≤5%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 1 Run 2 Run 3 Run 4 Run 5 *3$6E573DJH RI PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 Analyzer Bias Checks Gas Gas Concentration Value O2 Low 0.05 Span 10.73 CO2 Low ‐0.02 Span 8.95 NOx Low ‐0.04 Span 6.25 CO Low 0.00 Span 2.73 Start Time 10:51 Start Time 11:28 Start Time 12:03 Start Time 12:41 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 11:11 Stop Time 11:48 Stop Time 12:23 Stop Time 13:01 Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift ‐0.01 ‐0.6% 0.0% ‐0.02 0.7% 1.3% ‐0.03 ‐0.7% 1.4% ‐0.01 ‐0.6% 0.1% 10.85 0.7% 1.3% 10.66 ‐0.3% 0.9% 10.67 ‐0.2% 0.1% 10.63 ‐0.4% 0.2% 0.01 0.1% 0.2% 0.05 0.4% 0.2% 0.03 0.3% 0.1% 0.06 0.5% 0.2% 8.95 1.1% 0.4% 9.04 1.6% 0.5% 9.00 1.4% 0.2% 9.14 2.2% 0.8% 0.05 0.7% 1.0% 0.01 0.4% 0.3% 0.03 0.5% 0.2% 0.07 0.8% 0.3% 6.33 1.2% 0.5% 6.34 1.3% 0.1% 6.35 1.4% 0.1% 6.35 1.4% 0.0% ‐0.07 0.1% 1.0% ‐0.07 0.1% 0.0% ‐0.09 ‐0.3% 0.4% ‐0.12 ‐0.8% 0.5% 2.77 1.3% 0.4% 2.73 0.8% 0.6% 2.75 1.0% 0.3% 2.71 0.4% 0.6% ≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 7 Run 8 Run 9Run 6 *3$6E573DJH RI Time O2 CO2 NOx CO 5/16/23 7:01:11 0.04 ‐0.02 6.12 ‐0.13 Calibration Error Tests 5/16/23 7:01:21 0.04 ‐0.03 6.11 ‐0.15 0.05 % O2 5/16/23 7:01:31 0.06 ‐0.02 6.13 ‐0.15 ‐0.02 % CO2 5/16/23 7:01:41 0.04 ‐0.03 6.12 ‐0.14 5/16/23 7:01:51 0.06 ‐0.02 6.13 ‐0.14 5/16/23 7:02:01 0.03 ‐0.01 6.13 ‐0.13 5/16/23 7:02:11 0.05 0.01 6.13 ‐0.14 5/16/23 7:02:21 0.04 ‐0.02 6.12 ‐0.15 5/16/23 7:02:31 0.04 0 6.21 ‐0.15 5/16/23 7:02:41 0.03 ‐0.02 6.14 ‐0.15 5/16/23 7:02:51 0.04 ‐0.01 6.14 ‐0.14 5/16/23 7:03:01 0.05 ‐0.03 6.13 ‐0.14 5/16/23 7:03:11 0.04 ‐0.01 6.12 ‐0.15 5/16/23 7:03:21 0.04 0 6.14 ‐0.17 5/16/23 7:03:31 0 ‐0.02 6.14 ‐0.15 5/16/23 7:03:41 10.25 6.95 6.15 ‐0.14 5/16/23 7:03:51 20.18 16.14 6.09 ‐0.25 5/16/23 7:04:01 20.78 16.42 2.89 ‐0.41 5/16/23 7:04:11 20.89 16.99 0.58 ‐0.53 5/16/23 7:04:21 20.93 17.54 0.34 ‐0.57 5/16/23 7:04:31 20.93 17.77 0.27 ‐0.56 5/16/23 7:04:41 20.94 17.78 0.18 ‐0.57 5/16/23 7:04:51 20.95 17.8 0.13 ‐0.56 5/16/23 7:05:01 20.96 17.8 0.1 ‐0.57 5/16/23 7:05:11 20.96 17.83 ‐0.01 ‐0.24 20.97 % O2 5/16/23 7:05:21 20.96 17.84 ‐0.03 ‐0.1 17.84 % CO2 5/16/23 7:05:31 20.97 17.83 ‐0.04 ‐0.1 ‐0.04 ppm Nox 5/16/23 7:05:41 20.97 17.83 ‐0.04 ‐0.1 5/16/23 7:05:51 20.97 17.84 ‐0.05 ‐0.1 5/16/23 7:06:01 20.98 17.84 ‐0.04 ‐0.1 5/16/23 7:06:11 20.98 17.86 ‐0.06 ‐0.09 5/16/23 7:06:21 20.99 17.87 ‐0.06 ‐0.1 5/16/23 7:06:31 20.99 17.86 ‐0.05 ‐0.08 5/16/23 7:06:41 20.99 17.85 ‐0.05 ‐0.08 5/16/23 7:06:51 21 17.85 ‐0.05 ‐0.1 5/16/23 7:07:01 21 17.85 ‐0.02 ‐0.09 5/16/23 7:07:11 20.97 17.82 ‐0.06 ‐0.09 5/16/23 7:07:21 13.78 11.25 ‐0.06 ‐0.09 5/16/23 7:07:31 10.84 9.3 ‐0.01 ‐0.06 5/16/23 7:07:41 10.76 9.01 0.07 ‐0.02 5/16/23 7:07:51 10.75 9 ‐0.03 ‐0.01 5/16/23 7:08:01 10.75 8.99 ‐0.01 0.01 10.73 % O2 5/16/23 7:08:11 10.74 8.97 ‐0.02 0.01 8.95 % CO2 5/16/23 7:08:21 10.73 8.95 ‐0.01 0 0.00 ppm CO 5/16/23 7:08:31 10.72 8.95 ‐0.03 ‐0.01 5/16/23 7:08:41 10.72 8.93 ‐0.03 ‐0.02 5/16/23 7:08:51 10.71 8.92 ‐0.04 ‐0.01 5/16/23 7:09:01 10.7 8.91 ‐0.02 0 5/16/23 7:09:11 10.7 8.88 ‐0.02 0 5/16/23 7:09:21 10.7 8.91 ‐0.03 ‐0.01 5/16/23 7:09:31 10.69 8.91 ‐0.03 ‐0.03 5/16/23 7:09:41 10.69 8.9 ‐0.03 ‐0.01 5/16/23 7:09:51 10.69 8.89 ‐0.03 0.01 5/16/23 7:10:01 10.61 8.81 ‐0.04 ‐0.02 5/16/23 7:10:11 3.26 2.35 ‐0.04 ‐0.02 5/16/23 7:10:21 0.34 0.43 1.17 0.04 5/16/23 7:10:31 0.23 0.31 9.06 0.11 5/16/23 7:10:41 0.2 0.27 11.53 0.18 5/16/23 7:10:51 0.19 0.23 11.77 0.22 5/16/23 7:11:01 0.24 0.26 11.87 0.24 5/16/23 7:11:11 0.33 0.34 11.91 0.23 5/16/23 7:11:21 0.33 0.34 11.87 0.23 5/16/23 7:11:31 0.33 0.37 11.8 0.23 5/16/23 7:11:41 0.35 0.35 11.81 0.24 5/16/23 7:11:51 0.33 0.32 11.84 0.23 5/16/23 7:12:01 0.34 0.33 12.18 0.21 12.21 ppm NOx 5/16/23 7:12:11 0.33 0.31 12.19 0.21 5/16/23 7:12:21 0.32 0.29 12.21 0.22 5/16/23 7:12:31 0.33 0.3 12.21 0.22 5/16/23 7:12:41 0.32 0.31 12.23 0.21 5/16/23 7:12:51 0.36 0.3 12.21 0.22 5/16/23 7:13:01 0.46 0.16 12.18 0.23 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/16/23 7:13:11 0.54 0.08 12.17 0.23 5/16/23 7:13:21 0.53 0.05 12.25 0.22 5/16/23 7:13:31 0.47 0.04 12.2 0.22 5/16/23 7:13:41 5.9 0.05 12.21 0.23 5/16/23 7:13:51 8.68 0.08 12.23 0.26 5/16/23 7:14:01 0.33 0.03 8.36 0.27 5/16/23 7:14:11 0.08 0.02 9.2 0.27 5/16/23 7:14:21 0.07 0.02 7.29 0.26 5/16/23 7:14:31 0.06 0 6.47 0.27 5/16/23 7:14:41 0.06 0.04 6.34 0.28 5/16/23 7:14:51 0.06 0.02 6.3 0.26 5/16/23 7:15:01 0.06 0.01 6.27 0.26 6.25 ppm NOx 5/16/23 7:15:11 0.06 0.01 6.25 0.26 5/16/23 7:15:21 0.06 0.01 6.24 0.26 5/16/23 7:15:31 0.06 0.01 6.24 0.27 5/16/23 7:15:41 0.06 ‐0.02 6.24 0.27 5/16/23 7:15:51 0.06 0 6.23 0.26 5/16/23 7:16:01 0.06 ‐0.01 6.23 0.26 5/16/23 7:16:11 0.06 ‐0.02 6.24 0.25 5/16/23 7:16:21 0.06 ‐0.01 6.24 0.26 5/16/23 7:16:31 0.07 0 6.23 0.27 5/16/23 7:16:41 0.06 0.01 6.23 0.27 5/16/23 7:16:51 0.06 0 6.22 0.25 5/16/23 7:17:01 0.06 ‐0.01 6.22 0.26 5/16/23 7:17:11 0.06 ‐0.01 6.24 0.26 5/16/23 7:17:21 0.06 ‐0.01 6.23 0.25 5/16/23 7:17:31 0.07 ‐0.02 6.24 0.27 5/16/23 7:17:41 0.29 0.15 6.22 0.29 5/16/23 7:17:51 0.11 ‐0.01 6.23 0.79 5/16/23 7:18:01 0.08 ‐0.01 3.3 2.14 5/16/23 7:18:11 0.08 ‐0.03 0.44 3.7 5/16/23 7:18:21 0.07 ‐0.02 0.11 4.72 5/16/23 7:18:31 0.07 ‐0.03 0.07 5.12 5/16/23 7:18:41 0.07 ‐0.02 0.05 5.23 5/16/23 7:18:51 0.08 0.01 0.03 5.25 5/16/23 7:19:01 0.07 ‐0.01 0.01 5.25 5/16/23 7:19:11 0.08 0.01 0.02 5.39 5/16/23 7:19:21 0.07 ‐0.01 0.01 5.97 5/16/23 7:19:31 0.07 ‐0.01 0 5.98 5/16/23 7:19:41 0.07 ‐0.02 0 6 5.98 ppm CO 5/16/23 7:19:51 0.07 ‐0.01 0 6 5/16/23 7:20:01 0.08 ‐0.01 0 5.97 5/16/23 7:20:11 0.08 ‐0.01 0 5.97 5/16/23 7:20:21 0.08 ‐0.01 ‐0.01 5.97 5/16/23 7:20:31 0.08 ‐0.05 0 5.94 5/16/23 7:20:41 0.08 ‐0.03 0 5.95 5/16/23 7:20:51 0.08 ‐0.03 ‐0.01 5.96 5/16/23 7:21:01 0.08 ‐0.03 ‐0.01 5.94 5/16/23 7:21:11 0.09 ‐0.02 ‐0.02 5.95 5/16/23 7:21:21 8.59 0 ‐0.01 5.94 5/16/23 7:21:31 13.8 0.01 ‐0.02 5.36 5/16/23 7:21:41 1.16 ‐0.02 0.27 4.45 5/16/23 7:21:51 0.15 ‐0.02 1.63 3.94 5/16/23 7:22:01 0.1 ‐0.05 0.72 3.7 5/16/23 7:22:11 0.09 ‐0.02 0.21 3.5 5/16/23 7:22:21 0.09 ‐0.04 0.09 3.29 5/16/23 7:22:31 0.09 ‐0.03 0.05 3.18 5/16/23 7:22:41 0.1 ‐0.02 0.03 3.03 5/16/23 7:22:51 0.09 ‐0.03 0.02 2.92 5/16/23 7:23:01 0.09 ‐0.03 0 3.02 5/16/23 7:23:11 0.09 ‐0.04 ‐0.02 2.73 2.73 ppm CO 5/16/23 7:23:21 0.09 ‐0.03 0 2.73 5/16/23 7:23:31 0.1 ‐0.03 0 2.74 5/16/23 7:23:41 0.09 ‐0.03 0 2.74 5/16/23 7:23:51 0.09 ‐0.01 ‐0.02 2.73 5/16/23 7:24:01 0.09 ‐0.02 0.03 2.72 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 7:26:41 0.11 ‐0.03 6.05 0.79 5/16/23 7:26:51 0.11 ‐0.04 6.12 0.42 5/16/23 7:27:01 0.11 ‐0.04 6.16 0.28 5/16/23 7:27:11 0.22 0.02 6.16 0.26 5/16/23 7:27:21 8.29 6.47 6.17 0.36 5/16/23 7:27:31 10.61 8.61 4.76 0.44 5/16/23 7:27:41 10.67 8.68 0.88 0.36 5/16/23 7:27:51 10.69 8.71 0.12 0.17 5/16/23 7:28:01 10.7 8.73 0.05 0.01 System Bias 5/16/23 7:28:11 10.7 8.75 0 ‐0.04 10.71 % O2 5/16/23 7:28:21 10.71 8.72 ‐0.02 ‐0.06 8.76 % CO2 5/16/23 7:28:31 10.7 8.75 ‐0.02 ‐0.08 ‐0.02 ppm NOx 5/16/23 7:28:41 10.71 8.78 ‐0.02 ‐0.08 ‐0.07 ppm CO 5/16/23 7:28:51 10.71 8.77 ‐0.02 ‐0.08 5/16/23 7:29:01 10.72 8.78 ‐0.02 ‐0.08 5/16/23 7:29:11 10.72 8.77 ‐0.03 ‐0.06 5/16/23 7:29:21 10.72 8.79 ‐0.04 ‐0.08 5/16/23 7:29:31 10.73 8.77 ‐0.04 ‐0.11 5/16/23 7:29:41 10.73 8.77 ‐0.03 ‐0.1 5/16/23 7:29:51 10.72 8.79 ‐0.04 ‐0.08 5/16/23 7:30:01 10.72 8.78 ‐0.04 ‐0.08 5/16/23 7:30:11 9.91 7.98 ‐0.03 ‐0.08 5/16/23 7:30:21 1.49 0.94 ‐0.05 ‐0.08 5/16/23 7:30:31 0.19 0.13 1.33 ‐0.04 5/16/23 7:30:41 0.16 0.1 5.22 0.05 5/16/23 7:30:51 0.14 0.06 6.02 0.12 5/16/23 7:31:01 0.14 0.03 6.12 0.18 5/16/23 7:31:11 0.13 0.02 6.15 0.2 5/16/23 7:31:21 0.13 0.02 6.15 0.2 5/16/23 7:31:31 0.13 0.01 6.16 0.2 5/16/23 7:31:41 0.13 0 6.21 0.18 0.13 % O2 5/16/23 7:31:51 0.13 ‐0.02 6.17 0.2 ‐0.02 % CO2 5/16/23 7:32:01 0.13 ‐0.01 6.17 0.21 6.18 ppm NOx 5/16/23 7:32:11 0.12 ‐0.04 6.17 0.2 5/16/23 7:32:21 0.13 ‐0.03 6.17 0.2 5/16/23 7:32:31 0.12 ‐0.01 6.18 0.2 5/16/23 7:32:41 0.12 ‐0.02 6.17 0.2 5/16/23 7:32:51 0.12 ‐0.04 6.19 0.19 5/16/23 7:33:01 0.1 ‐0.04 6.19 0.17 5/16/23 7:33:11 0.12 ‐0.06 6.18 0.18 5/16/23 7:33:21 0.12 ‐0.02 6.18 0.18 5/16/23 7:33:31 0.12 ‐0.03 6.21 0.2 5/16/23 7:33:41 0.12 ‐0.03 6.19 0.2 5/16/23 7:33:51 0.19 0.04 6.18 0.22 5/16/23 7:34:01 0.12 ‐0.05 5.97 0.63 5/16/23 7:34:11 0.11 ‐0.03 2.07 1.37 5/16/23 7:34:21 0.12 ‐0.04 0.24 2.07 5/16/23 7:34:31 0.12 ‐0.03 0.06 2.5 5/16/23 7:34:41 0.12 ‐0.04 0.02 2.63 5/16/23 7:34:51 0.12 ‐0.04 0.02 2.65 5/16/23 7:35:01 0.11 ‐0.01 0.11 2.68 5/16/23 7:35:11 0.12 ‐0.03 ‐0.01 2.69 2.69 ppm CO 5/16/23 7:35:21 0.12 ‐0.05 ‐0.01 2.67 5/16/23 7:35:31 0.12 ‐0.05 ‐0.02 2.68 5/16/23 7:35:41 0.12 ‐0.05 ‐0.03 2.69 5/16/23 7:35:51 0.12 ‐0.07 ‐0.02 2.69 5/16/23 7:36:01 0.11 ‐0.05 0 2.7 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 8:05:31 0.06 ‐0.01 6.26 0.23 R1 5/16/23 8:05:41 0.05 0.01 6.29 0.23 0.05 % O2 5/16/23 8:05:51 0.06 0.01 6.35 0.21 0.01 % CO2 5/16/23 8:06:01 0.05 0.01 6.32 0.2 6.34 ppm Nox 5/16/23 8:06:11 0.04 0 6.31 0.19 5/16/23 8:06:21 0.05 0.02 6.43 0.23 5/16/23 8:06:31 0.04 0.02 6.31 0.23 5/16/23 8:06:41 0.03 0.01 6.31 0.21 5/16/23 8:06:51 0.04 ‐0.01 6.31 0.21 5/16/23 8:07:01 0.04 0 6.3 0.22 5/16/23 8:07:11 0.04 ‐0.01 6.3 0.23 5/16/23 8:07:21 2.1 0.99 6.3 0.23 5/16/23 8:07:31 4.96 3.16 6.27 0.18 5/16/23 8:07:41 10.52 8.11 5.62 0.12 5/16/23 8:07:51 10.79 8.35 3.25 0.04 5/16/23 8:08:01 10.78 8.4 0.8 ‐0.03 5/16/23 8:08:11 10.73 8.51 0.55 ‐0.07 5/16/23 8:08:21 10.72 8.96 0.49 ‐0.08 5/16/23 8:08:31 10.73 8.97 0.19 ‐0.08 5/16/23 8:08:41 10.74 8.96 0.17 ‐0.05 5/16/23 8:08:51 10.74 8.99 0.15 ‐0.05 5/16/23 8:09:01 10.73 8.98 0.15 ‐0.06 10.74 % O2 5/16/23 8:09:11 10.73 9 0.13 ‐0.08 8.99 % CO2 5/16/23 8:09:21 10.74 9 0.13 ‐0.09 0.13 ppm NOx 5/16/23 8:09:31 10.74 8.98 0.13 ‐0.08 ‐0.07 ppm CO 5/16/23 8:09:41 10.74 8.99 0.11 ‐0.06 5/16/23 8:09:51 10.75 8.99 0.12 ‐0.07 5/16/23 8:10:01 10.74 9 0.12 ‐0.07 5/16/23 8:10:11 10.74 9 0.09 ‐0.07 5/16/23 8:10:21 10.75 9 0.07 ‐0.05 5/16/23 8:10:31 10.75 9.01 0.08 ‐0.05 5/16/23 8:10:41 10.74 9.01 0.11 ‐0.05 5/16/23 8:10:51 9.71 8.07 0.09 ‐0.06 5/16/23 8:11:01 1.26 0.82 0.08 0.1 5/16/23 8:11:11 0.11 0.16 0.25 0.68 5/16/23 8:11:21 0.07 0.12 0.15 1.49 5/16/23 8:11:31 0.05 0.08 0.11 2.14 5/16/23 8:11:41 0.05 0.05 0.11 2.49 5/16/23 8:11:51 0.04 0.04 0.1 2.61 5/16/23 8:12:01 0.04 0.03 0.1 2.65 5/16/23 8:12:11 0.04 0.04 0.09 2.64 5/16/23 8:12:21 0.04 0.03 0.09 2.66 5/16/23 8:12:31 0.03 0 0.09 2.65 5/16/23 8:12:41 0.03 0 0.08 2.68 5/16/23 8:12:51 0.03 0.01 0.08 2.74 2.74 ppm CO 5/16/23 8:13:01 0.03 0.02 0.07 2.74 5/16/23 8:13:11 0.02 ‐0.01 0.08 2.74 5/16/23 8:13:21 0.03 ‐0.01 0.08 2.73 5/16/23 8:13:31 0.03 0 0.07 2.72 5/16/23 8:13:41 0.03 ‐0.01 0.07 2.74 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 8:42:21 10.66 8.87 0.12 0.07 R2 5/16/23 8:42:31 10.67 8.87 ‐0.01 0.03 10.66 % O2 5/16/23 8:42:41 10.67 8.88 ‐0.01 0.03 8.90 % CO2 5/16/23 8:42:51 10.67 8.9 ‐0.03 0.02 ‐0.03 ppm Nox 5/16/23 8:43:01 10.66 8.92 ‐0.01 0 0.02 ppm CO 5/16/23 8:43:11 10.66 8.92 ‐0.04 0.01 5/16/23 8:43:21 10.65 8.91 ‐0.06 0.02 5/16/23 8:43:31 10.67 8.92 ‐0.05 0.01 5/16/23 8:43:41 10.66 8.94 ‐0.08 0 5/16/23 8:43:51 10.65 8.93 ‐0.06 0.02 5/16/23 8:44:01 10.66 8.94 ‐0.09 0.03 5/16/23 8:44:11 10.68 8.83 ‐0.09 0.03 5/16/23 8:44:21 8.96 7.65 ‐0.11 0.02 5/16/23 8:44:31 0.9 0.66 ‐0.08 0.05 5/16/23 8:44:41 0.14 0.17 1.76 0.1 5/16/23 8:44:51 0.1 0.11 5.01 0.14 5/16/23 8:45:01 0.09 0.08 5.54 0.2 5/16/23 8:45:11 0.08 0.05 5.93 0.26 5/16/23 8:45:21 0.07 0.07 6.37 0.28 5/16/23 8:45:31 0.07 0.05 6.32 0.27 0.06 % O2 5/16/23 8:45:41 0.07 0.03 6.33 0.28 0.02 % CO2 5/16/23 8:45:51 0.06 0.03 6.33 0.28 6.33 ppm CO 5/16/23 8:46:01 0.06 0 6.32 0.28 5/16/23 8:46:11 0.06 ‐0.01 6.34 0.32 5/16/23 8:46:21 0.06 0.01 6.33 0.29 5/16/23 8:46:31 0.07 ‐0.03 6.34 0.28 5/16/23 8:46:41 0.06 ‐0.01 6.35 0.28 5/16/23 8:46:51 0.05 ‐0.01 6.35 0.29 5/16/23 8:47:01 0.05 ‐0.01 6.33 0.3 5/16/23 8:47:11 0.04 ‐0.02 6.45 0.28 5/16/23 8:47:21 0.05 ‐0.03 6.34 0.27 5/16/23 8:47:31 0.05 ‐0.02 6.32 0.28 5/16/23 8:47:41 0.24 0.2 6.33 0.33 5/16/23 8:47:51 0.05 0 6.06 0.65 5/16/23 8:48:01 0.05 ‐0.03 1.75 1.33 5/16/23 8:48:11 0.04 ‐0.04 ‐0.26 2.06 5/16/23 8:48:21 0.04 ‐0.04 ‐0.46 2.5 5/16/23 8:48:31 0.04 ‐0.04 ‐0.52 2.67 5/16/23 8:48:41 0.04 ‐0.04 ‐0.16 2.7 5/16/23 8:48:51 0.04 ‐0.04 ‐0.02 2.71 2.71 ppm CO 5/16/23 8:49:01 0.04 ‐0.01 ‐0.03 2.72 5/16/23 8:49:11 0.04 ‐0.03 ‐0.05 2.7 5/16/23 8:49:21 0.03 ‐0.03 ‐0.05 2.7 5/16/23 8:49:31 0.03 ‐0.02 ‐0.04 2.7 5/16/23 8:49:41 0.03 ‐0.03 ‐0.06 2.71 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 9:19:51 10.58 9.06 0.04 ‐0.05 R3 5/16/23 9:20:01 10.61 9.02 0.01 ‐0.06 10.61 % O2 5/16/23 9:20:11 10.61 9.02 0 ‐0.07 9.02 % CO2 5/16/23 9:20:21 10.61 9.03 ‐0.02 ‐0.06 ‐0.02 ppm Nox 5/16/23 9:20:31 10.6 9.03 ‐0.03 ‐0.08 ‐0.08 ppm CO 5/16/23 9:20:41 10.6 9.01 ‐0.03 ‐0.1 5/16/23 9:20:51 10.6 9.02 ‐0.03 ‐0.1 5/16/23 9:21:01 10.61 9.03 ‐0.03 ‐0.09 5/16/23 9:21:11 10.61 9.03 ‐0.03 ‐0.09 5/16/23 9:21:21 10.6 9.03 ‐0.04 ‐0.1 5/16/23 9:21:31 10.6 9.04 ‐0.04 ‐0.07 5/16/23 9:21:41 10.6 9.04 ‐0.04 ‐0.06 5/16/23 9:21:51 9.07 7.57 ‐0.05 ‐0.06 5/16/23 9:22:01 0.94 0.73 ‐0.06 ‐0.07 5/16/23 9:22:11 0.12 0.21 2.04 ‐0.02 5/16/23 9:22:21 0.08 0.14 5.49 0.06 5/16/23 9:22:31 0.07 0.11 6.02 0.16 5/16/23 9:22:41 0.07 0.09 6.09 0.19 5/16/23 9:22:51 0.07 0.06 6.11 0.17 5/16/23 9:23:01 0.05 0.07 6.21 0.16 5/16/23 9:23:11 0.06 0.06 6.27 0.18 5/16/23 9:23:21 0.05 0.05 6.29 0.19 5/16/23 9:23:31 0.04 0.04 6.32 0.2 0.04 % O2 5/16/23 9:23:41 0.04 0.04 6.3 0.19 0.04 % CO2 5/16/23 9:23:51 0.04 0.05 6.3 0.19 6.31 ppm Nox 5/16/23 9:24:01 0.04 0.05 6.3 0.2 5/16/23 9:24:11 0.03 0.04 6.34 0.21 5/16/23 9:24:21 0.03 0.03 6.31 0.21 5/16/23 9:24:31 0.04 0.03 6.31 0.23 5/16/23 9:24:41 0.02 0.03 6.31 0.21 5/16/23 9:24:51 0.03 0.04 6.31 0.19 5/16/23 9:25:01 0.02 0.03 6.32 0.2 5/16/23 9:25:11 0.02 0.01 6.32 0.22 5/16/23 9:25:21 0.23 0.18 6.33 0.22 5/16/23 9:25:31 0.06 0.03 6.31 0.43 5/16/23 9:25:41 0.02 0 3.14 1.07 5/16/23 9:25:51 0.01 0 0.31 1.8 5/16/23 9:26:01 0.01 ‐0.01 ‐0.01 2.33 5/16/23 9:26:11 0.01 0 ‐0.05 2.56 5/16/23 9:26:21 0.01 0.02 ‐0.09 2.61 5/16/23 9:26:31 0.01 0.02 ‐0.11 2.61 5/16/23 9:26:41 0.01 ‐0.01 ‐0.1 2.63 5/16/23 9:26:51 0.01 0 ‐0.1 2.68 5/16/23 9:27:01 0.01 ‐0.01 ‐0.12 2.69 5/16/23 9:27:11 0.01 0.01 ‐0.13 2.76 5/16/23 9:27:21 0 0.01 ‐0.13 2.78 2.79 ppm CO 5/16/23 9:27:31 0.01 0 ‐0.13 2.79 5/16/23 9:27:41 0 0 ‐0.13 2.78 5/16/23 9:27:51 0 ‐0.02 ‐0.13 2.8 5/16/23 9:28:01 0 ‐0.01 ‐0.14 2.8 5/16/23 9:28:11 0 0.01 ‐0.16 2.77 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 9:58:21 10.52 8.96 0.03 1.09 R4 5/16/23 9:58:31 10.51 8.97 0 0.02 10.51 % O2 5/16/23 9:58:41 10.51 8.99 ‐0.03 0.11 8.99 % CO2 5/16/23 9:58:51 10.51 8.99 ‐0.03 ‐0.05 ‐0.03 ppm NOx 5/16/23 9:59:01 10.52 9.01 ‐0.04 ‐0.06 ‐0.02 ppm CO 5/16/23 9:59:11 10.51 9 ‐0.04 ‐0.06 5/16/23 9:59:21 10.51 9 ‐0.05 ‐0.05 5/16/23 9:59:31 10.51 9.01 ‐0.09 ‐0.04 5/16/23 9:59:41 10.51 9.02 ‐0.02 ‐0.01 5/16/23 9:59:51 10.51 9 ‐0.01 ‐0.03 5/16/23 10:00:01 10.51 9.02 ‐0.07 ‐0.02 5/16/23 10:00:11 10.51 9.03 ‐0.07 ‐0.04 5/16/23 10:00:21 10.52 9.03 ‐0.07 ‐0.04 5/16/23 10:00:31 5.86 4.7 ‐0.08 0 5/16/23 10:00:41 0.27 0.29 0.05 ‐0.01 5/16/23 10:00:51 0.05 0.14 3.23 0.07 5/16/23 10:01:01 0.03 0.07 5.13 0.14 5/16/23 10:01:11 0.03 0.03 5.37 0.24 5/16/23 10:01:21 0.02 0.02 5.96 0.27 5/16/23 10:01:31 0.02 0.03 6.35 0.28 5/16/23 10:01:41 0.01 0.04 6.34 0.27 0.00 % O2 5/16/23 10:01:51 0.01 0.03 6.35 0.27 0.01 % CO2 5/16/23 10:02:01 0 0 6.33 0.25 6.35 ppm NOx 5/16/23 10:02:11 0 0 6.35 0.27 5/16/23 10:02:21 0 ‐0.01 6.36 0.23 5/16/23 10:02:31 0 ‐0.02 6.37 0.27 5/16/23 10:02:41 0 ‐0.01 6.37 0.28 5/16/23 10:02:51 ‐0.02 ‐0.01 6.36 0.28 5/16/23 10:03:01 ‐0.02 ‐0.03 6.33 0.28 5/16/23 10:03:11 ‐0.02 ‐0.02 6.32 0.27 5/16/23 10:03:21 ‐0.02 ‐0.04 6.35 0.27 5/16/23 10:03:31 ‐0.02 ‐0.04 6.35 0.27 5/16/23 10:03:41 0.14 0.12 6.34 0.25 5/16/23 10:03:51 ‐0.01 ‐0.02 5.95 0.67 5/16/23 10:04:01 ‐0.02 ‐0.03 1.68 1.48 5/16/23 10:04:11 ‐0.02 ‐0.02 0.1 2.21 5/16/23 10:04:21 ‐0.02 ‐0.01 ‐0.06 2.66 5/16/23 10:04:31 ‐0.03 ‐0.03 ‐0.1 2.81 5/16/23 10:04:41 ‐0.03 ‐0.04 ‐0.04 2.82 5/16/23 10:04:51 ‐0.03 ‐0.04 ‐0.08 2.84 5/16/23 10:05:01 ‐0.03 ‐0.03 ‐0.14 2.82 5/16/23 10:05:11 ‐0.02 ‐0.06 ‐0.14 2.84 5/16/23 10:05:21 ‐0.02 ‐0.03 ‐0.14 2.86 5/16/23 10:05:31 ‐0.03 ‐0.04 ‐0.15 2.82 5/16/23 10:05:41 ‐0.03 ‐0.04 ‐0.17 2.84 5/16/23 10:05:51 ‐0.03 ‐0.03 ‐0.17 2.82 2.82 ppm CO 5/16/23 10:06:01 ‐0.03 ‐0.04 ‐0.18 2.83 5/16/23 10:06:11 ‐0.03 ‐0.02 ‐0.17 2.82 5/16/23 10:06:21 ‐0.04 ‐0.02 ‐0.17 2.84 5/16/23 10:06:31 ‐0.03 ‐0.04 ‐0.17 2.81 5/16/23 10:06:41 ‐0.03 ‐0.04 ‐0.17 2.8 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 10:36:01 10.56 9.01 ‐0.02 ‐0.09 R5 5/16/23 10:36:11 10.59 9 ‐0.05 ‐0.11 10.59 % O2 5/16/23 10:36:21 10.59 9.02 ‐0.06 ‐0.11 9.02 % CO2 5/16/23 10:36:31 10.58 9.03 ‐0.08 ‐0.15 ‐0.07 ppm NOx 5/16/23 10:36:41 10.59 9.01 ‐0.08 ‐0.14 ‐0.13 ppm CO 5/16/23 10:36:51 10.59 9.02 ‐0.08 ‐0.13 5/16/23 10:37:01 10.58 9.04 ‐0.08 ‐0.11 5/16/23 10:37:11 10.59 9.03 ‐0.1 ‐0.01 5/16/23 10:37:21 10.58 9.03 ‐0.1 0 5/16/23 10:37:31 10.59 9.04 ‐0.1 0.01 5/16/23 10:37:41 10.59 9.02 ‐0.1 0.01 5/16/23 10:37:51 10.59 9.02 ‐0.1 ‐0.05 5/16/23 10:38:01 10.56 9 ‐0.11 0.01 5/16/23 10:38:11 3.31 2.54 ‐0.13 0.02 5/16/23 10:38:21 0.12 0.25 0.32 0.16 5/16/23 10:38:31 0.04 0.15 4.68 0.2 5/16/23 10:38:41 0.02 0.11 6.33 0.24 5/16/23 10:38:51 0.02 0.12 6.36 0.24 5/16/23 10:39:01 0 0.09 6.33 0.28 5/16/23 10:39:11 0 0.08 6.31 0.26 5/16/23 10:39:21 0 0.07 6.36 0.29 5/16/23 10:39:31 0 0.08 6.36 0.24 ‐0.01 % O2 5/16/23 10:39:41 ‐0.01 0.06 6.36 0.27 0.05 % CO2 5/16/23 10:39:51 ‐0.01 0.05 6.46 0.26 6.39 ppm NOx 5/16/23 10:40:01 ‐0.02 0.05 6.39 0.24 5/16/23 10:40:11 ‐0.02 0.02 6.39 0.28 5/16/23 10:40:21 ‐0.02 0.03 6.4 0.24 5/16/23 10:40:31 ‐0.01 0.04 6.41 0.26 5/16/23 10:40:41 ‐0.02 0.02 6.41 0.29 5/16/23 10:40:51 ‐0.02 0.04 6.42 0.27 5/16/23 10:41:01 ‐0.03 0.03 6.42 0.28 5/16/23 10:41:11 ‐0.03 0.05 6.4 0.29 5/16/23 10:41:21 ‐0.02 0.06 6.39 0.26 5/16/23 10:41:31 ‐0.03 0.05 6.46 0.26 5/16/23 10:41:41 ‐0.03 0.03 6.39 0.24 5/16/23 10:41:51 ‐0.04 0.02 6.42 0.41 5/16/23 10:42:01 ‐0.03 0.01 2.97 1.24 5/16/23 10:42:11 ‐0.03 0.03 0.24 2.03 5/16/23 10:42:21 ‐0.03 0.03 ‐0.05 2.55 5/16/23 10:42:31 ‐0.04 0.02 ‐0.11 2.75 5/16/23 10:42:41 ‐0.03 0.01 ‐0.15 2.79 5/16/23 10:42:51 ‐0.04 0.01 ‐0.16 2.81 5/16/23 10:43:01 ‐0.04 0.02 ‐0.33 2.82 5/16/23 10:43:11 ‐0.04 0.02 ‐0.11 2.79 2.79 ppm CO 5/16/23 10:43:21 ‐0.04 ‐0.01 ‐0.16 2.79 5/16/23 10:43:31 ‐0.03 0.01 ‐0.13 2.79 5/16/23 10:43:41 ‐0.04 0 ‐0.17 2.81 5/16/23 10:43:51 ‐0.04 0.02 ‐0.19 2.78 5/16/23 10:44:01 ‐0.04 0.03 ‐0.19 2.79 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 11:13:51 10.86 8.96 0.09 0.16 R6 5/16/23 11:14:01 10.86 8.94 0.08 ‐0.03 10.85 % O2 5/16/23 11:14:11 10.85 8.95 0.05 ‐0.09 8.95 % CO2 5/16/23 11:14:21 10.85 8.94 0.05 ‐0.07 0.05 ppm NOx 5/16/23 11:14:31 10.86 8.92 0.03 ‐0.08 ‐0.07 ppm CO 5/16/23 11:14:41 10.84 8.98 0.03 ‐0.07 5/16/23 11:14:51 10.84 8.98 0.04 ‐0.06 5/16/23 11:15:01 10.84 9 0.02 ‐0.07 5/16/23 11:15:11 10.83 8.98 0.03 ‐0.07 5/16/23 11:15:21 10.69 8.97 0 ‐0.07 5/16/23 11:15:31 10.66 8.99 0 ‐0.05 5/16/23 11:15:41 10.66 8.99 0 ‐0.06 5/16/23 11:15:51 10.67 8.97 ‐0.04 ‐0.07 5/16/23 11:16:01 10.66 8.99 ‐0.02 ‐0.09 5/16/23 11:16:11 10.64 8.87 0.04 ‐0.07 5/16/23 11:16:21 3.32 2.47 0.12 ‐0.07 5/16/23 11:16:31 0.13 0.22 0.52 ‐0.04 5/16/23 11:16:41 0.04 0.11 4.96 0.04 5/16/23 11:16:51 0.02 0.07 5.64 0.1 5/16/23 11:17:01 0.01 0.06 6.02 0.16 5/16/23 11:17:11 0 0.05 6.17 0.2 5/16/23 11:17:21 0.01 0.02 6.25 0.22 5/16/23 11:17:31 0 0.02 6.33 0.22 ‐0.01 % O2 5/16/23 11:17:41 0 0.01 6.32 0.22 0.01 % CO2 5/16/23 11:17:51 0 0.01 6.32 0.22 6.33 ppm NOx 5/16/23 11:18:01 ‐0.01 0.01 6.33 0.24 5/16/23 11:18:11 ‐0.01 ‐0.01 6.32 0.24 5/16/23 11:18:21 ‐0.01 0 6.34 0.2 5/16/23 11:18:31 ‐0.02 ‐0.01 6.34 0.26 5/16/23 11:18:41 ‐0.01 ‐0.03 6.34 0.2 5/16/23 11:18:51 ‐0.02 ‐0.03 6.34 0.23 5/16/23 11:19:01 ‐0.03 ‐0.04 6.35 0.22 5/16/23 11:19:11 ‐0.02 ‐0.03 6.35 0.21 5/16/23 11:19:21 0.1 0.08 6.35 0.24 5/16/23 11:19:31 0.09 0.06 6.35 0.27 5/16/23 11:19:41 ‐0.02 ‐0.03 5.02 0.86 5/16/23 11:19:51 ‐0.03 ‐0.03 0.89 1.72 5/16/23 11:20:01 ‐0.03 ‐0.04 0.03 2.37 5/16/23 11:20:11 ‐0.03 ‐0.02 ‐0.07 2.66 5/16/23 11:20:21 ‐0.03 ‐0.03 ‐0.05 2.77 5/16/23 11:20:31 ‐0.03 ‐0.04 ‐0.09 2.77 5/16/23 11:20:41 ‐0.03 ‐0.05 ‐0.12 2.76 5/16/23 11:20:51 ‐0.03 ‐0.03 ‐0.15 2.81 5/16/23 11:21:01 ‐0.04 ‐0.02 ‐0.13 2.76 5/16/23 11:21:11 ‐0.03 ‐0.04 ‐0.17 2.81 5/16/23 11:21:21 ‐0.03 ‐0.02 ‐0.18 2.75 2.77 ppm CO 5/16/23 11:21:31 ‐0.04 ‐0.04 ‐0.19 2.75 5/16/23 11:21:41 ‐0.04 ‐0.06 ‐0.19 2.77 5/16/23 11:21:51 ‐0.03 ‐0.05 ‐0.19 2.79 5/16/23 11:22:01 ‐0.04 ‐0.05 ‐0.19 2.77 5/16/23 11:22:11 ‐0.03 ‐0.03 ‐0.16 2.77 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 11:50:51 10.66 8.99 0.06 0.29 R7 5/16/23 11:51:01 10.65 9 0.05 0.01 10.66 % O2 5/16/23 11:51:11 10.66 9.04 0.02 ‐0.07 9.04 % CO2 5/16/23 11:51:21 10.66 9.03 0.01 ‐0.09 0.01 ppm NOx 5/16/23 11:51:31 10.65 9.07 0 ‐0.09 ‐0.07 ppm CO 5/16/23 11:51:41 10.65 9.04 ‐0.02 ‐0.08 5/16/23 11:51:51 10.66 9.05 ‐0.01 ‐0.07 5/16/23 11:52:01 10.65 9.06 ‐0.04 ‐0.1 5/16/23 11:52:11 10.65 9.06 ‐0.03 ‐0.13 5/16/23 11:52:21 10.64 9.07 ‐0.04 ‐0.1 5/16/23 11:52:31 10.64 9.05 ‐0.05 ‐0.1 5/16/23 11:52:41 10.65 9.04 ‐0.06 ‐0.11 5/16/23 11:52:51 10.68 8.97 ‐0.07 ‐0.1 5/16/23 11:53:01 7.28 5.91 0.01 ‐0.09 5/16/23 11:53:11 0.39 0.41 0.06 ‐0.08 5/16/23 11:53:21 0.03 0.18 2.86 ‐0.03 5/16/23 11:53:31 0 0.13 5.84 0.07 5/16/23 11:53:41 0 0.1 6.24 0.14 5/16/23 11:53:51 ‐0.01 0.09 6.31 0.18 ‐0.02 % O2 5/16/23 11:54:01 ‐0.02 0.06 6.32 0.2 0.05 % CO2 5/16/23 11:54:11 ‐0.02 0.05 6.33 0.22 6.34 ppm NOx 5/16/23 11:54:21 ‐0.02 0.04 6.33 0.21 5/16/23 11:54:31 ‐0.03 0.03 6.41 0.19 5/16/23 11:54:41 ‐0.03 0.01 6.34 0.18 5/16/23 11:54:51 ‐0.04 0.01 6.36 0.17 5/16/23 11:55:01 ‐0.03 0 6.35 0.19 5/16/23 11:55:11 ‐0.04 0.02 6.34 0.2 5/16/23 11:55:21 ‐0.04 0 6.35 0.19 5/16/23 11:55:31 ‐0.04 0.01 6.36 0.21 5/16/23 11:55:41 0.18 0.24 6.35 0.21 5/16/23 11:55:51 ‐0.03 ‐0.01 6.27 0.51 5/16/23 11:56:01 ‐0.04 0 2.72 1.28 5/16/23 11:56:11 ‐0.04 ‐0.01 0.2 2.02 5/16/23 11:56:21 ‐0.05 ‐0.01 ‐0.09 2.49 5/16/23 11:56:31 ‐0.05 0 ‐0.12 2.7 5/16/23 11:56:41 ‐0.05 0.01 ‐0.16 2.74 2.73 ppm CO 5/16/23 11:56:51 ‐0.05 0.01 ‐0.18 2.75 5/16/23 11:57:01 ‐0.05 0.02 ‐0.17 2.72 5/16/23 11:57:11 ‐0.06 0.01 ‐0.18 2.73 5/16/23 11:57:21 ‐0.05 0 ‐0.19 2.73 5/16/23 11:57:31 ‐0.05 ‐0.01 ‐0.19 2.72 *3$6E573MJH RI Time O2 CO2 NOx CO 5/16/23 12:25:51 10.67 8.98 0.12 0.16 R8 5/16/23 12:26:01 10.68 8.97 0.04 ‐0.03 10.67 % O2 5/16/23 12:26:11 10.67 9 0.04 ‐0.11 9.00 % CO2 5/16/23 12:26:21 10.67 9.02 0.05 ‐0.1 0.03 ppm NOx 5/16/23 12:26:31 10.67 9.02 0.02 ‐0.08 ‐0.09 ppm CO 5/16/23 12:26:41 10.67 9.01 0.01 ‐0.1 5/16/23 12:26:51 10.67 9 0 ‐0.1 5/16/23 12:27:01 10.66 9.02 ‐0.01 ‐0.09 5/16/23 12:27:11 10.67 9.03 0 ‐0.09 5/16/23 12:27:21 10.67 9.03 0 ‐0.08 5/16/23 12:27:31 10.67 9.01 ‐0.02 ‐0.08 5/16/23 12:27:41 10.65 9.04 ‐0.01 ‐0.08 5/16/23 12:27:51 3.8 2.96 0.01 ‐0.08 5/16/23 12:28:01 0.13 0.27 0.21 ‐0.04 5/16/23 12:28:11 0.03 0.17 3.88 0.03 5/16/23 12:28:21 0.01 0.12 5.28 0.1 5/16/23 12:28:31 0 0.11 5.43 0.14 5/16/23 12:28:41 ‐0.01 0.1 5.49 0.17 5/16/23 12:28:51 ‐0.01 0.08 5.51 0.21 5/16/23 12:29:01 ‐0.02 0.05 6.01 0.22 5/16/23 12:29:11 ‐0.02 0.04 6.33 0.22 ‐0.03 % O2 5/16/23 12:29:21 ‐0.02 0.04 6.33 0.2 0.03 % CO2 5/16/23 12:29:31 ‐0.03 0.03 6.36 0.2 6.35 ppm NOx 5/16/23 12:29:41 ‐0.03 0.02 6.37 0.22 5/16/23 12:29:51 ‐0.04 0.01 6.39 0.23 5/16/23 12:30:01 ‐0.03 0.04 6.33 0.23 5/16/23 12:30:11 ‐0.03 0.03 6.34 0.2 5/16/23 12:30:21 ‐0.03 0.02 6.36 0.19 5/16/23 12:30:31 ‐0.03 0.02 6.37 0.22 5/16/23 12:30:41 ‐0.04 0.01 6.34 0.2 5/16/23 12:30:51 ‐0.04 0.01 6.34 0.19 5/16/23 12:31:01 ‐0.03 0 6.34 0.21 5/16/23 12:31:11 ‐0.04 0 6.35 0.2 5/16/23 12:31:21 ‐0.04 ‐0.02 6.35 0.21 5/16/23 12:31:31 0.12 0.15 6.36 0.27 5/16/23 12:31:41 ‐0.05 0 6.09 0.67 5/16/23 12:31:51 ‐0.05 0.01 1.7 1.47 5/16/23 12:32:01 ‐0.05 ‐0.01 0.06 2.15 5/16/23 12:32:11 ‐0.05 ‐0.01 ‐0.08 2.56 5/16/23 12:32:21 ‐0.06 ‐0.01 ‐0.12 2.69 5/16/23 12:32:31 ‐0.06 0 ‐0.11 2.73 2.75 ppm CO 5/16/23 12:32:41 ‐0.05 ‐0.02 0 2.75 5/16/23 12:32:51 ‐0.05 ‐0.03 0.01 2.74 5/16/23 12:33:01 ‐0.06 ‐0.02 ‐0.02 2.74 5/16/23 12:33:11 ‐0.06 ‐0.02 ‐0.02 2.76 5/16/23 12:33:21 ‐0.06 0 ‐0.04 2.76 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/16/23 13:03:51 10.66 9.17 0.12 ‐0.15 R9 5/16/23 13:04:01 10.64 9.14 0.1 ‐0.11 10.63 % O2 5/16/23 13:04:11 10.63 9.12 0.07 ‐0.09 9.14 % CO2 5/16/23 13:04:21 10.63 9.15 0.07 ‐0.09 0.07 ppm Nox 5/16/23 13:04:31 10.64 9.15 0.04 ‐0.12 ‐0.12 ppm CO 5/16/23 13:04:41 10.63 9.14 0.04 ‐0.14 5/16/23 13:04:51 10.63 9.15 0.08 ‐0.14 5/16/23 13:05:01 10.63 9.13 0.02 ‐0.12 5/16/23 13:05:11 10.63 9.13 ‐0.03 ‐0.13 5/16/23 13:05:21 10.63 9.14 0 ‐0.13 5/16/23 13:05:31 10.63 9.13 0 ‐0.13 5/16/23 13:05:41 10.63 9.15 ‐0.01 ‐0.14 5/16/23 13:05:51 10.63 9.16 ‐0.02 ‐0.13 5/16/23 13:06:01 10.63 9.15 0 ‐0.13 5/16/23 13:06:11 8.47 7 ‐0.04 ‐0.14 5/16/23 13:06:21 0.64 0.56 ‐0.04 ‐0.11 5/16/23 13:06:31 0.06 0.19 2.39 ‐0.05 5/16/23 13:06:41 0.03 0.15 6.17 0.03 5/16/23 13:06:51 0.01 0.11 6.36 0.09 5/16/23 13:07:01 0.01 0.09 6.33 0.16 ‐0.01 % O2 5/16/23 13:07:11 0 0.06 6.33 0.19 0.06 % CO2 5/16/23 13:07:21 0 0.07 6.36 0.14 6.35 ppm NOx 5/16/23 13:07:31 ‐0.01 0.05 6.36 0.14 5/16/23 13:07:41 ‐0.01 0.07 6.37 0.15 5/16/23 13:07:51 ‐0.02 0.04 6.37 0.17 5/16/23 13:08:01 ‐0.02 0.03 6.35 0.17 5/16/23 13:08:11 ‐0.02 0.04 6.33 0.17 5/16/23 13:08:21 ‐0.02 0.03 6.33 0.17 5/16/23 13:08:31 ‐0.02 0.01 6.32 0.18 5/16/23 13:08:41 ‐0.03 0.02 6.33 0.18 5/16/23 13:08:51 0.23 0.23 6.34 0.18 5/16/23 13:09:01 0.05 0.06 6.33 0.36 5/16/23 13:09:11 ‐0.05 0 4.25 0.98 5/16/23 13:09:21 ‐0.05 ‐0.01 0.57 1.78 5/16/23 13:09:31 ‐0.04 0 0.09 2.36 5/16/23 13:09:41 ‐0.04 ‐0.02 0.03 2.62 5/16/23 13:09:51 ‐0.05 ‐0.03 ‐0.01 2.69 5/16/23 13:10:01 ‐0.05 ‐0.01 ‐0.02 2.72 5/16/23 13:10:11 ‐0.05 ‐0.01 ‐0.02 2.72 2.71 ppm CO 5/16/23 13:10:21 ‐0.05 ‐0.01 ‐0.04 2.7 5/16/23 13:10:31 ‐0.05 ‐0.01 ‐0.04 2.7 5/16/23 13:10:41 ‐0.06 ‐0.03 ‐0.01 2.72 5/16/23 13:10:51 ‐0.06 ‐0.02 ‐0.05 2.72 5/16/23 13:11:01 ‐0.06 ‐0.03 ‐0.05 2.72 *3$6E573MJH RI EPA Method 7E §16.2.2 NO2 to NO Converter Efficiency Test Cylinder #CC51358 Time NOx ppm 5/16/23 13:13:51 47.79 5/16/23 13:14:01 47.88 5/16/23 13:14:11 47.95 5/16/23 13:14:21 47.99 5/16/23 13:14:31 48.05 5/16/23 13:14:41 48.09 NOx Average 48.0 NO2 Concentration 48.9 Conversion Efficiency 98.1% Limit >90% PROJ‐023429 PacifiCorp Lakeside CT21 5/16/2023 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.3.4 Unit CT22 GP043AS-023429-RT-1331 Page 232 of 261 PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 Initial Linearity Initial Gas ID Concentration Value Response Error OK? O2 n/a Low 0 0.01 0.1% Y EB0094234 Mid 10.67 10.62 0.2% Y CC198046 High 21 20.96 0.2% Y CO2 n/a Low 0 0.04 0.2% Y EB0094234 Mid 8.895 9.04 0.8% Y CC198046 High 17.76 17.75 0.1% Y NOx n/a Low 0 ‐0.03 0.2% Y CC73404 Mid 6.316 6.30 0.2% Y CC703698 High 12.17 12.24 0.6% Y CO n/a Low 0 ‐0.02 0.4% Y CC306048 Mid 2.773 2.81 0.6% Y XC023876B High 5.938 6.04 1.7% Y *3$6E573DJH RI PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 Analyzer Bias Checks Start Time 7:24 Start Time 7:59 Start Time 8:45 Start Time 9:25 Start Time 10:02 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 7:44 Stop Time 8:19 Stop Time 9:05 Stop Time 9:45 Stop Time 10:22 Gas Analyzer Gas Concentration Value Response Initial Bias Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift O2 Low 0.01 0.09 0.4% 0.10 0.0% 0.3% 0.10 0.0% 0.0% 0.12 0.1% 0.1% 0.13 0.2% 0.0%0 ‐0.4% 0.6% Span 10.62 10.70 0.4% 10.67 ‐0.1% 0.5% 10.61 ‐0.4% 0.3% 10.69 ‐0.1% 0.3% 10.69 ‐0.1% 0.0% 10.64 ‐0.3% 0.2% CO2 Low 0.04 0.05 0.1% 0.07 0.1% 0.0% ‐0.10 ‐0.9% 1.0% ‐0.02 ‐0.4% 0.5% 0.06 0.1%0.4% 0.05 0.0% 0.1% Span 9.04 9.00 0.2% 8.93 ‐0.4% 0.6% 9.11 0.6% 1.0% 8.95 ‐0.3% 0.9% 8.93 ‐0.4% 0.1% 9.15 0.8% 1.2% NOx Low ‐0.03 ‐0.03 0.0% 0.02 0.4% 0.4% 0.18 1.7% 1.2% 0.19 1.8% 0.1% 0.16 1.6% 0.2% 0.06 0.7% 0.9% Span 6.30 6.35 0.5% 6.25 ‐0.8% 1.3% 6.32 ‐0.3% 0.5% 6.36 0.0% 0.3% 6.37 0.2% 0.1% 6.35 0.0% 0.2% CO Low ‐0.02 ‐0.03 ‐0.1% ‐0.05 ‐0.3% 0.3% ‐0.01 0.2% 0.6% 0.04 1.0% 0.8% 0.04 1.1% 0.1% 0.02 0.8% 0.3% Span 2.81 2.73 ‐1.2% 2.81 1.3% 2.5% 2.77 0.6% 0.7% 2.80 1.1% 0.6% 2.75 0.3% 0.8% 2.75 0.2% 0.1% ≤5%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3%≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 1 Run 2 Run 3 Run 4 Run 5 *3$6E573DJH RI PROJ‐023429 PacifiCorp Lakeside CT22 5/17/2023 Analyzer Bias Checks Gas Gas Concentration Value O2 Low 0.01 Span 10.62 CO2 Low 0.04 Span 9.04 NOx Low ‐0.03 Span 6.30 CO Low ‐0.02 Span 2.81 Start Time 10:40 Start Time 11:15 Start Time 11:50 Start Time 12:24 Run Length 21 Run Length 21 Run Length 21 Run Length 21 Stop Time 11:00 Stop Time 11:35 Stop Time 12:10 Stop Time 12:44 Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift Post Cal Bias Drift 0.15 0.2% 0.7% 0.15 0.3% 0.0% 0.14 0.2% 0.0% 0.10 0.0% 0.2% 10.58 ‐0.6% 0.3% 10.57 ‐0.6% 0.0% 10.57 ‐0.6% 0.0% 10.60 ‐0.5% 0.1% 0.10 0.3% 0.3% 0.06 0.1% 0.2% 0.04 ‐0.1% 0.2% 0.04 ‐0.1% 0.0% 9.04 0.2% 0.6% 9.01 0.0% 0.2% 9.02 0.1% 0.0% 9.04 0.2% 0.1% ‐0.06 ‐0.3% 1.0% 0.07 0.8% 1.1% 0.08 0.9% 0.1% 0.15 1.5% 0.6% 6.34 ‐0.1% 0.1% 6.36 0.0% 0.1% 6.30 ‐0.4% 0.4% 6.36 0.1% 0.5% ‐0.02 0.2% 0.6% ‐0.05 ‐0.4% 0.6% ‐0.03 ‐0.1% 0.3% ‐0.05 ‐0.4% 0.3% 2.72 ‐0.2% 0.4% 2.73 ‐0.1% 0.1% 2.76 0.4% 0.5% 2.78 0.7% 0.3% ≤5% ≤3% ≤5% ≤3% ≤5% ≤3% ≤5% ≤3% or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 or ± 0.5 Run 7 Run 8 Run 9Run 6 *3$6E573DJH D RI Time O2 CO2 NOx CO 5/17/23 5:52:31 0.02 0.06 63.91 ‐0.07 Calibration Error Tests 5/17/23 5:52:41 0.02 0.04 64.1 ‐0.04 0.01 % O2 5/17/23 5:52:51 0.02 0.04 64.26 ‐0.04 0.04 % CO2 5/17/23 5:53:01 0.02 0.04 64.3 ‐0.07 5/17/23 5:53:11 0.01 0.05 64.61 ‐0.06 5/17/23 5:53:21 0.01 0.03 64.5 ‐0.06 5/17/23 5:53:31 0 0.03 18.07 ‐0.05 5/17/23 5:53:41 0 0.05 12.94 ‐0.06 5/17/23 5:53:51 6.76 5.58 12.94 ‐0.07 5/17/23 5:54:01 20.79 17.96 12.92 ‐0.17 5/17/23 5:54:11 21.43 18.22 6.37 ‐0.3 5/17/23 5:54:21 21.45 18.22 1.03 ‐0.4 5/17/23 5:54:31 21.46 18.18 0.5 ‐0.46 5/17/23 5:54:41 21.36 17.76 0.36 ‐0.47 5/17/23 5:54:51 20.96 17.73 0.28 ‐0.47 5/17/23 5:55:01 20.96 17.73 0.22 ‐0.23 20.96 % O2 5/17/23 5:55:11 20.97 17.75 0.18 ‐0.02 17.75 % CO2 5/17/23 5:55:21 20.96 17.75 0.15 ‐0.03 5/17/23 5:55:31 20.96 17.75 0.15 ‐0.04 5/17/23 5:55:41 20.96 17.75 0.14 ‐0.05 5/17/23 5:55:51 20.97 17.75 0.09 ‐0.05 5/17/23 5:56:01 16.3 12.56 0.08 ‐0.01 5/17/23 5:56:11 10.8 9.09 0.09 0.01 5/17/23 5:56:21 10.63 9.05 0.12 0.04 5/17/23 5:56:31 10.63 9.04 0.04 0.1 5/17/23 5:56:41 10.62 9.04 ‐0.01 0.01 10.62 % O2 5/17/23 5:56:51 10.62 9.04 ‐0.02 0.01 9.04 % CO2 5/17/23 5:57:01 10.62 9.02 ‐0.02 ‐0.01 ‐0.02 ppm CO 5/17/23 5:57:11 10.62 9.02 ‐0.03 ‐0.04 ‐0.03 ppm Nox 5/17/23 5:57:21 10.62 9.07 ‐0.05 ‐0.06 5/17/23 5:57:31 10.62 9.05 ‐0.05 ‐0.04 5/17/23 5:57:41 10.62 9.05 ‐0.06 ‐0.03 5/17/23 5:57:51 10.62 9.03 ‐0.06 ‐0.01 5/17/23 5:58:01 10.63 9.04 ‐0.02 ‐0.03 5/17/23 5:58:11 10.62 9.05 ‐0.01 ‐0.03 5/17/23 5:58:21 9.29 7.45 ‐0.06 ‐0.05 5/17/23 5:58:31 0.84 0.36 ‐0.05 ‐0.04 5/17/23 5:58:41 0.02 0.06 4.9 0.03 5/17/23 5:58:51 0.01 0.06 11.73 0.09 5/17/23 5:59:01 0.01 0.06 12.51 0.18 5/17/23 5:59:11 0 0.06 12.64 0.23 5/17/23 5:59:21 0 0.05 12.72 0.25 5/17/23 5:59:31 0 0.06 12.35 0.27 5/17/23 5:59:41 0 0.04 12.19 0.29 12.20 ppm NOx 5/17/23 5:59:51 0 0.02 12.18 0.26 5/17/23 6:00:01 ‐0.01 0.04 12.2 0.25 5/17/23 6:00:11 ‐0.01 0.03 12.22 0.26 5/17/23 6:00:21 ‐0.01 0.05 12.23 0.24 5/17/23 6:00:31 ‐0.01 0.05 12.19 0.25 5/17/23 6:00:41 0 0.07 12.2 0.26 5/17/23 6:00:51 0.8 0.73 12.2 0.25 5/17/23 6:01:01 0.05 0.09 11.39 0.23 5/17/23 6:01:11 0.03 0.1 7.25 0.23 5/17/23 6:01:21 0.03 0.1 6.41 0.24 5/17/23 6:01:31 0.03 0.09 6.3 0.26 5/17/23 6:01:41 0.03 0.08 6.27 0.25 5/17/23 6:01:51 0.02 0.07 6.27 0.26 5/17/23 6:02:01 0.01 0.06 6.3 0.28 6.30 ppm NOx 5/17/23 6:02:11 0.01 0.06 6.29 0.28 5/17/23 6:02:21 0.01 0.06 6.28 0.3 5/17/23 6:02:31 0.01 0.07 6.29 0.3 5/17/23 6:02:41 0.02 0.07 6.31 0.27 5/17/23 6:02:51 0.01 0.05 6.3 0.29 5/17/23 6:03:01 0 0.06 6.29 0.28 5/17/23 6:03:11 0 0.06 6.29 0.29 5/17/23 6:03:21 ‐0.01 0.06 6.28 0.28 5/17/23 6:03:31 0.08 0.07 6.27 0.28 5/17/23 6:03:41 0 0.05 6.27 0.74 5/17/23 6:03:51 ‐0.02 0.03 3.07 2.15 5/17/23 6:04:01 ‐0.02 0.06 0.44 3.77 5/17/23 6:04:11 ‐0.02 0.02 0.2 4.87 5/17/23 6:04:21 ‐0.02 0.05 0.13 5.31 5/17/23 6:04:31 ‐0.02 0.03 0.08 5.42 5/17/23 6:04:41 ‐0.02 0.03 0.04 5.46 5/17/23 6:04:51 ‐0.03 0.04 0.02 5.88 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 6:05:01 ‐0.03 0.04 0 6.04 6.04 ppm CO 5/17/23 6:05:11 ‐0.03 0.04 ‐0.03 6.05 5/17/23 6:05:21 ‐0.02 0.03 ‐0.03 6.04 5/17/23 6:05:31 ‐0.03 0.01 ‐0.05 6.04 5/17/23 6:05:41 ‐0.03 0.01 ‐0.06 6.05 5/17/23 6:05:51 ‐0.03 0.02 ‐0.06 6.02 5/17/23 6:06:01 ‐0.03 0.03 ‐0.08 5.99 5/17/23 6:06:11 ‐0.02 0.02 ‐0.08 6.01 5/17/23 6:06:21 ‐0.03 0.03 ‐0.08 6 5/17/23 6:06:31 ‐0.01 0.04 ‐0.09 6.01 5/17/23 6:06:41 0.28 0.06 ‐0.09 6.07 5/17/23 6:06:51 0.14 0.03 ‐0.09 6.01 5/17/23 6:07:01 ‐0.02 0.01 ‐0.02 5.35 5/17/23 6:07:11 ‐0.03 0.04 ‐0.08 4.42 5/17/23 6:07:21 ‐0.03 0.03 ‐0.1 3.66 5/17/23 6:07:31 ‐0.03 0.05 ‐0.08 3.29 5/17/23 6:07:41 ‐0.03 0.04 ‐0.08 3.16 5/17/23 6:07:51 ‐0.03 0.02 ‐0.1 3.14 5/17/23 6:08:01 ‐0.03 0.03 ‐0.1 3.01 5/17/23 6:08:11 ‐0.03 0.02 ‐0.1 2.86 5/17/23 6:08:21 ‐0.03 0.04 ‐0.1 2.83 2.81 ppm CO 5/17/23 6:08:31 ‐0.03 0.03 ‐0.09 2.8 5/17/23 6:08:41 ‐0.03 0.03 ‐0.07 2.79 5/17/23 6:08:51 ‐0.03 0.02 ‐0.12 2.81 5/17/23 6:09:01 ‐0.03 0.02 ‐0.1 2.81 5/17/23 6:09:11 ‐0.03 0.02 ‐0.09 2.8 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 6:16:21 0.1 0.01 ‐0.1 2.9 5/17/23 6:16:31 5.64 4.62 ‐0.1 2.89 5/17/23 6:16:41 9.52 7.89 ‐0.09 2.46 5/17/23 6:16:51 10.28 8.1 ‐0.1 1.67 5/17/23 6:17:01 11.08 8.9 ‐0.11 0.91 5/17/23 6:17:11 10.75 9.06 ‐0.09 0.46 5/17/23 6:17:21 10.67 9.06 ‐0.14 0.25 5/17/23 6:17:31 10.68 8.99 ‐0.02 0.17 5/17/23 6:17:41 10.67 8.98 ‐0.05 0.14 5/17/23 6:17:51 10.67 9.02 ‐0.06 0.09 System Bias 5/17/23 6:18:01 10.69 9 ‐0.06 ‐0.03 10.70 % O2 5/17/23 6:18:11 10.69 9 ‐0.07 ‐0.01 9.00 % CO2 5/17/23 6:18:21 10.7 9 ‐0.04 ‐0.02 ‐0.02 ppm NOx 5/17/23 6:18:31 10.72 8.99 0 ‐0.04 ‐0.03 ppm CO 5/17/23 6:18:41 10.7 9.02 ‐0.02 ‐0.03 5/17/23 6:18:51 10.7 9.01 0.08 ‐0.03 5/17/23 6:19:01 10.71 9.02 0 ‐0.03 5/17/23 6:19:11 10.72 9 0.01 ‐0.03 5/17/23 6:19:21 10.72 9 0 0 5/17/23 6:19:31 10.71 9.01 0.02 0 5/17/23 6:19:41 10.72 9 0 ‐0.02 5/17/23 6:19:51 9.17 8.08 0 ‐0.03 5/17/23 6:20:01 1.08 0.74 0.02 0.04 5/17/23 6:20:11 0.16 0.2 0.94 0.17 5/17/23 6:20:21 0.13 0.11 4.97 0.26 5/17/23 6:20:31 0.12 0.09 5.86 0.26 5/17/23 6:20:41 0.11 0.07 5.95 0.25 5/17/23 6:20:51 0.11 0.07 6.19 0.24 5/17/23 6:21:01 0.1 0.07 6.23 0.21 5/17/23 6:21:11 0.1 0.05 6.34 0.2 0.09 % O2 5/17/23 6:21:21 0.1 0.07 6.35 0.21 0.05 % CO2 5/17/23 6:21:31 0.09 0.05 6.34 0.22 6.35 ppm NOx 5/17/23 6:21:41 0.09 0.05 6.38 0.22 5/17/23 6:21:51 0.09 0.05 6.36 0.2 5/17/23 6:22:01 0.09 0.03 6.35 0.21 5/17/23 6:22:11 0.08 0.05 6.32 0.23 5/17/23 6:22:21 0.09 0.05 6.32 0.22 5/17/23 6:22:31 0.08 0.06 6.37 0.22 5/17/23 6:22:41 0.09 0.07 6.27 0.2 5/17/23 6:22:51 0.09 0.05 6.32 0.22 5/17/23 6:23:01 0.08 0.03 6.34 0.25 5/17/23 6:23:11 0.09 0.03 5.28 0.79 5/17/23 6:23:21 0.08 0.02 1.09 1.59 5/17/23 6:23:31 0.08 0.03 0.2 2.26 5/17/23 6:23:41 0.07 0.02 0.25 2.6 5/17/23 6:23:51 0.07 0.01 0.07 2.75 5/17/23 6:24:01 0.08 0.03 0.03 2.76 2.73 ppm CO 5/17/23 6:24:11 0.08 0.03 0.02 2.75 5/17/23 6:24:21 0.08 0.01 0.01 2.72 5/17/23 6:24:31 0.08 0.02 0 2.73 5/17/23 6:24:41 0.08 0.03 ‐0.02 2.71 5/17/23 6:24:51 0.07 0.02 ‐0.02 2.73 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 7:46:21 10.68 8.83 2.06 0.49 R1 5/17/23 7:46:31 10.68 8.86 0.24 0.3 10.67 % O2 5/17/23 7:46:41 10.67 8.93 0.08 0.04 8.93 % CO2 5/17/23 7:46:51 10.67 8.93 0.02 ‐0.11 0.02 ppm NOx 5/17/23 7:47:01 10.67 8.94 ‐0.05 ‐0.17 ‐0.05 ppm CO 5/17/23 7:47:11 10.67 8.95 ‐0.07 ‐0.17 5/17/23 7:47:21 10.66 8.97 ‐0.08 ‐0.17 5/17/23 7:47:31 10.66 8.96 ‐0.13 ‐0.03 5/17/23 7:47:41 10.66 8.97 ‐0.15 ‐0.03 5/17/23 7:47:51 10.65 8.97 ‐0.17 ‐0.06 5/17/23 7:48:01 10.66 9 ‐0.19 ‐0.01 5/17/23 7:48:11 10.65 8.99 ‐0.19 ‐0.02 5/17/23 7:48:21 10.65 8.99 ‐0.24 ‐0.03 5/17/23 7:48:31 10.6 9.12 ‐0.26 ‐0.05 5/17/23 7:48:41 3.87 2.85 ‐0.26 ‐0.06 5/17/23 7:48:51 0.24 0.27 ‐0.07 0 5/17/23 7:49:01 0.14 0.16 4.03 0.07 5/17/23 7:49:11 0.13 0.12 5.91 0.18 5/17/23 7:49:21 0.12 0.11 6.09 0.24 5/17/23 7:49:31 0.11 0.09 6.15 0.24 5/17/23 7:49:41 0.11 0.09 6.25 0.26 0.10 % O2 5/17/23 7:49:51 0.11 0.07 6.23 0.26 0.07 % CO2 5/17/23 7:50:01 0.1 0.07 6.24 0.28 6.25 ppm Nox 5/17/23 7:50:11 0.1 0.03 6.25 0.24 5/17/23 7:50:21 0.1 0.07 6.26 0.26 5/17/23 7:50:31 0.09 0.07 6.27 0.24 5/17/23 7:50:41 0.09 0.04 6.27 0.26 5/17/23 7:50:51 0.1 0.03 6.27 0.28 5/17/23 7:51:01 0.09 0.04 6.27 0.26 5/17/23 7:51:11 0.09 0.04 6.29 0.28 5/17/23 7:51:21 0.08 0.03 6.29 0.26 5/17/23 7:51:31 0.2 0.16 6.3 0.26 5/17/23 7:51:41 0.37 0.32 6.29 0.3 5/17/23 7:51:51 0.09 0.03 5.52 0.81 5/17/23 7:52:01 0.07 0.03 1 1.66 5/17/23 7:52:11 0.08 0.02 ‐0.18 2.34 5/17/23 7:52:21 0.08 0.04 ‐0.33 2.76 5/17/23 7:52:31 0.08 0.02 ‐0.38 2.85 5/17/23 7:52:41 0.08 0.03 ‐0.4 2.83 2.81 ppm CO 5/17/23 7:52:51 0.07 0.01 ‐0.41 2.8 5/17/23 7:53:01 0.07 0.02 ‐0.47 2.8 5/17/23 7:53:11 0.08 0.03 ‐0.47 2.81 5/17/23 7:53:21 0.07 0.01 ‐0.5 2.8 5/17/23 7:53:31 0.07 0.02 ‐0.5 2.81 *3$6E573MJH E RI Time O2 CO2 NOx CO 5/17/23 8:29:31 0.08 ‐0.1 6.36 0.3 R2 5/17/23 8:29:41 0.09 ‐0.1 6.3 0.31 0.10 % O2 5/17/23 8:29:51 0.1 ‐0.09 6.3 0.32 ‐0.10 % CO2 5/17/23 8:30:01 0.1 ‐0.11 6.31 0.3 6.32 ppm CO 5/17/23 8:30:11 0.1 ‐0.11 6.32 0.28 5/17/23 8:30:21 0.1 ‐0.11 6.32 0.27 5/17/23 8:30:31 0.1 ‐0.1 6.35 0.28 5/17/23 8:30:41 0.09 ‐0.11 6.35 0.28 5/17/23 8:30:51 0.09 ‐0.11 6.35 0.31 5/17/23 8:31:01 0.09 ‐0.11 6.37 0.32 5/17/23 8:31:11 0.09 ‐0.12 6.4 0.3 5/17/23 8:31:21 0.09 ‐0.14 6.4 0.31 5/17/23 8:31:31 0.09 ‐0.13 6.42 0.3 5/17/23 8:31:41 0.09 ‐0.13 6.42 0.4 5/17/23 8:31:51 0.09 ‐0.14 5.22 0.96 5/17/23 8:32:01 0.09 ‐0.14 0.61 1.78 5/17/23 8:32:11 0.08 ‐0.14 ‐0.28 2.44 5/17/23 8:32:21 0.09 ‐0.11 ‐0.34 2.74 5/17/23 8:32:31 0.08 ‐0.12 ‐0.41 2.83 5/17/23 8:32:41 0.08 ‐0.12 ‐0.16 2.84 5/17/23 8:32:51 0.08 ‐0.12 0.01 2.85 5/17/23 8:33:01 0.08 ‐0.12 ‐0.06 2.83 5/17/23 8:33:11 0.08 ‐0.13 ‐0.07 2.78 2.77 ppm CO 5/17/23 8:33:21 0.08 ‐0.11 ‐0.02 2.75 5/17/23 8:33:31 0.08 ‐0.12 ‐0.07 2.75 5/17/23 8:33:41 0.08 ‐0.12 ‐0.07 2.78 5/17/23 8:33:51 0.08 ‐0.13 ‐0.1 2.76 5/17/23 8:34:01 0.08 ‐0.12 ‐0.09 2.78 5/17/23 8:34:11 0.08 ‐0.12 ‐0.09 2.77 5/17/23 8:34:21 0.08 ‐0.12 ‐0.08 2.81 5/17/23 8:34:31 0.08 ‐0.03 ‐0.07 2.78 5/17/23 8:34:41 0.08 ‐0.01 ‐0.09 2.77 5/17/23 8:34:51 0.08 ‐0.01 ‐0.09 2.61 5/17/23 8:35:01 0.08 ‐0.01 2.1 2 5/17/23 8:35:11 0.08 0 6.29 1.22 5/17/23 8:35:21 0.08 ‐0.01 6.34 0.64 5/17/23 8:35:31 0.08 ‐0.01 6.34 0.39 5/17/23 8:35:41 0.08 ‐0.02 6.34 0.32 5/17/23 8:35:51 0.08 ‐0.02 6.35 0.3 5/17/23 8:36:01 0.08 ‐0.03 6.4 0.31 5/17/23 8:36:11 0.08 0 6.42 0.33 5/17/23 8:36:21 0.08 0 6.38 0.34 5/17/23 8:36:31 3.73 3.15 6.33 0.32 5/17/23 8:36:41 10.24 8.97 6.09 0.35 5/17/23 8:36:51 10.55 9.09 3.76 0.19 5/17/23 8:37:01 10.56 9.1 0.81 0.06 5/17/23 8:37:11 10.56 9.28 0.51 0.02 5/17/23 8:37:21 10.59 9.09 0.41 0 5/17/23 8:37:31 10.59 9.07 0.3 ‐0.03 5/17/23 8:37:41 10.59 9.09 0.26 ‐0.02 5/17/23 8:37:51 10.59 9.1 0.23 ‐0.02 5/17/23 8:38:01 10.59 9.1 0.22 ‐0.01 5/17/23 8:38:11 10.59 9.11 0.2 ‐0.03 10.61 % O2 5/17/23 8:38:21 10.59 9.1 0.17 ‐0.01 9.11 % CO2 5/17/23 8:38:31 10.6 9.1 0.16 ‐0.01 0.18 ppm Nox 5/17/23 8:38:41 10.6 9.11 0.17 ‐0.01 ‐0.01 ppm CO 5/17/23 8:38:51 10.6 9.12 0.17 0 5/17/23 8:39:01 10.6 9.12 0.18 ‐0.02 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 9:09:31 10.69 8.98 0.2 0.05 R3 5/17/23 9:09:41 10.68 8.95 0.19 0.04 10.69 % O2 5/17/23 9:09:51 10.68 8.96 0.18 0.03 8.95 % CO2 5/17/23 9:10:01 10.69 8.95 0.19 0.03 0.19 ppm Nox 5/17/23 9:10:11 10.69 8.94 0.18 0.04 0.04 ppm CO 5/17/23 9:10:21 10.68 8.95 0.2 0.03 5/17/23 9:10:31 10.69 8.95 0.18 0.04 5/17/23 9:10:41 10.68 8.97 0.17 0.03 5/17/23 9:10:51 10.69 8.96 0.2 0.03 5/17/23 9:11:01 10.69 8.95 0.22 0.04 5/17/23 9:11:11 10.68 8.98 0.24 0.03 5/17/23 9:11:21 10.68 8.96 0.26 0.02 5/17/23 9:11:31 10.72 8.83 0.3 0.04 5/17/23 9:11:41 4.06 2.82 0.32 0.05 5/17/23 9:11:51 0.56 0.39 0.5 0.08 5/17/23 9:12:01 0.43 0.29 4.48 0.13 5/17/23 9:12:11 0.57 0.35 6.23 0.23 5/17/23 9:12:21 0.71 0.38 6.45 0.3 5/17/23 9:12:31 0.74 0.4 6.48 0.31 5/17/23 9:12:41 0.7 0.41 6.43 0.31 5/17/23 9:12:51 0.71 0.35 6.53 0.3 5/17/23 9:13:01 0.66 0.3 6.56 0.31 5/17/23 9:13:11 0.65 0.29 6.6 0.3 5/17/23 9:13:21 0.63 0.27 6.63 0.28 5/17/23 9:13:31 0.66 0.3 6.66 0.28 5/17/23 9:13:41 0.4 0.12 6.71 0.32 5/17/23 9:13:51 0.21 0.02 6.69 0.34 5/17/23 9:14:01 0.2 0.02 6.5 0.33 5/17/23 9:14:11 0.19 ‐0.01 6.37 0.31 5/17/23 9:14:21 0.19 0 6.32 0.31 5/17/23 9:14:31 0.19 0.01 6.33 0.32 5/17/23 9:14:41 0.17 ‐0.01 6.32 0.32 5/17/23 9:14:51 0.14 0 6.32 0.33 5/17/23 9:15:01 0.12 0.02 6.33 0.33 5/17/23 9:15:11 0.13 0 6.43 0.34 5/17/23 9:15:21 0.12 ‐0.02 6.38 0.33 0.12 % O2 5/17/23 9:15:31 0.12 ‐0.02 6.37 0.31 ‐0.02 % CO2 5/17/23 9:15:41 0.12 ‐0.02 6.38 0.32 6.36 ppm Nox 5/17/23 9:15:51 0.12 0 6.34 0.33 5/17/23 9:16:01 0.12 ‐0.01 6.35 0.33 5/17/23 9:16:11 0.12 ‐0.02 6.32 0.35 5/17/23 9:16:21 0.13 0 6.31 0.37 5/17/23 9:16:31 0.12 ‐0.03 6.29 0.36 5/17/23 9:16:41 0.12 ‐0.01 6.28 0.34 5/17/23 9:16:51 0.12 ‐0.04 6.26 0.33 5/17/23 9:17:01 0.12 ‐0.02 6.27 0.34 5/17/23 9:17:11 0.58 0.47 6.27 0.36 5/17/23 9:17:21 0.15 0.02 6.23 0.62 5/17/23 9:17:31 0.12 ‐0.04 3.02 1.34 5/17/23 9:17:41 0.11 ‐0.03 0.55 2.11 5/17/23 9:17:51 0.11 ‐0.03 0.26 2.6 5/17/23 9:18:01 0.12 ‐0.03 0.15 2.77 2.80 ppm CO 5/17/23 9:18:11 0.12 ‐0.01 0.1 2.83 5/17/23 9:18:21 0.12 ‐0.02 0.07 2.84 5/17/23 9:18:31 0.11 ‐0.04 0.03 2.84 5/17/23 9:18:41 0.11 ‐0.01 0.03 2.77 5/17/23 9:18:51 0.11 ‐0.02 0 2.75 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 9:48:21 10.69 8.93 0.2 0.05 R4 5/17/23 9:48:31 10.69 8.93 0.18 0.06 10.69 % O2 5/17/23 9:48:41 10.68 8.92 0.18 0.06 8.93 % CO2 5/17/23 9:48:51 10.69 8.93 0.18 0.03 0.16 ppm NOx 5/17/23 9:49:01 10.68 8.92 0.15 0.02 0.04 ppm CO 5/17/23 9:49:11 10.69 8.93 0.14 0.03 5/17/23 9:49:21 10.68 8.93 0.14 0.04 5/17/23 9:49:31 10.69 8.93 0.15 0.03 5/17/23 9:49:41 10.69 8.95 0.15 0.05 5/17/23 9:49:51 10.68 8.93 0.14 0.06 5/17/23 9:50:01 10.76 8.69 0.17 0.05 5/17/23 9:50:11 11.9 5.62 0.15 0.06 5/17/23 9:50:21 12.12 5.17 0.35 0.08 5/17/23 9:50:31 12.16 5.11 1.55 0.12 5/17/23 9:50:41 12.2 5.07 2.1 0.15 5/17/23 9:50:51 12.13 5.08 2.2 0.16 5/17/23 9:51:01 12.14 5.07 2.23 0.17 5/17/23 9:51:11 12.17 5.08 2.3 0.16 5/17/23 9:51:21 9.22 6.33 2.32 0.15 5/17/23 9:51:31 0.88 0.56 2.23 0.29 5/17/23 9:51:41 0.21 0.22 1.13 0.47 5/17/23 9:51:51 0.17 0.18 4.13 0.52 5/17/23 9:52:01 0.17 0.16 5.5 0.48 5/17/23 9:52:11 0.16 0.16 5.61 0.38 5/17/23 9:52:21 0.15 0.13 5.59 0.32 5/17/23 9:52:31 0.15 0.14 5.67 0.32 5/17/23 9:52:41 0.14 0.12 5.68 0.33 5/17/23 9:52:51 0.14 0.09 5.69 0.32 5/17/23 9:53:01 0.14 0.09 6.17 0.3 5/17/23 9:53:11 0.14 0.08 6.44 0.29 5/17/23 9:53:21 0.13 0.06 6.37 0.29 5/17/23 9:53:31 0.14 0.07 6.35 0.3 0.13 % O2 5/17/23 9:53:41 0.13 0.06 6.39 0.29 0.06 % CO2 5/17/23 9:53:51 0.13 0.05 6.37 0.29 6.37 ppm NOx 5/17/23 9:54:01 0.12 0.06 6.37 0.28 5/17/23 9:54:11 0.13 0.07 6.38 0.31 5/17/23 9:54:21 0.12 0.06 6.37 0.33 5/17/23 9:54:31 0.12 0.05 6.38 0.32 5/17/23 9:54:41 0.12 0.06 6.4 0.3 5/17/23 9:54:51 0.12 0.06 6.41 0.32 5/17/23 9:55:01 0.12 0.05 6.47 0.33 5/17/23 9:55:11 0.12 0.06 5.84 0.32 5/17/23 9:55:21 0.12 0.06 5.84 0.38 5/17/23 9:55:31 0.12 0.03 5.57 0.79 5/17/23 9:55:41 0.12 0.04 1.69 1.55 5/17/23 9:55:51 0.12 0.03 0.28 2.21 5/17/23 9:56:01 0.11 0.03 0.12 2.6 5/17/23 9:56:11 0.12 0.06 0.03 2.72 2.75 ppm CO 5/17/23 9:56:21 0.12 0.04 ‐0.01 2.75 5/17/23 9:56:31 0.11 0.03 ‐0.05 2.77 5/17/23 9:56:41 0.11 0.03 ‐0.06 2.76 5/17/23 9:56:51 0.12 0.02 ‐0.06 2.75 5/17/23 9:57:01 0.12 0.04 ‐0.08 2.76 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 10:25:41 10.64 9.11 0.21 0.02 R5 5/17/23 10:25:51 10.65 9.12 0.12 0.01 10.64 % O2 5/17/23 10:26:01 10.64 9.12 0.09 0.03 9.15 % CO2 5/17/23 10:26:11 10.64 9.15 0.06 0.02 0.06 ppm NOx 5/17/23 10:26:21 10.63 9.17 0.04 0.04 0.02 ppm CO 5/17/23 10:26:31 10.64 9.16 0.02 0.02 5/17/23 10:26:41 10.64 9.17 0.01 0.02 5/17/23 10:26:51 10.63 9.16 0.03 0.02 5/17/23 10:27:01 10.63 9.17 ‐0.01 0.01 5/17/23 10:27:11 10.63 9.18 ‐0.03 ‐0.01 5/17/23 10:27:21 10.64 9.16 ‐0.04 0.01 5/17/23 10:27:31 9.34 7.83 ‐0.05 0.01 5/17/23 10:27:41 1.08 0.71 ‐0.05 0.04 5/17/23 10:27:51 0.21 0.22 1.13 0.11 5/17/23 10:28:01 0.18 0.14 4.72 0.19 5/17/23 10:28:11 0.16 0.09 5.51 0.25 5/17/23 10:28:21 0.16 0.09 5.64 0.27 5/17/23 10:28:31 0.15 0.08 5.73 0.3 5/17/23 10:28:41 0.14 0.06 5.85 0.3 5/17/23 10:28:51 0.14 0.04 6.42 0.31 5/17/23 10:29:01 0.14 0.05 6.4 0.31 5/17/23 10:29:11 0.14 0.05 6.38 0.28 5/17/23 10:29:21 0.13 0.02 6.43 0.29 5/17/23 10:29:31 0.13 0.01 6.43 0.31 5/17/23 10:29:41 0.13 0 6.41 0.31 5/17/23 10:29:51 0.13 0.02 6.4 0.29 5/17/23 10:30:01 0.13 0.01 6.39 0.31 5/17/23 10:30:11 0.13 0.02 6.34 0.29 0.12 % O2 5/17/23 10:30:21 0.12 0.01 6.32 0.28 0.00 % CO2 5/17/23 10:30:31 0.12 0.01 6.35 0.29 6.35 ppm NOx 5/17/23 10:30:41 0.12 0.01 6.36 0.3 5/17/23 10:30:51 0.12 ‐0.01 6.36 0.29 5/17/23 10:31:01 0.12 ‐0.02 6.38 0.29 5/17/23 10:31:11 0.12 ‐0.02 6.38 0.3 5/17/23 10:31:21 0.12 ‐0.01 6.42 0.27 5/17/23 10:31:31 0.13 ‐0.01 6.39 0.3 5/17/23 10:31:41 0.12 0 6.4 0.31 5/17/23 10:31:51 0.12 0 6.43 0.3 5/17/23 10:32:01 0.11 ‐0.01 6.4 0.31 5/17/23 10:32:11 0.11 0 6.4 0.31 5/17/23 10:32:21 0.6 0.27 6.38 0.3 5/17/23 10:32:31 0.25 0.06 6.38 0.32 5/17/23 10:32:41 0.11 0 5.76 0.78 5/17/23 10:32:51 0.11 0 1.74 1.57 5/17/23 10:33:01 0.1 ‐0.01 0.57 2.22 5/17/23 10:33:11 0.11 ‐0.01 0.42 2.59 5/17/23 10:33:21 0.11 ‐0.01 0.35 2.71 5/17/23 10:33:31 0.11 ‐0.03 0.3 2.74 2.75 ppm CO 5/17/23 10:33:41 0.11 ‐0.02 0.25 2.75 5/17/23 10:33:51 0.11 ‐0.03 0.25 2.76 5/17/23 10:34:01 0.1 ‐0.03 0.26 2.75 5/17/23 10:34:11 0.1 ‐0.02 0.22 2.73 5/17/23 10:34:21 0.1 ‐0.03 0.21 2.74 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 11:03:01 10.59 9.02 ‐0.1 ‐0.01 R6 5/17/23 11:03:11 10.58 9.04 ‐0.11 ‐0.01 10.58 % O2 5/17/23 11:03:21 10.58 9.04 ‐0.14 ‐0.03 9.04 % CO2 5/17/23 11:03:31 10.58 9.05 ‐0.06 ‐0.02 ‐0.06 ppm NOx *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 11:03:41 10.58 9.04 ‐0.03 0.01 ‐0.02 ppm CO 5/17/23 11:03:51 10.58 9.06 ‐0.02 ‐0.01 5/17/23 11:04:01 10.58 9.03 ‐0.02 ‐0.03 5/17/23 11:04:11 10.58 9.06 ‐0.03 ‐0.02 5/17/23 11:04:21 10.57 9.05 ‐0.05 ‐0.01 5/17/23 11:04:31 10.58 9.07 ‐0.06 ‐0.02 5/17/23 11:04:41 10.58 9.16 ‐0.04 ‐0.01 5/17/23 11:04:51 10.58 9.08 ‐0.06 ‐0.04 5/17/23 11:05:01 10.59 9.07 ‐0.05 ‐0.04 5/17/23 11:05:11 6.69 5.21 ‐0.07 ‐0.01 5/17/23 11:05:21 0.46 0.4 ‐0.06 0.01 5/17/23 11:05:31 0.2 0.23 2.87 0.06 5/17/23 11:05:41 0.17 0.17 5.78 0.15 5/17/23 11:05:51 0.17 0.14 6.15 0.19 5/17/23 11:06:01 0.16 0.12 6.26 0.24 5/17/23 11:06:11 0.16 0.12 6.3 0.26 0.15 % O2 5/17/23 11:06:21 0.15 0.1 6.33 0.28 0.10 % CO2 5/17/23 11:06:31 0.15 0.14 6.37 0.27 6.34 ppm NOx 5/17/23 11:06:41 0.14 0.1 6.34 0.27 5/17/23 11:06:51 0.14 0.08 6.36 0.25 5/17/23 11:07:01 0.13 0.05 6.36 0.26 5/17/23 11:07:11 0.13 0.08 6.41 0.25 5/17/23 11:07:21 0.13 0.06 6.38 0.26 5/17/23 11:07:31 0.13 0.07 6.4 0.25 5/17/23 11:07:41 0.13 0.07 6.41 0.26 5/17/23 11:07:51 0.29 0.22 6.44 0.28 5/17/23 11:08:01 0.17 0.08 6.43 0.43 5/17/23 11:08:11 0.13 0.04 4.35 1.13 5/17/23 11:08:21 0.13 0.04 0.78 1.89 5/17/23 11:08:31 0.13 0.04 0.26 2.43 5/17/23 11:08:41 0.13 0.04 0.13 2.65 5/17/23 11:08:51 0.12 0.05 0.09 2.71 2.72 ppm CO 5/17/23 11:09:01 0.12 0.05 0.05 2.71 5/17/23 11:09:11 0.12 0.04 0.03 2.71 5/17/23 11:09:21 0.12 0.03 0 2.73 5/17/23 11:09:31 0.12 0.03 ‐0.01 2.73 5/17/23 11:09:41 0.12 0.02 ‐0.03 2.73 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 11:37:51 10.57 8.99 0.16 ‐0.07 R7 5/17/23 11:38:01 10.57 9 0.11 ‐0.05 10.57 % O2 5/17/23 11:38:11 10.57 9.01 0.09 ‐0.03 9.01 % CO2 5/17/23 11:38:21 10.57 9.01 0.07 ‐0.06 0.07 ppm NOx 5/17/23 11:38:31 10.57 9 0.06 ‐0.07 ‐0.05 ppm CO 5/17/23 11:38:41 10.57 9.02 0.04 ‐0.05 5/17/23 11:38:51 10.57 9.01 0.04 ‐0.05 5/17/23 11:39:01 10.57 9.01 0.01 ‐0.05 5/17/23 11:39:11 10.57 8.99 0.01 ‐0.05 5/17/23 11:39:21 10.57 9.02 0.01 ‐0.05 5/17/23 11:39:31 10.57 9.03 ‐0.01 ‐0.09 5/17/23 11:39:41 6.58 5.05 ‐0.01 ‐0.07 5/17/23 11:39:51 0.45 0.37 0 ‐0.03 5/17/23 11:40:01 0.2 0.2 3.04 0.05 5/17/23 11:40:11 0.18 0.14 5.88 0.11 5/17/23 11:40:21 0.17 0.11 6.27 0.19 5/17/23 11:40:31 0.16 0.09 6.33 0.22 0.15 % O2 5/17/23 11:40:41 0.15 0.08 6.37 0.22 0.06 % CO2 5/17/23 11:40:51 0.15 0.06 6.4 0.24 6.36 ppm NOx 5/17/23 11:41:01 0.15 0.07 6.37 0.22 5/17/23 11:41:11 0.14 0.05 6.34 0.21 5/17/23 11:41:21 0.15 0.03 6.32 0.22 5/17/23 11:41:31 0.14 0.03 6.32 0.24 5/17/23 11:41:41 0.13 0.04 6.33 0.22 5/17/23 11:41:51 0.13 0.02 6.34 0.22 5/17/23 11:42:01 0.14 0.03 6.34 0.22 5/17/23 11:42:11 0.13 0.01 6.35 0.22 5/17/23 11:42:21 0.25 0.11 6.35 0.26 5/17/23 11:42:31 0.13 0 6.31 0.56 5/17/23 11:42:41 0.13 0.01 2.74 1.34 5/17/23 11:42:51 0.12 0 0.46 2.05 5/17/23 11:43:01 0.12 0.03 0.2 2.48 5/17/23 11:43:11 0.12 0 0.12 2.64 5/17/23 11:43:21 0.13 0 0.08 2.69 5/17/23 11:43:31 0.13 ‐0.02 0.06 2.69 5/17/23 11:43:41 0.12 ‐0.01 0.02 2.67 5/17/23 11:43:51 0.12 ‐0.02 0.01 2.68 5/17/23 11:44:01 0.12 0 ‐0.01 2.69 5/17/23 11:44:11 0.13 ‐0.01 ‐0.02 2.71 2.73 ppm CO 5/17/23 11:44:21 0.12 ‐0.01 ‐0.05 2.73 5/17/23 11:44:31 0.12 0 ‐0.05 2.73 5/17/23 11:44:41 0.12 ‐0.01 0 2.73 5/17/23 11:44:51 0.12 ‐0.04 ‐0.05 2.72 5/17/23 11:45:01 0.12 ‐0.03 ‐0.08 2.75 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 12:12:31 10.57 8.99 0.18 0.05 R8 5/17/23 12:12:41 10.58 9.01 0.13 ‐0.07 10.57 % O2 5/17/23 12:12:51 10.57 9 0.11 ‐0.09 9.02 % CO2 5/17/23 12:13:01 10.57 9.03 0.1 ‐0.03 0.08 ppm NOx 5/17/23 12:13:11 10.57 9.02 0.06 0 ‐0.03 ppm CO 5/17/23 12:13:21 10.57 9.02 0.05 0.02 5/17/23 12:13:31 10.57 9.01 0.03 ‐0.03 5/17/23 12:13:41 10.57 9.01 0.02 ‐0.01 5/17/23 12:13:51 10.58 9.05 0.02 ‐0.01 5/17/23 12:14:01 10.57 9.03 0.02 ‐0.02 5/17/23 12:14:11 10.57 9.02 0.01 ‐0.02 5/17/23 12:14:21 8.11 6.42 0 ‐0.03 5/17/23 12:14:31 0.68 0.47 ‐0.01 0.02 5/17/23 12:14:41 0.21 0.23 2.26 0.06 5/17/23 12:14:51 0.18 0.16 5.52 0.14 5/17/23 12:15:01 0.17 0.12 6.05 0.24 5/17/23 12:15:11 0.16 0.1 6.17 0.27 5/17/23 12:15:21 0.15 0.08 6.2 0.28 5/17/23 12:15:31 0.15 0.05 6.24 0.26 5/17/23 12:15:41 0.15 0.05 6.3 0.28 0.14 % O2 5/17/23 12:15:51 0.15 0.04 6.28 0.26 0.04 % CO2 5/17/23 12:16:01 0.14 0.04 6.29 0.28 6.30 ppm NOx 5/17/23 12:16:11 0.14 0.04 6.3 0.28 5/17/23 12:16:21 0.14 0.04 6.32 0.29 5/17/23 12:16:31 0.14 0.01 6.32 0.28 5/17/23 12:16:41 0.14 0.01 6.33 0.27 5/17/23 12:16:51 0.14 0.03 6.33 0.28 5/17/23 12:17:01 0.13 0.02 6.33 0.3 5/17/23 12:17:11 0.17 0.07 6.35 0.26 5/17/23 12:17:21 0.17 0.03 6.34 0.32 5/17/23 12:17:31 0.13 ‐0.01 5.16 0.95 5/17/23 12:17:41 0.12 0.01 1.12 1.77 5/17/23 12:17:51 0.13 0 0.3 2.44 5/17/23 12:18:01 0.13 ‐0.01 0.16 2.73 5/17/23 12:18:11 0.13 0 0.09 2.79 5/17/23 12:18:21 0.13 0.02 0.06 2.76 2.76 ppm CO 5/17/23 12:18:31 0.13 0 0.03 2.74 5/17/23 12:18:41 0.12 0 0.01 2.77 5/17/23 12:18:51 0.12 0 0.04 2.74 5/17/23 12:19:01 0.12 0 ‐0.02 2.77 5/17/23 12:19:11 0.12 0 ‐0.04 2.77 *3$6E573MJH RI Time O2 CO2 NOx CO 5/17/23 12:47:21 10.54 9.03 0.21 ‐0.05 R9 5/17/23 12:47:31 10.59 9.03 0.18 ‐0.06 10.60 % O2 5/17/23 12:47:41 10.6 9.03 0.15 ‐0.03 9.04 % CO2 5/17/23 12:47:51 10.6 9.03 0.15 ‐0.07 0.15 ppm Nox 5/17/23 12:48:01 10.6 9.02 0.13 ‐0.07 ‐0.05 ppm CO 5/17/23 12:48:11 10.6 9.06 0.17 ‐0.04 5/17/23 12:48:21 10.59 9.06 0.11 ‐0.05 5/17/23 12:48:31 10.6 9.07 0.13 ‐0.03 5/17/23 12:48:41 10.59 9.05 0.12 ‐0.04 5/17/23 12:48:51 10.58 9.07 0.1 ‐0.05 5/17/23 12:49:01 10.58 9.06 0.1 ‐0.06 5/17/23 12:49:11 10.59 9.06 0.11 ‐0.05 5/17/23 12:49:21 8.74 7.06 0.13 ‐0.07 5/17/23 12:49:31 0.81 0.59 0.22 ‐0.06 5/17/23 12:49:41 0.17 0.25 1.7 0.04 5/17/23 12:49:51 0.13 0.17 4.98 0.1 5/17/23 12:50:01 0.13 0.13 5.57 0.14 5/17/23 12:50:11 0.13 0.11 5.68 0.2 5/17/23 12:50:21 0.12 0.08 5.72 0.23 5/17/23 12:50:31 0.11 0.07 5.81 0.26 5/17/23 12:50:41 0.11 0.05 6.1 0.28 5/17/23 12:50:51 0.11 0.06 6.28 0.22 5/17/23 12:51:01 0.11 0.04 6.38 0.22 0.10 % O2 5/17/23 12:51:11 0.1 0.04 6.38 0.27 0.04 % CO2 5/17/23 12:51:21 0.09 0.05 6.34 0.26 6.36 ppm NOx 5/17/23 12:51:31 0.09 0.03 6.38 0.28 5/17/23 12:51:41 0.09 0.03 6.35 0.26 5/17/23 12:51:51 0.09 0.03 6.35 0.27 5/17/23 12:52:01 0.09 0.01 6.36 0.28 5/17/23 12:52:11 0.09 0.01 6.34 0.24 5/17/23 12:52:21 0.09 0.01 6.36 0.28 5/17/23 12:52:31 0.09 0.02 6.36 0.26 5/17/23 12:52:41 0.19 0.12 6.38 0.25 5/17/23 12:52:51 0.09 0.01 6.11 0.68 5/17/23 12:53:01 0.09 ‐0.01 2.32 1.5 5/17/23 12:53:11 0.08 ‐0.01 0.68 2.23 5/17/23 12:53:21 0.08 0 0.23 2.64 5/17/23 12:53:31 0.08 ‐0.01 0.16 2.74 2.78 ppm CO 5/17/23 12:53:41 0.08 0.01 0.13 2.79 5/17/23 12:53:51 0.08 0 0.1 2.77 5/17/23 12:54:01 0.08 0 0.08 2.79 5/17/23 12:54:11 0.08 ‐0.01 0.05 2.77 5/17/23 12:54:21 0.07 0.01 0.04 2.79 *3$6E573MJH RI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.4 Calibration Gas Certificates GP043AS-023429-RT-1331 Page 249 of 261 CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E03NI80E15A0015 Reference Number: 153-402559134-1 Cylinder Number: EB0094234 Cylinder Volume: 150.0 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72022 Valve Outlet: 590 Gas Code:CO2,O2,BALN Certification Date: Oct 03, 2022 Expiration Date:Oct 03, 2030 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates CARBON DIOXIDE 9.000 %8.895 %G1 +/- 0.7% NIST Traceable 10/03/2022 OXYGEN 10.50 %10.67 %G1 +/- 0.7% NIST Traceable 10/03/2022 NITROGEN Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date NTRM 13060405 CC411744 7.489 % CARBON DIOXIDE/NITROGEN 0.6%May 14, 2025 NTRM 98051010 SG9161286BAL 12.05 % OXYGEN/NITROGEN 0.7%Dec 14, 2023 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Horiba VIA-510 SV4MEUTJ CO2 CO2 NDIR (Dixon)Sep 14, 2022 Horiba MPA-510 W603MM58 O2 O2 Paramagnetic (Mason)Sep 14, 2022 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E03NI61E15A0287 Reference Number: 153-402249512-1 Cylinder Number: CC198046 Cylinder Volume: 158.0 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72021 Valve Outlet: 590 Gas Code:CO2,O2,BALN Certification Date: Oct 12, 2021 Expiration Date:Oct 12, 2029 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates CARBON DIOXIDE 18.00 %17.76 %G1 +/- 0.7% NIST Traceable 10/12/2021 OXYGEN 21.00 %21.00 %G1 +/- 0.7% NIST Traceable 10/12/2021 NITROGEN Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date NTRM 13060802 CC415397 24.04 % CARBON DIOXIDE/NITROGEN 0.6%Dec 11, 2025 NTRM 12062008 CC367433 22.883 % OXYGEN/NITROGEN 0.2%May 14, 2024 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Horiba VIA-510 SV4MEUTJ CO2 CO2 NDIR (Dixon)Sep 27, 2021 Horiba MPA-510 W603MM58 O2 O2 Paramagnetic (Mason)Oct 07, 2021 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E02NI99E15A1663 Reference Number: 153-402396223-1 Cylinder Number: CC734034 Cylinder Volume: 144.0 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72022 Valve Outlet: 660 Gas Code:NO,NOX,BALN Certification Date: Apr 12, 2022 Expiration Date:Apr 12, 2025 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates NOX 6.000 PPM 6.316 PPM G1 +/- 1.2% NIST Traceable 03/30/2022, 04/12/2022 NITRIC OXIDE 6.000 PPM 6.221 PPM G1 +/- 1.2% NIST Traceable 03/30/2022, 04/12/2022 NITROGEN Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date GMIS 08012126A KAL004291 5.08 PPM NITRIC OXIDE/NITROGEN 0.9%Apr 27, 2024 PRM 12401 APEX1324267 5.00 PPM NITRIC OXIDE/NITROGEN 0.8%Dec 23, 2022 GMIS 08012126A KAL004291-NOX 5.08 PPM NOx/NITROGEN 0.9%Apr 27, 2024 PRM 12401 APEX1324267-NOX 5.00 PPM NOx/NITROGEN 0.8%Dec 23, 2022 The SRM, NTRM, PRM, or RGM noted above is only in reference to the GMIS used in the assay and not part of the analysis. ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Thermo 42i-LS 1123749327 NO Chemiluminescence (Mason)Apr 04, 2022 Thermo 42i-LS 1123749327 NOx Chemiluminescence (Mason)Apr 04, 2022 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E02NI99E15A0395 Reference Number: 153-402324130-1 Cylinder Number: CC703698 Cylinder Volume: 144.3 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72022 Valve Outlet: 660 Gas Code:NO,NOX,BALN Certification Date: Jan 18, 2022 Expiration Date:Jan 18, 2025 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates NOX 12.00 PPM 12.17 PPM G1 +/- 1.1% NIST Traceable 01/11/2022, 01/18/2022 NITRIC OXIDE 12.00 PPM 12.11 PPM G1 +/- 1.1% NIST Traceable 01/11/2022, 01/18/2022 NITROGEN Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date NTRM 12010213 AAL073520 10.04 PPM NITRIC OXIDE/NITROGEN 1.0%Oct 16, 2022 NTRM 12010213 AAL073520-NOX 10.04 PPM NOx/NITROGEN 1.0%Oct 16, 2022 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Thermo 42i-LS 1123749327 NO Chemiluminescence (Mason)Jan 04, 2022 Thermo 42i-LS 1123749327 NOx Chemiluminescence (Mason)Jan 04, 2022 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E02NI99E15A0629 Reference Number: 153-402524570-1 Cylinder Number: CC306048 Cylinder Volume: 144.0 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72022 Valve Outlet: 350 Gas Code:CO,BALN Certification Date: Aug 26, 2022 Expiration Date:Aug 26, 2030 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates CARBON MONOXIDE 3.000 PPM 2.773 PPM G1 +/- 1.3% NIST Traceable 08/26/2022 NITROGEN Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date NTRM 12062857 CC401933 9.82 PPM CARBON MONOXIDE/NITROGEN 1.0%Feb 12, 2024 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Thermo 48i-TLE 1163640031 CO CO NDIR (Mason)Aug 08, 2022 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E02NI99E15A0630 Reference Number: 153-402396221-1 Cylinder Number: XC023876B Cylinder Volume: 144.0 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72022 Valve Outlet: 350 Gas Code:CO,BALN Certification Date: Mar 30, 2022 Expiration Date:Mar 30, 2030 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates CARBON MONOXIDE 6.000 PPM 5.938 PPM G1 +/- 1.1% NIST Traceable 03/30/2022 NITROGEN Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date NTRM 12062857 CC401933 9.82 PPM CARBON MONOXIDE/NITROGEN 1.0%Feb 12, 2024 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration Thermo 48i-TLE 1163640031 CO CO NDIR (Mason)Mar 17, 2022 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: E02AI99E15W0021 Reference Number: 153-402707756-1 Cylinder Number: CC502703 Cylinder Volume: 146.0 CF Laboratory: 124 - Tooele (SAP) - UT Cylinder Pressure: 2015 PSIG PGVP Number: B72023 Valve Outlet: 660 Gas Code:NO2,BALA Certification Date: Apr 10, 2023 Expiration Date:Apr 10, 2026 Certification performed in accordance with “EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 2012)” document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does not require correction for analytical interference. This cylinder has a total analytical uncertainty as stated below with a confidence level of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Not Use This Cylinder below 100 psig, i.e. 0.7 megapascals. ANALYTICAL RESULTS Component Requested Actual Protocol Total Relative Assay Concentration Concentration Method Uncertainty Dates NITROGEN DIOXIDE 50.00 PPM 48.88 PPM G1 +/- 2.0% NIST Traceable 04/03/2023, 04/10/2023 AIR Balance CALIBRATION STANDARDS Type Lot ID Cylinder No Concentration Uncertainty Expiration Date GMIS 12397 CC511358 59.32 PPM NITROGEN DIOXIDE/NITROGEN +/- 1.4%Dec 17, 2024 ANALYTICAL EQUIPMENT Instrument/Make/Model Analytical Principle Last Multipoint Calibration MKS FTIR NO2 018143349 FTIR Apr 06, 2023 Triad Data Available Upon Request Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84074 Airgas.com Signature on file Approved for Release Page 1 of 1 *3$6573DJHRI PacifiCorp 2023 RATA Report, Lake Side Power Plant Appendix D.5 Accreditation Information/Certifications GP043AS-023429-RT-1331 Page 257 of 261 Accredited Air Emission Testing Body A2LA has accredited MONTROSE AIR QUALITY SERVICES In recognition of the successful completion of the joint A2LA and Stack Testing Accreditation Council (STAC) evaluation process, this laboratory is accredited to perform testing activities in compliance with ASTM D7036:2004 - Standard Practice for Competence of Air Emission Testing Bodies. Presented this 4th day of February 2022. _______________________ Vice President, Accreditation Services For the Accreditation Council Certificate Number 3925.01 Valid to February 29, 2024 This accreditation program is not included under the A2LA ILAC Mutual Recognition Arrangement. A merican Association for Laboratory Accreditation GP043AS-023429-RT-1331 Page 258 of 261 GP043AS-023429-RT-1331 Page 259 of 261 CERTIFICATE OF COMPLETION Jeffrey Goldfine This document certifies that this individual has passed a comprehensive examination and is now a Qualified Individual (QI) as defined in Section 8.3 of ASTM D7036-04 for the following method(s): Source Evaluation Society Group 3:EPA Gaseous Pollutants Instrumental Sampling Methods Certificate Number:043-2022-6 DATE OF ISSUE:08/09/2022 DATE OF EXPIRATION:08/08/2027 03cneS6 cmenmv 57 ueeu 3DJHRmrcRRIRmru PacifiCorp 2023 RATA Report, Lake Side Power Plant This is the Last Page of This Document If you have any questions, please contact one of the following individuals by email or phone. Name: Craig Kormylo Title: District Manager Region: USA - Stack - Great Plains - Operations Email: CKormylo@montrose-env.com Phone: (303) 495-3936 Name: Glen Capra Title: Vice President Region: USA – Stack Email: GCapra@montrose-env.com Phone: (512) 772-6450 GP043AS-023429-RT-1331 Page 261 of 261 Source Information Division of Air Quality Compliance Demonstration Referance Method 201 & 201A for PM10 Source Information Company Name PacifiCorp Lake Side Company Contact:Veronica Reyes Contact Phone No.801-796-1916 Stack Designation:CT21 Test & Review Dates Test Date: 5/16/2023 Review Date: 1/25/2024 Observer: Not Observed Reviewer:Rob Leishman Particulate Emission Limits lbs/MMBTU lbs/hr gr/dscf 14.000 Front Half Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.000349183 0.656666667 0.00011816 Total (Front & Back Half) Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.005624546 10.70994297 0.001903285 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static)Dn Target Time 216.00 254.47 1.0062 1.751 0.764 25.5 -0.5 0.158 120 Contractor Information Contracting Company: Montrose Air Quality Services Contact: Craig Kormylo Phone No.: 303-670-0530 Project No.: 8710 Circular 10100 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 F factor usedF factors for Coal, Oil, and Gas Anthrocite 2 Lignite Natural Propane Butane COAL OIL GAS Bituminous 2 Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu O2 CO2 lbs/MMBtu Page 1 Summary Division of Air Quality Reference Methods 5 - TSP Compliance Demonstration of PacifiCorp Lake Side - CT21 Testing Results Lab Data - grams collected Test Date 5/16/2023 5/16/2023 5/16/2023 5/16/2023 Lab Data Cyclone Catch Filter Back Run 1 Run 2 Run 3 Run 4 Run 1 0.0000 0.000300 0.00600 As ft^2 254.47 254.47 254.47 254.47 Run 2 0.0000 0.000300 0.00420 Pbar 25.50 25.50 25.50 25.50 Run 3 0.0000 0.000300 0.0035 Pq (static)-0.50 -0.50 -0.50 -0.50 Run 4 Ps 25.46 25.46 25.46 25.46 Avg. Ts F 163.50 164.60 163.10 PacifiCorp Lake Side CT21 CO2 - FCO2 4.80 4.80 4.80 0.00 Front Half Emissions Summary O2 12.10 12.10 12.10 0.00 Run 1 Run 2 Run 3 Run 4 Avg. N2+C 83.10 83.10 83.10 100.00 gr./dscf 0.00011 0.00012 0.00012 0.00012 Md 29.25 29.25 29.25 28.00 lbs/hr 0.63 0.68 0.66 0.657 Mw 28.18 28.41 28.23 lbs/MMbtu 0.00 0.00 0.00 0.00035 Y 1.0062 1.0062 1.0062 1.0062 Cp 0.76 0.76 0.76 0.76 Particulate Emission Limits Front Half Emission Rates Vm cf 49.853 45.223 46.844 0.000 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Vlc 93.200 63.400 82.900 0.000 14.000 0.000349183 0.656666667 0.00011816 AVG. Tm F 83.62 92.62 81.95 Vm cf 49.853 45.223 46.844 0 PacifiCorp Lake Side CT21 Vm std 41.554 37.081 39.165 #VALUE!Total Emissions Summary w/back half condensable Vw std 4.390 2.980 3.900 Run 1 Run 2 Run 3 Run 4 Avg. Bws 9.50% 7.40% 9.00% #VALUE! gr./dscf 0.00234 0.0019 0.0015 0.0019 S Bws 41.23% 42.31% 40.84% #VALUE! lbs/hr 13.4289 10.3180 8.3829 10.7099 Avg. Sqrt Dlp 1.10 1.04 1.07 1.00 lbs/MMbtu 0.01 0.01 0.00 0.0056 Vs 67.239 63.190 65.185 scfm wet 739784.20 694007.83 717640.52 #VALUE!Particulate Emission Limits Total Emission Rates acfm 1026620.10 964794.03 995251.77 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Qsd dscfm 40170282 38559075 39183172 14.000 0.005624546 10.70994297 0.001903285 Qs ft3/min 0.522861 0.526852 0.523223 #VALUE! % Isokinetic 91.16 94.59 92.06 Test Quality Parameters Viscostiy 192.09 193.92 192.36 Run 1 Run 2 Run 3 Run 4 D50 9.99 9.99 9.99 Outlying Dlp's 0.00 0.00 2.00 % Isokinetic 91.15 94.59 92.06 D50 Outlying Dlp's % Isokinetic Status Run 1 Passed Passed Passed Acceptable Run Run 2 Passed Passed Passed Acceptable Run Run 3 Passed Out Passed Acceptable Run Run 4 Page 2 Run 1 PacifiCorp Lake Side Test Date 5/16/2023 Imp. Liquid Collected in grams Run No. 1 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 793.8 732.2 61.6 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'668.2 653.0 15.2 1 755.1 748.1 7.0 2 915.5 906.1 9.4 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.00 1.048084654 12 10.11 Ts oF 113.50 163.50 213.50 ∆H 0.55 0.50 0.46 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.50 -0.50 25.46 4.80 12.10 83.10 29.25 28.18 0.4123 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.84 0.76 0.158 1.36E-04 49.853 41.554 93.20 4.390 0.0950 0.4123 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1043 67.24 0.400 83.62 739,784 1,026,620 4.02E+07 0.52286085 192.09 127.25 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.158 9.45 9.45 9.00 161 1.00 0.41 9.990 74 74 Passed 2 - ∆P tn 0.158 19.45 10.00 9.30 163 1.10 0.41 9.990 74 75 Passed 3 - ∆P tn 0.158 30.15 10.30 9.45 163 1.20 0.41 9.990 80 83 Passed 4 - ∆P tn 0.158 40.00 9.45 9.00 160 1.00 0.40 9.990 84 85 Passed 5 - ∆P tn 0.158 50.00 10.00 9.30 162 1.10 0.40 9.990 86 87 Passed 6 - ∆P tn 0.158 60.00 10.00 9.30 163 1.10 0.40 9.990 8 90 Passed 7 - ∆P tn 0.158 71.30 11.30 10.45 165 1.40 0.40 9.990 88 91 Passed 8 - ∆P tn 0.158 83.00 11.30 10.45 166 1.40 0.40 9.990 89 91 Passed 9 - ∆P tn 0.158 94.30 11.30 10.15 166 1.30 0.40 9.990 91 95 Passed 10 - ∆P tn 0.158 105.00 10.30 9.45 164 1.20 0.40 9.990 92 94 Passed 11 - ∆P tn 0.158 115.45 10.45 11.00 165 1.50 0.40 9.990 91 94 Passed 12 - ∆P tn 0.158 127.15 11.30 10.45 165 1.40 0.40 9.990 94 97 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 91.2 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 3 Run 2 PacifiCorp Lake Side Test Date 5/16/2023 Imp. Liquid Collected in grams Run No. 2 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 551.7 500.0 51.7 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'626.1 625.7 0.4 1 716.4 713.2 3.2 2 861.2 853.1 8.1 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.30 1.1688691 12 9.26 Ts oF 114.60 164.60 214.60 ∆H 0.58 0.53 0.49 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.50 -0.50 25.46 4.80 12.10 83.10 29.25 28.41 0.4231 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.158 1.36E-04 45.223 37.081 63.40 2.980 0.0740 0.4231 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0411 63.19 0.400 92.62 694,008 964,794 3.86E+07 0.526852 193.92 114.00 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.158 11.00 11.00 9.30 163 1.30 0.40 9.990 92 94 Passed 2 - ∆P tn 0.158 21.45 10.45 11.00 160 1.40 0.40 9.990 91 94 Passed 3 - ∆P tn 0.158 32.30 10.45 11.00 164 1.40 0.40 9.990 91 94 Passed 4 - ∆P tn 0.158 43.30 11.00 11.30 166 1.50 0.40 9.990 91 93 Passed 5 - ∆P tn 0.158 55.00 11.30 11.45 165 1.60 0.40 9.990 90 95 Passed 6 - ∆P tn 0.158 65.45 10.45 11.00 165 1.40 0.40 9.990 90 94 Passed 7 - ∆P tn 0.158 73.30 7.45 8.00 164 0.72 0.40 9.990 91 94 Passed 8 - ∆P tn 0.158 81.30 8.00 8.15 164 0.79 0.40 9.990 91 96 Passed 9 - ∆P tn 0.158 89.30 8.00 8.15 165 0.78 0.40 9.990 91 94 Passed 10 - ∆P tn 0.158 98.00 8.30 8.30 167 0.85 0.40 9.990 91 95 Passed 11 - ∆P tn 0.158 106.15 8.15 8.30 167 0.82 0.40 9.990 91 96 Passed 12 - ∆P tn 0.158 114.00 7.45 8.00 166 0.75 0.40 9.990 91 93 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 94.6 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 4 Run 3 PacifiCorp Lake Side Test Date 5/16/2023 Imp. Liquid Collected in grams Run No. 3 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 785.0 733.0 52.0 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'661.2 654.5 6.7 1 741.8 735.7 6.1 2 933.7 915.6 18.1 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 0.73 0.8561856 12 10.12 Ts oF 113.10 163.10 213.10 ∆H 0.55 0.51 0.47 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.50 -0.50 25.46 4.80 12.10 83.10 29.25 28.23 0.4084 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.158 1.36E-04 46.844 39.165 82.90 3.900 0.0900 0.4084 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0719 65.18 0.390 81.95 717,641 995,252 3.92E+07 0.5232231 192.36 121.75 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.158 8.15 8.15 9.15 156 0.73 0.39 9.990 74 75 Passed 2 - ∆P tn 0.158 16.15 8.00 7.45 161 0.70 0.39 9.990 75 75 Passed 3 - ∆P tn 0.158 24.30 8.15 8.00 161 0.77 0.39 9.990 76 78 Passed 4 - ∆P tn 0.158 33.15 8.45 8.30 162 0.85 0.39 9.990 78 80 Passed 5 - ∆P tn 0.158 41.45 8.30 8.15 165 0.79 0.39 9.990 80 82 Passed 6 - ∆P tn 0.158 50.00 8.15 8.00 165 0.77 0.39 9.990 82 85 Passed 7 - ∆P tn 0.158 60.45 10.45 10.30 166 1.30 0.39 9.990 84 86 Passed 8 - ∆P tn 0.158 74.15 13.30 13.00 164 2.00 0.39 9.990 84 87 Out 9 - ∆P tn 0.158 87.30 13.15 12.30 164 1.90 0.39 9.990 84 87 Out 10 - ∆P tn 0.158 98.45 11.15 10.45 165 1.40 0.39 9.990 84 88 Passed 11 - ∆P tn 0.158 110.00 11.15 11.15 164 1.50 0.39 9.990 84 88 Passed 12 - ∆P tn 0.158 121.45 11.45 11.30 165 1.60 0.39 9.990 84 87 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 2.00 Out % Isokinetic 92.1 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 5 Source Information Division of Air Quality Compliance Demonstration Referance Method 201 & 201A for PM10 Source Information Company Name PacifiCorp Lake Side Company Contact:Veronica Reyes Contact Phone No.801-796-1916 Stack Designation:CT22 Test & Review Dates Test Date: 5/17/2023 Review Date: 1/25/2024 Observer: Not Observed Reviewer:Rob Leishman Particulate Emission Limits lbs/MMBTU lbs/hr gr/dscf 0.010 14.000 0.000 Front Half Emission Rates lbs/MMBTU lbs/hr gr/dscf 1.33 0.000237216 Total (Front & Back Half) Emission Rates lbs/MMBTU lbs/hr gr/dscf 12.98731577 0.002300848 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static)Dn Target Time 216.00 254.47 1.0062 1.751 0.764 25.48 -0.4 0.158 120 Contractor Information Contracting Company: Montrose Air Quality Services Contact: Craig Kormylo Phone No.: 303-670-0530 Project No.: Circular 10100 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 F factor usedF factors for Coal, Oil, and Gas Anthrocite 2 Lignite Natural Propane Butane COAL OIL GAS Bituminous 2 Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu O2 CO2 lbs/MMBtu Page 1 Summary Division of Air Quality Reference Methods 5 - TSP Compliance Demonstration of PacifiCorp Lake Side - CT22 Testing Results Lab Data - grams collected Test Date 5/17/2023 5/17/2023 5/17/2023 5/17/2023 Lab Data Cyclone Catch Filter Back Run 1 Run 2 Run 3 Run 4 Run 1 0.0001 0.001300 0.00670 As ft^2 254.47 254.47 254.47 254.47 Run 2 0.0000 0.000400 0.00390 Pbar 25.48 25.48 25.48 25.48 Run 3 0.0000 0.000100 0.0053 Pq (static)-0.40 -0.40 -0.40 -0.40 Run 4 Ps 25.45 25.45 25.45 25.45 Avg. Ts F 165.60 164.10 163.80 PacifiCorp Lake Side CT22 CO2 - FCO2 4.80 4.80 4.80 0.00 Front Half Emissions Summary O2 12.10 12.10 12.10 0.00 Run 1 Run 2 Run 3 Run 4 Avg. N2+C 83.10 83.10 83.10 100.00 gr./dscf 0.00050 0.00017 0.00004 0.00024 Md 29.25 29.25 29.25 28.00 lbs/hr 2.82 0.95 0.22 1.330 Mw 28.23 28.20 28.12 lbs/MMbtu Y 1.0062 1.0062 1.0062 1.0062 Cp 0.76 0.76 0.76 0.76 Particulate Emission Limits Front Half Emission Rates Vm cf 50.671 44.071 46.317 0.000 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Vlc 90.400 80.000 90.900 0.000 14.000 0.000 1.33 0.000237216 AVG. Tm F 73.54 85.62 88.79 Vm cf 50.671 44.071 46.317 0 PacifiCorp Lake Side CT22 Vm std 42.999 36.570 38.212 #VALUE!Total Emissions Summary w/back half condensable Vw std 4.260 3.770 4.280 Run 1 Run 2 Run 3 Run 4 Avg. Bws 9.00% 9.30% 10.00% #VALUE! gr./dscf 0.00291 0.0018 0.0022 0.0023 S Bws 43.33% 41.84% 41.54% #VALUE! lbs/hr 16.3690 10.2498 12.3432 12.9873 Avg. Sqrt Dlp 1.08 1.09 1.09 0.86 lbs/MMbtu Vs 65.848 66.117 66.731 scfm wet 721761.65 726449.39 733549.90 #VALUE!Particulate Emission Limits Total Emission Rates acfm 1005378.07 1009481.61 1018858.56 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Qsd dscfm 39408186 39533376 39611695 14.000 0.000 12.98731577 0.002300848 Qs ft3/min 0.525591 0.523777 0.522534 #VALUE! % Isokinetic 81.43 86.26 89.40 Test Quality Parameters Viscostiy 192.98 192.39 191.80 Run 1 Run 2 Run 3 Run 4 D50 9.99 9.99 9.99 Outlying Dlp's 1.00 0.00 0.00 % Isokinetic 81.43 86.26 89.39 D50 Outlying Dlp's % Isokinetic Status Run 1 Passed Passed Passed Acceptable Run Run 2 Passed Passed Passed Acceptable Run Run 3 Passed Passed Passed Acceptable Run Run 4 Page 2 Run 1 PacifiCorp Lake Side Test Date 5/17/2023 Imp. Liquid Collected in grams Run No. 1 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 585.7 499.5 86.2 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'625.7 626.8 -1.1 1 646.0 643.2 2.8 2 887.9 885.4 2.5 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 0.74 0.880924356 12 12.22 Ts oF 115.60 165.60 215.60 ∆H 0.56 0.51 0.47 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.48 -0.40 25.45 4.80 12.10 83.10 29.25 28.23 0.4333 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.84 0.76 0.158 1.36E-04 50.671 42.999 90.40 4.260 0.0900 0.4333 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0804 65.85 0.390 73.54 721,762 1,005,378 3.94E+07 0.525590589 192.98 150.25 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.158 10.00 10.00 8.00 162 0.74 0.39 9.990 73 73 Passed 2 - ∆P tn 0.158 20.00 10.00 8.00 167 0.75 0.39 9.990 74 76 Passed 3 - ∆P tn 0.158 30.30 10.30 8.30 171 0.84 0.39 9.990 75 78 Passed 4 - ∆P tn 0.158 46.00 15.30 12.30 164 1.80 0.39 9.990 74 76 Out 5 - ∆P tn 0.158 60.15 14.15 11.30 165 1.50 0.39 9.990 72 75 Passed 6 - ∆P tn 0.158 73.30 13.15 10.30 167 1.30 0.39 9.990 71 75 Passed 7 - ∆P tn 0.158 87.15 13.45 10.30 162 1.30 0.39 9.990 70 73 Passed 8 - ∆P tn 0.158 100.30 13.15 10.30 164 1.30 0.39 9.990 70 73 Passed 9 - ∆P tn 0.158 113.15 12.45 10.15 168 1.20 0.39 9.990 71 73 Passed 10 - ∆P tn 0.158 125.30 12.15 10.15 165 1.20 0.39 9.990 71 72 Passed 11 - ∆P tn 0.158 138.15 12.45 10.15 166 1.20 0.39 9.990 72 74 Passed 12 - ∆P tn 0.158 150.15 12.00 9.45 167 1.10 0.39 9.990 76 78 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 1.00 Passed % Isokinetic 81.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 3 Run 2 PacifiCorp Lake Side Test Date 5/17/2023 Imp. Liquid Collected in grams Run No. 2 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 777.5 733.1 44.4 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'673.9 653.9 20.0 1 743.9 741.8 2.1 2 912.9 899.4 13.5 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.20 1.0948098 12 10.02 Ts oF 114.10 164.10 214.10 ∆H 0.55 0.50 0.47 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.48 -0.40 25.45 4.80 12.10 83.10 29.25 28.20 0.4184 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.158 1.36E-04 44.071 36.570 80.00 3.770 0.0930 0.4184 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0855 66.12 0.390 85.62 726,449 1,009,482 3.95E+07 0.5237771 192.39 120.25 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.158 10.00 10.00 8.00 164 1.20 0.39 9.990 79 82 Passed 2 - ∆P tn 0.158 19.45 9.45 9.45 164 1.10 0.39 9.990 80 83 Passed 3 - ∆P tn 0.158 30.15 10.30 10.30 164 1.30 0.39 9.990 81 85 Passed 4 - ∆P tn 0.158 40.45 10.30 10.30 164 1.30 0.39 9.990 83 86 Passed 5 - ∆P tn 0.158 50.45 10.00 10.15 167 1.20 0.39 9.990 83 86 Passed 6 - ∆P tn 0.158 60.00 9.15 9.15 166 1.00 0.39 9.990 85 88 Passed 7 - ∆P tn 0.158 69.45 9.45 9.45 163 1.10 0.39 9.990 85 88 Passed 8 - ∆P tn 0.158 80.45 11.00 11.00 165 1.40 0.39 9.990 85 89 Passed 9 - ∆P tn 0.158 90.45 10.00 10.15 166 1.20 0.39 9.990 86 88 Passed 10 - ∆P tn 0.158 100.00 9.15 9.15 162 0.98 0.39 9.990 87 90 Passed 11 - ∆P tn 0.158 109.45 9.45 9.45 162 1.10 0.39 9.990 87 89 Passed 12 - ∆P tn 0.158 120.15 10.30 10.30 163 1.30 0.39 9.990 88 92 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 86.3 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 4 Run 3 PacifiCorp Lake Side Test Date 5/17/2023 Imp. Liquid Collected in grams Run No. 3 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 554.1 499.3 54.8 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'636.4 626.4 10.0 1 732.2 723.8 8.4 2 858.5 840.8 17.7 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.40 1.1247021 12 10.60 Ts oF 113.80 163.80 213.80 ∆H 0.54 0.49 0.46 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.48 -0.40 25.45 4.80 12.10 83.10 29.25 28.12 0.4154 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.158 1.36E-04 46.317 38.212 90.90 4.280 0.1000 0.4154 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0943 66.73 0.390 88.79 733,550 1,018,859 3.96E+07 0.5225344 191.80 121.00 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.158 11.00 11.00 7.45 162 1.40 0.39 9.990 84 87 Passed 2 - ∆P tn 0.158 21.00 10.00 9.30 164 1.20 0.39 9.990 86 88 Passed 3 - ∆P tn 0.158 31.00 10.00 9.30 164 1.20 0.39 9.990 87 90 Passed 4 - ∆P tn 0.158 40.45 9.45 9.00 165 1.10 0.39 9.990 87 90 Passed 5 - ∆P tn 0.158 51.15 10.30 10.00 164 1.30 0.39 9.990 87 88 Passed 6 - ∆P tn 0.158 61.15 10.00 9.30 164 1.20 0.39 9.990 87 91 Passed 7 - ∆P tn 0.158 70.30 9.15 8.45 164 1.00 0.39 9.990 92 94 Passed 8 - ∆P tn 0.158 80.15 9.45 9.00 165 1.10 0.39 9.990 92 95 Passed 9 - ∆P tn 0.158 90.45 10.30 10.00 165 1.30 0.39 9.990 88 92 Passed 10 - ∆P tn 0.158 100.45 10.00 9.30 163 1.20 0.39 9.990 87 90 Passed 11 - ∆P tn 0.158 111.15 10.30 10.00 163 1.30 0.39 9.990 86 90 Passed 12 - ∆P tn 0.158 121.00 9.45 9.00 163 1.10 0.39 9.990 85 88 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 89.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 5 Source Information Division of Air Quality Compliance Demonstration Referance Method 201 & 201A for PM10 Source Information Company Name PacifiCorp Lake Side Company Contact:Veronica Reyes Contact Phone No.801-796-1916 Stack Designation:CT11 Test & Review Dates Test Date: 5/18/2023 Review Date: 1/24/2024 Observer: Not Observed Reviewer:Rob Leishman Particulate Emission Limits lbs/MMBTU lbs/hr gr/dscf 0.010 10.800 0.000 Front Half Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.000138014 0.223333333 3.98031E-05 Total (Front & Back Half) Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.008603896 14.30912599 0.002481361 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static)Dn Target Time 216.00 254.47 1.0062 1.751 0.764 25.36 -0.5 0.145 60 Contractor Information Contracting Company: Montrose Air Quality Services Contact: Craig Kormylo Phone No.: 303-670-0530 Project No.: 8710 Circular 10100 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 F factor usedF factors for Coal, Oil, and Gas Anthrocite 2 Lignite Natural Propane Butane COAL OIL GAS Bituminous 2 Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu O2 CO2 lbs/MMBtu Page 1 Summary Division of Air Quality Reference Methods 5 - TSP Compliance Demonstration of PacifiCorp Lake Side - CT11 Testing Results Lab Data - grams collected Test Date 5/18/2023 5/18/2023 5/18/2023 5/18/2023 Lab Data Cyclone Catch Filter Back Run 1 Run 2 Run 3 Run 4 Run 1 0.0000 0.000100 0.00580 As ft^2 254.47 254.47 254.47 254.47 Run 2 0.0001 0.000100 0.00190 Pbar 25.36 25.36 25.36 25.36 Run 3 0.0000 0.000000 0.0107 Pq (static)-0.50 -0.50 -0.50 -0.50 Run 4 Ps 25.32 25.32 25.32 25.32 Avg. Ts F 218.70 216.30 216.40 PacifiCorp Lake Side CT11 CO2 - FCO2 4.40 4.40 4.40 0.00 Front Half Emissions Summary O2 13.40 13.40 13.40 0.00 Run 1 Run 2 Run 3 Run 4 Avg. N2+C 82.20 82.20 82.20 100.00 gr./dscf 0.00004 0.00008 0.00000 0.00004 Md 29.24 29.24 29.24 28.00 lbs/hr 0.23 0.44 0.00 0.223 Mw 28.53 28.29 28.29 lbs/MMbtu 0.00 0.00 0.00 0.00014 Y 1.0062 1.0062 1.0062 1.0062 Cp 0.76 0.76 0.76 0.76 Particulate Emission Limits Front Half Emission Rates Vm cf 44.354 46.663 47.056 0.000 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Vlc 53.900 76.700 76.500 0.000 0.010 10.800 0.000 0.000138014 0.223333333 3.98031E-05 AVG. Tm F 69.54 75.00 80.33 Vm cf 44.354 46.663 47.056 0 PacifiCorp Lake Side CT11 Vm std 37.746 39.306 39.247 #VALUE!Total Emissions Summary w/back half condensable Vw std 2.540 3.610 3.600 Run 1 Run 2 Run 3 Run 4 Avg. Bws 6.30% 8.40% 8.40% #VALUE! gr./dscf 0.00241 0.0008 0.0042 0.0025 S Bws 99.90% 99.90% 99.90% #VALUE! lbs/hr 14.0992 4.6868 24.1414 14.3091 Avg. Sqrt Dlp 1.14 1.13 1.14 1.18 lbs/MMbtu 0.01 0.00 0.01 0.0086 Vs 72.388 71.759 72.445 scfm wet 727634.12 723867.02 730685.21 #VALUE!Particulate Emission Limits Total Emission Rates acfm 1105233.04 1095622.97 1106106.30 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Qsd dscfm 40907590 39783731 40158459 0.010 10.800 0.000 0.008603896 14.30912599 0.002481361 Qs ft3/min 0.581876 0.576693 0.576802 #VALUE! % Isokinetic 104.11 109.39 108.89 Test Quality Parameters Viscostiy 208.91 206.75 206.78 Run 1 Run 2 Run 3 Run 4 D50 9.99 9.99 9.99 Outlying Dlp's 1.00 0.00 0.00 % Isokinetic 104.11 109.39 108.88 D50 Outlying Dlp's % Isokinetic Status Run 1 Passed Passed Passed Acceptable Run Run 2 Passed Passed Passed Acceptable Run Run 3 Passed Passed Passed Acceptable Run Run 4 Page 3 Run 1 PacifiCorp Lake Side Test Date 5/18/2023 Imp. Liquid Collected in grams Run No. 1 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 772.0 732.0 40.0 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'657.2 653.8 3.4 1 744.4 743.9 0.5 2 922.9 912.9 10.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.40 1.153959009 12 10.08 Ts oF 168.70 218.70 268.70 ∆H 0.66 0.61 0.57 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.36 -0.50 25.32 4.40 13.40 82.20 29.24 28.53 1.3519 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.84 0.76 0.145 1.15E-04 44.354 37.746 53.90 2.540 0.0630 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1434 72.39 0.410 69.54 727,634 1,105,233 4.09E+07 0.581875973 208.91 118.00 60 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 10.15 10.15 5.15 211 1.40 0.41 9.990 71 73 Passed 2 - ∆P tn 0.145 20.30 10.15 5.15 220 1.40 0.41 9.990 68 72 Passed 3 - ∆P tn 0.145 30.00 9.30 4.45 221 1.20 0.41 9.990 66 70 Passed 4 - ∆P tn 0.145 39.45 9.45 5.00 220 1.30 0.41 9.990 65 68 Passed 5 - ∆P tn 0.145 49.15 9.30 4.45 222 1.20 0.41 9.990 65 68 Passed 6 - ∆P tn 0.145 59.00 9.45 5.00 221 1.30 0.41 9.990 66 70 Passed 7 - ∆P tn 0.145 70.30 11.30 5.45 220 1.80 0.41 9.990 67 69 Passed 8 - ∆P tn 0.145 81.45 11.15 5.45 221 1.70 0.41 9.990 68 72 Passed 9 - ∆P tn 0.145 91.30 9.45 5.00 216 1.30 0.41 9.990 69 74 Passed 10 - ∆P tn 0.145 100.30 9.00 4.30 217 1.10 0.41 9.990 70 75 Passed 11 - ∆P tn 0.145 109.00 8.30 4.15 218 1.00 0.41 9.990 69 73 Out 12 - ∆P tn 0.145 118.00 9.00 4.30 218 1.10 0.41 9.990 69 72 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 1.00 Passed % Isokinetic 104.1 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 4 Run 2 PacifiCorp Lake Side Test Date 5/18/2023 Imp. Liquid Collected in grams Run No. 2 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 560.5 501.1 59.4 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'628.1 627.0 1.1 1 733.4 732.2 1.2 2 870.8 855.8 15.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.30 1.1688691 12 9.77 Ts oF 166.30 216.30 266.30 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.36 -0.50 25.32 4.40 13.40 82.20 29.24 28.29 1.2899 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.145 1.15E-04 46.663 39.306 76.70 3.610 0.0840 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1307 71.76 0.410 75.00 723,867 1,095,623 3.98E+07 0.5766934 206.75 120.25 60 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 10.00 10.00 5.15 216 1.30 0.41 9.990 69 73 Passed 2 - ∆P tn 0.145 20.15 10.15 5.15 218 1.40 0.41 9.990 69 73 Passed 3 - ∆P tn 0.145 30.30 10.15 5.15 218 1.40 0.41 9.990 69 74 Passed 4 - ∆P tn 0.145 40.00 9.30 4.45 217 1.20 0.41 9.990 69 75 Passed 5 - ∆P tn 0.145 50.15 10.15 5.15 218 1.40 0.41 9.990 70 74 Passed 6 - ∆P tn 0.145 60.15 10.00 5.00 218 1.30 0.41 9.990 71 76 Passed 7 - ∆P tn 0.145 72.00 11.45 5.00 217 1.30 0.41 9.990 74 80 Passed 8 - ∆P tn 0.145 83.00 11.00 5.30 217 1.60 0.41 9.990 74 81 Passed 9 - ∆P tn 0.145 93.00 10.00 5.00 215 1.30 0.43 9.990 75 83 Passed 10 - ∆P tn 0.145 102.15 9.15 4.30 215 1.10 0.43 9.990 75 82 Passed 11 - ∆P tn 0.145 111.30 9.15 4.30 214 1.10 0.43 9.990 76 80 Passed 12 - ∆P tn 0.145 120.15 8.45 4.15 213 1.00 0.43 9.990 76 82 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 109.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 5 Run 3 PacifiCorp Lake Side Test Date 5/18/2023 Imp. Liquid Collected in grams Run No. 3 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 785.4 733.0 52.4 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'610.7 610.7 0.0 1 755.3 744.4 10.9 2 930.8 917.6 13.2 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.10 1.0948098 12 9.53 Ts oF 166.40 216.40 266.40 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.36 -0.50 25.32 4.40 13.40 82.20 29.24 28.29 1.2925 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.145 1.15E-04 47.056 39.247 76.50 3.600 0.0840 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1414 72.45 0.420 80.33 730,685 1,106,106 4.02E+07 0.5768022 206.78 119.50 60 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 9.15 9.15 5.15 215 1.10 0.43 9.990 77 80 Passed 2 - ∆P tn 0.145 19.15 10.00 5.00 215 1.30 0.42 9.990 78 82 Passed 3 - ∆P tn 0.145 28.45 9.30 4.45 215 1.20 0.42 9.990 79 82 Passed 4 - ∆P tn 0.145 39.00 10.15 5.15 215 1.40 0.42 9.990 79 81 Passed 5 - ∆P tn 0.145 49.00 10.00 5.00 217 1.30 0.42 9.990 79 80 Passed 6 - ∆P tn 0.145 59.15 10.15 5.15 217 1.40 0.42 9.990 78 82 Passed 7 - ∆P tn 0.145 70.15 11.00 5.30 217 1.60 0.42 9.990 79 82 Passed 8 - ∆P tn 0.145 81.15 11.00 5.30 217 1.60 0.42 9.990 80 83 Passed 9 - ∆P tn 0.145 91.30 10.15 5.15 217 1.40 0.42 9.990 80 83 Passed 10 - ∆P tn 0.145 100.45 9.15 4.30 217 1.10 0.42 9.990 80 83 Passed 11 - ∆P tn 0.145 110.15 9.30 4.45 217 1.20 0.42 9.990 79 82 Passed 12 - ∆P tn 0.145 119.30 9.15 4.30 218 1.10 0.42 9.990 79 81 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 108.9 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 6 Source Information Division of Air Quality Compliance Demonstration Referance Method 201 & 201A for PM10 Source Information Company Name PacifiCorp Lake Side Company Contact:Veronica Reyes Contact Phone No.801-796-1916 Stack Designation:CT12 Test & Review Dates Test Date: 5/19/2023 Review Date: 1/24/2024 Observer: Not Observed Reviewer:Rob Leishman Particulate Emission Limits lbs/MMBTU lbs/hr gr/dscf 0.010 10.800 0.000 Front Half Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.00054161 0.936666667 0.0001562 Total (Front & Back Half) Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.00554942 9.584874321 0.001600451 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static)Dn Target Time 216.00 254.47 1.0062 1.751 0.764 25.46 -0.5 0.145 120 Contractor Information Contracting Company: Air Pollution Testing (APT) Contact: Andrew Burning - Alex Mongold Phone No.: 801-974-0481 Project No.: 8710 Circular 10100 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 F factor usedF factors for Coal, Oil, and Gas Anthrocite 2 Lignite Natural Propane Butane COAL OIL GAS Bituminous 2 Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu O2 CO2 lbs/MMBtu Page 1 Summary Division of Air Quality Reference Methods 5 - TSP Compliance Demonstration of PacifiCorp Lake Side - CT12 Testing Results Lab Data - grams collected Test Date 5/19/2023 5/19/2023 5/19/2023 5/19/2023 Lab Data Cyclone Catch Filter Back Run 1 Run 2 Run 3 Run 4 Run 1 0.0000 0.000000 0.00360 As ft^2 254.47 254.47 254.47 254.47 Run 2 0.0000 0.000800 0.00370 Pbar 25.46 25.46 25.46 25.46 Run 3 0.0000 0.000400 0.0036 Pq (static)-0.50 -0.50 -0.50 -0.50 Run 4 Ps 25.42 25.42 25.42 25.42 Avg. Ts F 217.00 216.50 217.20 PacifiCorp Lake Side CT12 CO2 - FCO2 4.30 4.30 4.30 0.00 Front Half Emissions Summary O2 13.40 13.40 13.40 0.00 Run 1 Run 2 Run 3 Run 4 Avg. N2+C 82.30 82.30 82.30 100.00 gr./dscf 0.00000 0.00031 0.00016 0.00016 Md 29.22 29.22 29.22 28.00 lbs/hr 0.00 1.86 0.95 0.937 Mw 28.26 28.30 28.24 lbs/MMbtu 0.00 0.00 0.00 0.00054 Y 1.0062 1.0062 1.0062 1.0062 Cp 0.76 0.76 0.76 0.76 Particulate Emission Limits Front Half Emission Rates Vm cf 44.381 47.319 47.170 0.000 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Vlc 74.500 76.400 78.900 0.000 0.010 10.800 0.000 0.00054161 0.936666667 0.0001562 AVG. Tm F 71.66 77.33 88.75 Vm cf 44.381 47.319 47.17 0 PacifiCorp Lake Side CT12 Vm std 37.767 39.842 38.890 #VALUE!Total Emissions Summary w/back half condensable Vw std 3.510 3.600 3.710 Run 1 Run 2 Run 3 Run 4 Avg. Bws 8.50% 8.20% 8.70% #VALUE! gr./dscf 0.00147 0.0017 0.0016 0.0016 S Bws 99.90% 99.90% 99.90% #VALUE! lbs/hr 8.7329 10.4758 9.5459 9.5849 Avg. Sqrt Dlp 1.18 1.19 1.20 1.18 lbs/MMbtu 0.0051 0.0060 0.0055 0.0055 Vs 74.807 75.430 75.971 scfm wet 756814.46 763682.88 768358.30 #VALUE!Particulate Emission Limits Total Emission Rates acfm 1142165.92 1151680.37 1159930.17 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Qsd dscfm 41549114 42063653 42090668 0.010 10.800 0.000 0.00554942 9.584874321 0.001600451 Qs ft3/min 0.576658 0.576571 0.576578 #VALUE! % Isokinetic 103.44 103.58 102.09 Test Quality Parameters Viscostiy 206.85 206.95 206.76 Run 1 Run 2 Run 3 Run 4 D50 9.99 9.99 9.99 Outlying Dlp's 0.00 0.00 0.00 % Isokinetic 103.44 103.58 102.09 D50 Outlying Dlp's % Isokinetic Status Run 1 Passed Passed Passed Acceptable Run Run 2 Passed Passed Passed Acceptable Run Run 3 Passed Passed Passed Acceptable Run Run 4 Page 2 Run 1 PacifiCorp Lake Side Test Date 5/19/2023 Imp. Liquid Collected in grams Run No. 1 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 552.6 499.8 52.8 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'629.6 627.6 2.0 1 734.8 728.1 6.7 2 862.9 849.9 13.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.40 1.168869113 12 9.86 Ts oF 167.00 217.00 267.00 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.46 -0.50 25.42 4.30 13.40 82.30 29.22 28.26 1.3026 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.84 0.76 0.145 1.15E-04 44.381 37.767 74.50 3.510 0.0850 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1798 74.81 0.410 71.66 756,814 1,142,166 4.15E+07 0.576658266 206.85 117.00 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 9.45 9.45 10.00 216 1.40 0.41 9.990 71 73 Passed 2 - ∆P tn 0.145 19.30 9.45 10.00 216 1.40 0.41 9.990 70 72 Passed 3 - ∆P tn 0.145 29.00 9.30 9.45 220 1.30 0.41 9.990 69 72 Passed 4 - ∆P tn 0.145 38.00 9.00 9.15 217 1.20 0.41 9.990 68 71 Passed 5 - ∆P tn 0.145 47.00 9.00 9.15 217 1.20 0.41 9.990 69 71 Passed 6 - ∆P tn 0.145 56.30 9.30 9.45 217 1.30 0.41 9.990 70 72 Passed 7 - ∆P tn 0.145 68.15 11.45 12.00 217 2.00 0.41 9.990 70 72 Passed 8 - ∆P tn 0.145 79.00 10.45 11.00 217 1.70 0.41 9.990 71 73 Passed 9 - ∆P tn 0.145 88.45 9.45 10.00 217 1.40 0.41 9.990 71 73 Passed 10 - ∆P tn 0.145 98.30 9.45 10.00 217 1.40 0.41 9.990 72 74 Passed 11 - ∆P tn 0.145 108.00 9.30 9.45 217 1.30 0.41 9.990 73 74 Passed 12 - ∆P tn 0.145 117.00 9.00 9.15 217 1.20 0.41 9.990 74 75 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 103.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 3 Run 2 PacifiCorp Lake Side Test Date 5/19/2023 Imp. Liquid Collected in grams Run No. 2 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 791.3 733.0 58.3 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'611.3 611.9 -0.6 1 760.1 755.3 4.8 2 954.7 940.8 13.9 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.40 1.1240667 12 10.67 Ts oF 166.50 216.50 266.50 ∆H 0.62 0.58 0.54 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.46 -0.50 25.42 4.30 13.40 82.30 29.22 28.30 1.2899 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.145 1.15E-04 47.319 39.842 76.40 3.600 0.0820 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1909 75.43 0.410 77.33 763,683 1,151,680 4.21E+07 0.5765708 206.95 121.75 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 10.00 10.00 10.00 217 1.40 0.41 9.990 70 73 Passed 2 - ∆P tn 0.145 19.45 9.45 9.45 217 1.30 0.41 9.990 72 74 Passed 3 - ∆P tn 0.145 28.45 9.00 8.45 215 1.10 0.41 9.990 75 77 Passed 4 - ∆P tn 0.145 40.00 11.15 11.15 215 1.80 0.41 9.990 76 77 Passed 5 - ∆P tn 0.145 51.00 11.00 11.00 217 1.70 0.41 9.990 76 78 Passed 6 - ∆P tn 0.145 61.00 10.00 10.00 217 1.40 0.41 9.990 76 78 Passed 7 - ∆P tn 0.145 71.30 10.30 10.15 216 1.50 0.41 9.990 78 79 Passed 8 - ∆P tn 0.145 81.15 9.45 9.45 216 1.30 0.41 9.990 78 80 Passed 9 - ∆P tn 0.145 90.30 9.15 9.15 217 1.20 0.41 9.990 78 80 Passed 10 - ∆P tn 0.145 101.15 10.45 10.45 217 1.60 0.41 9.990 79 80 Passed 11 - ∆P tn 0.145 112.00 10.45 10.15 217 1.50 0.41 9.990 79 81 Passed 12 - ∆P tn 0.145 121.45 9.45 9.45 217 1.30 0.41 9.990 81 81 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 103.6 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 4 Run 3 PacifiCorp Lake Side Test Date 5/19/2023 Imp. Liquid Collected in grams Run No. 3 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 556.5 500.7 55.8 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'628.5 627.6 0.9 1 727.6 717.8 9.8 2 894.8 882.4 12.4 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.60 1.2099438 12 10.49 Ts oF 167.20 217.20 267.20 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.46 -0.50 25.42 4.30 13.40 82.30 29.22 28.24 1.3077 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0062 1.751 0.76 0.145 1.15E-04 47.170 38.890 78.90 3.710 0.0870 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1976 75.97 0.410 88.75 768,358 1,159,930 4.21E+07 0.5765779 206.76 120.50 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 10.30 10.30 10.00 218 1.60 0.41 9.990 85 86 Passed 2 - ∆P tn 0.145 20.45 10.15 10.15 218 1.50 0.41 9.990 86 88 Passed 3 - ∆P tn 0.145 30.15 9.30 9.45 218 1.30 0.41 9.990 87 89 Passed 4 - ∆P tn 0.145 40.15 10.00 10.00 217 1.40 0.41 9.990 87 89 Passed 5 - ∆P tn 0.145 49.30 9.15 9.15 217 1.20 0.41 9.990 87 90 Passed 6 - ∆P tn 0.145 58.45 9.15 9.15 217 1.20 0.41 9.990 87 89 Passed 7 - ∆P tn 0.145 70.15 11.30 11.45 217 1.90 0.41 9.990 88 90 Passed 8 - ∆P tn 0.145 81.30 11.15 11.15 217 1.80 0.41 9.990 88 90 Passed 9 - ∆P tn 0.145 91.30 10.00 10.00 217 1.40 0.41 9.990 89 92 Passed 10 - ∆P tn 0.145 101.30 10.00 10.00 217 1.40 0.41 9.990 89 91 Passed 11 - ∆P tn 0.145 111.00 9.30 9.45 217 1.30 0.41 9.990 89 92 Passed 12 - ∆P tn 0.145 120.30 9.30 9.45 217 1.30 0.41 9.990 90 92 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 102.1 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 5 Source Test Report for 2023 Compliance Testing CTG11 PacifiCorp Lake Side Power Plant Lindon, Utah Prepared For: PacifiCorp 1407 W North Temple, Suite 210 Salt Lake City, Utah 84116 Prepared By: Montrose Air Quality Services, LLC 990 West 43rd Avenue Denver, Colorado 80211 For Submission To: Utah Division of Air Quality 195 North 1950 West Salt Lake City, Utah 84116 Document Number: GP043AS-023429-RT-1337 Test Date: July 14, 2023 Submittal Date: August 14, 2023 PacifiCorp 2023 Test Report, Lake Side Power Plant Review and Certification All work, calculations, and other activities and tasks performed and presented in this document were carried out by me or under my direction and supervision. I hereby certify that, to the best of my knowledge, Montrose operated in conformance with the requirements of the Montrose Quality Management System and ASTM D7036-04 during this test project. Signature: Date: August 7, 2023 Name: Cheyney Guymon Title: Project Manager I have reviewed, technically and editorially, details, calculations, results, conclusions, and other appropriate written materials contained herein. I hereby certify that, to the best of my knowledge, the presented material is authentic, accurate, and conforms to the requirements of the Montrose Quality Management System and ASTM D7036-04. Signature: Date: August 7, 2023 Name: Matthew Parks Title: QA/QC Specialist GP043AS-023429-RT-1337 Page 2 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Table of Contents Section Page 1.0 Introduction ...................................................................................................... 5 1.1 Summary of Test Program ........................................................................... 5 1.2 Key Personnel ............................................................................................ 7 2.0 Plant and Sampling Location Descriptions .............................................................. 9 2.1 Process Description, Operation, and Control Equipment ................................... 9 2.2 Flue Gas Sampling Locations ........................................................................ 9 2.3 Operating Conditions and Process Data .......................................................... 9 3.0 Sampling and Analytical Procedures ..................................................................... 10 3.1 Test Methods ............................................................................................ 10 3.1.1 EPA Method 1 ................................................................................... 10 3.1.2 EPA Method 2 ................................................................................... 10 3.1.3 EPA Method 4 ................................................................................... 12 3.1.4 EPA Method 201A ............................................................................. 12 3.1.5 EPA Method 202 ............................................................................... 13 3.2 Process Test Methods ................................................................................. 13 4.0 Test Discussion and Results ................................................................................ 14 4.1 Field Test Deviations and Exceptions ............................................................ 14 4.2 Presentation of Results ............................................................................... 14 5.0 Internal QA/QC Activities ................................................................................... 15 5.1 QA/QC Audits ........................................................................................... 15 5.2 QA/QC Discussion ...................................................................................... 15 5.3 Quality Statement ..................................................................................... 15 List of Appendices A Field Data and Calculations ............................................................................... 16 A.1 Sampling Locations ................................................................................... 17 A.2 Test Results ............................................................................................. 19 A.3 Field Data ............................................................................................... 20 A.4 Example Calculations ................................................................................... 22 B Facility Process Data ........................................................................................ 29 B.1 Unit CT11 ................................................................................................ .30 C Laboratory Data............................................................................................... 43 C.1 Gravimetric Analysis ................................................................................. .44 D Quality Assurance/Quality Control ...................................................................... 49 D.1 Units and Abbreviations ............................................................................. 50 GP043AS-023429-RT-1337 Page 3 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant D.2 Manual Test Method QA/QC Data ................................................................ 58 D.3 Accreditation Information/Certifications ....................................................... 61 List of Tables Table 1-1 Summary of Test Program .......................................................................... 5 Table 1-2 Summary of Compliance Test Results – Unit CT11 ......................................... 6 Table 1-3 Test Personnel and Observers ..................................................................... 8 Table 2-1 Sampling Locations ................................................................................... 9 List of Figures Figure 3-1 EPA Methods 201A/202 Sampling Train ....................................................... 11 GP043AS-023429-RT-1337 Page 4 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 1.0 Introduction 1.1 Summary of Test Program PacifiCorp contracted Montrose Air Quality Services, LLC (Montrose) to perform a compliance emissions test program on the sources listed in Table 1-1 at the Lake Side Power Plant located in Lindon, Utah. The compliance tests are conducted to determine compliance with the applicable emission limits listed in Title V Operating Permit number 4900241002 issued by Utah Division of Air Quality (UDAQ). The specific objectives were to: • Measure emissions of PM/PM10/PM2.5 at the outlet of CTG11 • Conduct the test program with a focus on safety Montrose performed the tests to measure the emission parameters listed in Table 1-1. Table 1-1 Summary of Test Program Test Date Unit ID/ Source Name Activity/Parameters Test Methods No. of Runs Duration (Minutes) July 14, 2023 CTG11 Perform PM Testing EPA 1, 2, 3A, 4, 201A/202 3 ~120 To simplify this report, a list of Units and Abbreviations is included in Appendix D.1. Throughout this report, chemical nomenclature, acronyms, and reporting units are not defined. Please refer to the list for specific details. This report presents the test results and supporting data, descriptions of the testing procedures, descriptions of the facility and sampling locations, and a summary of the quality assurance procedures used by Montrose. The average emission test results are summarized and compared to their respective emission limits in Table 1-2. Detailed results for individual test runs and all supporting data can be found in the appendices. The testing was conducted by the Montrose personnel listed in Table 1-3. The tests were conducted according to the test plan (protocol) that was submitted to and approved by UDEQ. GP043AS-023429-RT-1337 Page 5 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Table 1-2 Summary of Compliance Test Results – Unit CT11 July 14, 2023 Parameter Reporting Units Emission Limit Emission Limit Reference Average Value PM10 lb/hr 10.8 Permit 4900241002 13.0 PM10 lb/mmBtu 0.01 Permit 4900241002 0.002 GP043AS-023429-RT-1337 Page 6 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 1.2 Key Personnel A list of project participants is included below: Facility Information Source Location: PacifiCorp Lake Side Power Plant 1825 N. Pioneer Lane Lindon, Utah 84024 Project Contact: Tom Wiscomb Veronica Reyes Role: Environmental Advisor Environmental Analyst Telephone: 801-220-2373 801-796-1916 Email: Tom.Wiscomb@PacifiCorp.com Veronica.Reyes@PacifiCorp.com Agency Information Regulatory Agency: Utah Division of Air Quality Agency Contact: Rob Leishman Telephone: 801-536-4438 Email: RLeishman@utah.gov Testing Company Information Testing Firm: Montrose Air Quality Services, LLC Contact: Cheyney Guymon Title: Project Manager Telephone: 801-794-2950 Email: CGuymon@montrose-env.com Laboratory Information Laboratory: Montrose Air Quality Services, LLC City, State: Denver, Colorado Methods: 40 CFR Part 51, Appendix M, Methods 201A and 202 GP043AS-023429-RT-1337 Page 7 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Test personnel and observers are summarized in Table 1-3. Table 1-3 Test Personnel and Observers Name Affiliation Role/Responsibility Cheyney Guymon Montrose Project Manager Qualified Individual (QI) Trailer operator Tyler Conway Montrose Sample train operator Josh Wilson Montrose Sample train operator Matthew Parks Montrose Calculations and report preparation Tom Wiscomb PacifiCorp Test Coordinator Veronica Reyes PacifiCorp Plant Representative GP043AS-023429-RT-1337 Page 8 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 2.0 Plant and Sampling Location Descriptions 2.1 Process Description, Operation, and Control Equipment The Lake Side Power Plant comprises four combined-cycle combustion turbines designated CTG11, CTG12, CTG21 and CTG22. 2.2 Flue Gas Sampling Locations Information regarding the sampling locations is presented in Table 2-1. Table 2-1 Sampling Locations Sampling Location Stack Inside Diameter (in.) Distance from Nearest Disturbance Anticipated Number of Traverse Points Downstream EPA “B” (in./dia.) Upstream EPA “A” (in./dia.) CTG11 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below CTG12 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below CTG21 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below CTG22 216 ~576/~2.7 ~120/~0.6 Isokinetic: 12 (3/port) Gaseous: See below Sample location(s) were verified in the field to conform to EPA Method 1. See Appendix A.1 for more information. 2.3 Operating Conditions and Process Data Emission tests were performed while the source/units and air pollution control devices were operating at the conditions required by the relevant performance specifications. The units were tested when operating within the load levels required by 40 CFR Part 75. Plant personnel were responsible for establishing the test conditions and collecting all applicable unit-operating data. The process data that was provided is presented in Appendix B. Data collected includes the following parameters: • Unit Load (MW) • Relevant CEMS Parameters GP043AS-023429-RT-1337 Page 9 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 3.0 Sampling and Analytical Procedures 3.1 Test Methods The test methods for this test program have been presented in Table 1-1. Additional information regarding specific applications or modifications to standard procedures is presented below. 3.1.1 EPA Method 1, Sample and Velocity Traverses for Stationary Sources EPA Method 1 is used to assure that representative samples or measurements of volumetric flow rate are obtained by dividing the cross-section of the stack or duct into equal areas, and then locating a traverse point within each of the equal areas. Acceptable sample locations must be located at least two stack or duct equivalent diameters downstream from a flow disturbance and one-half equivalent diameter upstream from a flow disturbance. 3.1.2 EPA Method 2, Determination of Gas Velocity and Volumetric Flow Rate (Type S Pitot Tube) EPA Method 2 is used to measure the gas velocity using an S-type pitot tube connected to a pressure measurement device, and to measure the gas temperature using a calibrated thermocouple connected to a thermocouple indicator. Typically, Type S (Stausscheibe) pitot tubes conforming to the geometric specifications in the test method are used, along with an inclined manometer. The measurements are made at traverse points specified by EPA Method 1. The molecular weight of the gas stream is determined from independent measurements of O2, CO2, and moisture. The stack gas volumetric flow rate is calculated using the measured average velocity head, the area of the duct at the measurement plane, the measured average temperature, the measured duct static pressure, the molecular weight of the gas stream, and the measured moisture. The typical sampling system is detailed in Figure 3-1, as part of the EPA Method 201A/202 sampling train. GP043AS-023429-RT-1337 Page 10 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Figure 3-1 EPA Methods 201A/202 Sampling Train FILTER HOLDERTHERMOCOUPLE Empty (modified / no tip) Empty (modified / no tip) WATER BATH WATER IN 200-300g Silica Gel (modified / no tip) VACUUM LINE ADAPTOR VACUUM LINE ICE BATH 100 ml H2O (modified / no tip) MANOMETER BY-PASS VALVE (fine adjust) AIR TIGHT PUMP VACUUM GAUGE MAIN VALVE (coarse adjust) THERMOCOUPLES DRY GAS METER ORIFICE GAS EXIT WATER OUTTYPE “S” PITOT CONDENSER THERMOCOUPLE MANOMETER THERMOCOUPLETHERMOCOUPLE HEATED PROBEPM10SAMPLER GP043AS-023429-RT-1337 Page 11 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 3.1.3 EPA Method 4, Determination of Moisture Content in Stack Gas EPA Method 4 is a manual method used to measure the moisture content of gas streams. Gas is sampled through a probe and impinger train. Moisture is removed using a series of pre-weighed impingers containing methodology-specific liquids and silica gel immersed in an ice water bath. The impingers are weighed after each run to determine the percent moisture. Pertinent information regarding the performance of the method is presented below: o Moisture sampling is performed as part of the pollutant (Method 201A/202) sample trains o Since it is theoretically impossible for measured moisture to be higher than psychrometric moisture, the psychrometric moisture is also calculated, and the lower moisture value is used in the calculations o Minimum Required Sample Volume: 21 scf The typical sampling system is detailed in Figure 3-1, as part of the EPA Method 201A/202 sampling train. 3.1.4 EPA Method 201A, Determination of PM10 and PM2.5 Emissions from Stationary Sources (Constant Sampling Rate Procedure) To measure PM10 and PM2.5, extract a sample of gas at a predetermined constant flow rate through an in-stack sizing device. The particle-sizing device separates particles with nominal aerodynamic diameters of 10 micrometers and 2.5 micrometers. To minimize variations in the isokinetic sampling conditions, you must establish well-defined limits. After a sample is obtained, remove uncombined water from the particulate, then use gravimetric analysis to determine the particulate mass for each size fraction. The original method, as promulgated in 1990, has been changed by adding a PM2.5 cyclone downstream of the PM10 cyclone. Both cyclones were developed and evaluated as part of a conventional five-stage cascade cyclone train. The addition of a PM2.5 cyclone between the PM10 cyclone and the stack temperature filter in the sampling train supplements the measurement of PM10 with the measurement of PM2.5. Without the addition of the PM2.5 cyclone, the filterable particulate portion of the sampling train may be used to measure total and PM10 emissions. Likewise, with the exclusion of the PM10 cyclone, the filterable particulate portion of the sampling train may be used to measure total and PM2.5 emissions. The typical sampling system is detailed in Figure 3-1. GP043AS-023429-RT-1337 Page 12 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 3.1.5 EPA Method 202, Dry Impinger Method for Determining Condensable Particulate Emissions from Stationary Sources The CPM is collected in dry impingers after filterable PM has been collected on a filter maintained as specified in Method 201A of Appendix M to 40 CFR 51. The organic and aqueous fractions of the impingers and an out-of-stack CPM filter are then taken to dryness and weighed. The total of the impinger fractions and the CPM filter represents the CPM. Compared to the version of Method 202 that was promulgated on December 17, 1991, this method eliminates the use of water as the collection media in impingers and includes the addition of a condenser followed by a water dropout impinger immediately after the final in- stack or heated filter. This method also includes the addition of one modified Greenburg Smith impinger (backup impinger) and a CPM filter following the water dropout impinger. CPM is collected in the water dropout impinger, the modified Greenburg Smith impinger, and the CPM filter of the sampling train as described in this method. The impinger contents are purged with nitrogen immediately after sample collection to remove dissolved SO2 gases from the impinger. The CPM filter is extracted with water and hexane. The impinger solution is then extracted with hexane. The organic and aqueous fractions are dried and the residues are weighed. The total of the aqueous and organic fractions represents the CPM. The potential artifacts from SO2 are reduced using a condenser and water dropout impinger to separate CPM from reactive gases. No water is added to the impingers prior to the start of sampling. To improve the collection efficiency of CPM, an additional filter (the “CPM filter”) is placed between the second and third impingers. The typical sampling system is detailed in Figure 3-1. 3.2 Process Test Methods The test plan did not require that process samples be collected during this test program; therefore, no process sample data are presented in this test report. GP043AS-023429-RT-1337 Page 13 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 4.0 Test Discussion and Results 4.1 Field Test Deviations and Exceptions No field deviations or exceptions from the test plan or test methods were identified by the project manager during this test program. 4.2 Presentation of Results The average results are compared to the applicable permit limits in Table 1-2. Emissions are reported in units consistent with those in the applicable performance specifications. Additional information is included in the appendices as presented in the Table of Contents. GP043AS-023429-RT-1337 Page 14 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant 5.0 Internal QA/QC Activities 5.1 QA/QC Audits The meter boxes and sampling trains used during sampling performed within the requirements of their respective methods. All post-test leak checks, minimum metered volumes, and minimum sample durations met the applicable QA/QC criteria, except where noted in Section 5.2. 5.2 QA/QC Discussion All QA/QC criteria were met during this test program. 5.3 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 Individual (QI) 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). GP043AS-023429-RT-1337 Page 15 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix A Field Data and Calculations GP043AS-023429-RT-1337 Page 16 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix A.1 Sampling Locations GP043AS-023429-RT-1337 Page 17 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant PacifiCorp Lake Side Power Plant Sampling Locations Pollutant Stratification Test Points Unit 11-22 Diameter (D) 216” Upstream Distance (A) 120” Downstream Distance (B) 576” Sample Point Distances from Stack Wall Traverse Point 1 9.5” Traverse Point 2 31.5” Traverse Point 3 63.9” 1 5 2 1 2 3 3 1 2 3 3 2 1 Stack Cross Section (A-A) D A B A A GP043AS-023429-RT-1337 Page 18 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix A.2 Test Results GP043AS-023429-RT-1337 Page 19 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix A.3 Field Data GP043AS-023429-RT-1337 Page 20 of 64 PROJ‐023429 PacifiCorp Lake Side CT11 7/14/2023 Run # 1 2 3 Start Time 7:05 10:25 13:45 Stop Time 9:15 12:55 16:04 EPA Method 2 Data 1 2 3 Average Ds Stack Diameter (inches)216.0 216.0 216.0 216.0 Pbar Barometric Pressure ("Hg)25.48 25.48 25.48 25.48 Pg Stack Static Pressure ("H2O)‐0.5 ‐0.5 ‐0.5 ‐0.5 Cp Pitot Tube Coefficient (unitless)0.84 0.84 0.84 0.84 √∆pavg Avg. Velocity Head of Stack Gas √("H2O)1.1536 1.1127 1.1119 1.1261 Ts Avg. Stack Gas Temperature (°F)219 220 220 220 EPA Method 3 or 3A Data 1 2 3 Average O2 (%vd)13.6 13.3 13.5 13.5 CO2 (%vd)4.3 4.4 4.5 4.4 EPA Method 4 Data 1 2 3 Average Ѳ Actual Sampling Time (minutes) 119.00 116.00 116.25 117.08 Vlc Volume of Water Condensed (mL)62.62 64.94 69.68 65.75 Vm Volume of Stack Gas Collected (dcf)47.600 48.928 51.061 49.196 Y Meter Calibration Factor (unitless) 0.9850 0.9850 0.9850 0.9850 ∆H Pressure Differential Across Orifice ("H2O)0.44 0.46 0.47 0.46 Tm Temperature at Gas Meter (°F)88 90 84 87 EPA Method 201A & 202 Data 1 2 3 Average Dn Nozzle diameter (")0.145 0.145 0.145 0.145 Cyclone Catch, PM10+ (g)0.0008 0.0013 0.0001 0.0007 PM10 Catch ‐ Filter (g)0.0000 0.0004 0.0000 0.0001 PM10 Catch ‐ Rinse (g)0.0005 0.0000 0.0004 0.0003 Inorganic CPM Catch (g)0.0031 0.0023 0.0056 0.0037 Organic CPM Catch (g)0.0029 0.0029 0.0042 0.0033 CPM Blank (g)0.0020 0.0020 0.0020 0.0020 EPA Method 201A Calculations 1 2 3 Average Vm(std)Sample Gas Volume (dscf)38.505 39.437 41.611 39.851 Vws Volume of Water Vapor (scf)2.948 3.057 3.280 3.095 Pm Absolute Pressure at Gas Meter ("Hg)25.44 25.44 25.44 25.44 Bws Moisture Content (%/100)0.071 0.072 0.073 0.072 Md Stack Gas Molecular Weight, dry basis (lb/lb‐mole)29.23 29.24 29.26 29.24 Ms Stack Gas Molecular Weight, wet basis (lb/lb‐mole)28.43 28.43 28.44 28.43 Vs Stack Gas Velocity (ft/sec)80.3 77.5 77.4 78.4 Qacfm Stack Gas Volumetric Flow Rate (acf/min)1,225,395 1,183,094 1,181,979 1,196,823 Qdscfm Stack Gas Dry Volumetric Flow Rate (dscf/min)752,390 724,703 723,141 733,411 I Isokinetic variation (%)95.4 104.1 109.9 103.2 An Cross‐sectional area of nozzle (ft2)1.1E‐04 1.1E‐04 1.1E‐04 1.1E‐04 Vn Nozzle Velocity (ft/sec)76.6 80.6 85.0 80.7 µGas Viscosity (micropoise)210.3 210.3 210.3 210.3 Qs Dry std Cyclone Flow Rate (ft^3/min)0.32 0.34 0.36 0.34 Qs Actual Cyclone Flow Rate (ft^3/min)0.53 0.55 0.58 0.56 D50 (PM10)Actual Particle Cut Diamter for Cyclone I (µm)10.8 10.4 10.0 10.4 Particulate Emission Calculations 1 2 3 Average PM10+ emissions (lb/hr)2.1 3.2 0.2 1.8 PM10+ emissions (gr/dscf)0.0003 0.0005 0.0000 0.0003 PM10+ emissions (lb/MMBtu)0.0011 0.0017 0.0001 0.0010 Total PM10 emissions (lb/hr)1.3 1.0 0.9 1.1 Total PM10 emissions (gr/dscf)0.0002 0.0002 0.0001 0.0002 Total PM10 emissions (lb/MMBtu)0.0007 0.0005 0.0005 0.0006 Total CPM emissions (lb/hr)10.3 7.8 17.9 12.0 Total CPM emissions (gr/dscf)0.0016 0.0013 0.0029 0.0019 Total CPM emissions (lb/MMBtu)0.0057 0.0043 0.0102 0.0067 Total PM10/CPM emissions (lb/hr)11.6 8.8 18.9 13.1 Total PM10/CPM emissions (gr/dscf)0.0018 0.0014 0.0030 0.0021 Total PM10/CPM emissions (lb/MMBtu)0.006 0.005 0.011 0.007 GP043AS-023429-RT-1337 Page 21 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix A.4 Example Calculations GP043AS-023429-RT-1337 Page 22 of 64 GP043AS-023429-RT-1337 Page 23 of 64 GP043AS-023429-RT-1337 Page 24 of 64 GP043AS-023429-RT-1337 Page 25 of 64 Company: Pacificorp ‐ Lakeside Run Number: 1 CT‐11 Date: 7/14/2023 Orsat sample #O2 1 13.6 2 13.6 3 13.6 Average 13.60 O2 0.3% when O2 4.0%0.3% when CO2 15.0% 0.2% when O2 4.0%0.2% when CO2 15.0%  0.3% 82.1 4.3  0.01 82.1 4.3  0.01 82.10 4.30  0.01 CO2 CO 82.1 4.3  0.01 Montrose Air Quality Services, LLC. 6823 South 3600 West Spanish Fork, Utah 84660 801‐266‐7111 Sampling Location: Orsat Analysis (Average of 3 analyses each) Volume Percent ‐ Dry Basis N2 CO2 CO GP043AS-023429-RT-1337 Page 26 of 64 Company: Pacificorp ‐ Lakeside Run Number: 2 CT‐11 Date: 7/14/2023 Orsat sample #O2 1 13.3 2 13.3 3 13.3 Average 13.30 O2 0.3% when O2 4.0%0.3% when CO2 15.0% 0.2% when O2 4.0%0.2% when CO2 15.0%  0.3% 82.3 4.4  0.01 82.3 4.4  0.01 82.30 4.40  0.01 CO2 CO 82.3 4.4  0.01 Montrose Air Quality Services, LLC. 6823 South 3600 West Spanish Fork, Utah 84660 801‐266‐7111 Sampling Location: Orsat Analysis (Average of 3 analyses each) Volume Percent ‐ Dry Basis N2 CO2 CO GP043AS-023429-RT-1337 Page 27 of 64 Company: Pacificorp ‐ Lakeside Run Number: 3 CT‐11 Date: 7/14/2023 Orsat sample #O2 1 13.5 2 13.5 3 13.5 Average 13.50 O2 0.3% when O2 4.0%0.3% when CO2 15.0% 0.2% when O2 4.0%0.2% when CO2 15.0%  0.3% 82 4.5  0.01 82 4.5  0.01 82.00 4.50  0.01 CO2 CO 82 4.5  0.01 Montrose Air Quality Services, LLC. 6823 South 3600 West Spanish Fork, Utah 84660 801‐266‐7111 Sampling Location: Orsat Analysis (Average of 3 analyses each) Volume Percent ‐ Dry Basis N2 CO2 CO GP043AS-023429-RT-1337 Page 28 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix B Facility Process Data GP043AS-023429-RT-1337 Page 29 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix B.1 Unit CT11 GP043AS-023429-RT-1337 Page 30 of 64 07/14/23 06:05 0.1 17,128.0 1,884.1 239 07/14/23 06:06 0.2 17,127.5 1,884.0 239 07/14/23 06:07 0.2 17,112.7 1,882.4 239 07/14/23 06:08 0.2 17,120.0 1,883.2 239 07/14/23 06:09 0.2 17,117.7 1,882.9 239 07/14/23 06:10 0.2 17,110.9 1,882.2 238 07/14/23 06:11 0.1 17,105.0 1,881.6 238 07/14/23 06:12 0.2 17,107.9 1,881.9 238 07/14/23 06:13 0.1 17,112.7 1,882.4 238 07/14/23 06:14 0.2 17,117.5 1,882.9 238 07/14/23 06:15 0.2 17,116.2 1,882.8 238 07/14/23 06:16 0.2 17,119.4 1,883.1 238 07/14/23 06:17 0.1 17,126.2 1,883.9 238 07/14/23 06:18 0.2 17,129.3 1,884.2 238 07/14/23 06:19 0.2 17,132.0 1,884.5 238 07/14/23 06:20 0.2 17,131.2 1,884.4 238 07/14/23 06:21 0.2 17,119.9 1,883.2 239 07/14/23 06:22 0.2 17,122.6 1,883.5 239 07/14/23 06:23 0.1 17,122.3 1,883.5 239 07/14/23 06:24 0.2 17,119.9 1,883.2 239 07/14/23 06:25 0.1 17,120.7 1,883.3 239 07/14/23 06:26 0.2 17,125.3 1,883.8 239 07/14/23 06:27 0.2 17,125.2 1,883.8 239 07/14/23 06:28 0.2 17,125.8 1,883.8 242 07/14/23 06:29 0.2 17,128.7 1,884.2 241 07/14/23 06:30 0.2 17,130.9 1,884.4 239 07/14/23 06:31 0.3 17,125.7 1,883.8 238 07/14/23 06:32 0.2 17,126.6 1,883.9 238 07/14/23 06:33 0.2 17,139.3 1,885.3 237 07/14/23 06:34 0.2 17,130.1 1,884.3 237 07/14/23 06:35 0.2 17,133.6 1,884.7 237 07/14/23 06:36 0.2 17,136.4 1,885.0 237 07/14/23 06:37 0.2 17,135.7 1,884.9 238 07/14/23 06:38 0.2 17,128.2 1,884.1 238 07/14/23 06:39 0.2 17,131.3 1,884.4 238 07/14/23 06:40 0.2 17,133.9 1,884.7 238 07/14/23 06:41 0.2 17,135.7 1,884.9 239 07/14/23 06:42 0.2 17,131.9 1,884.5 239 07/14/23 06:43 0.1 17,135.8 1,884.9 239 07/14/23 06:44 0.2 17,136.1 1,885.0 239 Source UNIT1 COPPM (PPM) GASFLOW (HSCFH) GHEAT (MMBTU/HR) UNITLOAD (MW) Average Data - Run 1 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 06:05 Through 07/14/2023 08:15 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:40 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 31 of 64 Average Data - Run 1 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 06:05 Through 07/14/2023 08:15 Time Online Criteria: 1 minute(s) 07/14/23 06:45 0.2 17,129.7 1,884.3 239 07/14/23 06:46 0.2 17,131.4 1,884.5 239 07/14/23 06:47 0.1 17,134.2 1,884.8 239 07/14/23 06:48 0.1 17,125.9 1,883.8 239 07/14/23 06:49 0.2 17,126.8 1,883.9 239 07/14/23 06:50 0.2 17,127.4 1,884.0 239 07/14/23 06:51 0.2 17,133.4 1,884.7 239 07/14/23 06:52 0.2 17,134.5 1,884.8 239 07/14/23 06:53 0.2 17,136.8 1,885.0 239 07/14/23 06:54 0.2 17,138.4 1,885.2 239 07/14/23 06:55 0.2 17,139.2 1,885.3 239 07/14/23 06:56 0.2 17,138.5 1,885.2 239 07/14/23 06:57 0.2 17,140.2 1,885.4 239 07/14/23 06:58 0.2 17,138.9 1,885.3 239 07/14/23 06:59 0.1 17,142.4 1,885.7 239 07/14/23 07:00 0.3 IC 17,140.0 1,885.4 239 07/14/23 07:01 3.5 IC 17,136.0 1,885.0 239 07/14/23 07:02 0.0 IC 17,135.3 1,884.9 239 07/14/23 07:03 0.0 IC 17,128.4 1,884.1 239 07/14/23 07:04 0.0 IC 17,123.8 1,883.6 239 07/14/23 07:05 2.3 IC 17,130.9 1,884.4 239 07/14/23 07:06 8.8 IC 17,117.3 1,882.9 239 07/14/23 07:07 9.0 IC 17,122.6 1,883.5 239 07/14/23 07:08 9.0 IC 17,123.9 1,883.6 239 07/14/23 07:09 14.4 IC 17,122.6 1,883.5 239 07/14/23 07:10 1,854.7 IC 17,120.6 1,883.3 239 07/14/23 07:11 2,648.4 IC 17,107.2 1,881.8 240 07/14/23 07:12 2,646.1 IC 17,109.5 1,882.0 242 07/14/23 07:13 2,688.8 IC 17,117.9 1,883.0 240 07/14/23 07:14 2,028.7 IC 17,120.3 1,883.2 239 07/14/23 07:15 47.8 IC 17,119.9 1,883.2 238 07/14/23 07:16 7.2 IC 17,114.3 1,882.6 238 07/14/23 07:17 5.0 IC 17,112.3 1,882.4 237 07/14/23 07:18 3.8 IC 17,113.7 1,882.5 237 07/14/23 07:19 3.1 IC 17,105.8 1,881.6 237 07/14/23 07:20 2.4 C 17,096.8 1,880.6 237 07/14/23 07:21 2.2 17,094.0 1,880.3 237 07/14/23 07:22 1.9 17,096.6 1,880.6 238 07/14/23 07:23 1.6 17,100.4 1,881.0 238 07/14/23 07:24 1.4 17,092.2 1,880.1 238 07/14/23 07:25 1.3 17,079.3 1,878.7 238 07/14/23 07:26 1.1 17,077.0 1,878.5 238 07/14/23 07:27 0.9 17,072.1 1,877.9 238 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:40 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 32 of 64 Average Data - Run 1 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 06:05 Through 07/14/2023 08:15 Time Online Criteria: 1 minute(s) 07/14/23 07:28 0.9 17,066.8 1,877.3 238 07/14/23 07:29 0.7 17,072.4 1,878.0 238 07/14/23 07:30 0.7 17,065.3 1,877.2 238 07/14/23 07:31 0.6 17,081.0 1,878.9 238 07/14/23 07:32 0.6 17,071.8 1,877.9 238 07/14/23 07:33 0.6 17,075.1 1,878.3 238 07/14/23 07:34 0.5 17,077.1 1,878.5 238 07/14/23 07:35 0.5 17,082.9 1,879.1 238 07/14/23 07:36 0.4 17,077.2 1,878.5 238 07/14/23 07:37 0.4 17,068.6 1,877.5 238 07/14/23 07:38 0.3 17,069.9 1,877.7 237 07/14/23 07:39 0.3 17,066.9 1,877.4 237 07/14/23 07:40 0.3 17,067.3 1,877.4 237 07/14/23 07:41 0.3 16,939.9 1,863.4 237 07/14/23 07:42 0.3 17,061.7 1,876.8 237 07/14/23 07:43 0.3 17,060.9 1,876.7 237 07/14/23 07:44 0.3 17,057.4 1,876.3 237 07/14/23 07:45 0.3 17,045.9 1,875.0 237 07/14/23 07:46 0.3 16,923.2 1,861.6 237 07/14/23 07:47 0.2 17,057.1 1,876.3 237 07/14/23 07:48 0.3 17,064.8 1,877.1 236 07/14/23 07:49 0.3 17,050.3 1,875.5 236 07/14/23 07:50 0.3 16,920.8 1,861.3 236 07/14/23 07:51 0.2 17,053.7 1,875.9 236 07/14/23 07:52 0.3 17,057.5 1,876.3 236 07/14/23 07:53 0.2 17,048.7 1,875.4 236 07/14/23 07:54 0.2 16,937.0 1,863.1 236 07/14/23 07:55 0.2 17,054.1 1,876.0 236 07/14/23 07:56 0.2 17,043.1 1,874.7 236 07/14/23 07:57 0.2 17,046.0 1,875.1 238 07/14/23 07:58 0.2 17,049.1 1,875.4 240 07/14/23 07:59 0.2 17,053.0 1,875.8 238 07/14/23 08:00 0.2 17,068.7 1,877.6 237 07/14/23 08:01 0.2 17,060.1 1,876.6 236 07/14/23 08:02 0.1 17,054.6 1,876.0 236 07/14/23 08:03 0.2 17,056.5 1,876.2 235 07/14/23 08:04 0.2 17,066.8 1,877.3 236 07/14/23 08:05 0.2 17,057.1 1,876.3 236 07/14/23 08:06 0.2 17,062.6 1,876.9 236 07/14/23 08:07 0.2 17,061.1 1,876.7 236 07/14/23 08:08 0.2 17,050.2 1,875.5 236 07/14/23 08:09 0.2 17,039.9 1,874.4 236 07/14/23 08:10 0.2 17,041.9 1,874.6 237 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:40 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 33 of 64 Average Data - Run 1 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 06:05 Through 07/14/2023 08:15 Time Online Criteria: 1 minute(s) 07/14/23 08:11 0.3 17,036.7 1,874.0 237 07/14/23 08:12 0.2 17,024.7 1,872.7 236 07/14/23 08:13 0.2 17,031.6 1,873.5 236 07/14/23 08:14 0.2 17,030.5 1,873.4 236 07/14/23 08:15 0.2 17,026.0 1,872.9 236 0.3 17,094.7 1,880.4 238 0.1 16,920.8 1,861.3 235 2.4 17,142.4 1,885.7 242 37.7 2,239,399.7 246,333.7 31,172 111 131 131 131 131 131 131 131 Geometric Mean Included Data Points Total number of Data Points Average Minimum Maximum Summation F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:40 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 34 of 64 07/14/23 09:25 0.2 16,884.4 1,857.3 234 07/14/23 09:26 0.2 16,888.6 1,857.7 234 07/14/23 09:27 0.2 16,890.7 1,858.0 233 07/14/23 09:28 0.2 16,872.4 1,856.0 233 07/14/23 09:29 0.2 16,875.8 1,856.3 233 07/14/23 09:30 0.2 16,874.6 1,856.2 235 07/14/23 09:31 0.3 16,881.1 1,856.9 237 07/14/23 09:32 0.3 16,885.3 1,857.4 235 07/14/23 09:33 0.3 16,884.6 1,857.3 233 07/14/23 09:34 0.2 16,888.3 1,857.7 233 07/14/23 09:35 0.2 16,887.8 1,857.7 233 07/14/23 09:36 0.2 16,883.4 1,857.2 232 07/14/23 09:37 0.2 16,892.7 1,858.2 232 07/14/23 09:38 0.2 16,902.5 1,859.3 233 07/14/23 09:39 0.2 16,911.1 1,860.2 233 07/14/23 09:40 0.3 16,900.2 1,859.0 233 07/14/23 09:41 0.2 16,876.1 1,856.4 233 07/14/23 09:42 0.3 16,897.9 1,858.8 233 07/14/23 09:43 0.2 16,898.6 1,858.8 233 07/14/23 09:44 0.2 16,903.0 1,859.3 233 07/14/23 09:45 0.2 16,907.4 1,859.8 233 07/14/23 09:46 0.3 16,900.9 1,859.1 233 07/14/23 09:47 0.2 16,896.6 1,858.6 233 07/14/23 09:48 0.2 16,889.1 1,857.8 233 07/14/23 09:49 0.2 16,880.2 1,856.8 234 07/14/23 09:50 0.2 16,896.1 1,858.6 234 07/14/23 09:51 0.2 16,897.2 1,858.7 234 07/14/23 09:52 0.2 16,898.4 1,858.8 234 07/14/23 09:53 0.3 16,900.5 1,859.1 234 07/14/23 09:54 0.2 16,920.8 1,861.3 234 07/14/23 09:55 0.2 16,907.3 1,859.8 233 07/14/23 09:56 0.2 16,897.9 1,858.8 233 07/14/23 09:57 0.1 16,907.8 1,859.9 234 07/14/23 09:58 0.2 16,911.3 1,860.2 234 07/14/23 09:59 0.2 16,885.5 1,857.4 233 07/14/23 10:00 0.2 16,855.5 1,854.1 233 07/14/23 10:01 0.3 16,864.1 1,855.1 233 07/14/23 10:02 0.2 16,867.4 1,855.4 233 07/14/23 10:03 0.2 16,861.0 1,854.7 233 Source UNIT1 COPPM (PPM) GASFLOW (HSCFH) GHEAT (MMBTU/HR) UNITLOAD (MW) Average Data - Run 2 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 09:25 Through 07/14/2023 11:55 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:44 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 35 of 64 Average Data - Run 2 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 09:25 Through 07/14/2023 11:55 Time Online Criteria: 1 minute(s) 07/14/23 10:04 0.2 16,879.6 1,856.8 233 07/14/23 10:05 0.2 16,898.6 1,858.8 234 07/14/23 10:06 0.2 16,910.5 1,860.2 234 07/14/23 10:07 0.2 16,900.8 1,859.1 234 07/14/23 10:08 0.2 16,780.4 1,845.8 233 07/14/23 10:09 0.2 16,896.9 1,858.7 233 07/14/23 10:10 0.2 16,904.1 1,859.5 234 07/14/23 10:11 0.2 16,899.9 1,859.0 234 07/14/23 10:12 0.2 16,881.4 1,857.0 233 07/14/23 10:13 0.2 16,855.9 1,854.1 233 07/14/23 10:14 0.2 16,853.0 1,853.8 233 07/14/23 10:15 0.2 16,888.0 1,857.7 234 07/14/23 10:16 0.3 16,903.6 1,859.4 234 07/14/23 10:17 0.2 16,883.2 1,857.2 236 07/14/23 10:18 0.2 16,874.7 1,856.2 237 07/14/23 10:19 0.3 16,876.1 1,856.4 234 07/14/23 10:20 0.2 16,858.3 1,854.4 233 07/14/23 10:21 0.2 16,848.4 1,853.3 232 07/14/23 10:22 0.2 16,852.0 1,853.7 232 07/14/23 10:23 0.2 16,860.9 1,854.7 232 07/14/23 10:24 0.3 16,864.8 1,855.1 232 07/14/23 10:25 0.1 16,885.4 1,857.4 233 07/14/23 10:26 0.2 16,896.2 1,858.6 233 07/14/23 10:27 0.2 16,875.8 1,856.3 232 07/14/23 10:28 0.2 16,857.6 1,854.3 232 07/14/23 10:29 0.1 16,862.2 1,854.8 233 07/14/23 10:30 0.3 16,867.4 1,855.4 233 07/14/23 10:31 0.3 16,885.1 1,857.4 233 07/14/23 10:32 0.2 16,884.8 1,857.3 233 07/14/23 10:33 0.3 16,868.4 1,855.5 233 07/14/23 10:34 0.3 16,851.8 1,853.7 233 07/14/23 10:35 0.2 16,837.3 1,852.1 233 07/14/23 10:36 0.2 16,832.6 1,851.6 233 07/14/23 10:37 0.2 16,865.1 1,855.2 233 07/14/23 10:38 0.2 16,882.9 1,857.1 233 07/14/23 10:39 0.2 16,845.9 1,853.0 233 07/14/23 10:40 0.2 16,833.9 1,851.7 233 07/14/23 10:41 0.2 16,849.3 1,853.4 233 07/14/23 10:42 0.2 16,848.5 1,853.3 233 07/14/23 10:43 0.2 16,737.7 1,841.1 233 07/14/23 10:44 0.3 16,841.1 1,852.5 233 07/14/23 10:45 0.3 16,839.0 1,852.3 233 07/14/23 10:46 0.3 16,833.4 1,851.7 233 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:44 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 36 of 64 Average Data - Run 2 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 09:25 Through 07/14/2023 11:55 Time Online Criteria: 1 minute(s) 07/14/23 10:47 0.2 16,834.4 1,851.8 233 07/14/23 10:48 0.2 16,835.1 1,851.9 232 07/14/23 10:49 0.2 16,833.4 1,851.7 233 07/14/23 10:50 0.2 16,828.8 1,851.2 233 07/14/23 10:51 0.3 16,844.3 1,852.9 233 07/14/23 10:52 0.2 16,845.4 1,853.0 233 07/14/23 10:53 0.2 16,853.3 1,853.9 233 07/14/23 10:54 0.2 16,838.3 1,852.2 233 07/14/23 10:55 0.2 16,824.5 1,850.7 232 07/14/23 10:56 0.2 16,804.7 1,848.5 232 07/14/23 10:57 0.3 16,816.7 1,849.8 232 07/14/23 10:58 0.2 16,840.3 1,852.4 233 07/14/23 10:59 0.2 16,817.1 1,849.9 232 07/14/23 11:00 0.2 16,810.9 1,849.2 232 07/14/23 11:01 0.2 16,827.1 1,851.0 233 07/14/23 11:02 0.3 16,836.8 1,852.0 233 07/14/23 11:03 0.2 16,841.1 1,852.5 233 07/14/23 11:04 0.3 16,832.2 1,851.5 236 07/14/23 11:05 0.2 16,816.2 1,849.8 235 07/14/23 11:06 0.3 16,814.4 1,849.6 233 07/14/23 11:07 0.2 16,841.6 1,852.6 232 07/14/23 11:08 0.2 16,778.3 1,845.6 231 07/14/23 11:09 0.2 16,773.8 1,845.1 231 07/14/23 11:10 0.2 16,833.3 1,851.7 231 07/14/23 11:11 0.2 16,860.9 1,854.7 232 07/14/23 11:12 0.2 16,850.9 1,853.6 232 07/14/23 11:13 0.3 16,837.2 1,852.1 232 07/14/23 11:14 0.2 16,831.2 1,851.4 232 07/14/23 11:15 0.2 16,831.8 1,851.5 232 07/14/23 11:16 0.2 16,814.4 1,849.6 232 07/14/23 11:17 0.1 16,809.8 1,849.1 232 07/14/23 11:18 0.2 16,829.2 1,851.2 232 07/14/23 11:19 0.2 16,827.2 1,851.0 232 07/14/23 11:20 0.2 16,825.8 1,850.8 232 07/14/23 11:21 0.2 16,828.4 1,851.1 233 07/14/23 11:22 0.3 16,815.1 1,849.7 232 07/14/23 11:23 0.2 16,824.0 1,850.6 233 07/14/23 11:24 0.2 16,817.4 1,849.9 232 07/14/23 11:25 0.2 16,815.7 1,849.7 232 07/14/23 11:26 0.3 16,789.8 1,846.9 232 07/14/23 11:27 0.2 16,786.7 1,846.5 232 07/14/23 11:28 0.3 16,771.4 1,844.9 232 07/14/23 11:29 0.3 16,805.5 1,848.6 232 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:44 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 37 of 64 Average Data - Run 2 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 09:25 Through 07/14/2023 11:55 Time Online Criteria: 1 minute(s) 07/14/23 11:30 0.2 16,812.2 1,849.3 232 07/14/23 11:31 0.2 16,782.3 1,846.1 232 07/14/23 11:32 0.3 16,770.1 1,844.7 232 07/14/23 11:33 0.2 16,789.3 1,846.8 232 07/14/23 11:34 0.2 16,775.0 1,845.3 232 07/14/23 11:35 0.2 16,775.0 1,845.3 232 07/14/23 11:36 0.2 16,793.3 1,847.3 232 07/14/23 11:37 0.3 16,814.4 1,849.6 232 07/14/23 11:38 0.2 16,791.1 1,847.0 232 07/14/23 11:39 0.2 16,777.1 1,845.5 231 07/14/23 11:40 0.3 16,768.4 1,844.5 231 07/14/23 11:41 0.2 16,765.1 1,844.2 231 07/14/23 11:42 0.4 16,766.4 1,844.3 231 07/14/23 11:43 0.2 16,773.6 1,845.1 231 07/14/23 11:44 0.3 16,778.1 1,845.6 232 07/14/23 11:45 0.2 16,762.2 1,843.8 231 07/14/23 11:46 0.3 16,774.2 1,845.2 232 07/14/23 11:47 0.2 16,781.1 1,845.9 232 07/14/23 11:48 0.2 16,772.9 1,845.0 232 07/14/23 11:49 0.2 16,772.5 1,845.0 231 07/14/23 11:50 0.2 16,758.7 1,843.5 231 07/14/23 11:51 0.3 16,760.5 1,843.7 232 07/14/23 11:52 0.2 16,785.0 1,846.4 235 07/14/23 11:53 0.3 16,770.7 1,844.8 233 07/14/23 11:54 0.3 16,775.6 1,845.3 232 07/14/23 11:55 0.3 16,754.7 1,843.0 231 0.2 16,844.2 1,852.9 233 0.1 16,737.7 1,841.1 231 0.4 16,920.8 1,861.3 237 33.7 2,543,470.5 279,781.9 35,152 151 151 151 151 151 151 151 151 Geometric Mean Included Data Points Total number of Data Points Average Minimum Maximum Summation F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:44 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 38 of 64 07/14/23 12:45 0.2 16,684.6 1,835.3 229 07/14/23 12:46 0.2 16,715.4 1,838.7 230 07/14/23 12:47 0.3 16,726.5 1,839.9 230 07/14/23 12:48 0.2 16,708.1 1,837.9 230 07/14/23 12:49 0.2 16,707.8 1,837.9 230 07/14/23 12:50 0.2 16,696.2 1,836.6 230 07/14/23 12:51 0.2 16,680.4 1,834.8 229 07/14/23 12:52 0.2 16,675.9 1,834.3 230 07/14/23 12:53 0.3 16,681.8 1,835.0 230 07/14/23 12:54 0.2 16,684.6 1,835.3 230 07/14/23 12:55 0.3 16,684.3 1,835.3 230 07/14/23 12:56 0.3 16,698.0 1,836.8 230 07/14/23 12:57 0.2 16,704.6 1,837.5 231 07/14/23 12:58 0.3 16,677.2 1,834.5 230 07/14/23 12:59 0.3 16,661.7 1,832.8 230 07/14/23 13:00 0.3 16,662.8 1,832.9 230 07/14/23 13:01 0.3 16,676.3 1,834.4 230 07/14/23 13:02 0.3 16,664.2 1,833.1 230 07/14/23 13:03 0.3 16,658.5 1,832.4 230 07/14/23 13:04 0.3 16,651.3 1,831.6 230 07/14/23 13:05 0.2 16,659.3 1,832.5 230 07/14/23 13:06 0.2 16,653.9 1,831.9 230 07/14/23 13:07 0.2 16,645.9 1,831.0 230 07/14/23 13:08 0.2 16,645.0 1,831.0 230 07/14/23 13:09 0.3 16,650.8 1,831.6 230 07/14/23 13:10 0.2 16,638.7 1,830.3 230 07/14/23 13:11 0.2 16,653.2 1,831.9 230 07/14/23 13:12 0.2 16,671.5 1,833.9 230 07/14/23 13:13 0.3 16,673.4 1,834.1 230 07/14/23 13:14 0.2 16,660.8 1,832.7 230 07/14/23 13:15 0.3 16,650.2 1,831.5 230 07/14/23 13:16 0.2 16,645.9 1,831.0 230 07/14/23 13:17 0.2 16,629.3 1,829.2 229 07/14/23 13:18 0.2 16,630.9 1,829.4 230 07/14/23 13:19 0.2 16,652.1 1,831.7 230 07/14/23 13:20 0.2 16,664.3 1,833.1 230 07/14/23 13:21 0.2 16,648.6 1,831.3 230 07/14/23 13:22 0.3 16,613.5 1,827.5 229 07/14/23 13:23 0.2 16,606.3 1,826.7 229 07/14/23 13:24 0.3 16,645.8 1,831.0 231 Source UNIT1 COPPM (PPM) GASFLOW (HSCFH) GHEAT (MMBTU/HR) UNITLOAD (MW) Average Data - Run 3 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 12:45 Through 07/14/2023 15:04 Time Online Criteria: 1 minute(s) F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:45 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 39 of 64 Average Data - Run 3 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 12:45 Through 07/14/2023 15:04 Time Online Criteria: 1 minute(s) 07/14/23 13:25 0.3 16,639.9 1,830.4 233 07/14/23 13:26 0.3 16,647.2 1,831.2 231 07/14/23 13:27 0.2 16,637.5 1,830.1 230 07/14/23 13:28 0.3 16,636.1 1,830.0 229 07/14/23 13:29 0.2 16,625.3 1,828.8 228 07/14/23 13:30 0.2 16,617.3 1,827.9 228 07/14/23 13:31 0.2 16,610.4 1,827.1 228 07/14/23 13:32 0.2 16,621.4 1,828.4 228 07/14/23 13:33 0.3 16,633.9 1,829.7 229 07/14/23 13:34 0.2 16,623.8 1,828.6 229 07/14/23 13:35 0.3 16,503.0 1,815.3 228 07/14/23 13:36 0.2 16,617.3 1,827.9 229 07/14/23 13:37 0.2 16,642.7 1,830.7 229 07/14/23 13:38 0.2 16,655.8 1,832.1 230 07/14/23 13:39 0.2 16,655.2 1,832.1 229 07/14/23 13:40 0.2 16,585.1 1,824.4 228 07/14/23 13:41 0.2 16,609.7 1,827.1 229 07/14/23 13:42 0.3 16,646.3 1,831.1 230 07/14/23 13:43 0.2 16,663.6 1,833.0 230 07/14/23 13:44 0.2 16,625.7 1,828.8 229 07/14/23 13:45 0.2 16,617.0 1,827.9 229 07/14/23 13:46 0.3 16,629.2 1,829.2 230 07/14/23 13:47 0.2 16,638.1 1,830.2 230 07/14/23 13:48 0.3 16,641.6 1,830.6 229 07/14/23 13:49 0.3 16,630.4 1,829.3 230 07/14/23 13:50 0.3 16,637.9 1,830.2 230 07/14/23 13:51 0.2 16,592.5 1,825.2 229 07/14/23 13:52 0.2 16,549.2 1,820.4 229 07/14/23 13:53 0.3 16,633.2 1,829.7 230 07/14/23 13:54 0.2 16,657.5 1,832.3 230 07/14/23 13:55 0.3 16,624.9 1,828.7 229 07/14/23 13:56 0.2 16,608.0 1,826.9 229 07/14/23 13:57 0.2 16,619.6 1,828.2 229 07/14/23 13:58 0.2 16,616.9 1,827.9 229 07/14/23 13:59 0.3 16,620.2 1,828.2 229 07/14/23 14:00 0.2 16,624.0 1,828.6 229 07/14/23 14:01 0.3 16,626.5 1,828.9 229 07/14/23 14:02 0.3 16,612.0 1,827.3 229 07/14/23 14:03 0.2 16,592.8 1,825.2 229 07/14/23 14:04 0.2 16,601.3 1,826.1 229 07/14/23 14:05 0.2 16,611.6 1,827.3 229 07/14/23 14:06 0.3 16,602.6 1,826.3 229 07/14/23 14:07 0.2 16,601.7 1,826.2 229 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:45 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 40 of 64 Average Data - Run 3 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 12:45 Through 07/14/2023 15:04 Time Online Criteria: 1 minute(s) 07/14/23 14:08 0.2 16,623.8 1,828.6 229 07/14/23 14:09 0.2 16,623.4 1,828.6 229 07/14/23 14:10 0.2 16,649.8 1,831.5 231 07/14/23 14:11 0.2 16,664.9 1,833.1 234 07/14/23 14:12 0.3 16,642.2 1,830.6 231 07/14/23 14:13 0.3 16,610.4 1,827.1 229 07/14/23 14:14 0.2 16,600.0 1,826.0 228 07/14/23 14:15 0.2 16,616.6 1,827.8 228 07/14/23 14:16 0.2 16,625.6 1,828.8 228 07/14/23 14:17 0.2 16,629.4 1,829.2 228 07/14/23 14:18 0.2 16,621.3 1,828.3 228 07/14/23 14:19 0.2 16,633.7 1,829.7 228 07/14/23 14:20 0.2 16,646.8 1,831.1 229 07/14/23 14:21 0.3 16,646.0 1,831.1 229 07/14/23 14:22 0.2 16,632.6 1,829.6 229 07/14/23 14:23 0.2 16,626.4 1,828.9 229 07/14/23 14:24 0.2 16,608.9 1,827.0 229 07/14/23 14:25 0.2 16,604.5 1,826.5 229 07/14/23 14:26 0.3 16,583.4 1,824.2 228 07/14/23 14:27 0.2 16,502.2 1,815.2 227 07/14/23 14:28 0.3 16,580.5 1,823.9 229 07/14/23 14:29 0.2 16,627.3 1,829.0 229 07/14/23 14:30 0.2 16,612.1 1,827.3 229 07/14/23 14:31 0.2 16,611.1 1,827.2 229 07/14/23 14:32 0.2 16,623.7 1,828.6 229 07/14/23 14:33 0.3 16,620.0 1,828.2 229 07/14/23 14:34 0.2 16,599.9 1,826.0 229 07/14/23 14:35 0.3 16,573.0 1,823.0 228 07/14/23 14:36 0.2 16,590.8 1,825.0 229 07/14/23 14:37 0.2 16,599.6 1,826.0 229 07/14/23 14:38 0.2 16,584.1 1,824.3 229 07/14/23 14:39 0.2 16,608.4 1,826.9 229 07/14/23 14:40 0.2 16,628.0 1,829.1 229 07/14/23 14:41 0.2 16,600.0 1,826.0 229 07/14/23 14:42 0.2 16,585.1 1,824.4 229 07/14/23 14:43 0.2 16,583.6 1,824.2 228 07/14/23 14:44 0.2 16,590.0 1,824.9 229 07/14/23 14:45 0.2 16,589.8 1,824.9 229 07/14/23 14:46 0.2 16,607.2 1,826.8 229 07/14/23 14:47 0.2 16,615.1 1,827.7 229 07/14/23 14:48 0.2 16,618.5 1,828.0 229 07/14/23 14:49 0.3 16,617.1 1,827.9 229 07/14/23 14:50 0.3 16,616.2 1,827.8 229 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:45 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 41 of 64 Average Data - Run 3 Plant: LAKE SIDE POWER Interval: 1 Minute Type: Roll Report Period: 07/14/2023 12:45 Through 07/14/2023 15:04 Time Online Criteria: 1 minute(s) 07/14/23 14:51 0.2 16,602.2 1,826.2 229 07/14/23 14:52 0.2 16,607.3 1,826.8 229 07/14/23 14:53 0.2 16,597.9 1,825.8 229 07/14/23 14:54 0.2 16,578.2 1,823.6 228 07/14/23 14:55 0.2 16,616.2 1,827.8 229 07/14/23 14:56 0.3 16,603.8 1,826.4 229 07/14/23 14:57 0.2 16,586.1 1,824.5 229 07/14/23 14:58 0.3 16,602.8 1,826.3 229 07/14/23 14:59 0.2 16,620.6 1,828.3 229 07/14/23 15:00 0.2 16,624.4 1,828.7 230 07/14/23 15:01 0.2 16,489.6 1,813.9 232 07/14/23 15:02 0.2 16,596.4 1,825.6 231 07/14/23 15:03 0.2 16,601.9 1,826.2 229 07/14/23 15:04 0.2 16,589.1 1,824.8 228 0.2 16,628.0 1,829.1 229 0.2 16,489.6 1,813.9 227 0.3 16,726.5 1,839.9 234 32.3 2,327,915.0 256,070.7 32,109 140 140 140 140 140 140 140 140 Geometric Mean Included Data Points Total number of Data Points Average Minimum Maximum Summation F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Report Generated: 08/04/23 09:45 C = Calibration S = Substituted * = Suspect GP043AS-023429-RT-1337 Page 42 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix C Laboratory Data GP043AS-023429-RT-1337 Page 43 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix C.1 Gravimetric Analysis GP043AS-023429-RT-1337 Page 44 of 64 Analytical Narrative Instrumentation Detection Limit / Sensitivity Notes Attachments Gravimetric Analysis Logs Sample Chain of Custody No deviations from the analytical procedures from EPA Methods 201A or 202 were noted. All samples were received in good condition. After analysis, all samples are archived for a period of one year. Quartz fiber filters were dessicated and tared to a constant weight in the Montrose laboratory prior to sampling. Following testing, the filters were dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The acetone rinses were measured to the nearest milliliter, transferred to tared aluminum weighing dishes, taken to dryness under a fume hood, then weighed to a constant weight (±0.5 mg). Each result above represents total filterable particulate matter for each test run (acetone rinse + filter catch), with no blank correction performed unless otherwise indicated. All measurements were taken using a Torbal Model AGCN200 Analytical Balance under laboratory conditions. The instrument is auto‐calibrated and challanged with three NIST‐traceable reference weights daily. Analyst: PROJ‐023429 7/25/2023 T. Wojtach Lake Side Unit 11, Run #1 Lake Side Unit 11, Run #2 Lake Side Unit 11, Run #3 Sample ID Condensable Particulate Matter (mg) Teflon CPM filters were extracted in a sonicator three times with water and three times with hexane. The extraction water was added to the back‐half impinger contents and extracted with hexane three times in a separatory funnel. The inorganic fraction was transferred to a tared Teflon baggie, baked at 105C until 10 mL remained, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). The organic fraction was combined with the acetone and hexane field rinses, measured to the nearest milliliter, transferred to a tared aluminum weighing dish, taken to dryness under a fume hood, dessicated for at least 24 hours, then weighed to a constant weight (±0.5 mg). No blank correction was performed unless otherwise indicated. Sample ID Total PM10 (mg) EPA Method 201A/202 Gravimetric Analysis Report Project Code: Date Finalized: Laboratory Results Summary All measurements are recorded to 0.0001g (0.1mg). *No blank corrections were performed in accordance with EPA Method 201A. 4.0 3.2 7.8 *Blank corrections were performed in accordance with EPA Method 202. Lake Side Unit 11, Run #1 0.5 Lake Side Unit 11, Run #2 0.4 Lake Side Unit 11, Run #3 0.4 GP043AS-023429-RT-1337 Page 45 of 64 Project Code: Unit ID: PM10+ Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) 7/21/23 6.4181 7/21/23 6.4003 7/21/23 6.3016 Final Weight (g)7/21/23 6.4177 7/21/23 6.4000 7/21/23 6.3018 Tare Weight (g)7/18/23 6.4170 7/18/23 6.3987 5/11/23 6.3014 7/19/23 6.4173 7/19/23 6.3991 5/12/23 6.3017 PM10 Acetone Rinse Rinse Mass (g) Date Weight (g) Date Weight (g) Date Weight (g) 7/21/23 6.3917 7/21/23 6.4152 7/21/23 6.3748 Final Weight (g)7/21/23 6.3918 7/21/23 6.4155 7/21/23 6.3747 Tare Weight (g)5/11/23 6.3911 7/18/23 6.4156 7/18/23 6.3744 5/12/23 6.3914 7/19/23 6.4153 7/19/23 6.3743 PM10 Filter Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 7/21/23 0.1102 7/21/23 0.1119 7/21/23 0.1114 7/21/23 0.1121 Final Weight (g)7/21/23 0.1106 7/21/23 0.1124 7/21/23 0.1118 7/21/23 0.1126 Tare Weight (g)3/6/23 0.1122 3/6/23 0.1117 3/6/23 0.1119 3/6/23 0.1121 3/17/23 0.1123 3/17/23 0.1119 3/17/23 0.1118 3/17/23 0.1121 Total PM10+ Catch Total PM10 Catch Tare Weight (g) 0.0008 0.0013 0.0001PM10+ Catch (g) 0.00040.0005 0.0004 Run #1 Run #2 Filter Catch (g) + Rinse Catch (g) ‐ Acetone Blank (g) Total PM10 (g) Run #3 Lake Side Unit 11 0.0000 0.0005 0.0000 0.0000 0.0000 0.0004 0.0000 39.7 39.3 27.6 46.9 66.0 21.65 36.83 51.83 0.0000 0.0004 275 0.0003 Run #3 Filter #276 280 273 Tare Weight (g) Filter Catch (g)‐0.0018 0.0004 ‐0.0003 Run #1 Final Weight (g) Run #2 Run #3 EPA Method 201A Gravimetric Analysis Log PROJ‐023429 Run #1 Run #2 Run #3 Blank Run #1 Run #2 Run #3 Dish #8101 8103 8088 Rinse Volume (mL) Final Weight (g) Rinse Volume (mL)21.6 Run #1 Run #2 Tare Weight (g) PM10 Catch (g) 0.0005 ‐0.0001 0.0004 Dish #8082 8104 8106 Final Weight (g) 16.95 31.17 30.86 0.0008 0.0000 0.0013 0.0013 0.0001 0.0000 0.0001 Rinse Catch (g)0.0008 ‐ Acetone Blank (g)0.0000 GP043AS-023429-RT-1337 Page 46 of 64 Project Code: Unit ID: Back‐Half Organic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 7/24/23 6.4462 7/24/23 6.3689 7/24/23 6.4163 7/24/23 6.2844 Final Weight #2 (g)7/25/23 6.4457 7/25/23 6.3691 7/25/23 6.4162 7/25/23 6.2846 7/18/23 6.4429 7/18/23 6.3660 7/18/23 6.4119 7/18/23 6.2826 7/19/23 6.4432 7/19/23 6.3662 7/19/23 6.4122 7/19/23 6.2827 Back‐Half Inorganic Particulate Matter Catch Date Weight (g) Date Weight (g) Date Weight (g) Date Weight (g) 7/24/23 4.1002 7/24/23 4.1184 7/24/23 4.2662 7/24/23 4.1182 Final Weight #2 (g)7/25/23 4.1002 7/25/23 4.1182 7/25/23 4.2662 7/24/23 4.1180 3/15/23 4.0973 3/15/23 4.1157 3/15/23 4.2608 3/15/23 4.1155 4/3/23 4.0968 4/3/23 4.1162 4/3/23 4.2604 4/3/23 4.1157 Condensable Particulate Catch Total CPM (g) 0.0040 0.0032 0.0078 + Inorganic CPM Catch (g)0.0031 0.0023 0.0056 ‐ CPM Blank (g)0.0020 0.0020 0.0020 Run #1 Run #2 Run #3 Organic CPM Catch (g)0.0029 0.0029 0.0042 1697 1703 1707 1702 0.0031 0.0023 0.0056 0.0025 Final Weight #1 (g) Tare Weight #1 (g) Tare Weight #2 (g) Inorganic CPM Catch (g) Teflon Baggie # Run #1 Run #2 Run #3 Blank 0.0029 0.0029 0.0042 0.0018 Tare Weight #2 (g) Organic CPM Catch (g) Tare Weight #1 (g) Final Weight #1 (g) EPA Method 202 Gravimetric Analysis Log PROJ‐023429 Lake Side Unit 11 Run #1 Run #2 Run #3 Blank Tin #8110 8107 8108 8109 GP043AS-023429-RT-1337 Page 47 of 64 GP043AS-023429-RT-1337 Page 48 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix D Quality Assurance/Quality Control GP043AS-023429-RT-1337 Page 49 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix D.1 Units and Abbreviations GP043AS-023429-RT-1337 Page 50 of 64 @ X% O2 corrected to X% oxygen (corrected for dilution air) |CC|absolute value of the confidence coefficient |d|absolute value of the mean differences ºC degrees Celsius ºF degrees Fahrenheit ºR degrees Rankine " H2O inches of water column 13.6 specific gravity of mercury ΔH pressure drop across orifice meter, inches H2O ΔP velocity head of stack gas, inches H2O θ total sampling time, minutes µg microgram ρa density of acetone, mg/ml ρw density of water, 0.9982 g/ml or 0.002201 lb/ml acfm actual cubic feet of gas per minute at stack conditions An cross-sectional area of nozzle, ft2 As cross-sectional area of stack, square feet (ft2) Btu British thermal unit Bws proportion by volume of water vapor in gas stream Ca particulate matter concentration in stack gas, gr/acf CAvg average unadjusted gas concentration, ppmv CDir measured concentration of calibration gas, ppmv cf or ft3 cubic feet cfm cubic feet per minute CGas average gas concentration adjusted for bias, ppmv CM average of initial and final system bias check responses from upscale calibration gas, ppmv cm or m3 cubic meters CMA actual concentration of the upscale calibration gas, ppmv CO average of initial and final system bias check responses from low-level calibration gas, ppmv Cp pitot tube coefficient Cs particulate matter concentration in stack gas, gr/dscf CS calibration span, % or ppmv CS measured concentration of calibration gas, ppmv CV manufactured certified concentration of calibration gas, ppmv D drift assessment, % of span dcf dry cubic feet dcm dry cubic meters Dn diameter of nozzle, inches Ds diameter of stack, inches dscf dry standard cubic feet dscfm dry standard cubic feet per minute dscm dry standard cubic meters Fd F-factor, dscf/MMBtu of heat input fpm feet per minute fps feet per second ft feet ft2 square feet g gram gal gallons gr grains (7000 grains per pound) gr/dscf grains per dry standard cubic feet hr hour UNITS AND ABBREVIATIONS GP043AS-023429-RT-1337 Page 51 of 64 UNITS AND ABBREVIATIONS I percent of isokinetic sampling in inch k kilo or thousand (metric units, multiply by 103) K kelvin (temperature) K3 conversion factor 0.0154 gr/mg K4 conversion factor 0.002668 ((in. Hg)(ft3))/((ml)(°R)) kg kilogram Kp pitot tube constant (85.49 ft/sec) kwscfh thousand wet standard cubic feet per hour l liters lb/hr pounds per hour lb/MMBtu pounds per million Btu lpm liters per minute m meter or milli M thousand (English units) or mega (million, metric units) m3 cubic meters ma mass of residue of acetone after evaporation, mg Md molecular weight of stack gas; dry basis, lb/lb-mole meq milliequivalent mg milligram Mg megagram (106 grams) min minute ml or mL milliliter mm millimeter MM million (English units) MMBtu/hr million Btu per hour mn total amount of particulate matter collected, mg mol mole mol. wt. or MW molecular weight Ms molecular weight of stack gas; wet basis, lb/lb-mole MW molecular weight or megawatt n number of data points ng nanogram nm nanometer Pbar barometric pressure, inches Hg pg picogram Pg stack static pressure, inches H2O Pm barometric pressure of dry gas meter, inches Hg ppb parts per billion ppbv parts per billion, by volume ppbvd parts per billion by volume, dry basis ppm parts per million ppmv parts per million, by volume ppmvd parts per million by volume, dry basis ppmvw parts per million by volume, wet basis Ps absolute stack gas pressure, inches Hg psi pounds per square inch psia pounds per square inch absolute psig pounds per square inch gauge Pstd standard absolute pressure, 29.92 inches Hg Qa volumetric flow rate, actual conditions, acfm Qs volumetric flow rate, standard conditions, scfm Qstd volumetric flow rate, dry standard conditions, dscfm R ideal gas constant 21.85 ((in. Hg) (ft3))/((°R) (lbmole)) GP043AS-023429-RT-1337 Page 52 of 64 UNITS AND ABBREVIATIONS SBfinal post-run system bias check, % of span SBi pre-run system bias check, % of span scf standard cubic feet scfh standard cubic feet per hour scfm standard cubic feet per minute scm standard cubic meters scmh standard cubic meters per hour sec second sf, sq. ft., or ft2 square feet std standard t metric ton (1000 kg) T 0.975 t-value Ta absolute average ambient temperature, ºR (+459.67 for English) Tm absolute average dry gas meter temperature, ºR (+459.67 for English) ton or t ton = 2000 pounds tph or tons/hr tons per hour tpy or tons/yr tons per year Ts absolute average stack gas meter temperature, ºR (+459.67 for English) Tstd absolute temperature at standard conditions V volt Va volume of acetone blank, ml Vaw volume of acetone used in wash, ml Vlc total volume H2O collected in impingers and silica gel, grams Vm volume of gas sampled through dry gas meter, ft3 Vm(std)volume of gas measured by the dry gas meter, corrected to standard conditions, dscf Vma stack gas volume sampled, acf Vn volume collected at stack conditions through nozzle, acf Vs average stack gas velocity, feet per second Vwc(std)volume of water vapor condensed, corrected to standard conditions, scf Vwi(std)volume of water vapor in gas sampled from impingers, scf Vwsg(std)volume of water vapor in gas sampled from silica gel, scf W watt Wa weight of residue in acetone wash, mg Wimp total weight of impingers, grams Wsg total weight of silica gel, grams Y dry gas meter calibration factor, dimensionless GP043AS-023429-RT-1337 Page 53 of 64 AAS atomic absorption spectroscopy ACDP air contaminant discharge permit ACE analyzer calibration error, percent of span AD absolute difference ADL above detection limit AETB Air Emissions Testing Body AS applicable standard (emission limit) ASTM American Society For Testing And Materials BACT best achievable control technology BDL below detection limit BHP brake horsepower BIF boiler and industrial furnace BLS black liquor solids CC confidence coefficient CD calibration drift CE calibration error CEM continuous emissions monitor CEMS continuous emissions monitoring system CERMS continuous emissions rate monitoring system CET calibration error test CFR Code of Federal Regulations CGA cylinder gas audit CHNOS elemental analysis for determination of C, H, N, O, and S content in fuels CNCG concentrated non-condensable gas CO catalytic oxidizer COC chain of custody COMS continuous opacity monitoring system CPM condensible particulate matter CPMS continuous parameter monitoring system CT combustion turbine CTM conditional test method CTO catalytic thermal oxidizer CVAAS cold vapor atomic absorption spectroscopy De equivalent diameter DE destruction efficiency Dioxins polychlorinated dibenzo-p-dioxins (pcdd's) DLL detection level limited DNCG dilute non-condensable gas ECD electron capture detector EIT Engineer In Training ELCD electoconductivity detector (hall detector) EMPC estimated maximum possible concentration EPA US Environmental Protection Agency EPRI Electric Power Research Institute ES emission standard (applicable limit) ESP electrostatic precipitator EU emission unit FCCU fluid catalytic cracking unit FGD flue gas desulfurization FI flame ionization FIA flame ionization analyzer FID flame ionization detector FPD flame photometric detector FPM filterable particulate matter FTIR Fourier-transform infrared spectroscopy FTPB field train proof blank FTRB field train recovery blank Furans polychlorinated dibenzofurans (pcdf's) GC gas chromatography ACRONYMS GP043AS-023429-RT-1337 Page 54 of 64 ACRONYMS GC/MS gas chromatography/mass spectroscopy GFAAS graphite furnace atomic absorption spectroscopy GFC gas filter correlation GHG greenhouse gas HAP hazardous air pollutant HC hydrocarbons HHV higher heating value HPLC high performance liquid chromatography HRGC/HRMS high-resolution gas chromatography/high-resolution mass spectroscopy HRSG heat recovery steam generator IC ion chromatography ICAP inductively-coupled argon plasmography ICPCR ion chromatography with a post-column reactor ICP-MS inductively coupled plasma-mass spectroscopy IR infrared radiation ISO International Standards Organization kW kilowatts LFG landfill gas LHV lower heating value LPG liquified petroleum gas MACT maximum achievable control technology MDI methylene diphyenyl diisocyanate MDL method detection limit MNOC maximum normal operating conditions MRL method reporting limit MS mass spectrometry NA not applicable or not available NCASI National Council For Air And Steam Improvement NCG non-condensable gases ND not detected NDIR non-dispersive infrared NESHAP National Emissions Standards For Hazardous Air Pollutants NG natural gas NIOSH National Institute For Occupational Safety And Health NIST National Institute Of Standards And Technology NMC non-methane cutter NMOC non-methane organic compounds NMVOC non-methane volatile organic compounds NPD nitrogen phosphorus detector NSPS New Source Performance Standards OSHA Occupational Safety And Health Administration PAH polycyclic aromatic hydrocarbons PCB polychlorinated biphenyl compounds PCWP plywood and composite wood products PE Professional Engineer PFAS per- and polyfluoroalkyl substances (PFAS) PI photoionization PID photoionization detector PM particulate matter PM10 particulate matter less than 10 microns in aerodynamic diameter PM2.5 particulate matter less than 2.5 microns in aerodynamic diameter POM polycyclic organic matter PS performance specification PSD particle size distribution PSEL plant site emission limits PST performance specification test PTE permanent total enclosure PTM performance test method GP043AS-023429-RT-1337 Page 55 of 64 ACRONYMS QA/QC quality assurance and quality control QI Qualified Individual QSTI Qualified Source Testing Individual RA relative accuracy RAA relative accuracy audit RACT reasonably available control technology RATA relative accuracy test audit RCTO rotary concentrator thermal oxidizer RICE stationary reciprocating internal combustion engine RM reference method RTO regenerative thermal oxidizer SAM sulfuric acid mist SCD sulfur chemiluminescent detector SCR selective catalytic reduction system SD standard deviation Semi-VOST semivolatile organic compounds sample train SRM standard reference material TAP toxic air pollutant TBD to be determined TCA thermal conductivity analyzer TCD thermal conductivity detector TGNENMOC total gaseous non-ethane non-methane organic compounds TGNMOC total gaseous non-methane organic compounds TGOC total gaseous organic compounds THC total hydrocarbons TIC tentatively identified compound TO thermal oxidizer TO toxic organic (as in EPA Method TO-15) TPM total particulate matter TSP total suspended particulate matter TTE temporary total enclosure ULSD ultra-low sulfur diesel UV ultraviolet radiation range VE visible emissions VOC volatile organic compounds VOST volatile organic sample train WC water column WWTP waste water treatment plant GP043AS-023429-RT-1337 Page 56 of 64 Ag silver Se selenium As arsenic SO2 sulfur dioxide Ba barium SO3 sulfur trioxide Be beryllium SOx sulfur oxides C carbon TCDD tetrachlorodibenzodioxin Cd cadmium TCDF tetrachlorodibenzofuran CdS cadmium sulfide TGOC total gaseous organic concentration CH2O formaldehyde THC total hydrocarbons CH3CHO acetaldehyde Tl thallium CH3OH methanol TRS total reduced sulfur compounds CH4 methane Zn zinc C2H4O ethylene oxide C2H6 ethane C3H4O acrolein C3H6O propionaldehyde C3H8 propane C6H5OH phenol Cl2 chlorine ClO2 chlorine dioxide CO carbon monoxide Co cobalt CO2 carbon dioxide Cr chromium Cu copper EtO ethylene oxide EtOH ethyl alcohol (ethanol) H2 hydrogen H2O water H2O2 hydrogen peroxide H2S hydrogen sulfide H2SO4 sulfuric acid HCl hydrogen chloride Hg mercury IPA isopropyl alcohol MDI methylene diphyenyl diisocyanate MeCl2 methylene chloride MEK methyl ethyl ketone MeOH methanol Mn manganese N2 nitrogen NH3 ammonia Ni nickel NO nitric oxide NO2 nitrogen dioxide NOx nitrogen oxides O2 oxygen P phosphorus Pb lead PCDD polychlorinated dibenzo-p-dioxins PCDF polychlorinated dibenzofurans Sb antimony CHEMICAL NOMENCLATURE GP043AS-023429-RT-1337 Page 57 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix D.2 Manual Test Method QA/QC Data GP043AS-023429-RT-1337 Page 58 of 64 GP043AS-023429-RT-1337 Page 59 of 64 GP043AS-023429-RT-1337 Page 60 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant Appendix D.3 Accreditation Information/Certifications GP043AS-023429-RT-1337 Page 61 of 64 Accredited Air Emission Testing Body A2LA has accredited MONTROSE AIR QUALITY SERVICES In recognition of the successful completion of the joint A2LA and Stack Testing Accreditation Council (STAC) evaluation process, this laboratory is accredited to perform testing activities in compliance with ASTM D7036:2004 - Standard Practice for Competence of Air Emission Testing Bodies. Presented this 4th day of February 2022. _______________________ Vice President, Accreditation Services For the Accreditation Council Certificate Number 3925.01 Valid to February 29, 2024 This accreditation program is not included under the A2LA ILAC Mutual Recognition Arrangement. A merican Association for Laboratory Accreditation GP043AS-023429-RT-1337 Page 62 of 64 CERTIFICATE OF COMPLETION Cheyney Guymon This document certifies that this individual has passed a comprehensive examination and is now a Qualified Individual (QI) as defined in Section 8.3 of ASTM D7036-04 for the following method(s): Source Evaluation Society Group 1:EPA Manual Gas Volume and Flow Measurements and Isokinetic Particulate Sampling Methods Certificate Number:081-2023-2 DATE OF ISSUE:05/13/2023 DATE OF EXPIRATION:05/12/2028 GP043AS-023429-RT-1337 Page 63 of 64 PacifiCorp 2023 Test Report, Lake Side Power Plant This is the Last Page of This Document If you have any questions, please contact one of the following individuals by email or phone. Name: Craig Kormylo Title: District Manager Region: USA - Stack - Great Plains - Operations Email: CKormylo@montrose-env.com Phone: (303) 495-3936 Name: Glen Capra Title: Vice President Region: USA – Stack Email: GCapra@montrose-env.com Phone: (512) 772-6450 GP043AS-023429-RT-1337 Page 64 of 64 Source Information Division of Air Quality Compliance Demonstration Referance Method 201 & 201A for PM10 Source Information Company Name PacifiCorp Lake Side Company Contact:Veronica Reyes Contact Phone No.801-796-1916 Stack Designation:CT11 Test & Review Dates Test Date: 7/14/2023 Review Date: 1/29/2024 Observer: Not Observed Reviewer:Rob Leishman Particulate Emission Limits lbs/MMBTU lbs/hr gr/dscf 0.010 10.800 0.000 Front Half Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.000590214 1.056666667 0.000168406 Total (Front & Back Half) Emission Rates lbs/MMBTU lbs/hr gr/dscf 0.007310197 13.08504851 0.00208427 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static)Dn Target Time 216.00 254.47 0.9850 1.678 0.84 25.48 -0.5 0.145 120 Contractor Information Contracting Company: Montrose Air Quality Services Contact: Craig Kormylo Phone No.: 303-670-0530 Project No.: 8710 Circular 10100 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 F factor usedF factors for Coal, Oil, and Gas Anthrocite 2 Lignite Natural Propane Butane COAL OIL GAS Bituminous 2 Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu O2 CO2 lbs/MMBtu Page 1 Summary Division of Air Quality Reference Methods 5 - TSP Compliance Demonstration of PacifiCorp Lake Side - CT11 Testing Results Lab Data - grams collected Test Date 7/14/2023 7/14/2023 7/14/2023 7/14/2023 Lab Data Cyclone Catch Filter Back Run 1 Run 2 Run 3 Run 4 Run 1 0.0005 0.000000 0.00400 As ft^2 254.47 254.47 254.47 254.47 Run 2 0.0000 0.000400 0.00320 Pbar 25.48 25.48 25.48 25.48 Run 3 0.0004 0.000000 0.0078 Pq (static)-0.50 -0.50 -0.50 -0.50 Run 4 Ps 25.44 25.44 25.44 25.44 Avg. Ts F 219.40 220.00 220.00 PacifiCorp Lake Side CT11 CO2 - FCO2 4.30 4.40 4.50 0.00 Front Half Emissions Summary O2 13.60 13.30 13.50 0.00 Run 1 Run 2 Run 3 Run 4 Avg. N2+C 82.10 82.30 82.00 100.00 gr./dscf 0.00020 0.00016 0.00015 0.00017 Md 29.23 29.24 29.26 28.00 lbs/hr 1.29 0.97 0.91 1.057 Mw 28.43 28.43 28.43 lbs/MMbtu 0.00 0.00 0.00 0.00059 Y 0.9850 0.9850 0.9850 0.9850 Cp 0.84 0.84 0.84 0.84 Particulate Emission Limits Front Half Emission Rates Vm cf 47.600 48.928 51.061 0.000 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Vlc 62.620 64.940 69.680 0.000 0.010 10.800 0.000 0.000590214 1.056666667 0.000168406 AVG. Tm F 87.91 89.91 83.95 Vm cf 47.6 48.928 51.061 0 PacifiCorp Lake Side CT11 Vm std 38.508 39.443 41.615 #VALUE!Total Emissions Summary w/back half condensable Vw std 2.950 3.060 3.280 Run 1 Run 2 Run 3 Run 4 Avg. Bws 7.10% 7.10% 7.30% #VALUE! gr./dscf 0.00180 0.0014 0.0030 0.0021 S Bws 99.90% 99.90% 99.90% #VALUE! lbs/hr 11.6348 8.7612 18.8592 13.0850 Avg. Sqrt Dlp 1.15 1.11 1.11 1.22 lbs/MMbtu 0.01 0.00 0.01 0.0073 Vs 80.292 77.480 77.420 scfm wet 810068.93 781006.88 780402.52 #VALUE!Particulate Emission Limits Total Emission Rates acfm 1225905.70 1182968.87 1182053.48 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Qsd dscfm 45153242 43533323 43405988 0.010 10.800 0.000 0.007310197 13.08504851 0.00208427 Qs ft3/min 0.580981 0.581104 0.580993 #VALUE! % Isokinetic 95.42 104.00 109.81 Test Quality Parameters Viscostiy 208.60 208.59 208.55 Run 1 Run 2 Run 3 Run 4 D50 9.99 9.99 9.99 Outlying Dlp's 0.00 0.00 0.00 % Isokinetic 95.41 103.99 109.80 D50 Outlying Dlp's % Isokinetic Status Run 1 Passed Passed Passed Acceptable Run Run 2 Passed Passed Passed Acceptable Run Run 3 Passed Passed Passed Acceptable Run Run 4 Page 2 Run 1 PacifiCorp Lake Side Test Date 7/14/2023 Imp. Liquid Collected in grams Run No. 1 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 62.6 62.6 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'0.0 1 0.0 2 0.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.50 1.209943787 12 10.03 Ts oF 169.40 219.40 269.40 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.48 -0.50 25.44 4.30 13.60 82.10 29.23 28.43 1.3640 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 0.9850 1.678 0.84 0.84 0.145 1.15E-04 47.600 38.508 62.62 2.950 0.0710 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1536 80.29 0.420 87.91 810,069 1,225,906 4.52E+07 0.580980655 208.60 119.00 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 10.30 10.30 10.30 220 1.50 0.42 9.990 85 86 Passed 2 - ∆P tn 0.145 21.30 11.00 10.45 219 1.60 0.42 9.990 85 87 Passed 3 - ∆P tn 0.145 31.15 9.45 9.30 219 1.30 0.42 9.990 86 87 Passed 4 - ∆P tn 0.145 41.00 9.45 9.30 219 1.30 0.42 9.990 86 87 Passed 5 - ∆P tn 0.145 50.30 9.30 9.15 220 1.20 0.42 9.990 87 88 Passed 6 - ∆P tn 0.145 60.00 9.30 9.15 220 1.20 0.42 9.990 87 89 Passed 7 - ∆P tn 0.145 70.45 10.45 10.45 220 1.60 0.42 9.990 87 88 Passed 8 - ∆P tn 0.145 81.45 11.00 10.45 219 1.60 0.42 9.990 88 89 Passed 9 - ∆P tn 0.145 93.00 11.15 11.00 220 1.70 0.42 9.990 89 90 Passed 10 - ∆P tn 0.145 102.00 9.00 8.45 219 1.10 0.42 9.990 89 91 Passed 11 - ∆P tn 0.145 110.30 8.30 8.30 219 1.00 0.42 9.990 89 90 Passed 12 - ∆P tn 0.145 119.00 8.30 8.30 219 1.00 0.42 9.990 89 91 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 95.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 3 Run 2 PacifiCorp Lake Side Test Date 7/14/2023 Imp. Liquid Collected in grams Run No. 2 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 64.9 64.9 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'0.0 1 0.0 2 0.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.10 1.0325392 12 9.81 Ts oF 170.00 220.00 270.00 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.48 -0.50 25.44 4.40 13.30 82.30 29.24 28.43 1.3800 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 0.9850 1.678 0.84 0.145 1.15E-04 48.928 39.443 64.94 3.060 0.0710 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1127 77.48 0.460 89.91 781,007 1,182,969 4.35E+07 0.5811041 208.59 116.00 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 9.00 9.00 11.00 220 1.10 0.46 9.990 88 90 Passed 2 - ∆P tn 0.145 18.00 9.00 9.30 220 1.10 0.46 9.990 88 91 Passed 3 - ∆P tn 0.145 26.45 8.45 9.00 221 1.00 0.46 9.990 89 90 Passed 4 - ∆P tn 0.145 37.15 10.30 11.00 220 1.50 0.46 9.990 89 91 Passed 5 - ∆P tn 0.145 47.15 10.00 10.15 220 1.30 0.46 9.990 89 91 Passed 6 - ∆P tn 0.145 56.45 9.30 9.45 220 1.20 0.46 9.990 89 90 Passed 7 - ∆P tn 0.145 66.45 10.00 10.15 219 1.30 0.46 9.990 89 91 Passed 8 - ∆P tn 0.145 76.45 10.00 10.15 220 1.30 0.46 9.990 89 91 Passed 9 - ∆P tn 0.145 86.15 9.30 9.45 220 1.20 0.46 9.990 90 91 Passed 10 - ∆P tn 0.145 96.30 10.15 10.45 221 1.40 0.46 9.990 90 91 Passed 11 - ∆P tn 0.145 106.30 10.00 10.15 220 1.30 0.46 9.990 90 90 Passed 12 - ∆P tn 0.145 116.00 9.30 9.45 220 1.20 0.46 9.990 90 91 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 104.0 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 4 Run 3 PacifiCorp Lake Side Test Date 7/14/2023 Imp. Liquid Collected in grams Run No. 3 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 69.7 69.7 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'0.0 1 0.0 2 0.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.40 1.1247021 12 10.19 Ts oF 170.00 220.00 270.00 ∆H 0.62 0.57 0.53 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.48 -0.50 25.44 4.50 13.50 82.00 29.26 28.43 1.3800 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 0.9850 1.678 0.84 0.145 1.15E-04 51.061 41.615 69.68 3.280 0.0730 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.1119 77.42 0.470 83.95 780,403 1,182,053 4.34E+07 0.5809926 208.55 116.25 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.145 10.15 10.15 11.00 220 1.40 0.47 9.990 80 82 Passed 2 - ∆P tn 0.145 19.45 9.30 9.45 220 1.20 0.47 9.990 80 82 Passed 3 - ∆P tn 0.145 29.15 9.30 9.45 220 1.20 0.47 9.990 81 82 Passed 4 - ∆P tn 0.145 38.45 9.30 9.45 220 1.20 0.47 9.990 82 83 Passed 5 - ∆P tn 0.145 48.45 10.00 10.15 220 1.30 0.47 9.990 82 83 Passed 6 - ∆P tn 0.145 58.15 9.30 9.45 221 1.20 0.47 9.990 83 85 Passed 7 - ∆P tn 0.145 69.15 11.00 11.15 220 1.60 0.47 9.990 84 86 Passed 8 - ∆P tn 0.145 79.30 10.15 10.45 220 1.40 0.47 9.990 84 85 Passed 9 - ∆P tn 0.145 89.30 10.00 10.15 220 1.30 0.47 9.990 85 85 Passed 10 - ∆P tn 0.145 98.45 9.15 9.30 220 1.10 0.47 9.990 86 87 Passed 11 - ∆P tn 0.145 107.30 8.45 9.00 220 1.00 0.47 9.990 86 88 Passed 12 - ∆P tn 0.145 116.15 8.45 9.00 220 1.00 0.47 9.990 86 88 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 109.8 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 5 V,ROCKY MOUNTAINY(POWER LAKE SIDE PLANT 1825 North Pioneer Lane Vineyard, UT 84042 August 18,2023 Mr. Bryce Bird, Director Utah Department of Environmental Quality Division of Air Quality 195 North 1950 West P. O. Box 144820 Salt Lake city, Utah 84114-4820 Attention: Rob Leishman RE: PacifiCorp Lake Side Plant CT01 Particulate Matter Retest Dear Mr. Bird UTAH DEPAHTMENT OF ENVIRONMENTAL OUALITY 't ': ?t ,itll3 DIVISION OF AIH QUALITY The Particulate Matter Retesting at the PacifiCorp Lake Side Plant for CT01 has been completed by Mostardi Platt. The scope of the test program included U.S. EPA Reference Methods l, 2, 3,4 and 5 for the determination of filterable particulate matter emissions and U.S. EPA Method 202 (Dry Impinger Technique) for the determination of condensable particulate matter emissions. The repeat test was conducted on August 4,2023. The initial emission testing on CTOl was conducted on May 18, 2023. However, the PMro lb/tr test failed to meet the permit limit of 10.8 lb/hr, at l4.7lblhr. Although PacifiCorp initially had no reason to believe the test was invalid, CT0l was taken offline when PacifiCorp received the final report indicating the failed test on June 29,2023. PacifiCorp only operated CTOI after June 29,2023 to perform PM tests. PacilrCorp completed a PM emissions test on July 14,2023. That PMro lb/hr retest also failed to meet the permit limit of 10.8 lb/hr, at 13.0 lb/hr. PacifiCorp repeated the PM emission test a third time on August 4,2023, at which time the unit met the permit limit of 10.8 lb/hr, at7.78lblfu. The Lake Side Plant notified Mr. Rob Leishman at the Utah Division of Air Quality of the failed initial test via phone call and email on June 30, 2023. Aretest was scheduled for July 6, however, duct burners failed to ignite, and the test was rescheduled for July 14 after completion of maintenance on the duct burners. Upon receiving the preliminary test results for the second test, Lake Side Plant again notified Mr. Leishman that the second test also failed via phone call on July 27,2023. VROCKY MOUNTAIN'(POWER The following table displays the final test results for each of the PM tests conducted on CT}l in2}23: Emissions Title V Permit Limit Test Date 511812023 7t14t2023 8t4t2023 PM10 (lb/mmBtu)N/A 0.0001 0.0006 0.008 PM10 (lb/hr)N/A 0.2 1.1 1.2 TotalCPM (lb/mmBtu)N/A 0.0085 0.0067 o.oo42 TotalCPM (lb/hr)N/A 14.4 12.O 6.6 Total PM10 + CPM (lb/mmBtrr)0.01 0.0086 0.007 0.005 Totat PM10 + CPM (tb/hr)10.8 14.7 13.1 7.8 Prior to the final testing session, the Lake Side Plant conducted some maintenance activities to ensure successful PM testing. A portion of the evaporation cooling system media was replaced with new media, and some sections of the boiler were cleaned via vacuum. PacifiCorp conducted a lab analysis of the inorganics on the Run 3 condensables sample of the second PM test conducted on July 14m. The results of the lab analysis were inconclusive and did not point to any reason why the condensables were elevated. The following table shows a comparison of the condensables runs for the three different tests. Lake Side CT01 PM Condensables Test Summaries Test Date: 511812023 Run I Run 2 Run 3 Total Total CPM emissions (lb/h)13.9 4.3 25.2 14.4 Total CPM emissions (lb/Ir4MBtu)0.0082 0.0026 0.0146 0.0085 Test Date: 711412023 Total CPM emissions Qb/hr)10.3 7.8 t7.9 t2 Total CPM emissions (lb/IrdMBtu)0.0057 0.0043 0.0102 0.0067 Test Date: 81412023 Total CPM emissions (lb/hr)8.069 6.635 4.953 6.552 Total CPM emissions (lbiltdMBtu)0.0051 0.0043 0.0032 0.0042 This table demonstrates that the variability between the three runs for the first two tests was significant and unexpected, as the operational data for the unit did not show anything different between the runs. The runs for the third test are more in line with what would be expected for a PM test at the Lake Side Plant. ROCKY MOUNTAIN PolA'ER I am authorized to make this submission on behalf of the owners and operators of the affected source or affected units for which the submission is made. I certifu under penalty of the law that I have personally examined, and am familiar with, the statements and information submitted in this document and its attachments. Based on my inqurry of those individuals with primary responsibility for obtaining the inforrnation, I certifu that the statements and information are to the best of my knowledge and belief true, accurate, and complete. I am aware that there are significant penalties for submitting false statements and information or omitting required statements and information, including the possibility of fine or imprisonment. Should you have any questions or concenxs, please contact Veronica Reyes, Lake Side Environmental Analyst, at (801)-796-1916, or Tom Wiscomb, Senior Environmental Advisor, PacifiCorp Thermal Environmental Services, at (801) 220-2373. Dustian Weaver Plant Manager; Lake Side Power Plant Enclosures cc: Veronica Reyes Lake Side Plant w/ enclosures Tom Wiscomb - NTO 2l0wlo enclosures ! , =SfrL35ffi'$'fli' !,r3 2 6 ?t?3 DMSION OF AIR QUALITY Total Particulate Matter Emissions Compliance Test Report Pacificorp Lake Side Power Plant CTOl 1825 N Pioneer Lane, Lindon, Utah Utah Division of Air Quality (UDAO) Title V Permit No: 4900241002 Report No. M233117 August 4, 2023 UJJ(d irl 9. () or{6l.{(d+,ao Er mostardi ?platt Total Particulate Matter Emissions Compliance Test Report Pacificorp Lake Side Power Plant CTOl 1825 N Pioneer Lane, Lindon, Utah UDAQ Title V Operating Permit # 4900241002 Report Submittal Date: September 5, 2023 @ Copyright2023 All rights reserved in Mostardi Platt UIAH DEPARTMENT OF ENVIRONMENTAL OUALITY ci) DIVISION OF AIR QUALITY Project No. M233117 TABLE OF CONTENTS 1.0 EXECUTTVE SUMMARY............... ............................1 2.0 TEST METHODOLOGY....,....... ...........2 Method 1 Traverse Point Determination......... ..........2 Method 2 Volumetric Flowrate Determination................. .............2 Method 3A Oxygen (Oz/Carbon Dioxide (COz) Determination......... ...............2 Method 201A Filterable Particulate Matter Determination.................. ..............2 Method 202 Condensable Particulate Matter (CPM) Determination.................. ..................3 3.0 TEST RESULT SUMMARIES .......,.....4 APPENDIX Appendix A - Plant Operating Data ........... ...............7 Appendix B - Test Section Diagrams..... .................20 Appendix C - Sample Train Dia9rams............... .........................22 Appendix D - Calculation Nomenclature and Formulas .............25 Appendix E - Sample Analysis Da1a............ ...........35 Appendix F - Reference Method Test Data (Computerized Sheets).. ............38 Appendix G - Field Data Sheets .........52 Appendix H - Calibration Data ............58 Appendix l- Gas Cylinder Certifications .................72 Pdect No. M233117 CTOl OMostardi Platt 1.0 EXEGUTIVE SUMMARY Mostardi Platt performed a speciated filterable particulate matter (FPM) and condensable PM (CPM) air emissions test program to determine the emissions rate of totalfilterable PM emissions, filterable PM equal to or less than a nominal aerodynamic diameter of 10 micrometers (PMro), filterable PM equal to or less than a nominal aerodynamic diameter of 2.5 micrometers (PMz.s), and of CPM for Pacificorp at the Lake Side Power Plant in Lindon, Utah. Testing was performed at the exhaust of one (1) combined-cycle combustion turbine, designated as CTO1. Testing was performed to meet the requirements of the Utah Division of Air Quality Title V Operating Permit # 4900241002, the requirements of United States Environmental Protection Agency (USEPA), Title 40, Code of Federal Regulations, Part 60 (40CFR60), and 40CFR51, as applicable. The test locations, test dates, and test parameters are summarized below. The purpose of this test program was to determine the FPM, PMro, PMz.s, CPM PM concentrations from CTO11 exhaust at normal operating conditions. Selected results of the test program are summarized below. A complete summary of emission test results follows the narrative portion of this report. Operating data provided by Pacificorp is included in Appendix A. The identifications of the individuals associated with the test program are summarized below. The test crew consisted of Messrs. K. Jones, D. Panek, and D. Snader of Mostardi Platt. Project No. M233117 cTo1 TEST INFORMATION Test Locations Test Dates Test Parameters cTo1 814123 PMro Test Location Test Parameter Regulation Gitation Emission Limit Average Test Result cTo1 PMro Permit 4900241002 10.8|b/hr 7.777 lblhr 0.01 lb/mmBtu 0.0050|b/mmBtu Representative Address Contact Testing Coordinator Pacificorp Lake Side Power Plant 1825 N. Pioneer Lane Lindon, Utah 84024 Tom Wiscomb Environmental Advisor (801)220-2373 Tom.Wiscomb@Pacifi corp.com Test Facility Representative Veronica Reyes Environmental Analyst (801) 796-1916 Veronica. Reyes@Pacifi corp.com Test Company Representative Mostardi Platt 702 West 48h Avenue, Unit A Denver, CO 80216 Mr. Robert Carlisle AET Lead - Denver (630) 993-2100 rcarlisle@mp-mail.com 'l of 75 @Mostardi Platt 2.0 TEST METHODOLOGY Emission testing was performed in accordance with the following USEPA reference methods as specified in 40CFR60, Appendix A, and 40CFR51, Appendix M. Explanations of nomenclature and calculations are found in Appendix D. Sample analysis data are found in Appendix E. Reference method data and field data sheets are found in Appendices F and G, respectively. The following methodologies were used during the test program: Method 1 Traverse Point Determination Test measurement points were selected in accordance with Method 1. The characteristics of the measurement location are summarized below. Method 2 Volumetric Flowrate Determination Gas velocity was measured following Method 2, for purposes of calculating stack gas volumetric flow rate and emissions on a lb/hr basis. An S-type pitot tube, differential pressure gauge, thermocouple and temperature readout were used to determine gas velocity at each sample point. All of the equipment used was calibrated in accordance with the specifications of the Method. Calibration data are presented in Appendix H. Method 3A Oxygen (Oz)/Carbon Dioxide (COz) Determination Gas samples were collected forthe duration of the TPM sampling runs utilizing an ECOM analyzer continuously sampling from the exhaust of the dry gas meter. Linearity calibrations were performed prior to sample analysis, and mid-range calibration checks were performed after each run. Final Oz and COz concentrations were corrected for calibration error of the instrument. Calibration data are presented in Appendix H. Method 201A Filterable Particulate Matter Determination Stack gas total filterable particulate concentrations and particulate concentrations less than 10 microns (PMro) and 2.5 microns (PMz.s) emission rates were determined in accordance with Method 201A,40CFR51, Appendix M. An Environmental Supply Company, lnc. sampling train was used to sample stack gas at an isokinetic rate, as specified in the Method. Laboratory analysis data are found in Appendix E. All of the equipment used was calibrated in accordance with the specifications of the Method. Calibration data are presented in Appendix H. Project No. M233117 cTo1 Sample Point Selecfion TEST POINT INFORMATION Location Stack Diameter Port Length Upstream Diameters Downstream Diameters Test Parameter Number of Sampling Points cTo1 216"7"-1201-o.6 -5761-2.7 FPM, PM1O, PM2.5, CPM 12 2ot75 OMostardi Platt Method 202 Condensable Particulate Matter (CPM) Determination Stack gas CPM concentrations and emission rates were determined in accordance with the Method 202,40CFR51, Appendix M, in conjunction with Method20lAfilterable particulate matter sampling. CPM was collected in the impinger portion of the Method 202 sampling train. CPM was collected in impingers after filterable particulate material was collected using Method 201A. The organic and aqueous fractions were then taken to dryness and weighed. The total of all fractions represents the CPM. Compared to the December 17,1991 promulgated Method 202, this Method includes the addition of a condenser, followed by a water dropout impinger immediately after the final heated filter. One modified Greenburg Smith impinger and an ambient temperature filter follow the water dropout impinger. A schematic of the sampling train configured with these updates is found in the Appendix. The impinger contents were purged with nitrogen (Nz) immediately after sample collection to remove dissolved sulfur dioxide (SOz) gases from the impingers. The impinger solution was then extracted with Dlwater, acetone, and hexane. The organic and aqueous fractions were dried and the residues weighed. The total of the aqueous, organic, and ambient filter fractions represents the CPM. CPM data was applied to both the Method 201A sample to determine total PMro/PMz.s emission rates. Laboratory analysis data are found in Appendix E. All of the equipment used was calibrated in accordance with the specifications of the Method. Calibration data are presented in Appendix H. Project No. M233117 cTo1 3of75 OMostardi Platt 3.0 TEST RESULT SUMMARIES Client: Pacificorp Faclllty: Lake Skle Porer Plant Test Location: CT0l Stack Terttethod: 2O1N2O2 SourceCondation Normal Date 81U23 Start Time 8:40 End Time 1l:03 Norrnal Norrnal u1123 8/4/23 11227 14:05 1324 16:22 Gar Temperature, oF Fluo Ga3 illobture, perccnt by volunre Avorage Flrrc Pressure, in. Hg Gar Sampb Volurne, dscf Average Gas Velocity, ft/sec Gas Volurptric Flow Rate, acfm Gas Volumetric Fbw Rate, dscfm Gas Volurnotric Flow Rate, scfm Average %COrW volunr, dry basb Average t/oO2by volurne, dry basb bokinetlc Varianco gramr collected grains/acf grains/dscf lblhr gratB colbctod grains/acf gralnsrdscf lb/hr grarne collected graina/acf grainsr&cf lb/hr gramr collected grains/acf grains/dscf lbrhr grains/acf grains/dscf lb/hr granre collected grainlracf grains/dscf lb/hr grams collectod grains/acf grainsrdscf lb/hr lblmmBtu (Standard Fc Factor) 7.$Yo 25.52 40.664 68.870 1,051,513 639,522 693,596 4.2 13.5 93.1 o.ooooo o.0000 o.0000 o.000 0.oo00 0.0002 0.0001 o.ooo3 0.00011.456 0.72E o. 7.Ooh 7 -1o/o25.52 25.52 40.883 40.79E68.428 68.739 1,O44,771 1,049,514 643,277 643,931 691,596 693,1784.2 4.213.4 13.493.1 92.80 1,040.0 0.0000 0.0000 0.0000 0.0000 0.166 0.055 0.0001 0.0000 222.6 6.50/6 25.52 40.E4E 68.91E 1,052,257 64E,993 694,341 4.2 13.4 92.2 0.ooo0 0.0000 o.000 o.0000 o.0001 0.0002 1.324 o.00063 0.oo01 o.0002 1.324 o.ooo8 0.0009 o.oo15 E.069 0.oo51 o.0002 0.0003 't.456 0.0001 0.0002 0.895 0.00246 0.0006 o.ooo9 5.1 19 o.oo33 0.0007 o.oo11 5.848 o.0038 0.0001 o.ooo2 1.169 o_ooo7 o.00059 0.(x)o1 o.ooo2 1.225 0.o0316 o.ooo7 0.0012 6.608 o.oo42 o.oo372 0.0009 0.0014 7.777 0.0050 o.oo09 0.0006 0.0006 1 0.0010 o.0017 9.393 0.0010 0.0017 9.393 0.0060 0.oo07 0.0012 6.635 0.0043 0.00389 0.0009 0.o015 8.091 o.oo52 0.0006 0.0007 0.0009 0.0012 4.953 6.552 o.oo09 0.0007 0.oo15 0.00128-069 6.635 0 o.oo09 0.0007 0.0009 0.oo15 0.0011 0.0014 8.091 5.848 7.777 o.oos2 0.0038 0.oo50 Project No. M233117 cTo1 4ot75 OMostardi Platt 4.0 CERT!FICATION Mostardi Platt is pleased to have been of service to Pacificorp. lf you have any questions regarding this test report, please do not hesitate to contact us at 630-993-2100. As project manager, I hereby certify that this test report represents a true and accurate summary of emissions test results and the methodologies employed to obtain those results, and the test program was performed in accordance with the methods specified in this test report. MOSTARDI PLATT // Program Manager Robert W. Carlisle Quality Assurance Benjamin W. Hendricks Project No. M233117 cTo1 5of75 @Mostardi Platt APPENDICES Project No. M233117 cTo1 6of75 @Mostardi Platt Appendix A- Plant Operating Data Project No. M2331'17 CTOl 7 ot75 @Mostardi Platt Source 08l%l23 08:40 Average Data - Run 1 Plant: IAKE SIDE POWER lnterval: 1 Minute !'ype: Roll Report Period : 081 O4l 2023 08:40 Through OU M I 2023 1 1 :O3 0.4 17,536.1 |,929.0 28 Time Online Criteria: 1 minute(s) UNITl COPPMC /pPMCl GASFLOW lHSCFH) GHEAT IMMBTU/HR) UNITLOAT) (irfw) O8l0,{,l23 08:4'l 17,535.0 1,928.9 0fJ/04t?3 08:42 0.4 17,v3.7 t,929.8 28 0alo4,l23 08:43 17,538.1 1,929.2 zfi m/o4,l23 08:tl4 0.4 17,521.4 1,927.4 0alo1,l23 08:45 17,519.6 1.927.2 238 08l0/,l23 08:46 0.4 17,511.8 1,926.3 0alml23 08:47 0.3 17,4%.9 1,524.4 237 0g,o4.n3 08:tl8 17,468.5 1,921.5 237 06lmng 08:49 0.4 17,483.8 't,923.2 MMn3 08:50 17,509.5 1,926.0 237 0€//o4,l23 08:51 0.4 17.506.1 1,525.7 0nt04nS @..52 17,495.1 1,924.5 237 O8/o4,r23 08:53 0.4 17,505.0 1,925.6 237 OUo!,|?3 08:51 0.4 17,505.2 1,925.6 237 0U04,l23 08:55 17,493.4 1.921.3 237 Oalo/,laS 08:56 17,171.O 1,921.8 OAlo1,l2S 08:57 0.4 17,479.1 1,922.7 0alo1,l23 08:58 0.4 17.485.3 1.923.1 237 0fyo4,t23 08:59 0.4 17,48t.9 1,923.6 0&o4,l23 @:@ 0.3 17,508.1 1,925.9 28 0fl/o1,I?3 09:01 17,521.5 1,927.4 2* 0alo1,l23 09:02 0.4 '17,517.0 1,926.9 0€,lo1.lz3 09:03 0.4 17,517.1 1,926.9 2* 0&mtil3 oo:(x 17,505.9 1.925.0 237 0&0{,n3 09:05 0.4 17,88.2 1,523.7 @t$l23 09:06 17,477.5 1.922.5 2?7 Og/04,lz3 09:07 0.3 17,/180.0 1,922.8 237 OAl04,l2S 09:08 2370.4 17,470.7 1,921.8 O0l0,4,lz3 09:00 17.490.9 1.924.0 237 OOl0,4lzS 09:10 0.3 17,492.0 1,924.1 oalmlzS 09:11 2370.3 17.491.6 1,924.1 0ts,t0/,l23 09:12 17.498.8 1.921.9 257 0alml23 09:13 0.3 17,493.3 1,924.3 @l$l23 09:14 17.19$.2 1.924.6 237 0alo1,lz3 09:15 17,$2.5 1,923.1 0&o4.l23 09:16 0.4 't7,$6.7 1,923.5 237 08lo1,l23 09:17 1.924.217.192.7 237 @Mostardi Platt F = Untr ullllne E = Exceedance M = Maintenance T = Out Of Control RepoF,€fcuril6d iflf$/ff 0z : a0 cTo1 C = Calibration S = Substituted * =fgpgrt oBt0{,t23 09:18 Average Data - Run 1 Plant: IAKE SIDE POWER lnterval: 1 Minute l'ype: Roll Report Period: OBlMl2023 08:40 Through OBI 0412023 1 1 :03 Time Online Criteria: 1 minute(s) 0.4 17,/195.6 1,924.5 @tMn3 09:19 2370.3 '17,/186.8 1,923.5 w04,n3 09:20 0.3 't7.483.0 1.923.1 oan1l23 2fio.4 17,172.5 1,922.0 o8t0/,l23 49..22 0.3 17.467.4 '1.921.4 o8to4l23 09:23 17,.165.0 1,921.2 238 08/0/,t23 09:24 0.4 17.462.8 1,920.9 237 oBt04.t23 09:25 17,473.5 1.922.1 oato/,t2S 2350.4 17,468.9 1,921 .6 o8lut23 09'27 o.1 17.460.2 1.920.6 oat0423 17.457.6 1,920.3 2U o8l0/,t23 09:29 0.4 17 ,46'.1.8 1.920.8 oal0423 17,465.8 1,921.2 234 @tut23 09:31 0.4 17,459.5 1.920.5 235 o8lu/23 1 7,465.0 1.921.2 oat0/,l23 09:33 2350./t 17,451.O '1,919.6 08t04,l23 09:34 o.1 17.440.3 '1.918.4 oat04t23 17,449.6 1,919.5 236 08to4t23 09:36 0.3 17,450.3 1.919.5 06t0/,l2s 17 .4!.1.7 1,9r 8.6 236 o8lo4t23 09:38 0.4 17.445.7 1,919.0 236 oat0/.t23 17,453.1 1,919.8 237 o8to4l23 09:40 0.3 17.451.7 1.919.7 237 oalul2S 09:41 17.42.2 1,9't 8.6 236 o8n1l23 09:42 0.4 17,418.6 1.916.0 236 ouan23 09:43 17,419.2 oato/,t23 17,426.3 1,916.9 236 ouut23 09:45 0.3 17.432.9 1.917.6 236 oato4t2t 17,430.6 1.917 .4 236 o8104t23 09:47 0.4 17.4,4.6 1.916.0 236 @lo4t23 17.421.9 1,916.4 w04t23 09:49 0.4 't7,423.9 1.916.6 236 o8l04't23 09:50 17.424.6 oat0d,nS 09:51 17.422.4 1.916.5 o8t0/,t23 09:52 0.4 17,419.5 't.9'16.1 236 oaio/u23 09:53 o.4 17.425.5 1.9't6.8 oat04,n3 09:5,1 17,4U.2 1.917.8 oan1n3 09:55 o.4 17,443.2 1,9't 8.8 236 oan4t23 09:56 17,431.2 1.9'17.1 08tut23 09:57 0.rl 17,426.8 1,916.9 17.418.9 236 @Mostardi Platt 08n4123 09:58 1.916.1 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control ReeoFiSFU[RIE d1fflff/ff orua cTo1 C = Calibration S = Substituted * =nSgffict @n4n3 09:59 Average Data - Run 1 Plant: IAKE SIDE POWER lnterval: 1 Minute Type: Roll Report Period : 081 M I 2023 08: 40 Through O8l O4l 2023 1 1 :O3 Time Online Criteria: 1 minute(s) 0.3 17,415.3 1,915.7 0€,t04.t23 10:0O 0.3 17,111.7 1,915.3 236 oat0/,n3 17,422.?1,S'16.5 2fi 0u0/,n3 10:02 1,915.60.4 17,414.2 2W 0at04t23 '10:03 17.394.0 1.9 t 3.3 235 wun3 10:04 17,396.1 1,913.6 w0/.t23 10:05 0.3 17,381.3 1,9 1 1.9 235 0€l0/.l23 10:0,6 't7,40'2.1 1,914.2 081o4123 10:07 0.4 17,,O8.3 1,914.9 2* @tut23 17,399.5 1,913.9 23!5 O8/0'l/23 10:0O 0.3 17,388.9 't,912.8 235 @tul23 o.4 17.W.7 1.912.3 235 w0/,l23 1O:1 I 't7,387.9 1,912.7 08/04,123 10'.12 0.3 17,393.2 1,9'13.3 235 08t0/,t23 10:13 17,401.3 1,914.1 2fi oal0/,t23 10:14 0.3 17,398.0 1,913.8 235 oal0/,l23 10:15 17.39i!.0 1,913.2 236 wun3 l0:'16 2350.4 17,390.9 1,913.0 0a/0/,N3 0.31O:17 17.,[06.8 1.914.7 2% 08t04,t23 10:18 17,116.8 1,915.8 08l04,n3 lO:19 17,401.9 1,914.2 0&04/23 1O:2O 0.4 17,424.7 1.916.7 28 08,/04/,23 17,412.2 1,915.3 236 wun3 1O:22 1,915.40.4 17,113.1 @tut123 10:23 0.4 17.1'.t2.9 'r.915.4 2U oato/,t2t 1O:24 o.4 17,408.7 I,915.0 wuns t0:25 0..1 t7,409.0 1,915.0 2v @tut123 0.3 17.416.0 1,915.8 2v Mlo/Na3 1O:.27 0.4 17,402.0 1,5'.t4.2 0at0,.t23 10..24 o.4 17,40/..6 1,9t4.5 2v 0fli04|23 17,385.9 1,912.4 2U o8n4t23 l0:3O 0.4 17,386.9 1,912.8 oat0/,l2S 17.386.2 'I,912.5 2v @tu/23 10:32 17,379.8 1,911.8 w04t23 10:33 0.3 t7,370.5 1,910.8 2U 0,}i04t2s 17,373.4 1 ,91'1.1 235 ou04,t23 10:35 0.3 17,388.5 1,912.7 0&04/23 10:36 2350.3 17.w.2 1.912.3 oal0/,t23 17,fi2.4 1,512.'l 235 oBt04,t23 10:38 0.3 17,393.3 '1,913.3 235 o&to/,t23 1,912.917,3pO.2 235 @Mostardi Platt F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control ReeoFi.Sfdutril6d sfl$1/ ]l orua cTo1 C = Calibration S = Substituted * i8$ffict 08n4t23 10:40 Average Data - Run 1 Plant: LAKE SIDE POWER lnterval: 1 Minute Type: Roll Report Period : OBI 04 I 2023 08: 40 Throu gh 081 M I 2023 1 1 :03 Time Online Criteria: 1 minute(s) o.4 17,391.1 1.913.0 oalul25 0./t 17.377.4 1,911.5 235 ou04.l23 10142 17342.6 1,909.9 235 oato4.t2S 10:43 0.3 17.356.2 1,909.2 235 o8l0/,t23 l0:44 17.y7.2 1,908.2 235 06t0/.t23 2350.3 17.375.3 1 .911.3 m/o,ln23 10:46 0.4 17.*2.5 1,912.1 235 ou04t23 0.4 17,377.3 1.911.5 235 ou0/,t23 '10:48 0.3 17,360.1 1,909.6 235 oal0/,nS 17,361.2 1.909.7 08t0/,n3 10:50 2350.3 17.U1.4 1,907.9 oalo423 10:51 17,355.5 'l,909.1 oato4.t2s 1O:52 0.3 17,369.0 1.910.7 235 @tut23 10:53 17.366.6 1,910.3 235 ouul23 10:54 0.3 17.364.3 1.910.1 235 o8l0{,t23 10:55 17,380.5 1,91 1 .9 235 ouut23 10:56 17 ,377.6 I ,911 .5 ou0/,t23 10:57 o.4 17 340.7 1 ,911.9 235 ou0/,n3 '10:58 17,392.1 @tut23 10:59 0.4 17.309.9 1,910.7 235 08t0/,t23 11:00 17,355.7 t,9@.1 235 oal0/.t2S 1'l:0 1 0.3 17,355.2 1,909.1 235 08t0/.l23 11i02 17,343.6 |,907.8 235 oat@,l2S 1'l:O3 0.4 r7.339.3 1,907.3 2U Average Minimum Maximum Summation G€ometric Mean lncluded Data Points Total number of Data P^ihta 0.4 0.3 0.4 52.7 236 2U 238 33.969 17,433.6 't7,339.3 17,il3.7 2,510,433.3 1,917.7 I,907.3 1,929.8 276.117.6 G = Calibration S = Substituted * ilsf?lct 11] 144 144 141 141 144 141 144 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control R eeoFlSfduff [6 d.{12/fN ?l 07 : 46 cTo1 @Mostardi Platt Source OAI0/,/23 11:27 Average Data - Run 2 Plant: IAKE SIDE POWER lnterval: 1 Minute Type: Roll Report Period: OBlO4l2O2311:27 Through 0810412023 13:44 17,332.2 1,906.5 2v Time Online Criteria: 1 minute(s) UNITl coPPi/rc /99tta\ GASFLOW /HSNEHI GHEAT lMMETlt/!.tPt UNlTLOAD @l%t'23 11:28 0.4 17,302.8 1,903.3 ?33 08/0.0/23 11'.29 0.4 17,300.0 1,903.0 oglo4,lz3 11:30 0.4 17,300.8 1.903.1 2y 0al0,,l23 11:31 0.3 17,299.3 1,902.9 0810,1,123 11:32 17.302.0 1,903.2 2v 08lo4,l23 11:33 0.3 17,282.9 1,901.1 231 0€/o4,l23 11:34 0.3 17.274.4 1,900.2 233 08lo4,n3 11:35 0.3 17,2@.4 2U @l$l23 11:36 0.4 t7,313.0 1,904.4 OUoI,|23 11:37 17.307.6 1.903.8 2v @lml23 11:38 0.4 17,28,,.9 r,901.3 2v OU0d,|23 1l:39 17.28E,O 1,901.7 2v Ogl0/,l2S 11:/to 17,287.6 1,901.6 2U O&lo!,l23 11:41 0.3 r7,300.4 1,903.0 08lmn3 f:42 17.285.2 |,90 t.4 2v @lm/23 11:43 0.3 17,275.4 1.9q).3 2U oatul2S 11'.44 0.4 17,zU.O 1,897.9 0Elo1,l23 'tl:45 17,240.8 t,890.5 233 08lml23 11:46 0.3 17,270.1 1,899.7 233 0nt0/,t23 11'.17 0.3 17,255.8 r,898.1 0f,/o4,l23 11:,18 0.3 17,232.8 1.895.6 233 @lUl23 11:49 2330.4 17,24.8 1,896.9 0&04lr?'9 1l:5O 17.252..2 1,902.1 0Uo4,n3 11:51 0.4 17,274.4 1.900.2 233 @Mt23 11'.52 0.3 17,233.1 1,895.7 @l%l23 11:53 't7,259.5 1,898.5 233 @l%l23 11:54 0.4 17,275.4 1,900.3 233 OBlod,lz3 1l:55 17.253.7 1,897.9 0U0,4'l23 11:56 17.243.1 1.896.7 233 08lml23 11:57 0.4 17,243.2 1,896.8 233 ONo1,23 11:58 0.3 17.261.5 1,898.8 @t%l23 11:59 17,248.4 1.897.3 233 O8/0.U23 12'.N 0.3 17,2fi.2 1,896.0 233 @l$n3 12:01 17.240.4 r,896.4 233 @lul23 't2'.o2 o.3 17,235.8 1,895.9 233 @l$l23 12:03 0.3 r7,239.3 1,896.3 O8l04lll3 12:U 1.894.817.225.3 233 @Moslardi Platt T = UnitOffline E = Exceedance M = Maintenance T = Out Of Control Reeoft8fdurilEd'nflfl$lJf orua cro'l C = Calibration S = Substituted * =lufnF o&t0/,t23 Average Data - Run 2 Plant: LAKE SIDE POWER lnterval: 1 Minute fype: Roll Report Period: 0U0r',|2O23 1 1 :27 f hrough 081 0412023 13:44 Time Online Criteria: 1 minute(s) 0.3 17,220.5 1,894.3 233 o8,0/,n3 12:Oo 0.3 17.212.8 1.893.4 233 oatun3 17,241.1 1,896.9 oe,04.n3 l2:08 0.4 17.207.2 1.892.8 232 oan4t23 17.194.1 1.891.4 0an423 12:1O 17,172.9 'I,889.0 233 Mlut23 12:11 0.3 17.211.2 1.893.2 232 oat0/.t2S 12:12 17.214.4 1,893.6 08t0/.123 12:13 0.3 '17,214.2 1,893.6 231 o8n4t23 12:'14 17.243.7 1.896.8 08n4t23 12:'15 0.4 17,252.6 '1.897.8 232 o8to4t23 12:'16 2320.3 17.239.2 1.896.3 oan4t23 12:'17 17,238.3 1,896.2 232 o8l0/,t2?12:18 0.3 17.224.1 1.A94.7 232 oatmt2S 12..19 17,174.4 1,889.2 08t0/,t23 12:2O 0.3 17.180.0 1,889.8 231 o8t0423 12:21 0.3 17.211.0 1,893.5 232 oato4l23 17,188.0 1,890.7 08to4t23 12i23 0.3 17.185.5 1,890.4 232 oatut2S 17,168.8 1.888.6 08t0(,t23 12:25 0.4 17 jA2.1 I,890.0 232 0€to/.t23 17,203.6 08n4t23 12:27 0.4 1 7,1 94.9 1,891./t 232 oan423 l2:28 0.4 17,'189.5 1.890.8 232 oan423 17,176.9 1.889.5 oan4t23 l?:3O 0.3 17,193.3 1,891.3 232 08t04,l23 232l2:31 0.3 17,203.9 1.892.4 oato/,t23 12:32 o.4 17.217.8 1,894.0 08n4t23 12:33 0.4 17.212.3 1.893.4 232 oan4t23 o.4 17,209.8 1,893.1 08t0/.t23 0.412:35 17,203.8 1,892.4 232 08t0/.n3 12:36 0.3 17 .191.1 1.891.0 232 08t0/,t23 12'.37 0.3 17j73.3 1.889.1 23'l oal0/.l23 12:38 0.4 17.166.6 1.888.3 231 oan4,l2S 0.3 17,'175.6 1.889.3 o8t04.n3 l2:4o 0.3 17,211.O 1,893.2 232 oatunS 12:41 0.3 17.219.5 1.894.1 232 oam4n3 o.4 17,214.2 1,894.0 oaun3 l2:43 0.3 17,216.5 1,893.8 232 oan4l23 17,218.7 1.8911.1 wo{.l23 12:45 0.3 1,893.917.217.6 232 @Mostardi Platt F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control ReeoFi8Eu[i[6 d 1f lffi ff orua cTo1 C = Galibration S = Substituted * il$fttct Ogl04l23 12i46 Average Data - Run 2 Plant: IAKE SIDE POWER lnterval: 1 Minute Type: Roll Report Period: 0810412023 11:27 Through 0810412023 13:44 Time Online Criteria: 1 minute(s) 0.4 17.202.5 1,892.3 232 OAlO4l23 12:47 0.3 0.4 17.196.6 17,176.7 1,89'1.6 232 - 1,8de; --zii"08104t23 12:48 08104123 12:49 oato4l23 12'.50 17.206.4 0.3 17,208.6 0.3 1,892.9 08t04123 12.51 oato4l23 12'.52 OAlo4.l2S 12:53 0.3 17.225.0 1,894.8 232 0.3 0.3 17. t 91.9 17.165.4 1,888.2 231 1.891.1 1,888.8 OBlo4,l23 12:54 OAlO4l23 '12:55 o.3 17,170.7 OBlo4,l23 12:56 0.3 1,887.9 231 0.3 17.179.2 1.889.7 231 17.162.9 OBlo4,l23 12:57 OAl0/,l23 12:58 o.3 17,'188.8 1,890.8 08lml23 12:59 2X20.3 17,18/.3 1,890.3 1,889.3OBlo{,l23 13:00 17,175.5 1,890.0 232 0A04,l23 13:02 0.3 17.181.4 1,890.0 232 Oan4l23 13:01 0.4 17,142.0 OUU|Z3 '13:03 0.3 17.179.1 1,889.7 OAlUl2S '13:04 0.3 1.889.5 230'17 .177.3 OAlO4l23 '13:05 0.4 o30Al0/.t23 13:06 1,886.6 08t04123 13:07 o.4 't7.163.2 1.888.0 1.883.9 229 OAlO4l23 13:08 o.3 1,886.5 229 0.3 17,154.8 1,887.0 229OUU|Z3 13:09 OAl0/,l23 13:10 0.3 O&lo{,l23 13:11 0.3 17 ,117.6 1 ,882.9 225 -' zzi-" -- O8lo4.l23 '13:12 1.8U.2 230 0.3 0.3 17.129.5 OAl0/.l2S 13:13 OAlO4l23 13:14 17 ,157.5 1,887.3 231 OAlUl2S 13:15 0.3 -03 1.886.0 23117.145.7 OAlO4l23 13:16 17,1 58.9 1,887.5 231 OAlO4l23 13:17 0.3 17 ,147.2 1 ,886.2 231 OAl0/.l23 '13:18 0.4 0.3 17.140.1 't7.'ts2.3 1,885.4 231 08tml23 13:19 1,884.6 231 OAl0/,l23 13:20 0.4 17.1 18.6 1,883.0 231 OAnd/23 '13:21 17.'143.3 't7,153.7 'I,885.8 1.886.9 231 h)OAl04l23 13:22 0.3 08lml23 13:23 0.3 'r7.158.6 1,887.4 232 OOlO4l23 13:24 or4 --- rz,rsiig -----' " *T,eai:-"" OAlO4l23 13:25 0.3 17 ,',t31.2 1,884.4 231 O8l04.l23 13:26 1,882.8 231 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control Reeo*8fduril6 d 1f p$s/ ff orua cTo1 C = Calibration S = Substituted * liwPtct '17.116.0 OMostardi Platt oan1t23 Average Data - Run 2 Plant: LAKE SIDE POWER lnterval: 1 Minute Iype: Roll Report Period: 0810412023 11:27 Through 0810412023 13:44 Time Online Criteria: 1 minute(s) 0.3 17 ,112.5 1,ef,2.4 231 08to4l23 l3:28 '17,1 t6.9 1.882.9 @lut23 0.3 17,114.O 1,882.5 231 @tunl '13:30 17.110.2 1,8€'2.1 08t0/,t23 13:31 0.3 17.080.4 1,878.8 230 08t0{,t23 13:32 17.107.3 1,881.8 231 @tul23 13:33 17,114.1 1.882.8 231 0at0/,t23 13:34 0.3 17.138_3 1,885.2 232 o8l04t23 13:35 17.154.3 1.887.0 oal0/,t2S 13:36 0.4 17.143.8 'I,885.8 232 oat0/,t23 17,160.5 1,887.7 @n4123 13:38 2320.4 17.167.7 1,888.4 08t04t23 13:39 17.162.2 t.887.8 oal0/,t2s 13:40 0./t 17.'t27.5 1,884.0 231 ogt04,t23 13:11 17,126.1 |,883.9 232 oalo4t2s 1g:12 0.3 17.133.9 1.884.7 ogt04.t23 13:43 2310.4 17,117.O r,882.9 ou0/,t23 't3'.44 17,096.9 1,880.7 Average Minimum Marmum Summation Geornetric Mean lncluded Data Points Total number of Data Ddnta 0.3 0.3 0.4 46.7 17,2@.2 17.080.4 '17,332.2 2,373,626.1 1,892.0 1,878.8 1,906.5 26't,098.4 C = Calibration S = Substituted * =r|sr?t"t 232 229 235 3?.O17 138 138 138 't38 138 '138 138 138 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control RepoF[8Fu[il6 d.ffiS/ff orue cTo1 @Mostardi Plaft Solrce 08lo4,l23 14:05 Average Data - Run 3 Plant: |.AKE SIDE POWER lnterval: 1 Minute Type: Roll Report Period: 0810/.1202314:05 Through 0810412023 16:22 17.190.1 1,890.9 2n Time Online Criteria: 1 minute(s) UNITl COPPTiC (PPMC) GASFLOW (HSCFH) GHEAT 1MMBTl'/HR) UNITLOAT) (irfW) 08lml23 14:06 0.4 17 ,171.'l 1,888.8 230 0&04n3 fi:O7 17.176.3 1,889.4 0€i04l23 14:08 0.{17,196.3 1.891.6 230 OAl04l2S 14:Og 0.4 17,201.1 't,892.1 0€i0/,l23 14:10 0.4 17,?06.2 r.892.7 231 @twl23 14:11 0.4 17,209.0 1,893.0 08104,123 11:12 17,211.2 |,893.2 232 0alo4,l23 14:13 0.3 17,205.8 '1,892.6 232 0€/04,123 14:14 17,216.9 1,893.9 @l$l23 14:15 0.3 17,199.2 1.89 t.9 233 @l$l23 14:16 0.3 17,187.9 I,890.7 233 @lwl23 14:17 17,186.1 1,890.5 238 08l0/,l23 '1rt:18 0.3 17,190.7 1,891.0 233 o8/O.l/23 14:19 0.4 17,188.4 1,890.7 08tmn3 U:zO 0.3 17,179.4 r.889.7 233 @104n3 14:21 2330.3 17,172.7 I,889.0 0nl04/23 11:22 0.3 17,174.1 1,889.2 08/o{l23 '14:23 17.200.6 1,892.1 233 Ogt0,4,lzS 11:21 0.4 17,193.5 1,891.3 233 0a0.U23 11'.25 0.3 17,'.162.8 1,887.9 08tmn3 fi:26 't7.14.2 1.885.9 232 Ouo1,l23 14:27 0.3 1 7,1 53.3 1,886.9 232 @lUl23 11:28 17.17?.2 1.888.9 08104/23 14:29 2330.3 17,168.7 1,888.6 @n1123 l4:3O 0.3 17,162.4 'I,887.9 Wwn3 14:31 17,156.8 1,8a7.2 232 o8lut23 11'.32 0.3 17,167.0 1,888.4 232 OAl0/,l2S 14:33 0.3 17,185.1 1,890.4 08lo1,lz3 11:Y 0.3 17,107 .O 1.881.8 233 O8/O.l/23 l.l:35 0.3 17,177.O 1,889.5 233 08l0{,n3 14:36 0.3 17,172.2 1,888.9 08l0/,n3 U:37 0.3 't7,173.3 '|,889.1 233 O8l04l23 14:38 0.4 17,173.2 1,889.1 OU0/,|23 14:39 17,1e5.2 1.888.6 233 O8l04.lz3 11:10 2330.4 17,175.9 1,889.3 @lUl2S U:11 0.4 17,177.1 1,889.5 08/ml23 11:12 1.887.817,162.0 233 @ilostardi Platt F=IrnltofrIine E = Exceedance M = Maintenance T = Out Of Contro! ReeoFi8fduf it6d if,f{$flff 0z :+a cTo1 C = Calibration S = Substituted * =rEut?t.t OA|O423 14:43 Average Data - Run 3 Plant: IAKE SIDE POWER lnterval: 1 Minute Iype: Roll Report Period: 081041202314:05 Through 081O4t2023 16:22 Time Online Criteria: 1 minute(s) o.4 17,161.0 1.8A7.7 0.4 17,153.0 1.886.8 Oalo4ng fi:45 0.3 OOl04,l2S 14:44 Ogl0{.lzS 14:48 '17.119.3 1.886.4 232 ostut2s 14:46 0.3 tz,rod:-- --"---*-* -*- i,b8&5 0.3 17,159.0 d1zils 1,887.5 08lMl23 14:49 0,3 o; 232 OA|O423 14:50 17.'t50.1 1,886.5 O&lo4.lz3 14:51 0.3 17 .144.6 17.141.5 1.885.9 1,885.6 1.887.3 232 Oglo4,lzS '11152 0.4 232 08104123 14:53 o.3 232 OAlO4l23 14:54 2320.4 17.16't_6 I.887.8 OAl0/.lzS 14:55 0.3 1 7.159.0 1.887.5 OAlUl23 14:56 17.171.4 1.888_9 232 0.3 17,177.1 1.889.5 2U OAlO4l23 14:58 0.4 17,179.7 1,889.i Zg4 08lMl23 14:59 0.3 08n4123 14:57 17.170.6 o\tutz3 15:00 "-.-**-_ ii,4 -* _-- n,tU.8- - OA|O4.i23 15:Ol 1.888.8 232 231 OAn4l23 15:03 0.4 't7.2O3.1 .t,892.3 2t1 OAlUl23 15:04 0.4 17.202.0 1.492.2 251 231OAlOq2S 15:05 0.3 17.179.3 1.889.7 08l0/,l23 15:06 0.4 1 7. t69.9 1.888.7 '17.158.1 t.SS73-*----'* 17,',t51.7 Oglo{,lzS 15:07 231 2311.886.7 0.3 0.3OAlG{.l?S 15:08 08104123 15:09 0.3 17,136.5 1.885.0 231 OAl0/,l23 15:10 0.4 0.3 0.3 17.1U.O 't7 .157.1 17.153.6 1,8&t.7 1.885.4 'I,887.3 231 OAlO4l23 15:11 Oglo4.lzS 15:12 0.3 17,139.8 232 OAlUl2S 15:13 i,886.9 08t0/.t23 15:'l.4 0.3 17.151.2 '1.886.6 232 OOlO4l23 15:15 0.4 -- lii3tl - -1s2 1,889.9 233 O'lc!'lz3 15:17 ----- 17J813 1,890i -- OalMl23 '15:16 o.3 17,141.2 232 Oglc{.lzS 15:19 0.4 17,153.6 1,886.9 o,to4t2s 1s:zo -*--_ ot- - -Tt]Ez.l- oltolr2g 1s..21 0.4 rz,rsz,6 1ir91.7-'*---- -^**- 233-- OOl04.l2S 15:22 17 ,191.1 1.891.1 O9l0d.lz3 15:23 0.4 1,890.5't 7.186.3 233 OMostardi Platt F = Unit Offline E = Exceedance M = Maintenance T = Out Of Contro! ReeoFiSFHril8 d i{12{fN Jl 07 : 48 cTo1 C = Calibration S = Substituted * =rlu,l?t.t oglml2S 15:24 Average Data - Run 3 Plant: I-AKE SIDE POWER lnterval: 1 Minute Type: Roll Report Period: OBlUl202314:05 Through 0810412023 16:22 Time Online Criteria: 1 minute(s) 0.4 17,179.5 1,889.7 233 OBl04.l2S 15:25 17.188.0 08lml23 '15:26 0.4 17.188.7 1.890.8 233 O&lo4.l23 15:27 OUU|23 15:28 0.3 o.3 't7,165.5 't7.162.5 1,888.2 232 1,887.9 232 OAlMl2S 15:29 2320.4 osOalml23 15:30 17.162.3 1,887.9 Ogl04.lzS 15:3'l 0.4 os 17,'162.7 '1.887.9 232 OAlO4l23 '15:32 OAlO4l23 15:33 0.3 17.'130.6 1,884.4 232 OAlO4l23 15:34 0.4 17,134.3 1,884.8 232 O8l04,l23 15:35 Ogl0/,l2S 15:36 08t%l23 '15:38 17.135.2 17,189.5 17.201.7 't7 .17'1.7 |.884.9 1,890.8 232 0.3 0.3 233 OBto4.tz3 15:37 0.3 1,892.2 233 1,888.9 232 oal04l23 15:39 0.3 17,165.'t '1,888.2 232 OAl04.l23 15:40 o.4 17.172.4 1,889.0 232 *------reio:re - -* 1,888.4 zsz ^*ost64m lsrrr ---- -.-o-3- 1i,17r.s - ' - -lBseb 232 os/04/23 -rs,lz -----oll*- - - 13880 --1s2---' OAl0/.l23 15:43 0.3 OAl0{.l23 15:44 0.3 '17,162.6 1.887.9 '{s2---- OAlO4l23 15:45 - o3-.----_* 17.T56.e ----. ---- 1p8?r - 232 OBlo4,l23 15:46 0.3 17,140.9 1.885.5 232 OAlo1.l2S 15:47 2320.3 '17,150.8 1,886.6 Ogl04.l2S 15:t18 0.3 1 7.098.7 'l,880.9 231 08tBl23 15:49 0.3 17,090.5 1.880.0 oalml2S 15:50 0.4 17,1 19.8 2321,883.2 Oglo/,l2s 15:51 0.3 17.132.9 1,884.6 1,883.2 '1,885.2 232 ;i;OAlO4l23 15:52 0.3 o3 o.l 17.1 19.6 t7 J34.4OAlO4l23 15:53 OAl04.lzS 15:54 17.139.7 17,151.0 I,885.4 1,886.6 1,889.0 OBl0/,lzS 15:55 0.4 230 Ogl0/,l2S 15:56 0.4 17.166.5 1,888.3 Ogl04l23 '15:57 0.4 230 OAlO4l23 '15:58 OAlUl23 15:59 0.4 17,155.6 1.887.1 230 OAlO4l23 16:00 0.4 17,142.1 1,885.6 230 os/04/23 1e0i o, 'niqs.o 1,886.4 23o a,,+ --** -- t,^tts.{- 1.8s9.1 231OAlo4.l2S 16:02 OAlO4l23 16:03 0.3 17 ,'.16',t.4 1,887.8 231 OgtO423 16:04 1,886.217.'147.2 OMostardi Platt F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control R e eopiSEuf il6 d tflij(Nl ?l 07 : 48 cTot C = Calibration S = Substituted * 1lst?Ect o&t0/,t23 t6:05 Average Data - Run 3 Plant: LAKE SIDE POWER lnterval: 1 Minute Iype: Roll Report Period: OBl04l2A2314:05 Through 0810412023 16:22 Time Online Criteria: 1 minute(s) 0.3 17 ,151.1 1,886.6 231 @n4n3 0.3 17.143.7 1.885.8 ou0/,t23 t6:07 2310.3 't7.132.6 1,884.6 08t0/.n3 17,139.8 1,885.4 232 oarc4t23 16:09 0.3 17.134.4 1.884.8 08n4t23 l6:10 17,139.1 1.885.3 232 @to4l23 '16:1'l 0.3 17.133.9 1.884.7 0at0/,t23 16i12 17,'135.9 1,884.9 232 oat0/.t2S l6:13 0.3 17.132.9 1.884.6 08104t23 16'.',14 17,139.4 l,885.3 232 oatoln3 16:1 5 0.3 '17,160.3 1.887.6 oan4,/23 16:16 0.3 '17.153.8 1.886.9 232 08n4t23 16:17 17j44.6 1,885.9 232 oat01l23 '16:'18 0.3 17.140.3 1.885.4 08tul23 17,16/t.6 1,888.1 232 oatou23 16:20 0./t 17Jfi.2 1.886.5 wo4l23 16:21 0.3 17.114.O 1,886.3 232 @to1t23 0.3 17,137.7 1.885.1 Average Minimum Maximum Summation Geometric Mean lncluded Data Points Total number of Data Pdnla 0.3 0.3 0.4 46.8 232 230 2v 32.013 17,163.4 17,090.5 17,216.9 2,368,5215.1 1,888.0 't,880.0 r,893.9 260,539.9 C = Calibration S = Substituted ' .r$st?t.t 138 138 138 't38 138 138 r38 138 F = Unit Offline E = Exceedance M = Maintenance T = Out Of Control ReeoFffi FU[il6 a'nf fl{ff / ff orua cTo1 OMostardi Platt Appendix B- Test Section Diagrams Project No. M233117 cTo1 20 ot75 @Mostardi Platt Test Location: Stack Diameter: Stack Area: No. Sample Points Across EQUAL AREA TRAVERSE FOR CIRCULAR DUCTS (PM Traverse) Length > lzDiaT Length > 2Dia.I 1 Job: Date: Pacificorp Lake Side August 4,2023 CTGOl 216 inches 2U.469 square feet Diameter: 6 No. of Ports: 4 Port Length (lnches): 7 Project No. M233117 CTOl 21 ot75 @Mostardi Platt Appendix C- Sample Train Diagrams Project No. M233117 cTo1 22 ol 75 @Mostardi Platt USEPA Method 3A - lntegrated Oxygen/Carbon Dioxide Sample Train Diagram Utilizing ECOM To Measure from Sample Exhaust Sample Gas Fromlmpinger\ Calibration ATD-091 USEPAMethod 3A Project No. M233117 cTo't Rev. 1.3 23 ot75 1t'Ui2021 @Mostardi Platt USEPA Mcthod 2O1al2O2- PMroIPMz.s and Condensable Particulate Mattcr ATIXr,T USEPA lreoE l 20tA Pll t&fm,R.v.1.t Poect No. M233117 cTo1 To'98cry1 24 ot 75 @Mostardi Platt Appendix D- Calculation Nomenclature and Formulas Poect No. M233117 cTo1 25 ot 75 @Mostardi Platt Client: Pacificorp Test Location: CT01 Stack Facility: Lake Side Power Plant Date: 814123 Project #: CT01 Stack Samole Calculations O2o/o (dry) 10.120 o/o = L3.4 o/o13.36 o/o - 0.00 o/o x 4.20 o/o - 0.00 o/o x 10.10 o/o - 0.00 o/o CO2 o/o (dry) 9.786 o/o = 4.2 o/o 9.70 o/o - 0.00 o/o Q"r=(C-c") x C." C.-Q where: Ce, = Effluent gas concentration, dry basis, o/o C = Average gas concentration indicated by gas analyzer, dry basis, o/o Q = Average of iniUal and final system calibration bias check responses for the zQto gzs, o/o C, = Average of iniUtal and final system calibration bias check responses for the upscale calibration Qds, o/o Cma = Actual concentraUon of the upscale calibration Qds, o/o Page 1 AET-014 ISO Template V26 1-16-23.xls Project No. M2g3117 26 ot 75 @Mostardi Platt CTOl ' Client: Pacificorp Plant: Lake Side Power Plant Test Location: CT01 Stack- Run: 1 Date: 8t412029 Moisture Calculations Vwc(std)= (Vf-Vi)*Pw*R*Tstd Pstd.Mw = Q.04707 (Vf - Vi) vwsg(std)= (wf-wi)*P\rY*R*Tstd Pstd,Mw = Q.04715 (Vf - Vi) Vm(std) = AH 17.64*Vm*Y* E@1;!!S- Tm Bws= Vwc(std)+Vwsq(std) Vwc(std) + Vwsg(std) + Vm(std) Vf = 1808.5 Wf = 706.5 Vi= 1765.0 Wi= 689.4 Vwc(std) = 2.05 Vwsg(std) = 0.81 Vm = 48.051 f = t.016 Pbar = 25.56 AH = 1.801 Tm = 540 Vm(std) = 40.848 Bws = 0.065 Page2 AET-014 ISO Template V26 1-16-23.xls Project No. M233117 27 of 75 @Mostardi Platt cTo1 MOSTARDI PLATT Volumetric Air Flow Calculations Acfm = 7s x Area (of stack or duct) x 60 vm (std) = t7.642 x vm x[%#p-, ] ", (Is + 460) # xtlDP x cp x85.49 Vw (std) = 0.047L xVlc Bws=l#r*r,rr) Md = (O.44xo/oCO2) + (0.32 xo/o22) + [0.28 x (100 -o/oCOz-o/o0)] Ms = Md x (1- Bws) + (18 x Bws) scfm= Acfmx7T.64T, [7;6f,,;] mlnScfh= Scfmx60 hr Dscfm: Scfm x (1 - Bws) CN&F-031 Volumetric Flow Calcs Project No. M233117 cTo1 Rev.1.1 alu2015 28 ol 75 @Mostardi Platt MOSTARDI PLATT Volumetric Flow Nomenclature A = Cross-sectional area of stack or duct, ft2 Bws = Water vapor in gas stream, proportion by volume Cp = Pitot tube coefficient, dimensionless Md = Dry molecular weight of gas, lb/lb-mole Ms = Molecular weight of gas, wet basis, lb/lb-mole Mw = Molecular weight of water, 18.0 lb/lb-mole Pbar = Barometric pressure at testing site, in. Hg Pg = Static pressure of gas, in. Hg (in. H2Ol13.6) DH= Static pressure of gas, in.H2O Ps = Absolute pressure of gas, in. Hg = Pbar + Pg Pstd = Standard absolute pressure, 29.92 in. Hg Acfm = Actualvolumetric gas flow rate Scfm= Volumetric gas flow rate, corrected to standard conditions Dscfm = Standard volumetric flow rate, corrected to dry conditions R = ldeal gas constant,21.85 in. Hg-ft3/"R-lb-mole Ts = Average stack gas temperature, "F Tm = Average dry gas meter temperature, "F Tstd = Standard absolute temperature, 528"R vs = Gas velocity, fVsec Vm(std)= Volume of gas sampled, corrected to standard conditions, scf Vw(std) = Volume of water vapor in gas sample, corrected to standard conditions, scf Vlc= Volume of liquid collected Y = DU gas meter calibration factor Ap = Velocity head of gas, in. H2O Kl = 17.647 "R/in. Hg o/oEA = Percent excess air %CO2 = Percent carbon dioxide by volume, dry basis %oO2 = Percent oxygen by volume, dry basis %N2 = Percent nitrogen by volume, dry basis 0.264 = Ratio of 02 to N2 in air, v/v 0.28 = Molecular weight of N2 or CO, divided by 100 0.32 = Molecular weight of 02 divided by 100 0.44 = Molecular weight of CO2 divided by 100 13.6 = Specific gravity of mercury (Hg) CN&F-024 Nomenclature Pitot Rev.'l-'l Project No. M233117 CTOl 8t10t2015 29 ot 75 @Mostardi Platt Run: Date: Cllent: Paclflcorp Faclllty: Lake Side Power Plant Test Location: CT01 Stack ,| 8t1t2023 lllethod: 201N202 Source Condltion: Norma! Dry Molecular Welght o/oCO2= 1.2 ild = 29.208 Wet MolecularWeight Ms = Md x (1-Bws) + (18.0 x BriB) Md = 29.208 Bws = 0.065 Ms = 28.176 ileter Volume at Standard Conditione Md=0.,011 x(%COz) + 0.32xloloO2l + 0,28x%N2 !oO2= 13.4 olo[r= 82.1 vm(std)= 't7.617 xYxvmx l@!ll30l_ Tm f = 1.016 Vm = 48,051 Pbar = 25.56ox=-67il Tm=...EE- Vm(std) = t10.848 Volume of Water Vapor Condensed Vw(std) = 0.0471 x (net HzO gain) t{et H2O = 60.6 vw(8td)=..............-.L toisture Content Bws=@ \rw(std) + Vm(std) Vw(std) = 2.8Sr0 Vm(std) =.......@ Bws = 0.065 Project No. M233'117 cTo1 Page 1 30 of 75 AET-014 ISO Template V26 1-16-23.xls @Mostardi Platt Run:- Date: Method: ' Cllent: Paciflcorp Facllity: Lake Slde Power Plant Test Locatlon: CT01 Stack Project No. M233117 CTOl ,| 8tu2023 201N202 Source Condltlon: Normal Averege Duct Velocity Vs = 85.119 x Cp x Sqrt DP (avg) x (Ts (avg) + 460, (Ps x Ms))r'2 Gp = 0.769 Ts (avg; = 222.6 Sqrt DP (avg): 1.082 Ps = 25.52 Ms = 28.t376 Vs = 68.918 Volumotric Flow Rate (Actual Basls) Q= VsxAx60 Vs= 68.918 [= 254.469 Q= 1,052,257 Volumetrlc Flow Rate (Standard Basb) Qgttl='17.6117x Q x Ps rs (avg) + a6O O = 1,052,257 Ps = 25.52 Ts (ayg) = 222.6 Qstd = 69rt,34'l Volumetrlc Flow Rate (Standard Dry Basla) Ostd(dry)=Qstd x (l-Bw,s) Qstd =__9$}]l_ Bwr = 0.065 Qstd(dry) = 6,t8,993 lsoklnetlc Varlation: %lSO = 0.0945 x (Ts +460) x Vm(std) Vs x0 x An x Ps x (l-Bws) fs= 222.6 Vm(std) = 40.8108 Vs = 68.918An= 0,00014,f9 Q= 120 P8= 25.52Bws=-1166il %lSO = 92.2 Page2 31 of75 AET-0'14 ISO Template V26 1-16-23.xls @Mostardi Platt Client:Paclficorp Facillty: Lake Side Power Plant Test Location: CT01 Stack Run: 1 Date: 81112023 Method: 201N202 Source Condition: Normal PM Concentration: Thb example representa the less than PM2.5 falterable fraction, For other fractlons, uEe the obtalned mn for that particulate fraction. co=-]ff11- Vm(std) m"(s)=--.0.00000 vm(std)=i9l9 Co = 0.0000 gr/dscf PM Emlssion Rate: Emission Rate lbrhr = Co x Qstd(dry) x 60 7,000 Co = 0.0000 Ostd(dry) = 6'18,993 Emlssion Rate lbrhr = 0.000 lb/hr Fa= 1,040.0 Oro/o= L Emisslon Rate lbrmmBtu (Fd Factor) = Co x F6 (dscf/mmBtu) x 2!.9_ ?^o0o 20.9 - O2o/o Emisslon Rate lbrmmBtu (Fd Factor) = 0.0000 F"=...A CO2o/o= 1.2 Emission Rate lbrmmBtu (F" Factor) = Co x Fc (dscf/mmBtu) x 100-f,666- co,oE- Emission Rate lbrmmBtu (F" Factor) = 0.0000 Emleslon Rate lbrmmBtu (Heat lnput) = Emisslon Rate lb/hr Heat lnput (mmBturhr) Heat lnput (mmBtu/hr) = 1,040.0 Emission Rate lb/mmBtu (Hoat lnput) = 0.0000 Page 3 32 ot 75 AET-014 ISO Template V26 1-16-23.xls OMostardi PlattProject No. M233117 cTo1 . MOSTARDI PLATT . lsokinetic Calculation Formulas 1 Vw(std) = r"[ff)(*) = Kzv" 2. V,(,,0) = V,y 1+l [. t'0", *t#lll = ^., ,, " ('*. :(r*tl(r,./ [ t" ) rm 3. o _ Vw(std) "'ns-1yr[,+v*]) 4. Md = 0.44(o/oCO 2) + 0.32(%02 ) + 0.28(o/oN2 ) 5. Ms = Md(1 -Bws)+18.0(B*r) 6.C-= ma ' V"P" 7.W" =CaY^*p. 8. c""r =', u.or^,[--- t"%-]-'-"'''IV*,std) + vmlstol Ts .J 9. Cs = (15.43 grains/gram)(mn/Vrtrtal ) 10. vs =^ocr1ffi 11' Q6sfin = v"A(60r"orr;n ) 1t. Qsd =(36oo""anrX1-B*")v, [ffi) ^ 13. E (emission rate, lbs/hr) = Qr,o (C. /2000 grainsilb) 14. IKV - TsVm(sto)P-sto - = 11, TsVm(sto) Tr,6v"dAnPs6O(1-Bws prv.Ang(1-B*.) 1s. %EA -( v"o, -(o's"t'co) ),',oo (0.264 %Nz - f/oO2 -0.5%oCO) ) CN&F-003A lsokinetic Particulates Rev. 1.1 Project No. M233'117 33 of 75 cTo1 81',t012015 @Mostardi Platt MOSTARDI PLATT lsoki netic Nomenclature A = Cross-sectional area of stack or duct, square feet An = Cross-sectional area of nozzle, square feet Bm = Water vapor in gas stream, by volume Ca = Acetone blank residue concentration, g/g Caa = Concentration of particulate matter in gas stream at actual conditions, gr/acf Cp = Pitot tube coefficient Cs = Concentration of particulate matter in gas stream, dry basis, conected to standard conditions, gr/dscf IKV = lsokinetic sampling variance, must be 90.0 % < IKV < 11O.OYo Mo = Dv molecular weight of gas, lb/lb-mole Ms = Molecular weight of gas, wet basis, lb/lb-mole M*= Molecularweightof water, 18.0 lb/lb-mole ma = Mass of residue of acetone after evaporation, grams Poar = Barometric pressure at testing site, inches mercury Ps = Static pressure of gas, inches mercury (inches water/13.6) Ps = Absolute pressure of gas, inches mercury = Poa, + Pg Psrd = Standard absolute pressure, 29.92 inches mercury Qa*n = Actual volumetric gas flow rate, acfm Qso = Dry volumetric Aas flow rate corrected to standard conditions, dscfh R = ldeal gas constant, 21.85 inches mercury cubic fooU'R]b-mole Tm = DU gas meter temperature, "R Ts = Gas temperature, "R Tsto = Absolute temperature, 528'R Va = Volume of acetone blank, ml Va, = Volume of acetone used in wash, ml Wa = Weight of residue in acetone wash, grams mn = Total amount of particulate matter collected, grams Vrc = Total volume of liquid collected in impingers and silica gel, ml Vm = Volume of gas sample as measured by dry gas meter, dcf Vm(std) = Volume of gas sample measured by dry gas meter, corrected to standard conditions, dscf vs = Gas velocity, fUsec Vw(std) = Volume of water vapor in gas sample, corrected to standard conditions, scf Y = Dry gas meter calibration factor AH = Average pressure differential across the orifice meter, inches water Ap = Velocity head of gas, inches water pa = Density of acetone, 0.7855 g/ml (average) p* = Density of water, 0.002201 lb/ml 0 = Total sampling time, minutes Kt = 17.647 'Fi/in. Hg lQ = 0.04707 ff/ml lQ = 0.09450/100 = 0.000945 lG = pitot tube constant ,ru.nrf1Wqffil'l' YoEA= Percent excess air YoCOz = Percent carbon dioxide by volume, dry basis ohOz = Percent oxygen by volume, dry basis ohCO = Percent carbon monoxide by volume, dry basis ToNz = Percent nitrogen by volume, dry basis 0.264 = Ratio of Oz to Nz in air, v/v 28 = Molecular weight of Nz or CO 32 = Molecular weight of Oz 44 = Molecular weight of COz 13.6 = Specific gravity of mercury (Hg) CN&F-023A lsokinetic Nomenclature Rev.'1.1 8t'tot2015 Project No. M233'117 cTo1 34 of 75 @Mostardi Platt Appendix E- Sample Analysis Data Projecl No. M233117 cTo1 35 of 75 @Mostardi Platt Cllent: Faclllty: Prolect Numbor: Test Locatlon: TeEt Method: Fllterablo Analysls Date: Condensable Peclficorp Lake Sid6 Powor Plant n23t117 CT01 Stack 201N202 8t612023 8t11t2023Date: est No. 1 8l4l?o23 5, <PM10 Acetone Wash 9965 28 mL wash 4732 196 mL No.2 81412023 >PM2.5, <PM10 Fllter Drylng Temp oF: Analyst M. Platt 220 M. Plafl AET-014 ISO Temphte V26 1-1G23.xls @Mostardi Platt 0.00339 Page 1 36 of 75Project No. M233117 cTo1 ' Cllent Paclflcorp Faclllty: Lake Sldo Power Plant ProJect Number: M233117 Test Locatlon: CT01 Stack' Te3t Method: 2O1N202 Fttter Orytng Temp oF: 220 Fllterable Analysls Date: 81612023 Anatyst: M. Ptatt conden3abteAn.tysts Dete: 811112023 M. Plett Descrtpton I "ilg" I rt}r I vor' (mD tnmat wetght (grams) Ftnat wetgnt (gremsl Net wergil Galn (gramsl Fleld Traln Blank Summary 4900 274 mL 21.07246 21.07267 < 0.00025 )l Wash 4736 20O mL 20.87074 20.87101 0.00030 :otal Field Train Blank 0.00030 Fleld Proo, Blank Summary 9O0g 88 mL 4.97684 4.97972 0.00288 )l Wash 9010 110 mL 4.97559 4.97706,o.oo147 Reaqent Blenk Summary rPM2.5 Fitter 4963 3.10098 3.10',t12 s 0.00015 )l wash 10028 118 mL rexane-rlrasn luuzg 115 rnl 4.95773 4.95931 0.00158 5.01334 5.0'1295 < o.u)o25 Wash (filterable) 10030 87 mL 4 4 Page2 37 ol75 AET-014 ISO Template V26 l-16-23.xts @Mostardi PlattProject No. M233117 cTo1 Appendix F- Reference Method Test Data (Computerized Sheets) Project No. M233'l'17 cTo1 38 of 75 @Mostardi Platt Client: Facility: Test Location: Project #: Test Method: Test Engineer: Test Technician: lb/mmBtu Emissions by: Type of Fuel Firing: Standard Fuel Factor Fc, scf/mmBtu: Temp !D: Meter lD: Pitot lD: Filter lD: Filter Pre-Weight (grams): Nozzle Diameter (lnches): Meter Calibration Date: Meter Calibration Factor (Y): Meter Orifice Setting (Delta H): Nozzle Kit lD Number and Material: Pitot Tube Coefficient: Probe Length (Feet): Probe Liner Material: Sample Plane: Port Length (lnches): Port Size (Diameter, lnches): Port Type: Duct Shape: Diameter (Feet): Duct Area (Square Feet): Upstream Diameterc: Downstream Diameters: Number of Ports Sampled: Number of Points per Port: Minutes per Point: Minutes per Reading: Total Number of Traverce Points: Test Length (Minutes): Train Type: Source Condition: Diluent Model/Serial Number: Moisture Balance !D: # of Runs Pacificorp Lake Side Power Plant CT01 Stack M233117 201N202 DPP DCS Standard, CO2 Based NaturalGas Run 2Run 1 1,040.0 cM44 cM44 PM2510-100A 4964 2.98099 0.163 7t7t2023 1.016 1.801 PM 10 #6 0.769 6.0 Glass Horizontal 7.00 4.00 Flange Circular 18 254.469 0.6 2.7 4 3 10.0 10.0 12 120 Anderson Box Normal ECOM 1695 1000 g 3 1,040.0 cM44 cM44 PM2510-100A 4967 3.07485 0.163 7nDO23 1.016 1.801 PM 10 #6 0.769 6.0 Glass Horizontal 7.00 4.00 Flange Circular 18 254.469 0.6 2.7 4 3 10.0 10.0 12 120 Anderson Box Normal ECOM 1695 1000 g 3 Run 3 1,040.0 cM44 cM44 PM2510-100A 4968 3.05062 0.163 7nt2023 1.016 1.801 PM 10 #6 0.769 6.0 Glass Horizontal 7.00 4.00 Flange Circular 18 254.469 0.6 2.7 4 3 10.0 10.0 12 120 Anderson Box Normal ECOM 1695 1000 g 3 Page 1 39 of 75 AET-014 ISO Template V26 '1-16-23.xls @Mostardi PlatlProject No. M233117 cTo1 Clignt Pacifi@rp Facility: Lak Siro Porer Planl Tsst L@lion: CT01 Slack Oate: El12O23 Test Prc I T€st Meihod: 201A (PM2.5/10) Pb. Earcmkic pB$urc, in. Hg Pr - Ststic pBscurc, in. H2O L - Stack tomp€rature, oF h - Mst€r t€mp€r8tuF, oF Y - Meier qlibElion @nslsnt H@ - Orifi@ @nEtant, in. H20 co2 lo 02 %Nu Bw - Fnction misturc @nlont Ce - Pitot @officiont Dn - Nozlc diamtsr, in. D - celdlslod Nozzl8 diamter, in lnitial totsl run tim, minutos 25.56 -0.5 218.00 76.00 't.016 1.801 1.20 13.40 82.10 0.077 0.769 0.'t63 0.163 120.00 ld-Molcol8. wight of rtack gas, dry bEsi8, lb/lb ml6 lrv - Molc@lar reight ot stacl gEs, Ei b83i8, lt/lb mlc P.- Absluto staqk pc3!uB, in. Hg u, - Vis@8ity of stsck g$, mimpoi& C - Cunningham @r€clion faqtor Dru Dr O. - Cyqlono flow 6ts, cu. i./min. Nrc - Roynolds Numbor Vi- Nozle Val@ity, i,/3oc. Rd - Minimum vclocity Ratio, n./sc. Re- Maximm volocity, Ratio i./s. Vmin - Minimum GEs Velocity Rmin <0.5 Vmin - Minimum Gas Velocity Rmin >0.5 Vmx - Mqimm Gas V€locily Rmx <1.5 Vmx - Maximm Gas Volocity Rrox >1.5 Opmh - Minimum valocity head, in. H2O OpN- Maximum volocity hoad, in. H2O OH - Orif€ prctrurc h€ad for syclon€ iow mtc, in. H 20 29.208 28.3,15 25.523 209.385 1.102 9.916 10.458 0.547 2409.013 a2.927 o.722 1.252 31.463 ,15./t05 7E.770 94.390 0.509 1.532 0.132 ti . Drell lim et fd t?wm point, minutcr L - Calalslion @nstant 9.541 9.097 Cl - Volociiy h.ad at the fiBt travoffi poinl; pEviously 1.100 I evo-1 Cal@latad d$ll tire for caci point: Op Point li 1.10 Point 2: 1.10 Point 3: 1.30 Pointil: 1.10 Point 5: 1.00 Point 6: 1.20 Point 7: 1.20 Point 8: 1.10 Point 9: 1,20 Point 10: '1.30 Poinl 11: f.ilo Point 12: 1.50 AveEge: 1.208 Vn - Actual mtsr gas rclum, a. ff. Vd - Standard gaE volum, cu. i. q - Aciu8l lost lim, rinutee V. - AwEga stad g8s wl@ity, fr./seq 201A Flow Rah, Actual Cyclono Condition3 Actual D50 for Cyclons I (Cut Point), mm (9.0 mm < D50 < 11.0 mm) Aciual D50 tor Cyclono lV (Cul Point), mm (2.25 mm < O50 < 2.75 mm) IKV, % (E0 < [(v <120) Project No. M233117 cTo1 PM2,s/PM10 Cut Potnt Crlcuhlion Dr€lltirc (min.) t.lta 9.5i4 10.37 9.54 0.r0 9.9, 9.97 9.5i1 9.97 10.37 t0.76 11.14 SORT Dp 1.049 1.049 1.140 1.049 1.000 1.095 1.095 1.049 1.095 1.140 1.183 1.225 1.097 ,18.000 ,t'l.090 120.00 69.84E 0.55E 10.307 2.401 92.O12 ?age 2 40 of 75 AET-014 ISO Templat€ V26 1-16-23.xls @Mostardi Platt Numbd ol Runl -Method201N202 Client: Paclflcorp Faclllty: Lake Slde Power Plant Test Location: CT01 Stack Source Condition: Normal Date: Start Tlmo: End Tlme: 8t1123 8:40 1l:03 AH: Meter Temperature, Tm: Sqrt AP: Stack Tempemture, Ts: Meter Volume, Vm: MeterVolume, Vmstd: Meter Volume, \ trstd: lsokinetic Variance: Test Lenglh: Nozle Diameter: Barornetric Pressure: 120.00 in mins 0.163 in inches 25.56 in Hg 0.43 79.8 1.082 222.6 48.051 40.848 2.854 92.2 in. H2O "F in. H2O "F fl3 dscf wscf oA,t -0.50 25.52 4.20 13.40 82.40 29.208 28.476 68.918 1,052,257 648,993 694,341 in. H2O in. Hg. abs. % oh oh lbilb mole lb/lb mole % fus acfrn dscfrn sdm Pressure Flue Pressure (Ps): Carbon Dioxide: Orygen: Nitrogen: Gas Weight dry, Md: Gas Weighl wet, Ms: Excess Air: Gas Veloci9, Vs: Volumetric Flow: Volumefic Florr: Volumetric Flow: MOISTURE DETERMINATION lnitial lmpinger Content: 1765.0 FinallmpingerContent: 1808.5 lmpingerDifierene: 43.5 TotalWater Gain: 60.6 Vclocity Herd Ap Orifice AH ml ml ml Acturl Met r Vgl. ft' Silica lnitial \M. 689.4 grams Silica Final W. 706.5 gmms Silic€ Difierence: 17.1 grams 0.43 0.43 0.43 St ck Temp 48.051 222.6 220.0 227.0 Moislure, Bvrs: 0.065 lrlctar Temp lnlal Oud.i Page 3 41 ot75 lmplng.r CPM Filtu Exit Temp Exit Temp AET-014 ISO Template V26 1-16-23.xls @Mostardi PlattPoect No. M233117 cTo1 lmpinger Weight Sheet - Run 1 Client: Facility: Test Location: Project #: Date: Test Method: Weighed/Measured By: Balance lD: Pacificorp Lake Side Pouer Plant CT01 Stack M233't17 u4t2023 201A^1202 KLJ 1000 s Certified weioht orams 2fi 1,765.0 Liquid lnitial Result. orams 250.0 43.5 Liquid Gain Scale Calibration Check Date: Scale Calibration Check (sec OS6.05C for orocedurs) must be within t 0.59 of certified mass 17.1689.4706.5 IMPINGER FINAL INITIAL GAIN CONTENTS MLS / GRAMS i,LS / GRAMS MLS / GRAMS Empty 438.3 408.0 30.3 Empty 644.5 638.9 5.6 Dl Watel 725.7 718.1 7.6 Silica Gel 706.5 689.4 17.1 silica Final Silica lnitial Silica Gain Page 4 42 ot 75 AET-014 ISO Template V26 1-"16-23.xls @Mostardi PlattProject No. M2331'17 cTo1 Clicnt Pacifi@rp Faciliiy: Lakc Sirc PoEr Plant Tasl LMlion: CTol Stack O81.c: AU2O23 Trlt I T$t Mcthod: 201A (PM2.5/10) PL- Barcmlric pEEruB, in. Hg P! - Siatlc polruE, in. Hp L - Stack trmpcEiuE, 6F t6 - Mctcr irmpcEtuB, T Y - M.i!r elibrslion @nsleni H@ - O.ifi@ @n!tanl, in. H2O %c,2 %01 oa Nz B* - FEclion mirtuE @ntrnt Ce - Pitot @offdrnt Oi - Nozlc dsmtcr, in. D" - Cslql8trd Nozlc diamtcr. in. lniliallotal run tim. minutrs 25.56 -0.5 222.58 79.75 1.016 1.80'l 1.20 't3.40 82.10 0.065 0.769 0.163 0.163 120.00 12 i,ld -Mole@larEight of stack g8s, dry besis, lb/lb mlr M. - MolcolarEight ot steck Oa!, wi balis, lbflb mlo Pt - Absoluto stack pErluE, in. Hg u. - ViE@sity of steck g€s, mimpoir. C - Cunninghsm @reclion facior Dru Ds Q. - Cyclon. iow Ete, a. ll./min. NE - R.ynold3 Nur$or V, - Nozrc Velsity, i./scc. Rd - Minimum wlocity R8tio, i./sac. RM - Msximm vclocity, Ralio fl./src. Vmin - Mlnimum Gas Velocity Rmin <0.5 Vmin - Minimum G8! V6l@ity Rmin >0.5 Vmsx - Maximm Gas VElocity Rmx <1.5 Vmax - Maximm Gas Volociiy Rmx >1.5 Dp* - Minimum wlocity head, in. H2O Dpr - Muimm wl@ity he8d, in. Hp DH - Orifio pGrluD hlad br cydono iow Eta, in. H 20 29.208 28.176 25.523 21 1.548 1.103 9.9'15 10.i156 0.553 2105.576 63.621 0.722 1.252 31.811 45.910 79.637 95.432 0.519 'r.563 0.,[50 ti - Dmll tim 8t frBt bawBo point, minul!! E - Cslqlation @nrtant 9.676 9.2,25 p'1 - Vcl@ity hcrd 8t tha fitsitEwEo poinl; pEvioully t.t 00 1.175 Calalatrd drcll tlm for csch poinl: Point 1: Point 2: Poinl 3: Poinl,a: Point 5: Point 6: Poini 7: Point 8: Point 9: Poini 10: Point 1 l: Poini 12: AvcEgc: Dp 1.10 1.00 1.20 1.00 1.10 1.20 1.l0 1.00 1.20 1.30 '1.,10 't.50 1.175 SORT 1 Drelliim(min.) 9.68 9.23 10.1 I 9.23 9.68 10.11 9.68 9.23 '10.11 10.52 10.92 t't.30 Dp .049 .000 .095 .000 .0i19 .095 .049 .000 .095 .1,t0 .183 .225 .082 Pil2.srPttlr0 Cut Polnl Crlculrdon V. - Actual mtar g€s volurc, e. fr. Vd - Strndard gas volum, cu. ll. q - Actuallclt tim, minutos Vi - Avlragc ltack gas vol@ity, fu$c 201A Flow Rai., Actual Cyclonc Condition! Actu8l D50 ior Cyclono I (Cut Point), m (9.0m<D50<11.0mm) Ac{ual DsO for Cyclonc lV (Cut Point), mm (2.25 mm < O50 < 2.75 mm) tnt,% (E0 < [ry <120) Project No. M233117 CTOl ,18.051 ,10.850 120.00 68.918 0.552 '10.173 2.ffi 92.167 Pago 5 43 ol 75 AET-o14 ISO Temdat. V26 'l-t6-23.xl3 OMostardi Platt Run2 -Method201N202 Client: Paclflcorp Facility: Lake Slde Power Plant Test Location: CT01 Stack Source Condition: Normal Date: Start Time: End Time: 8t4123 11:27 13:.4 AH: Meler Temperature, Tm: Sqrt AP: Stack Temperature, Ts: Meter Volume, Vm: Meter Volume, Vmstd: Meter Volume, \ vstd: lsokinetic Variance: Test Length: Nozle Diameter: Barometric Pressure: 0.44 ln. H2O 79.6 "F 1.078 ln. H2O 222.8 'F 47.818 fl3 40.664 dscf 3.438 wsd 93.1 %t 120.00 in mins. 0.163 in indres 25.56 in Hs Static Pressure Flue Pressure (Ps): Carbon Dioxide: Orygen: Nitrogen: Gas Weight dry, Md: Gas Weight wet, Ms: Excess Air: Gas Velocity, Vs: Volumetric Flow: Volumetric Flow: Volurefic Flow: -0.50 in. H2O 25.52 in. Hg. abs 13.50 % 29.212 lb/lb mole 28.338 lb/lb mole 68.870 fps 1,051,513 acfm 639,522 dscfm 693.596 sc'fm MOISTURE DETERMINATION lnitial lmpinger Content: 2116.8 Final lmpinger Content: 2142.0 lmpingerDifierence: 25.2 Total Water Gain: Volocity Hssd ap in. H2O ml ml ml Silica lnitial \M. 5'12.2 grams Silica Final VVt. 560.0 grams Silica Difierence: 47.8 grams 73.0 Orifi@ Actu.l AH U,otor Vol. ln. H2o frt Moisture, Bws Strck Temp Meter Tomp lnlet Outlot lmpingor CPM Fitter Exit Tomp Exit Tomp "F.F AET-014 ISO Template V26 1-16-23.xls @Mostardi Platt 0.44 o.44 o.44 47.818 222.4 219.0 226.0 79.6 79.6 79.0 80.0 Page 6 44 ot 75Project No. M233117 cTo1 lmpinger Weight Sheet - Run 2 Client: Facility: Test Location: Poect #: Date: Test Method: Weighed/Measured By: Balance lD: Project No. M233117 cTo1 Pacificorp Lake Side PowDr Plant CT0'l Stack M233117 814t2023 201A,t202 KLJ 1il)O g 2,142.O Liquid Final 560.0 Certified Weioht. qrams 250 750 512.2 Result orams 250.0 25.2 Liquid Gain 47.8 Scale Calibration Check Date: Scale Calibration Check (see QS-6.05C for procedure) must be within t 0.59 of certified mass Silica Final Silica lnitial Silica Gain AET-014 ISO Template V26 1-16-23.xls @Mostardi Platt PageT 45 ot 75 IMPINGER FINAL INITIAL GAIN CONTENTS MLS / GRAMS MLS / GRAMS MLS / GRAMS EmpU 740.0 7v.4 5.6 Empty 755.0 737.5 17.5 Dl Water 647.0 644.9 2.1 Silica Gel 560.0 512.2 47.8 Client: Padfi@rp Fecilityi Lake Sido Porer Plant Ts6t Lo€tion: CT01 Stack Oale: 81412023 TEst 2 Tcst Molhod: 2014 (PM2.5/10) Pb. Barcmtdc pressuE, in. Hg P! - Stratic pBssurc, in. H2O L - Stack tompoEturc, oF tm - Mstsr t€mp€EtuE, oF Y - Melar €libEtion @nstEnt H@ - Orifc @nstEnt, in. H20 vo co2 "/. Oz %Nz Bv - FEdion misture @ntont Ce - Pitot @offciont D" - Nozlo diamtor, in. Di - Cal@lat d Nozzlc di.misr, in. lnitialtotal run tim. minutas 25.56 -0.5 222.83 79.58 1.016 1.E01 1.20 13.50 82.30 0.07E 0.769 0.163 0.163 't20.00 Md -Molo@larFight of stack gas, dry baEiE, lMb mle ir{ - Mol€ala, might of stack gas, wt basis, lb/lb mle P.- Ablolutc Etack pGsuE, in. Hg ur - Vir@3ity of stack gas, mi@pdse C - Cunningh8m @ruc{is raclor Dor Dg Q. - Cyclono llow r8t€, q. ft./min. Nrc - Rcynolds Numbor V.. Nozlo Vel@ity, f,./s@. Rd - Minimum wlocity Ralio, fi./soc. Ru - Meximm vslocity, Ratio fl./soc. Vmin - Minimum Gas VolGity Rmin <0.5 Vmin - Minimum Gas V€l@ity Rmin >0.5 Vmx - Maximum Gas Velocity Rmx <1.5 Vmx - Muimum Gas Velocity Rmax >1.5 Dpd - Minimum velocity head, in. HrO Dpn- Maxirum volocity head, in. H2O DH - Orif@ pBssurc h€ad for cyslone iow Et6, in. H ,0 29.212 28.338 25.523 210.487 1.103 9.904 10.452 0.552 2398.503 63.,147 0.722 1.252 31.723 ,15.796 79.112 95.170 0.51,4 1.5i16 0.435 tl - Drell lim €t fiEt travoGo point, minulcr L - Calal.iion @n3tanl 9.710 9.258 Cl - Vqleity hrad .t tho fiBt traveM point; proviously I avo - AvcEm Oo - oovioua run C8l@latcd d$ll iim ior ech point: Op Point 1: 1.20 Point2: 1.30 Point 3: 1.50 Point4: 1.10 Point 5: 1.20 Poirt 6: 1.20 Point 7: 1.00 Point 8: 'l .'l 0 Point 9: 1.30 Point 10: 1.00 Poini 1 'l: '1.00 Poinl 12: 1.10 Avorage: 1.167 Dmlliime (min.) 9.71 't0.56 1 1.34 9.71 10.14 10.'l,l 9.26 9.71 10.56 9.26 9.26 9.71 SQRT Dp 1.095 1.110 1.225 1.049 1.095 1.095 1.000 1.0.{9 'l.1,10 1.000 1.000 1.049 't.078 PM2.5rPtrtl0 Cut Point C.lcuhlior Vh. Ac,tualmst3r gas volume. e. ft. Vd - Standard gas volure, cu. fl. q . Ac'tual test iire, minutes V. - AveEge stack gas v€locity, fl/8.c 201A Flow Rat€, Actusl Cyclons Conditions Actual D50 ,or Cyclone I (Cut Poinl), mm (9.0 mm < D50 < 11.0 mm) Actual D50 tor Cyclono lV (Cut Point), mm (2.25m<D50<2.75m) ilry, % Project No. M233117 cTo1 47.818 40.663 120.00 68.870 0.557 10.378 2.431 s3.103 Pago I 46 of 75 AET-014 ISO Tsmplato V26 1-1&23.xls @Mostardi Platt Run3-Method2O1N2O2 Cllent: Paclflcorp Faclllty: Lake Slde Power Plant Test Locatlon: CT01 Stack Source Condltlon: Normal Date: Start Tlme: End Tlme: 8tu23 l4:05 16:.22 AH: Meter Temperature, Tm: Sqrt AP: Stack Temperature, Ts: Meter Volume, Vm: Meter Volume. Vmstd: Meter Volume. \ ,lrstd: lsokinetic Variance: Test Length: Nozzle Diameler: Barcrelric Presure: 0.45 ln. H2O 81.3 "F 1.075 ln. H2O 220.4 "F 48.223 fi3 40.883 dsc, 3.071 wsc, 93.1 %t 120.00 in mins. 0.'163 in inches 25.56 in Hg Static Pressure Flue Pressure (Ps): Carbon Dioxide: Orygen: Nitrogen: Gas Weioht dry, Md: Gas Weightwet, Ms: Excess Air: Gas Velocity, Vs: Volun€tric Flow: Volurnetric Flow: Volumetdc Flory: -0.50 in. l-l2o 25.52 in. Hg. abs. 4.20 0h 13.40 % 82.4 0h 29.208 lblb mole 28.425 lblb mole 68.428 hs | ,044,77'l acfrn 643,277 dscfrn 691,596 scfrn MOISTURE DETERi,IINATION lnitial lmpinger Content: 1741.2 Final lmpinger Content: 1824.7 lmpingerDifierence: 43.5 ml ml ml Silica lnitial \M. 706.4 grams Silica FinalVVt. 728.1 grams Silica Difierence: 21.7 grams Total Water Gain: Veloclty Hdd ap 65.2 Orilico AH Moisture, Bws: Acturl M.t.rVol- ft' St ck Temp Flltor Extt Tomp T lmplngor Exlt T.mp t CPM Flltor Exlt Tcmp Mstlr T9mp lnlqt Outlel Prcbr Tomp T Total AvoEge Min Mu 0.45 0.45 0.45 220.4 2'18.0 222.0 81.3 8'1.3 80.0 83.0 2:00:30 Project No. M233117 cTo1 Page 9 47 of75 AET-014 ISO Template V26 1-16-23.xls @Mostardi Platt 1-'l 14:05:0O 1 1o 045 87 848 221 80 ao 219 )6 a7 e) 1-2 14:15:1 5 1.10 0.45 91 970 220 80 80 219 251 56 81 1-3 14:25:0O 1.20 0.,t5 95 870 221 81 81 251 252 63 a2 14i35:15 99 985 2-1 14:41:00 1.00 0.45 s9.985 214 81 81 219 250 65 a3 2-2 14i50:15 1.10 0.45 r03 680 219 80 80 251 219 62 a2 2-3 15:0O:0O 1.10 0.45 r07 570 214 81 81 250 219 63 a2 15:09:45 l',l1 492 g'l 15:16:00 1.10 0.45 1.452 221 a1 81 252 214 65 a3 t2 15:25:45 1.10 0.45 I 15.370 221 a2 a2 2fi 251 5{al 33 15:35:30 1.10 0.45 1 19 300 221 a2 a2 2fi 2fi 63 a0 15i45:15 123 199 +1 15:50:00 1.30 0.45 123.199 222 a2 a2 250 214 65 al 4-2 ,6:0O:30 1.20 0.45 127.100 22',|a2 a2 252 2fi u a2 {-3 16:10:45 1.50 0.i15 t31 510 222 a3 83 251 219 63 a0 16:22:15 I35't1l lmpinger Weight Sheet - Run 3 Ctient: Facility: Test Location: Prolect #: Date: Test Method: Weighed/Measured By: Balance lD: Project No. M233117 cTo1 Pacificorp Lake Side Power Plant CT01 Stack M233117 814t2023 201At202 KLJ 1000 g '1,824.7 Liquid Final 728.1 Silica Final Certified Weioht. orams 250 Result. qrams 250.0 750.0 43.5@ silica Gain AET-014 ISO Template V26 1-16-23.xls @Mostardi Platt Scale Calibration Check Date, 8Ur12023 Scale Calibration Check (see QS6.05C for procedurel must be within t 0.59 of certified mass Page 10 48 ot 75 IlllPINGER FINAL INITIAL GAIN CONTENTS MLS / GRAMS MLS / GRAMS MLS / GRAMS Empty 439.2 408.0 3't.2 EmpU 651.6 647.7 3.9 Dl Water 733.9 725.5 8.4 Silica Gel 728.1 706.4 2't.7 Clirnt P8cifi@rp Facility: L8k. Sids Powr Plsnl T6sl LHlion: CT01 Stack Oetc: 8ADO23 T6rt 3 Test Mcthod: 20lA (PM2.5/10) Pn- Barcmtic pcssuE. in. Hg P! - St tic pcsuF, in. H2O L - Stack tcmpoEtuB, oF t" - Mrtcr tcmpeEtuE, 'F Y - Mctcr elibction @nltani H@ - Orifi€ @nstant, in. H2O @2 Oz %Nz Bw - FEction mistuG @nlGnl C, - Pitot @cfficionl D.- Nozlc diamlcr, in. Oi - Cal@latcd Nozr. diamtcr, in. lniiisl lotel run tim, minutrs Numbor of @ints 25.56 -0.5 220.12 a1.25 1.016 1.801 1.20 13.i10 82.10 0.070 0.769 0.163 0.163 120.00 ,t2 Md -Molo@lermight of rtaci g8s, dry baEi3, lb/lb rcle i& - Moloqlarrcighi of liack gas, Et b8sis, lblb mle Pr - Absolutc atacl pc!!uG, in. Hg u. - M!@sily ot st€cl gss, mkxopois. C - Cunninghem @@slion factor Dur Dg O. - Cyclonc llw ntc, @. f,./min. NB - Reynoldr Numbor Vn - Nozre Vcl@iiy, lt./sc. Rd - Minimum wlocity R8lio, il./$c. RE - Msximm sl@ity, R8iio i./@. Vmin - Minimum Ge! Vol@iiy Rmin <0.5 Vmin - Minimum Ga! Volocity Rmin >0.5 Vmax - Maximm GaB Volocity Rmx <1.5 Vmx - Maximm Ga8 Voloclty Rmx >1.5 Dpd - Minimm vclodty hcad, in. H2O Dptu - Mlximm wlocity hrad, in. Hp DH - Orifie pErluE hcad br clclonc llow Eir, in. H 20 29.208 28.125 25.523 210.6't6 1.103 9.916 10.,158 0.550 2107.712 63.309 0.722 1.252 31.655 15.682 79.219 9.t.96i1 0.515 't.550 0.,1,15 it - Drcll tim at fBt travcBc poinl, minuteg t - Cslculalion @nEtant 10.'t78 9.251 p''l - V.le.iiy head at th. fiBt traEM poini: pEviously 1.200 Cal@laicd drell tim. for cach point: Op Point 1: 1.,l0 Poini2: 1.10 Point 3: 1.20Pointil: 1.00 Poinl 5: 1.10 Point6: 1.10 Point 7: 1.10 PointS: 1.10 Pointg: 1.10 Point 10: 1.30 Point 11: 1.20 Point't2: l.5O AveEg€: '1.'158 Dwlltim(min.) 't0.18 9.74 't0.18 9.29 9.71 9.71 9.71 9.71 9.74 r0.59 't0.18 1 1.38 SQRT Op 1.049 1.049 't.095 't.000 't.049 1,049 '1.049 1.(N9 1.o/tg 1.'t40 1.095 1.225 't.075 Pt2.srPill0 Cut Polnt Crlcuhdon Vil - Actusl m.lrr gEs wlure, a. it. Vd - Siendard gas volum, cu. i. q - Aq-tuel tcat tim. rinulor V. - AwEg6 slack gas rel@ity, i,/&c 201A Flil R.tc, Actual Cyclonc Condiiions Aclual D50 forcyclono I (Cut Point), m (9.0 mm < D50 < '11.0 mm) Actu8l D50 for Cyclon6 lV (Cul Poinl), mm (2.25 mm < D50 < 2.75 mm) ll0, 0/6 (80 < tKr' <120) Project No. M233117 cTo1 18.223 ilo.E82 120.00 66.428 0.553 10.419 2.45 93.059 Pago 1'l 49 ol 75 AET-014 ISO r€mplatc V26 1-16-8.nr @Mostardi Platt Cllmt: Pacifi@rp Frcility: Lak6 Sid6 Power Plant Toat Lo@iim: CT01 Stack Prolect il: M2331 17 Run I D.to: U4l2O23 IUle gI&.lt!ry) 8:43 13.50 8t44 13.40 8:45 13.40 8:46 13.40 8:47 13.40 8:48 13.30 8:49 '13.30 8:50 '13.40 8:51 13.40 8:52 13.40 8:53 13.40 8:54 13.40 8:55 13.40 8:56 13.40 8:57 13.40 8:58 13.40 8:59 13.40 9:00 13.40 9:01 13.40 9:02 '13.40 9:03 13.40 9104 13.40 9:05 13.40 9:06 13.40 9:07 13.40 9:08 13.30 9:09 '13.30 9:10 '13.40 9:18 13.40 9:'19 13.30 9:20 13.30 9t21 '13.30 9122 13.30 9:23 13.30 9:24 13.30 9:25 13.30 9:26 13.30 9:27 13.30 9:28 13.30 9:29 13.30 9:30 13.30 9:31 '13 30 9:32 13.30 9:33 13.30 9:34 13.30 9:35 13.30 9:36 13.30 9:37 13.30 9:38 '13.30 9:39 13.30 9:40 13.30 9:41 13.30 9:42 13.30 9:43 '13.30 9:44 13.40 9:45 '13.40 9:46 13.40 9:55 13.40 9:56 13.40 9:57 '13.40 9:58 13.40 9:59 13.30 10:00 13.40 10;01 13.30'10102 13.30 10:03 13.30 10:04 13.30'10:05 13.30 10:06 13.30 10:07 13.30 10:08 13.30 10:09 13.30 10:10 13.30 10:11 13.30 10:12 '13.30 '10:'13 13.30 Project No. M233117 cTo1 Run 3 alq2023 Run 2D.to: alq2o23 C92-9il94) 4.10 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.10 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.10 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 IIqe 11:3'1 11:32 '11 :33 11:U 11:35 1 1:36 11:37 1 1:38 1 1:39 1 1:40 11:41 11.42 1'1r43 11144 11:45 'l 1:,16 11:47 11:48 '1'l:49 1'l:50 '11:51 11t52 11:53 11:54 11:55 1 1:56 11:57 1 1:58 12:05 '12:06 12.O7 12:08 12;09 12:1O 12:11 12.12 12:13 12:14 12t15 12:16 12:17 12:18 12:19 12:2O 12.21 '12.22 12:23 12:24 12.25 12.26 12:27 12:28 12.29 12:30 12:3'l 12:32 12:33 '12:42 12:43 12:44 12:45 12:46 12147 12:48 12:49 12:5O '12.51 '12:52 12:53 '12.5,4 12:55 '12:56 12:57 12:58 12:59 13:00 9Z-%.(!ry1 @!.lL(!q)13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20'13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 'f 3.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.60 4.20 13.60 4.20 13.60 4.20't3.60 4.40 13.50 4.20 13.40 4.20 13.40 4.20 13.40 4.30 13.50 4.30 13.40 4.20 13.40 4.20 13.40 4.20 13.40 4.20 13.40 4.20 13.40 4.20 13 50 420 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13 50 4.20 13 50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20'13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20't3.50 4.20 13.50 4.20 13.50 4.20'13.40 4.20 1340 420 13.40 4.20 13.40 4.20 13.40 4.20 13.40 4.20 13.40 4.20 13.50 4.20 13.50 4.20 13.50 4.20'13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13.50 4.20 13 50 420'13.40 4.20 13.50 4.20 Page'l 50 of 75 D.b: I0s 92i&.1!!sl g!2i&.!Url 1407 13.60 4.00 14:08 '13.50 4.10 14:09 13.40 4.'10 14:10 13.40 4.2O 14:11 13.40 4.2O 14:12 13.40 4.2O 14:'13 13.40 4.2O 14:14 13.40 4.2O 14:15 13.40 4.2O 14:16 13.40 4.2O 14:17 13.40 4.2o 14:18 13.40 4.2o 14:'19 13.40 4.20 14:20 13.40 4.2O 14:21 13.30 4.20 14:22 13.30 4.20 14:23 13.30 4.20 14:24 13.30 4.2O 14:25 13.30 4.20 14:26 13.30 4.20 14:27 13.30 4.20 14t28 13.30 4.20 14:29 '13.20 4.2O'14:30 13.30 4.2O 14:31 13.30 4.2O 14:32 13.30 4.2O 14:33 13.30 4.2O 14.34 13.30 4.2O 14:42 13.40 4.00 14:43 13.40 4.10 14:44 13.30 4.10 14:45 '13.30 4.10 14.46 13 30 4.2O 14:47 13.30 4.20 14:48 13.40 4.2O 14:49 13.40 4.10'14:50 13.40 4.10 14:51 13.40 4.10 14:52 '13.40 4.20 14:53 13.40 4.10 14:54 13.40 4.10 14:55 '13.40 4.10 14:56 13.40 4.2O 14.57 13.40 4.20 14:58 13.30 4.10 14:59 13.30 4.20 15:00 13.30 4.20 15:01 13.30 4.20 15.02 13.30 4.2O 15:03 13.30 4.20 15:04 13.30 4.20'15:05 13.30 4.20 15:06 13.30 4.10 15:07 13.30 4.20 15:08 13.30 4.10'15:09 13.30 4.20 15:18 13.30 4.'10 15;19 13.30 4.20 15:20 13.20 4.20 15:21 13.20 4.20 15:22 13.20 4.20 15:23 13.20 4.10 15:24 13.20 4.2O 15:25 13.30 4.1O 15:26 13.30 4.10 15:27 13.30 4.10 '15:28 '13.30 4.10 15:29 13.30 4.2O 15:30 13.30 4.20 15:31 13.40 4.20 15:32 13.40 4.20 15:33 13.40 4.10 15134 13 40 4.2O 15:35 '13.30 4.10 15:36 13.30 4.2o 15137 13.30 4.2O AET-o14 ISO Template V26 1-1&23.ns @Mostardi Platt Cllcnt: Pecifimrp Frclllty: L€ke Sido Ptrsr Plent T..i Loc.tlon: CT01 Steck PrcJoctf: M233117 Run I Drts: U{i2O23 IIIE 10:14 10:15 '10:16 1O:17 10:18 10:19 1O:2O 1O:2'l 'lO:22 10'23 10:3'l 'lOi32 '10:33 10:34 '10:35 10:36 '10:37 10:38 '10:39 10:40 1O:41 1O:42 '10:43 'lO:44 10:45 '10:,16 1O:47 10:48 l0:,19 l0:50 '10:51 10:52 '10:53 '10:54 10:55 '10:56 10:57 10:58 10:59 '11:00 11:01 '11:02 13.30 13.30 13.30 r3.30 't3.30 13.30 13.30 13.30 13.30 't3.30 13.40 13.40 13.40 r3.40 't3.40 13.40 13.4t) 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 13.40 '13.40 13.40 '13.40 13.40 13.40 13.40 13.40 13.40 13.40 4.20 4.20 1.20 4.20 4.20 1.20 4.20 4.20 1.20 4.20 4.20 4.20 4.20 4.20 1.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 1.20 4.20 4.20 4.20 1.20 4.20 4.20 4.20 4.20 4.20 4.20 1.20 4.20 4.20 1.20 4.20 Ilor 13:01 13:02 13:03 13:04 13:05 13:06 13:07 '13:08 13:09 '13:10 13:17 13:18 13:19 13:20 '13:2'l 13:22 13123 13:24 13:25 13:26 '13:27 '13:28 13:29 '13:30 13:3'l 13:32 13:33 13:34 13:35 13:36 13:37 13:38 13:39 13:40 13:,11 13:42 13:43 13:44 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.'t0 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 4.20 1.20 4.20 IEEe 15:38 15:39 15:40 '15:41 15142 15:43 15:4 '15:45 15:51 15:52 15:53 15:51 15:55 15:56 15:57 l5:58 '15:59 16:00 16:01 16:02 16:03 16:04 16:05 16:06 16:07 16:08 '16:09 16:10 16:1 1 16:12 '15:'13 16:14 16:15 16:16 '16:17 16:'18 '16:19 '16:20 16:2'l 4.20 4.20 4.10 4.20 4.10 4.20 4.10 4.20 4.10 4.10 4.10 4.20 4.20 4.20 1.20 4.10 4.10 4.20 4.20 4.20 4.20 4.20 4.20 4.10 4. t0 4.20 4.20 4.10 4.20 1.20 4.20 4.20 4.20 4.20 4.20 4.',to 1.20 4.20 4.20 gf9ilg4l co2 %lddl Run 2Drb: ti4m2t 13.50 13.50 13.50 13.50 '13.40 't3.40 13.40 13.40 13.40 13.r10 13.40 13./() 13.40 13.40 r3.40 13.40 13.40 13.,1O '13.40 'l3.,lO 13./rc 't3.40 13.50 13.50 13.50 13.50 13.50 13.50 13.50 't3.50 13.50 13.50 orutllltrl Cgrutltltrl Run 3 D.t : El,lfrzl 13.30 13.30 13.30 13.30 't3.30 't3.30 13.30 13.30 13.30 13.30 '13.30 '13.30 13.30 13.30 13.40 13.40 '13.40 13.40 13,40 13,40 13.40 't3.40 '13.40 13.40 13.40 13.40 13.40 13.r() 13.40 't3.40 13.40 '13.,10 13./t0 t3./O 13.40 13.40 13.40 't3.40 13.50 AZlt$trI Cg3ltllltrl 13.50 13,50 13.50 13.50 13.50 13.50 4.20 4.10 4.40 AYanCc tlln mrr 13,36 13.30 13.50 a.2l 4.10 1.20 Avengo 14.47 llln 13.40 M.r 13.60 Avangl ttnilrr t3-35 13.20 13.60 1.17 4.00 4.20 Pag6 2 51 of75 AET-014 ISO Temprars V26 't-1&23.is @Mostardi PlattProject No. M233117 cTo1 Appendix G- Field Data Sheets Project No. M233117 cTo'l 52 ot 75 @Mostardi Platt Gomments: DS-004 lsokinetic Sarnpling Corer Sheet Project No. M2331'17 cTo1 lsoki netlc Samplint Cover Sheet Eu-Rtz Rev. 3.2 53 of 75 nt? 1t1R021 OMostardi Plaft Client:Ya.crh co, e Pitot Tube Gp:0.169 Faclllty:L*tze 5lde ?otua, Plar,t Prube Length (Feet):6 Test Location:CTO| 9tu.rL.Probe Llnsr taterial:Qva rlz Prolect #:MZl tt t1 Srmple Plane:6zt orvert. Test Method(s):Zot AlzoZ Port Length ("):-7 Test Engineer:D?P Port Dlameter ("):h Teet Technlcian:DC5 Port Type:F(aae, Upstream Dlameters:0.b Duct Shape:@fJ,', Downstmam Diameterc:2.t Diamets (Fcet):r0 il of Portr Sampled:tl Length (Feet): fl ol Polnb per Port:3 Width (Feet): Sourcc Condition:N or^o\Duct Arua (Sq. Feet):?5u,ue 9 Diluent todeUSN:Ecou 1695 Hinutas pcr Polnt:14 l0 tlld Ges lDlconcentration:BLAooosr? pr.CoLbb ")g)"Total Travcrse Polnts:t2 Hlgh Gas lDlconcantratlon:Lt3$o9o /%cbsrB? "i}i''Teat Length (tlln.):e lLo ilolsture Balence lD:l0O0q Tnln Typa:AnJe,;on teter lD:Cna qq CMktl CA qr Pitot lD:Pl'42i lo- tooA PM ?5 t o- looA PuzEro - t00n Fllter lD:\96\ksor \9 6g Fllter Pre-Weight (g):2.gBosg 3 or16 5 3.oso 6Z Nozzle Diameter ("):0 16\0 t6\0.16't tcter Cal Factor (Yl:l.ot6 l.ot6 t.ot6 ileter Orifice Setting (AH):t.$o\l.Bo t 1.bot Nozzle Klt lD:P/v1 (0 1t 6 P&r ro #6 P/vr rc # 6 lndlvidualNozzle lD:lo6'-Y r06- I 105-r.1 Pre Pltot Leek Check:0oo @ q "Hzo O.OO @ tr'HzO 0.00 @').5 'Hzo Post Pitot Leek Check:0.oo @ q "Hzo 0,oo @ 3i 'HzO o,00 @ q "Hzo Pre Nozzle Leak Check:0.ooo @ 12 ,Hs 0.Ooo @ ll "Hs 0.oco @ t2 'Hg Pogt Nozzle Leak Check:tC.OOo @ t0 "Hs Q.OO,c g l0 ,,Hg 0,00U @ l0 'Hs Barometrlc PreSture,"Hg :25.56 L55t '25 56 Statlc Preesure, "Hr O:-05 -C.-)- o.5 COzo/"2 14.'1"1.2 vl.L OtYoz t?. ti 175 li, L1 Project Number: Client: Test Location: Source Condition: Test Engineer: Not ^al ,\21n111 ."r*-r r*OW Volumetsic Flow Rate Determination Field Data Sheet Date: Test Number: Start Time: End Time: Test Tech: s lql?1r7 lo o.-769 !15nO1A @Mostardi Platt DPP Ouct Diameter lt n Upstream Disturbance, Diameters 0 6 flueNea ZS'tnTtP Durrnstream Disturbance, OiameterE- PortLengtr -'1- " PortSize 'r 'PortType-Flange-pitotiOfuf[^ra@mcient(Cp) tl+0fP po* zE56 E cor7lE_ -wer Bulb-Terp ---4 r-ear qreiri eiGl'g 4 x COzoh + .32 x Oz% + .28 x I&% = _ (Md) (__Mdx_l-Bua)+(18x BuvB)=_(Ms) 85.,t9 x _cp , -@x _ .,[a-'F, - _ fl/sec (vs )\l -ttr x -PsVs x _ Flue Area x 60 = 17.617 x acftn * PS = Ts oR DS-001 Method 2 Pitot Sheet Project No. M233'117 cTo1 acfm sejmx6o=_sclh Rev.'t.1 54 ot 75 Port- Point #AP Temp. OF .6 Null Point Angle, Degrees Port- Polnt #AP Temp. "F lF Null Point Angle, Degrees A.22o (- 1 a.c LZi Z z?l ?_I.I Z?\ \1.1 z'ta z -lzvl t4^lt cal 0.-tb 225 Z l.o 22-tJ L t1 z)b z 1.1_')rl f q t.5 2Z\ Averaqe lsokinetic Sampllng Field Data Sheet Pro.lecl Number: Claent: Planl: Oate: Test Location: TeBt Method: /\Az11t t1--8,'{'tr* Lnvs S,Je Po*er l'lc^^t Blklij reslNumbor: CTO Shrt(,r oPerator: O([, $rdrtu ZOWeoZPage Numbet Rev 2.1 55 ol 75 I OP? TestTech: D(9 OS{05 M5lskinetic Freld Data Shet Pro,ect No. M2331'17 cT01 12t23t2019 @Mostardi Platl lsokinetic Sampling Fleld Data Sheet lUt Lllt tl oate: ---7;h'.-p TeslLocation t"* 5J.l;;mt restMethod: Test Number:LProiecl Numberi Client: Plant: ClOt ttacl^ operator: Page Number: DfP restTech: OC9 2o)!.12_QL+ffi_P?_ OS4o5 M5lsokioetic Field Oata Sh$t Prqect No. M2331 1 7 cT01 Rev. 2.1 56 of 75 12r2.3t2o19 OMostardi Platt lsokinetic Sampling Field Data Shect Prolecl Number Client: Planl: /v\La\tn Date; Test Location: glq I L\ resr Number: Cftl 5k^"r^ operator: Rcv 21 57 of 75 j -TPf- r""tr""ttjc, Port- Point t Strck Tcmp, oF DS{05 M5 lsokinatic Ficld Oara Sheel ProJsct No. M2331 17 cT01 12n7t2019 @Mostardi Platt Appendix H- Calibration Data Project No. M2331'17 cTo1 58 of 75 @Mostardi Platt MOSTARDI PLATT Procedures for Method 5 and Flow Calibration Nozzles The nozzles are measured according to Method 5, Section 10.1 Dry Gas Meterc The test meters are calibrated according to Method 5, Section 10.3 and 16.1 and "Procedures for Calibrating and Using Dry Gas Volume Meters as Calibration Standards" by P.R. Westlin and R.T. Shigehara, March 10, 1978. Analytical Balance The accuracy of the analytical balance is checked with Class S, Stainless Steel Type 303 weights manufactured by F. Hopken and Son, Jersey City, New Jersey. Temperature Sensing Devices The potentiometer and thermocouples are calibrated utilizing a NIST traceable millivolt source. Pitot Tubes The pitot tubes utilized during this test program are manufactured according to the specification described and illustrated in the Code of Federal Regulations, Title 40, Part 60, Appendix A, Methods 1 and 2. The pitot tubes comply with the alignment specifications in Method 2, Section 10.1; and the pitot tube assemblies are in compliance with specifications in the same section. CN&F-002 Cal Procedures M5 & flow 8t10t2015 Project No. M233117 cTo1 59 of 75 @Mostardi Platt Dry Gas Meter/Gontrol Module Galibration Diagram ATD-090 Dry Gas Meter Calibration Project No. M233117 cTo1 Rev. 1.2 il1no21 60 of 75 @Mostardi Platt Meter Box Calibration Dry Gas Meter Calibration Data Date:Dry Gas Metq No. Stadard Meter No. Stadatd Meter (Y cM44 1 8654513 1.00630 CaliMatd By: Barometic Presswe: July 7, 2023 swK 24.89 Run Numlw Orifice ;etting in H rO .]ln lHl StaNard Meter Gas Volume Dry Gas Metet Gas volume vd StaNard Meter Temp. F" W Gas Meter lnlet Temp. Fo tdi WGasMetq )utletTemp. F' tdo Dry Gas Mets Avg. Temp. F" td Time Min Time Sec Cho H) =inal nitial )ifrsence 1l o.2( 647.460 575.619 71 71 71 71 t9 0 1.012 1.866 642.369 570.555 70 71 71 5.091 5.064 71 71 71 :inal nitial )iffqence 2l o.s( 652.691 580.791 71 71 71 71 12 o 1.016 1.766 647.460 575.619 71 71 71 5.231 5.172 71 71 71 =inal nitial )ifference 31 0.7( 657.840 585.904 71 71 71 71 t0 0 1.012 1.772 652.691 580.791 71 71 71 5.149 5.109 71 71 71 :inel nitial )iffqence 4l o.s( 663.094 591.085 71 72 72 72 I 0 1.018 1.771 657.840 585.900 71 71 71 5.254 5.1 85 71 72 72 =inal nitial )ifference 51 1.2( 668.369 596.295 72 73 73 73 I 0 1.017 1.851 663.094 591.085 71 72 72 5.275 5.210 72 73 73 =inal nitial )ifference 6l 2.U 673.581 601.422 72 73 73 73 6 0 1.019 1.779 668.369 596.295 72 73 73 5.212 5.1 27 72 73 73 Averaoe 1.016 't.801 Projod No. M233 1 1 7 cT01 6l of75 @Mostardi Platl Stack Temoerature Sensor Calibration Temperature lD:cM44 Name:SWK Ambient Temperature, o F :74.1 Date:Julv 7. 2023 Tem oeratu re Cal i brator Model #:CL23A Certification Date:Mav 18,2022 senal #:T-285668 Exoiration Date:Mav 18.2023 Primary Sfandards Directly Traceable National lnstitute of Standards and Technology (NIST) Reference Source Temoerature (o F) Test Thermometer Temperature (o F)Tem oeratu re Difference %o 0 0 0.0 250 249 0.1 600 597 0.3 1200 I 197 0.2 (Rd. Ternp.. "F + 460) - (Ted Therm. Ternp.. "F + 460) * 100 <= 1.s yo Rd. Ternp., oF + 450 Project No. M233117 cTo1 62 ot 75 @Mostardi Platt DryGasMeterNo. CM44 StaNad Mater No 18654513 stada|d Meter (Y) 1.00630 Meter Box Calibration Dry Gas Meter Callbratlon Data Date: Calibrated By: Baromeldc Pressure: August 16,2023 RMF 24.99 Avenoe 0.997 1.816 OMostsrdi Platt63 of 75Prcject No. M2331'17 cT01 Run Number Onficc Setting in H zO Chd lHl Slandad Metet Gas volume Dry Gas Meter Gas Volume vd Standad Meter Temp. Fo tr Dry Gas Meter lnlet Temp. Fo kri Dry Gas Meter )utletTemp. Fo tdo Dry Gas Meter Avg. Temp. Fo td fime Min Time S€c Chg (H) =inal nitial )ifflrcnce 1l O.2O 950.305 682.810 81 79 79 79 18 31 1.O14 1.772 945.169 677.729 79 78 78 5.1 36 5.081 80 79 79 'inal nibal )itrercnce 2l o.5o 961.082 693.Ul 83 82 82 82 11 52 0.990 1.795 955.902 688.392 82 81 81 5.180 5.249 83 82 82 =inel nilal )ifference 3l o.7o 966.583 699.194 83 84 u 83 10 /U o.995 1.822 961.O82 693.U1 83.OOO 82 82 5.501 5553 83 83 83 =inal nitial )itrerence 4l O.gO 972.@9 7M.794 u 85 85 85 I 27 o.990 1.8U 966.583 699.194 83 84 u 5.516 5.600 84 85 85 =inel nitial )ifferenc€ s I 1.zo 978.O34 710.788 84 86 86 86 I 59 0.996 1.878 972.099 704.794 4.000 85 85 5.935 5.994 84 86 86 =inal nital )ifrerene 61 2.oo 955.902 688.392 82 81 81 80 6 28 1.000 1.825 950.305 682.il4 81 79 79 5.597 5.582 82 80 80 Sfack Temperature Sensor Calibration Temperature lD :CM44 Name:RMF Ambient Temperature, o F :82.7 Date:Auoust 16. 2023 Certification Date: Primary Sfandads Directly Traceable National lnstitute Reference Source Temoerature (" F) TestThermometer Temoerature lo Fl Difference lo 0 0 0.0 250 249 0.1 600 596 0.4 1200 1 197 0.2 (Ref. Temp.. "F + 460) - (Test Therm. Temo.. 'F + 460) * 100 <: 1.5 % Ref. Temp., "F + 460 Project No. M233117 CTOl 64 ot 75 @Mostardi Platt Quality Sourcc fulliplillg Systerrlls & Acr,qsorlq S-Wpe Pitot ID: Standad Pitot ID: Cp(std): Part Number: Test Veloclty (fps): Wlnd Tunne! Locatlon: 70t E. Club Blvd", Druharq North Camlina 27704 Project No. M233117 cTo1 Date: 23-Feb-14 Personnel: BR Cp(actual): l' 0.169 I Pslln Hg): 29.54 T(oF): 56 Tunnel Slze: 3O" x 36" PIrl25lO-1OO RE2-20 o.99 PPISI2-Y-PI{10 50 Wrkr lorrct, ilC ul e Ul + TfOTES: 1. Pltot callbratcd wlth an Envitonmantal Supply Co. Pltl0 cyclone. 2. C, ic only valld when uscd wlth PMIO cydonc. 3. Gr le only valld wlth !" rpaclng ?rcm Plrll0 cydonc. Cp(s):AGrrDm *Devlatlon = tCp(s) - Atl6Cp(s)) {mustbe <o.oto} Standard devlatlon of the devlatlons must be less than 0.02 for both sldes. Pltot tuba S/Il PU2!fO-1OO wer ollbrrtrd ln eccordrncr wltir thc CFR aO, Prrt tO App.n.tlr Ar l{drod & Scctlon 10. www.envhureupply.com 65 of 75 919-956-968t FAX: 919-6t2-0333 OMostardi Platt S TYPE PIEOT TUBE PitotTube No: PM25'10-100 I!{SPECE ION I'ORKSEEET Date: 813012021 lnspectors Name: AMS Type of Probe: (circle one) Pitot tube assembly level? Pitot tube openings damaged? a,r= 2 '(<10o), br = 1 '(<5"), o.aa cr <0. <0.05 cv - -'-- '--' (r/16 rx.) tyE rN.) TRANSVERSE - TUAF dls__J___--ffni'-Tt-- IUNSERSE 1llIlE_tIri_l X yes Probe Length:6ft. TOTE: f .os q<Pr <r.so DL '^ =', ^-------.----1'l[fi4]sl$:l-r---pz __ A ^ -\ ----"-,-P-:i---- A'/ ti'-E- - r#:rw d2= bz= 1 0 yes (explain below) o (.1 o') o (.so) 0.959 (in.) z=Asing= w=Asinq= 0.000 (in.); (<0."125 in.) 0.000 (in.); (<0.0312s in.) ", o=o o,A=0.479 (in.), Dr = 0.375 (in.) Calibration required? Project No. M233117 cTo1 a yes -Lno 66 of 75 Pr = 0.+Zg (in.), Pe = OMostardi Plaft S TYPE PitotTube No: PM2510-100 Type of Probe: (circle one) PITOT TI'BE INSPEETION WORXSEEET 8n12023 Probe Length: 6 ft. xoE: F.os q<Pr <r.s DL '^ =', lnspeclors Name: lMBl ,z,t ilI ll Pitot tube assembly level? Pitot tube openings damaged? !Yes yes (explain belor/) dr= 1 "('10), az= 1 "(.10") br= 1 '(<5"), b2= 1 "(.5") Y= o "' o= a"'o= 0'960 (in) Calibration required? _yes X no Project No. M233'117 CTOl Pr = 0.480 (in.), P" = 0.480 (in.), Dt =0.375 (in.) Xno z=Asing= w=Asinq= 0.000 (in.); (<0.125 in.) 0.000 (in.); (<0.03125 in.) a o.al cx <Dr <0.95 cY (J,/ro rx.) tJ,a rx.) 67 ol75 OMostardi Platt Date: Analyst: cAT-o1 Project No. M233117 cTo1 Nozzle Calibration Rev. 0.0 68 of 75 Nozzle ID No.: 106-4 Material/Type: PM 10 4t28/2023 RMF 0.164 0.164 0.161 0.164 Ave 0.163 2 a a 9t13t2013 @Mostardi Platt % ClLil: P.ciicorp F.cillty: Lrk. Sidc Pffir Pleil PDI@It: M233117 T.al L6rto: CT01 Sbck Op.ntoE DPP Tc3r ildhod.: 34,201A/202 PsgE I 69 of 75 AET{14 ISO Trmplate v26 ,-'lG8.ns @Mostardi PlattPrcjed No. M233117 CTO.I Client: Pacificorp Facility: Lake Side Power Plant Project #: CT01 Stack M233117 Test Location: Linearity Cal/Pre Run I Cal Date: 81412023 Time 6:51 6:51 6:51 6:51 6:52 6:52 6:52 6:52 6:53 6:53 6:53 6:53 6:54 6:54 6:54 6:54 6:55 6:55 6:55 6:55 6:56 6:56 6:56 6:56 6:57 6:57 Project No. M233117 cTo1 O2olo ldwl 19.10 19.00 19.00 19.00 19.00 19.20 20.50 20.90 1.60 0.00 0.00 0.00 0.00 0.00 0.00 12.00 10.20 10.10 10.10 10.10 10.10 10.10 10.10 10.10 10.10 10.10 CO2 % (drv) 18.90 18.80 18.80 18.80 18.90 15.70 0.80 0.10 0.10 0.00 0.00 0.00 0.00 0.00 0.00 6.20 8.60 8.00 9.80 9.90 9.90 9.70 9.70 9.70 9.80 9.70 iz z m im tz z tm m a .ta- Page2 70 ol 75 AET-014 ISO Template V26 1-16-23.xls @Mostardi Platt Clbnt Padficorp F.clllty: l.3ke Side Porer Plent Po.t lrPn 2 Po.t ZPra 3 Pott t IIo! o2*ldrur Cg3-rldlll IIEr gSltIEl SgL,:f,.]ldEt IIot gtltlCEl co2!6lddr 1l:05 0.00 z 0.00 z 13:45 0.00 z 0.00 z '16:27 0.00 z 0.00 z ll:05 0.00 0.00 13:45 0.0O 0.0O 16:27 0.00 0.00 1 l:05 0.00 0.@ 13:45 4.80 2.@ 16i27 0.00 0.00 1 l:06 0.00 0.00 13:45 '10.10 6.20 16t27 5.60 3.30 l1:0€ 4.50 3.2O '13:46 10.10 9.60 '16'.28 10.10 7.80 1l:OO 'lO.2O 7.2O 13:46 10.10 9.70 1A'.2A 10.10 9.80 ll:06 10.10 8.00 13:46 10.t0 m 9.70 m 16:28 10.'t0 9.7011:07 10.'10 9.70 16:28 10.'10 m 9.70 m ll:07 10.'10 m 9.70 m T6t Loc.til: CT01 Steck Pnor.ct t: M2331 17a t Pago 3 7'l ol75 AET{14 ISO Tomplet! V26 1-1&23.{s @Mostardi PlaftProject No. M2331'17 CTOl Appendix l- Gas Cylinder Certifications t { , a ( Project No. M233117 cTo1 72 oI 75 @Mostardi Platt CERTIFICATE OF AI{ALYSIS Grade of Product: EPA PROTOCOL STAIYDARI) Part Number:E03N180E80A7767 Airgas. an Alr Uquide company Airgac Specialty Gases Airgas USA LLC S2S North Industrial Loop Road Tooele, UT 84o24 Airgas.com a Jr L Cylinder Number: 8LM000567 Laboratory:124 - Tooele (SAP) - UT PGVP Number: 872022 Gas Code:co2,02,BALN Elpiration Date: Mar 09, 2030 Certificaton performed in accordance with 'EPA Traceability Protocol for Assay and Certification of Gasoous Calibration Standards (May 2012)' document EPA 600/R-12/531, using the assay procedures listed. Analytical Methodology does irot require conection br analytical intertur€nce. This iyliiOer nai a total analytical uncertainty as stated below with a confidence level of 95%. There ar€ no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mole basis unless otherwise noted. The results relate only to the items tested. The report shall not b€ reproduced except in full withoul approval of th€ laboratory. Do Not Us€ This below 100 osio. i.e.0.7 7.489 o/o CARBON DIOXIDE/NITROGEN 12.05% OXYGENNITROGEN ANALYTICAL EQIIIPMENT lnstrumenUtake/Hodel Prlnclple Last Multlpolnt Callbratlon Trlad Data Avallable Upon Request Slonatura on flla Pqect No. M&PfrDYed for Release cTo1 Reference Number: CylinderVolume: Cylinder Pressure: Valve Outlet: Certification Date: 153402377416-1 87.0 CF 2214PSIG 590 Mar 08,2022 { I ANALYTICAL RESI'LTSActual ProtocolConcentration Method CARBON DIOXIDE OXYGEN NITROGEN 10.00 o/o 10.00 % Balance 9.786 0/6 '10.'i.2 0/o G1 G1 +l- 0.60 NIST Traceable +l- 0.7o/o NIST Traceable 03t08t2022 03t08n022 CALIBRATI ON STAIYDARDS Lot lD Cvllnder No Concentratlon Horiba VIA-510 SV4MEUTJ CO2 Horiba MPA-510 \ /603MM58 02 Feb 17,2022 Feb24,2022 73 ot 75 @Mostardi PhlSe I of I CERTIFICATE OF AIVALYSIS Grade of Product: EPA PROTOCOL STAI\DARI) E03N|62E8040014 1L38040 124 - Tooele (SAP) - UT 872020 CO2,02,BALN Airgas. an Air Liquido company Airyas Specialty Gases Airgas USA LLC Sz5 North Industrial laop Road Tooele, UT 84o74 Airgas.com + Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 153401812782-1 92.2CF 2214 PSIG 590 May 19,2020 Expiration Date: May 19, 2028 Certification performed in accordance with "EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 20121" docum€nt EPA 6OO/R-12/531, using the assay procedures listed. Analytical Methodology do€s not require conection for analytical interferenc€. This cylinder has a total analytical uncertainty as stated below with a confidence lev€l of 95%. There are no significant impurities which affect the use of this calibration mixture. All concentrations are on a mole/mol€ basis unless otheMise noted. 7 18.87 olo 19.04 % +/- 0.6% NIST Traceable +l- 0.7% NIST Traceable Lot lD CALIBRATION STANDARDS Cyllnder No Concentration Uncertainty Expiration Date G1 G1 1 3060628 98051017 lnstrumenUMake/Model Trlad Data Available Upon Request Project No. ut*pprpved for Release cTo1 cc413727 13.359 % CARBON DIOXIDE/NITROGEN SG9142416BAL'l2.O5o/oOXYGEN/NITROGEN ANALYTICAL EQIIPMENT Princlple Sionalrrra on flle O.60/o O.7o/o May 14,2025 Oec 14,2023 Calibration a I ANALYTICAL RESULTS Actual ProtocolConcentration Method Horiba VIA-510 SV4MEUTJ CO2 Horiba MPA-510l /603MM58 02 74 ol75 @Mostardi PFlge I of t 't t , END OF THE REPORT UTAH DEPARTMENT OF ENVIRONMENTAL QUALIry DIVISION OF AIR OUALITY Project No. M233'117 cTo1 75 ol 75 OMostardi Platt Source Information Division of Air Quality Compliance Demonstration Referance Method 201 & 201A for PM10 Source Information Company Name PacifiCorp Lake Side Company Contact:Veronica Reyes Contact Phone No.801-796-1916 Stack Designation:CT11 Test & Review Dates Test Date: 8/4/2023 Review Date: 2/12/2024 Observer: Not Observed Reviewer:Rob Leishman Particulate Emission Limits lbs/MMBTU lbs/hr gr/dscf 0.010 10.800 0.000 Front Half Emission Rates lbs/MMBTU lbs/hr gr/dscf 1.24 0.000221855 Total (Front & Back Half) Emission Rates lbs/MMBTU lbs/hr gr/dscf 7.899370033 0.001408078 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static)Dn Target Time 216.00 254.47 1.0160 1.801 0.769 25.56 -0.5 0.163 120 Contractor Information Contracting Company: Air Pollution Testing (APT) Contact: Andrew Burning - Alex Mongold Phone No.: 801-974-0481 Project No.: Circular 10100 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 F factor usedF factors for Coal, Oil, and Gas Anthrocite 2 Lignite Natural Propane Butane COAL OIL GAS Bituminous 2 Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu O2 CO2 lbs/MMBtu Page 1 Summary Division of Air Quality Reference Methods 5 - TSP Compliance Demonstration of PacifiCorp Lake Side - CT11 Testing Results Lab Data - grams collected Test Date 8/4/2023 8/4/2023 8/4/2023 8/4/2023 Lab Data Cyclone Catch Filter Back Run 1 Run 2 Run 3 Run 4 Run 1 0.00063 0.000000 0.00384 As ft^2 254.47 254.47 254.47 254.47 Run 2 0.00070 0.000000 0.00319 Pbar 25.56 25.56 25.56 25.56 Run 3 0.00035 0.000080 0.00238 Pq (static)-0.50 -0.50 -0.50 -0.50 Run 4 Ps 25.52 25.52 25.52 25.52 Avg. Ts F 222.70 222.80 220.40 PacifiCorp Lake Side CT11 CO2 - FCO2 4.20 4.20 4.17 0.00 Front Half Emissions Summary O2 13.36 13.47 13.35 0.00 Run 1 Run 2 Run 3 Run 4 Avg. N2+C 82.44 82.33 82.48 100.00 gr./dscf 0.00024 0.00026 0.00016 0.00022 Md 29.21 29.21 29.20 28.00 lbs/hr 1.32 1.45 0.95 1.240 Mw 28.47 28.34 29.20 lbs/MMbtu Y 1.0160 1.0160 1.0160 1.0160 Cp 0.77 0.77 0.77 0.77 Particulate Emission Limits Front Half Emission Rates Vm cf 48.051 48.051 48.051 0.000 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Vlc 60.600 72.500 0.000 0.000 10.800 0.000 1.24 0.000221855 AVG. Tm F 79.75 79.58 81.25 Vm cf 48.051 48.051 48.051 0 PacifiCorp Lake Side CT11 Vm std 40.831 40.845 40.718 #VALUE!Total Emissions Summary w/back half condensable Vw std 2.850 3.410 0.000 Run 1 Run 2 Run 3 Run 4 Avg. Bws 6.50% 7.70% 0.00% #VALUE! gr./dscf 0.00169 0.0015 0.0011 0.0014 S Bws 99.90% 99.90% 99.90% #VALUE! lbs/hr 9.4025 8.0658 6.2298 7.8994 Avg. Sqrt Dlp 1.08 1.08 1.07 1.00 lbs/MMbtu Vs 68.936 68.870 67.517 scfm wet 694314.59 693547.04 682324.97 #VALUE!Particulate Emission Limits Total Emission Rates acfm 1052524.41 1051514.87 1030864.43 lbs/MMBTU lbs/hr gr/dscf lbs/MMBTU lbs/hr gr/dscf Qsd dscfm 38951049 38408635 40939498 10.800 0.000 7.899370033 0.001408078 Qs ft3/min 0.584235 0.582790 0.590996 #VALUE! % Isokinetic 89.43 95.36 87.69 Test Quality Parameters Viscostiy 209.75 208.94 213.98 Run 1 Run 2 Run 3 Run 4 D50 9.99 9.99 9.99 Outlying Dlp's 0.00 0.00 0.00 % Isokinetic 89.43 95.35 87.69 D50 Outlying Dlp's % Isokinetic Status Run 1 Passed Passed Passed Acceptable Run Run 2 Passed Passed Passed Acceptable Run Run 3 Passed Passed Passed Acceptable Run Run 4 Page 2 Run 1 PacifiCorp Lake Side Test Date 8/4/2023 Imp. Liquid Collected in grams Run No. 1 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 438.3 408.0 30.3 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'644.5 638.9 5.6 1 725.7 718.1 7.6 2 706.5 689.4 17.1 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.00 1.048084654 12 9.81 Ts oF 172.70 222.70 272.70 ∆H 0.68 0.63 0.59 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.56 -0.50 25.52 4.20 13.36 82.44 29.21 28.47 1.4492 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0160 1.801 0.84 0.77 0.163 1.45E-04 48.051 40.831 60.60 2.850 0.0650 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0817 68.94 0.430 79.75 694,315 1,052,524 3.90E+07 0.584235214 209.75 123.50 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.163 10.00 10.00 9.15 220 1.00 0.43 9.990 77 77 Passed 2 - ∆P tn 0.163 19.30 9.30 9.30 221 1.10 0.43 9.990 79 79 Passed 3 - ∆P tn 0.163 30.30 11.00 10.00 222 1.20 0.43 9.990 78 78 Passed 4 - ∆P tn 0.163 40.00 9.30 9.15 220 1.00 0.43 9.990 80 80 Passed 5 - ∆P tn 0.163 50.00 10.00 9.30 220 1.10 0.43 9.990 80 80 Passed 6 - ∆P tn 0.163 60.30 10.30 10.00 221 1.20 0.43 9.990 80 80 Passed 7 - ∆P tn 0.163 70.30 10.00 9.30 223 1.10 0.43 9.990 78 78 Passed 8 - ∆P tn 0.163 80.00 9.30 9.15 223 1.00 0.43 9.990 79 79 Passed 9 - ∆P tn 0.163 90.30 10.30 10.00 225 1.20 0.43 9.990 81 81 Passed 10 - ∆P tn 0.163 101.00 10.30 10.30 225 1.30 0.43 9.990 81 81 Passed 11 - ∆P tn 0.163 112.00 11.00 10.45 226 1.40 0.43 9.990 82 82 Passed 12 - ∆P tn 0.163 123.30 11.30 11.15 227 1.50 0.43 9.990 82 82 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 89.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 3 Run 2 PacifiCorp Lake Side Test Date 8/4/2023 Imp. Liquid Collected in grams Run No. 2 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 740.0 734.4 5.6 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'754.5 737.5 17.0 1 647.0 644.9 2.1 2 560.0 512.2 47.8 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.20 1.1534551 12 9.29 Ts oF 172.80 222.80 272.80 ∆H 0.66 0.61 0.57 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.56 -0.50 25.52 4.20 13.47 82.33 29.21 28.34 1.4520 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0160 1.801 0.77 0.163 1.45E-04 48.051 40.845 72.50 3.410 0.0770 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0782 68.87 0.440 79.58 693,547 1,051,515 3.84E+07 0.5827902 208.94 117.50 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.163 9.45 9.45 9.15 226 1.20 0.44 9.990 80 80 Passed 2 - ∆P tn 0.163 20.15 10.30 10.30 225 1.30 0.44 9.990 79 79 Passed 3 - ∆P tn 0.163 30.30 10.15 11.15 225 1.50 0.44 9.990 80 80 Passed 4 - ∆P tn 0.163 40.15 9.45 9.30 225 1.10 0.44 9.990 79 79 Passed 5 - ∆P tn 0.163 50.30 10.15 10.00 224 1.20 0.44 9.990 79 79 Passed 6 - ∆P tn 0.163 60.45 10.15 10.00 224 1.20 0.44 9.990 80 80 Passed 7 - ∆P tn 0.163 69.30 8.45 9.15 221 1.00 0.44 9.990 80 80 Passed 8 - ∆P tn 0.163 79.15 9.45 9.30 222 1.10 0.44 9.990 79 79 Passed 9 - ∆P tn 0.163 89.45 10.30 10.30 222 1.30 0.44 9.990 80 80 Passed 10 - ∆P tn 0.163 98.30 8.45 9.15 222 1.00 0.44 9.990 80 80 Passed 11 - ∆P tn 0.163 107.45 9.15 9.15 219 1.00 0.44 9.990 80 80 Passed 12 - ∆P tn 0.163 117.30 9.45 9.30 219 1.10 0.44 9.990 79 79 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 95.4 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 4 Run 3 PacifiCorp Lake Side Test Date 8/4/2023 Imp. Liquid Collected in grams Run No. 3 - RM 201A - Pre-test velocity traverse:Wt. (Final)Wt. (Tare)lc Port 1 Port 2 Port 3 Port 4 0.0 Point No.∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'∆P'sqrt ∆P'0.0 1 0.0 2 0.0 3 0.0 ∆P1 Avg. Sqrt ∆P No. Sample Points t1 in min. Ts avg -50oF Avg. Ts oF Ts avg +50oF 1.10 1.0643543 12 9.81 Ts oF 170.40 220.40 270.40 ∆H 0.8 0.74 0.69 ∆ = delta, i.e., delta P would be ∆P Stack I.D. (inches)As ft^2 Pbar Pq (static) Ps CO2 % O2 % N2+C Md lb/lb mole Mw lb/lb mole Stack Saturation 216.00 254.47 25.56 -0.50 25.52 4.17 13.35 82.48 29.20 29.20 1.3863 Y ∆H@ Cp 201A Cp 2 Dn An Vm cf Vm std Vlc Vw std Bws S Bws 1.0160 1.801 0.77 0.163 1.45E-04 48.051 40.718 0.00 0.000 0.0000 0.9990 Avg. Sqrt ∆p Vs ft/sec Avg. ∆h Avg. Tm F scfm wet acfm Qsd dscfh Qs (final) ft3/min µs Viscosity Run Time (act) Target Time 1.0748 67.52 0.430 81.25 682,325 1,030,864 4.09E+07 0.5909955 213.98 119.50 120 Sample Point No.Dn used Sampling End Time (Min.Sec.) Actual Dwell Time (Min.Sec.) Desired Dwell Time (Min.Sec.) Stack Temp. Ts F Velocity Head ∆P ∆h D50 Dry Gas Meter Temp. tm F (in) tm F (out) Status Pmin & Pmax 1 - ∆P t1 0.163 10.15 10.15 9.15 221 1.10 0.43 9.990 80 80 Passed 2 - ∆P tn 0.163 20.00 9.45 9.30 220 1.10 0.43 9.990 80 80 Passed 3 - ∆P tn 0.163 30.15 10.15 10.00 221 1.20 0.43 9.990 81 81 Passed 4 - ∆P tn 0.163 39.30 9.15 9.15 218 1.00 0.43 9.990 81 81 Passed 5 - ∆P tn 0.163 49.15 9.45 9.30 219 1.10 0.43 9.990 80 80 Passed 6 - ∆P tn 0.163 59.00 9.45 9.30 218 1.10 0.43 9.990 81 81 Passed 7 - ∆P tn 0.163 68.45 9.45 9.30 221 1.10 0.43 9.990 81 81 Passed 8 - ∆P tn 0.163 78.30 9.45 9.30 221 1.10 0.43 9.990 82 82 Passed 9 - ∆P tn 0.163 88.15 9.45 9.30 221 1.10 0.43 9.990 82 82 Passed 10 - ∆P tn 0.163 98.45 10.30 10.30 222 1.30 0.43 9.990 82 82 Passed 11 - ∆P tn 0.163 109.00 10.15 10.00 221 1.20 0.43 9.990 82 82 Passed 12 - ∆P tn 0.163 119.30 10.30 11.15 222 1.50 0.43 9.990 83 83 Passed 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 12.00 Run Acceptance Results. D50 9.9900 Passed Sampling Points outside of Pmin & Pmax 0.00 Passed % Isokinetic 87.7 Passed The results are acceptabel if two conditions are met: A. D50 is between 9.0 µm & 11.0 µm.  If D50 is less than 9.0 reject the results and repeat the test. B. One of the following conditions must also be met:That no sampling points are outside Pmin and Pmax or 1. No sampling points are outside the Pmin and Pmax or 2. Isokinetics sampling is betwee 80 percent & 120 percent and no more than one sampling point is outside ∆Pmin and ∆Pmax. Acceptable Run Acceptable Run Test Run Completed Acceptable Run Acceptable Run Page 5