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Home My WebLink AboutDAQ-2024-0119061 DAQC-1195-24 Site ID 12495 (B5) MEMORANDUM TO: CEM FILE – UTAH MUNICIPAL POWER AGENCY – West Valley Power Plant THROUGH: Harold Burge, Major Source Compliance Section Manager FROM: Rob Leishman, Environmental Scientist DATE: November 29, 2024 SUBJECT: Source: Units 1, 2, 3, 4, and 5 (GE LM600 Natural Gas Turbines) Contact: Jerame Blevins – 801-967-1200, extension 232 Location: 5935 West 4700 South, West Valley City, Salt Lake County, UT Test Contractor: Alliance Technical Group FRS ID#: UT0000004903500527 Permit/AO#: Title V operating permit 3500527005, dated July 8, 2024 Subject: Review of RA/PST Report dated July 17, 2024 On July 15, 2024, DAQ received a Relative Accuracy/Performance Specification Test (RA/PST) report for the West Valley Power Plant Units 1-5 in West Valley City, UT. Testing was performed from June 17, 2024, to June 21, 2024, to determine the relative accuracy of the NOx, CO, and O2 monitoring systems. The DAQ-calculated test results are: RA/PST EVALUATION: Unit 1 NSPS RATA - Test Date - 6/18/2024 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status NOx Thermo 42iQLS 1200696549 ppm @ 15% O2 3.478 3.336 0.2% Passed lbs/MMBtu 0.013 0.012 8.3% Passed lbs/hr 4.578 4.443 0.6% Passed O2 Thermo 48iQ 1200696554 % 15.020 15.090 0.7% Passed CO Thermo 48iQ 1200696554 ppm @ 15% O2 1.833 2.552 8.2% Passed Stack Test Deviation Report There were no deviations observed during testing. Calibration gases were in date and met performance specifications. Unit 2 NSPS RATA - Test Date - 6/19/2024 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status NOx Thermo 42iQLS 1200696550 ppm @ 15% O2 3.540 3.009 0.6% Passed lbs/MMBtu 0.013 0.011 1.5% Passed lbs/hr 4.720 4.106 2.2% Passed O2 Thermo 48iQ 1200696555 % 15.010 14.990 0.2% Passed 1 8 2 2 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status CO Thermo 48iQ 1200696555 ppm @ 15% O2 1.878 3.101 13.6% Passed Stack Test Deviation Report There were no deviations observed during testing. Calibration gases were in date and met performance specifications. · Explanation: 40 CFR Part 75 Appendix B 2.3.1.2(f) - For units with low NOx emission rates (average NOx emission rate measured by the reference method during the RATA ≤0.200 lb/mmBtu), when a NOx-diluent continuous emission monitoring system fails to achieve a relative accuracy ≤7.5 percent, but the monitoring system mean value from the RATA, calculated using Equation A-7 in appendix A to this part, is within ±0.015 lb/mmBtu of the reference method mean value. Unit 3 NSPS RATA - Test Date - 6/20/2024 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status NOx Thermo 42iQLS 1200696551 ppm @ 15% O2 3.530 3.501 0.1% Passed lbs/MMBtu 0.013 0.013 0.0% Passed lbs/hr 4.789 4.791 0.1% Passed O2 Thermo 48iQ 1200696556 % 14.910 14.910 0.2% Passed CO Thermo 48iQ 1200696556 ppm @ 15% O2 1.790 2.488 7.5% Passed Stack Test Deviation Report There were no deviations observed during testing. Calibration gases were in date and met performance specifications. Unit 4 NSPS RATA - Test Date - 6/24/2024 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status NOx Thermo 42iQLS 1200696552 ppm @ 15% O2 3.467 3.673 0.3% Passed lbs/MMBtu 0.013 0.014 7.1% Passed lbs/hr 4.544 4.900 1.2% Passed O2 Thermo 48iQ 1200696557 % 14.940 14.980 0.5% Passed CO Thermo 48iQ 1200696557 ppm @ 15% O2 2.900 1.987 9.5% Passed Stack Test Deviation Report There were no deviations observed during testing. Calibration gases were in date and met performance specifications. Unit 5 NSPS RATA - Test Date - 6/17/2024 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status NOx Thermo 42iQLS 1200696553 ppm @ 15% O2 3.544 3.572 0.3% Passed lbs/MMBtu 0.013 0.013 7.7% Passed lbs/hr 4.878 5.000 1.6% Passed O2 Thermo 48iQ 1200696558 % 15.000 15.030 0.5% Passed 3 Primary Channel Manufacturer Serial No. Units CEM Value RM Value Relative Accuracy Status CO Thermo 48iQ 1200696558 ppm @ 15% O2 1.689 2.636 15.4% Passed Stack Test Deviation Report There were no deviations observed during testing. Calibration gases were in date and met performance specifications. DEVIATIONS: No deviations were noted in this report. CONCLUSION: West Valley Power Plant operates the continuous emissions monitors (CEMS) on the Unit 1, 2, 3, 4, and 5 stacks to measure NOx, CO, and O2 emissions. The CEMS were audited by the DAQ and found to meet quality assurance requirements found in 40 CFR Part 60, Appendix B, Performance Specification 1, and R307-170, Continuous Emission Monitoring System Program. Quarterly cylinder gas audits and an annual relative accuracy test audit were conducted in accordance with the procedures outlined in UAC R307-170. RECOMMENDATION: The West Valley Power Plant Units 1-5 CEM systems were operating as required in R307-170 and 40 CFR 60.13 at the time of this evaluation. HPV: No. ATTACHMENTS: RATA Review Spreadsheets. UTAH MUNICIPAL POWER AGENCY Utah Municipal Power Agency 5935 W 4700 S West Valley City, UT 84118 (801) 967-1200 FAX (801) 967-9117 Sincerely, Jerame Blevins Responsible Official West Valley Power Plant UTAH DEPARruENT OF EiWIRONMENTAL OUATITV .JUL 1 S ?024 (.:ON OF AIR OUALIT, July 17,2024 Director State of Utah Department of Environmental Quality - Division of Air Quality 195 North 1950 West Temple Salt Lake City, UT 84116-3100 USEPA, Region Vlll Office of Enforcement, Compliance and Environmental Justice (MailCode 8ENF) 1595 Wynkoop Street Denver, CO 80202-LL29 Subject:Annual Test and Relative Accuracy Test Audit (RATA) Report Units l, 2,3, 4 and 5 West Valley Power Plant Permit Number: 3500527004 Dear Sir or Madam: In accordance with Conditions of the Title V Operating Permit,40 CFR 75, Appendices A and B, and40CFR60,AppendixB,pleasefindenclosedthesubject2024reportforUnits 1,2,3,4,and 5 of the West Valley Power Plant. ln accordance with the Title V Operating Permit and the State of Utah Department of Environmental Quality, Division of Air Quality regulations, the Continuous Emissions Monitoring System Relative Accuracy Test Audit (RATA) was completed on June l7 - June 2l 2024. Should you have any questions or need additional information regarding this submittal, please contact Jerame Blevins at (801 ) 967 -1200 x 232 or Chris Cook at (801) 967 -1200 x 224. Orrr"r- F/or*lz. / Utah Municipal Power Agency ,sf#"35H^ro^ff' JUL 1 5 2024 TECHNICAL GROUP RATA Report Utah Municipal Power Agency West Valley Power 5935 West 4700 South West Valley City, UT 841l8 Sources Tested: Units l-5 Test Dates: June 17-21,2024 Project No. AST-2024-17 7 8 Prepared By Alliance Technical Group, LLQ 3683 W 2270 S, Suite E West Valley City, UT Regulatory Information Permit No.(s) Regulatory Citation(s) Source Information Title V Operating Permit 3500527004 40 CFR 60, Appendix B, Performance Specifications 2, 3 and 4 40 CFR 75, Appendices A & B Source Name (5) General Electric Model LM6OO PC Sprint, Natural Gas-Fired Simple Cycle Combustion Turbine Generators Contact Information Source ID Unit I Unit 2 Unit 3 Unit 4 Unit 5 Target Parameter(s) 02, NOx, CO 02, NOx, CO 02, NOx, CO 02, NOx, CO 02, NOx, CO r-l' I Test Location Utah Municipal Power Agency West Valley Power 5935 West 4700 South West Valley City, UT 841l8 Jerame Blevins jerame@umpa.energy (801 ) 967-1200 JUL , Hon-A-Dei'vra$ t, 2_024 Test Company Alliance Technical Group, LLC 3683 W 2270 S, Suite E West Valley City, UT 84120 Project Manager/ Field Team Leader Charles Horton charles.horton@allianceTG.com (3s2) 663-7s68 QA/QC Manager Kathleen Shonk katie.shonk@all iancetg.com (8t2) 4s2-4785 Report Coordinator Sarah Perry sarah.perry@al liancetg.com Report Reviewer Leslie Ashley lesl ie.ashley@alliancetg.com (812) 4s2-478s AST-2024- I 778 2 of 288 Page iUtah Municipal Power Agency - West Valley City, UT BOU=TECHNICAL G Source Test Report C e rt ifi ca tion S tat e me nt Alliance Technical Group, LLC (Alliance) has completed the source testing as described in this report. Results apply only to the source(s) tested and operating condition(s) for the specific test date(s) and time(s) identified within this report. All results are intended to be considered in their entirety, and Alliance is not responsible for use of less than the complete test report without written consent. This report shall not be reproduced in full or in part without written approval from the customer. To the best of my knowledge and abilities, all information, facts and test data are correct. Data presented in this report has been checked for completeness and is accurate, error-free and legible. Onsite testing was conducted in accordance with approved internal Standard Operating Procedures. Any deviations or problems are detailed in the relevant sections in the test report. This report is only considered valid once an authorized representative of Alliance has signed in the space provided below; any other version is considered draft. This document was prepared in portable document format (.pdf) and contains pages as identified in the bottom footer of this document. zl k%,Julv 10.2024 Charles Horton Project Manager Alliance Technical Group, LLC Date Utah Municipal Power Agency - West Valley City, UTAST-2024- l 778 3 of 288 Page ii I-ECI.-INICAL GROUP Source Test Report Table olContents TABLE OF CONTENTS 1.4 Site Specific Test Plan & Notification ................... .--....-----...---- l-2 3.1 U.S. EPA Reference Test Method I - Sample Point Determination.......'.... ..................'......3-l 3.2 U.S. EPA Reference Test Method 3/3A - Oxygen/Carbon Dioxide.... ..'........ 3-l 3.3 U.S. EPA Reference Test Method 7E - Nitrogen Oxides "....... 3- I 3.4 U.S. EPA Reference Test Method l0 - Carbon Monoxide..... ........---..--..--..---3-2 3.5 U.S. EPA Reference Test Method l9 - Volumetric Flow Rate / Mass Emission Factors...........................3-2 3.6 Quality Assurance/Quality Control - U.S. EPA Reference Test Methods 3A,78 and 10........... ...............3-2 LIST OF TABLES Table 2- I : Summary of Performance Specification Test Results - Unit I ......-...--....--.2'l Table}-2: Summary of Performance Specification Test Results - Unit 2 ..-.-.-.........---2-2 Table 2-3: Summary of Performance Specification Test Results - Unit 3 .........'.........2-3 Table}-4'. Summary of Performance Specification Test Results - Unit 4 .--...--..--.-..-..2'4 Table 2-5: Summary of Performance Specification Test Results - Unit 5 ..........-..-..-..2'5 APPENDICES Appendix A Sample Calculations Appendix B Field Data Appendix C Quality Assurance/Quality Control Data Appendix D Process Operating/Control System Data AST-2024- I 778 Utah Municipal Power Agency - West Valley City, UT Page iii 4 of 288 5 of 288 11 tt F ECI-1N Source Test Report Introduction 1.0 Introduction Alliance Technical Group, LLC (Alliance) was retained by Utah Municipal Power Agency to conduct performance specification (PS) testing at the West Valley Power plant in West Valley City, Utah. Portions of the facility are subject to provisions of 40 CFR 60, Appendix B, PS 2, 3 and 4 and 40 CFR 75, Appendices A & B. The facility operates under the Utah Department of Environmental Quality, Division of Air Quality (UDAQ) Title V Operating Permit No. 3500527004. Testing will include conducting a relative accuracy test audit (RATA) to determine the relative accuracy (RA) of the oxygen (O2), nitrogen oxides (NOx) and carbon monoxide (CO) continuous emissions monitoring systems (CEMS) installed on five (5) General Electric Natural Gas-Fired Combustion Turbine Generators designated as Units l-5. 1.1 Facility Description West Valley Power operates five (5) General Electric Model LM600 PC Spring, Natural Gas-Fired, Simple Cycle Combustion Turbine Generators at the West Valley Generating Station. The generators are designated as Units I -5. 1.2 CEMS Descriptions Unit I Pollutant NOx Thermo 42iQLS t200696s49 Low:0-l00ppm High:0-500ppm Pollutant NOx Thermo 42iQLS 1200696550 Low:0-l00ppm High:0-500ppm Pollutant NOx Thermo 42iQLS I 2006955 I Low:0-l00ppm High:0-500ppm IC Parameter: Make: Model: Serial No.: Span: Unit 2 Parameter: Make: Model: Serial No.: Span: Unit 3 Parameter: Make: Model: Serial No.: Span: Pollutant CO/Oz Thermo 48iQ 1200696554 CO:0-10,000ppm Oz:.0-25o/o Pollutant CO/Oz Thermo 48iQ 1200696555 CO:0-10,000ppm Oz 0-25o/o Pollutant COIOz Thermo 48iQ r200696s56 CO:0-10,000ppm Oz:.0'25o/o AST-2024- I 778 Utah Municipal Power Agency - West Valley City, UT 6 of288 Page l-l E r.1 L Source Test Report lntroduction Unit 4 Parameter: Make: Model: Serial No.: Span: Unit 5 Parameter: Make: Model: Serial No.: Span: Pollutant NOx Thermo 42iQLS t200696ss2 Low:0-l00ppm High:0-500ppm Pollutant NOx Thermo 42iQLS I 200696553 Low:0-l00ppm High:0-500ppm Pollutant COIOz Thermo 48iQ 1200696557 CO:0-10,000ppm Oz:0-25o/o Pollutant COIOz Thermo 48iQ l 2006965 58 CO:0-10,000ppm Oz:0-25o/o 1.3 Project Team Personnel involved in this project are identified in the following table. Table l-l: Project Team 1.4 Site Specific Test Plan & Notilication Testing was conducted in accordance with the Site-Specific Test Plan (SSTP) submitted to UDAQ by West Valley Power. Utah Municipal Power Agency - West Valley City, UT Facility Personnel Jerame Blevins Regulatory Personnel UDAQ Alliance Personnel Tom Alarcon AST-2024- I 778 7 of288 Page l-2 8 of 288 ICALTECHN GROUP Source Test Report Summary of Results 2.0 Summary of Results Alliance conducted PS testing at the West Valley Power Plant in West Valley City, Utah on June 17'21,2024. PS testing included conducting a RATA to determine the RA of the 02, NOx and CO CEMS installed on five (5) General Eclectic Natural Gas-Fired Combustion Turbine Generators designated as Units I -5. Tables 2-l through 2-5 provide a summary of the emission testing results with comparisons to the applicable RA requirements. Any difference between the summary results listed in the following tables and the detailed results contained in appendices is due to rounding for presentation. Tabte 2-l: Summrry of Performance Specification Test Results - Unit I I Calculated using the applicable source standard for the pollutant. Sec Appendix B for the applicable stardard rsed. 2 Calcularcd using the mean reference method. 3 RATA frequency offour (4) operating quarters. 'Calculated using the average difference between the reference method ard CEMS daa. S l0 o/o 520 o/o + 0.015 3 0.21 o/o I 5.76 Yo2 0.001 2 Nitrogen Oxides Data Concentration, ppmvd @ 15%Oz Emission Rate, lb/hr Emission Factor, lbllt4MBtu (dry) Carbon Monoxide Data Concentration, ppmvd 520 o/o <7.5 0/o 0.74 o/o2 0.74 o/o2 Oxygen Data Concentration, o/o (dry) Concentration,%o (dry) AST-2024-l??8 Utah Municipal Power Agcncy - Wcs Valley Ctty, UT 9 of288 Page2-l F PUoRANHcETCG burce Test Repon Summary of Results Table 2-2: Summary of Performence Specificttion Test Results - Unit 2 ' Calculated using the applicable source standard for the 2 Calculated using the mean refcrence method. I RATA frequency of four (4) operating quarters. Appendix B for the applicable standard used, 4 Calculated using the average difference between the reference method and CEMS data. ' Calculated using the absotute difference of the rcference method and CEMS data plus the 2.5% confidencc coefficient S l0 o/o 320 o/o + 0.015 3 0.59 o/o I 17.26 o/o2 0.002 4 Nitrogen Oxides Data Concentration, ppmvd @ l5%Oz Emission Rate, lb/hr Emission Factor, lb/Tv{MBtu (dry) 0.91 ppm 5 Carbon Monoxide Data Concentration, ppmvd @ l5o/o Oz 320 o/o < 7 .5 o/oj Oxygen Data Concentration,% (dry) Concentration,% (dry) AST-2024-r778 l0 of288 Page2-2Utah Municipal Powcr Agency - Wcst Valley City, UT NTEC A G R o fuwce Test Report SumuryqfRegy[s Teble 2-3; Summery of Performencc Specification Test Results - Unit 3 Calculatcd using the applicablc source standard pollutant. Sce Appendix B for the applicablc standard used. 2 Calculated using the mean reference method. 3 RATA frequency offour (4) operating quarters, a Calculated using thc absolute difference ofthe reference method and CEMS daa plus ttrc 2.5% confidence coefficicnt Utah Municipal Powrr Agcncy - Wcst Valley City, UT S l0 o/o 520 o/o 57.5 o/o3 0.ll o/ol 1.85 o/o2 0 o/o2 Nitrogen Oxides Data Concentration, ppmvd @ l5o/o Oz Emission Rate, lb/trr Emission Factor, lb/I\,f MBtu (dry) Carbon Monoxide Date Concentration, ppmvd @ l5o/o Oz 0.34 o/o2 0.25 o/o Oxygen Data Concentration, o/o (dry ) Concentration, o/o (dry) <20 o/o < 7 .5 o/o2 AST-2024-r778 ll of288 Page 2-3 burce Test Repon Table 2-4: Summary of Performence Specification Test Results - Unit 4 rEatcutatea using ttre applicable source standard for the pollutant. See Appcndix B for the applicable standard used. 2 Calculated using the mean reference method. 3 Calculated using the average difference between the reference method and CEMS data a RATA frequency offour (4) operating quarters. Uuh Municipal Power Agency - Wcst Valley City, UT Sl0 o/o 520 o/o + 0.015 2 0.29 o/ol 9.2 o/oz 0.001 3 Nitrogen Oxides Data Concentration, ppmvd @ l5o/o Oz Emission Rate, lb/hr Emission Factor, lb/]vlMBtu (dry) Carbon Monoxide Data Concentration, ppmvd 0.57 Yoz 0.57 o/o2 s20% 57.5 o/oa Oxygen Data Concentration, o/o (dry) Concentration, o/o (dry) AST-2024-1778 l2 of288 Page24 Sowce Test ReportTECHNICAL GROUP Table 2-5: Summary of Performance Speclfication Test Results - Unit 5 ' RATA frequency of four (4) operating quarters. Utah Municipal Power Agcncy - West Vallcy City, UT S l0 o/o 520 o/o <7.5 o/os 0.33 o/ol 10.21Yoz 0.001 3 Nitrogen Oxides Data Concentration, ppmvd @ l5o/o Oz Emission Rate, lb/hr Emission Factor, lb/]vlMBtu (dry) l.5l ppm a Carbon Monoxide Deta Concentration, ppmvd 520 o/o <7.5 0A5 0.58 o/o2 0.58 0A2 Oxygen Data Concentration, Yo (dry\ Concentration,% (dry) AST-2024-t77E 13 of288 Pagc 2-5 l4 of288 F EC NICAL GROU Source Test Report Testing Methodologt 3.0 Testing Methodology The emission testing program was conducted in accordance with the test methods listed in Table 3-1. Method descriptions are provided below while quality assurance/quality control data is provided in Appendix C. Table 3-1: Source Testing Methodologr 3.1 U.S. EPA Reference Test Method I - Sample Point Determination The sampling location were evaluated in accordance with U.S. EPA Reference Test Method l. The upstream and downstream distances were measured and equated to equivalent diameters to confirm compliance with U.S. EPA Reference Test Method l. 3.2 U.S. EPA Reference Test Method 3/3A - Oxygen/Carbon Dioxide The oxygen (O2) and carbon dioxide (CO2) testing was conducted in accordance with U.S. EPA Reference Test Method 34. Data was collected online and reported in one-minute averages. The sampling system consisted of a stainless-steel probe, Teflon sample line(s), gas conditioning system and the identified gas analyzer. The gas conditioning system was a non-contact condenser used to remove moisture from the stack gas. Ifan unheated Teflon sample line was used, then a portable non-contact condenser was placed in the system directly after the probe. Otherwise, a heated Teflon sample line was used. The quality control measures are described in Section 3.6. The relative accuracy of the O2 CEMS was determined based on procedures found in 40 CFR 75, Appendices A & B and 40 CFR 60, Performance Specification 3. 3.3 U.S. EPA Reference Test Method 7E - Nitrogen Oxides The nitrogen oxides (NOx) testing was conducted in accordance with U.S. EPA Reference Test Method 7E. Data was collected online and reported in one-minute averages. The sampling system consisted of a stainless-steel probe, Teflon sample line(s), gas conditioning system and the identified gas analyzer. The gas conditioning system was a non-contact condenser used to remove moisture from the stack gas. If an unheated Teflon sample line was used, then a portable non-contact condenser was placed in the system directly after the probe. Otherwise, a heated Teflon sample line was used. The quality control measures are described in Section 3.6. The relative accuracy of the NOx CEMS was determined based on procedures found in 40 CFR 75, Appendices A & B and 40 CFR 60, Performance Specification 2. AST-2024- l 778 Utah Municipal Power Agency - West Valley City, UT Page 3-l I 5 of288 Sample Point Determination I Oxygen / Carbon Dioxide 3A Instrumental Analysis Nitrogen Oxides 7E lnstrumental Analysis Carbon Monoxide l0 Instrumental Analysis Volumetric Flow Rate / Mass Emission Factors l9 lnstrumental Analysis Source Test Report 3.4 U.S. EPA Reference Test Method l0 - Carbon Monoxide The carbon monoxide (CO) testing was conducted in accordance with U.S. EPA Reference Test Method 10. Data was collected online and reported in one-minute averages. The sampling system consisted of a stainless-steel probe, Teflon sample line(s), gas conditioning system, and the identified gas analyzer. The gas conditioning system was a non-contact condenser used to remove moisture from the gas. If an unheated Teflon sample line was used, then a portable non-contact condenser was placed in the system directly after the probe. Otherwise, a heated Teflon sample line was used. The quality control measures are described in Section 3.6. The relative accuracy of the CO CEMS was determined based on procedures found in 40 CFR 60, Performance Specification 4A. 3.5 U.S. EPA Reference Test Method 19 - Volumetric Flow Rate / Mass Emission Factors The gas volumetric flow rate was determined in accordance with U.S. EPA Reference Test Method l9 using the measured oxygen concentration, the published fuel factor, a calibrated gas meter and the fuel heating value. The pollutant concentrations were converted to mass emission factors (lb/MMBtu) using procedures outlined in U.S. EPA Reference Test Method 19. The published dry 02 based fuel factor (F-Factor) of 8,710 for natural gas was used in the calculations. 3.6 Quality Assurance/Quality Control - U.S. EPA Reference Test Methods 3A' 7E and l0 EPA Protocol I Calibralion Gases Cylinder calibration gases used met EPA Protocol I (+l-2o/o) standards. Copies of all calibration gas certificates can be found in the Quality Assurance/Quality Control Appendix. Direct Calibralion & Calibration Error Test Low Level grrs was introduced directly to the analyzer. After adjusting the analyzer to the Low-Level gas concentration and once the analyzer reading was stable, the analyzer value was recorded. This process was repeated for the High-Level gas. For the Calibration Error Test, Low, Mid, and High Level calibration gases were sequentially introduced directly to the analyzer. All values were within 2.0 percent of the Calibration Span or 0.5 ppmv lYo absol ute difference. System Bias and Response Time High or Mid-Level gas (whichever was closer to the stack gas concentration) was introduced at the probe and the time required for the analyzer reading to reach 95 percent or 0.5 ppmv/% (whichever was less restrictive) of the gas concentration was recorded. The analyzer reading was observed until it reached a stable value, and this value was recorded. Next, Low Level gas was introduced at the probe and the time required for the analyzer reading to decrease to a value within 5.0 percent or 0.5 ppmv/% (whichever was less restrictive) was recorded. If the Low- Level gas was zero gas, the response was 0.5 ppmvlo/o or 5.0 percent of the upscale gas concentration (whichever was less restrictive). The analyzer reading was observed until it reached a stable value and this value was recorded. The measurement system response time and initial system bias were determined from these data. The System Bias was within 5.0 percent of the Calibration Span or 0.5 ppmv/% absolute difference. Posl Tesl System Bias Checl<s High or Mid-Level gas (whichever was closer to the stack gas concentration) was introduced at the probe. After the analyzer response was stable, the value was recorded. Next, Low Level gas was introduced at the probe, and the AST-2024- I 778 Utah Municipal Power Agency - West Valley City, UT Page 3-2 l6 of288 F G R U U P Source Test Report analyzer value recorded once it reached a stable response. The System Bias was within 5.0 percent of the Calibration Span or 0.5 ppmvlo/o absolute difference or the data was invalidated and the Calibration Error Test and System Bias were repeated. Post Test Drift Checks Drift between pre- and post-run System Bias was within 3 percent of the Calibration Span or 0.5 ppmv/% absolute difference. If the drift exceeded 3 percent or 0.5 ppmv/%, the Calibration Error Test and System Bias were repeated. Stratification Check To determine the number of sampling points, a gas stratification check was conducted prior to initiating testing. The pollutant concentrations were measured at twelve traverse points (as described in Method l) or three points (16.7, 50.0 and 83.3 percent of the measurement line). Each traverse point was sampled for a minimum of twice the system response time. If the pollutant concentration at each traverse point did not differ more than 5 percent or 0.5 ppmv/0.3% (whichever was less restrictive) ofthe average pollutant concentration, then single point sampling was conducted during the test runs. If the pollutant concentration did not meet these specifications but differed less than l0 percent or 1.0 ppmv/0.5% from the average concentration, then three (3) point sampling was conducted (stacks less than 7.8 feet in diameter - 16.7, 50.0 and 83.3 percent of the measurement line; stacks greater than 7.8 feet in diameter - 0.4, 1.0, and 2.0 meters from the stack wall). If the pollutant concentration differed by more than l0 percent or 1.0 ppmv/0.5% from the average concentration, then sampling was conducted at a minimum of twelve (12) traverse points. Copies of stratification check data can be found in the Quality Assurance/Quality Control Appendix. NO, Converter Check An NOz - NO converter check was performed on the analyzer prior to initiating testing and completion of testing. An approximately 50 ppm nitrogen dioxide cylinder gas was introduced directly to the NOx analyzer and the instrument response was recorded in an electronic data sheet. The instrument response was within +/- l0 percent of the cylinder concentration. Data Collection A Data Acquisition System with battery backup was used to record the instrument response in one (l) minute averages. The data was continuously stored as a *.CSV file in Excel format on the hard drive of a computer. At the completion of testing, the data was also saved to the Alliance server. All data was reviewed by the Field Team Leader before leaving the facility. Once aniving at Alliance's office, all written and electronic data was relinquished to the report coordinator and then a final review was performed by the Project Manager. Utah Municipal Power Agency - West Valley City, UTAST-2024-1778 l7 of288 Page 3-3 plll6rrrcE) TE:(llll.l l()AL (-iR(;1.-i PLocation: Utah Municipal Power Agency - West Valley City, UT Source: Unit I Project No.: AST-2024-1778 Run No. /lVlethod Run I / Method 34' Or - Outlet Concentration (Co), %6 dry Co,= (cou.-co)* ( 1ft;) Cob. co 14.9 = average analyzer value during test,%o dry 0.0 = average ofpretest & posttest zero responses,o/o dry Cro_A= actual concentration of calibration gas,o/odry CM 10.9 = average ofpretest & posttest calibration responses, %o dry = Oz Concentration, %o dry l9 of288 puI6r1EE) 'rE O l-l N l ()AL (l l-1-() lr l- Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit I Project No.: AST-2024-1778 Run No. /Method Run I / Method l0 CO - Outlet Concentration (Cco), ppmvd Cco= (Co5,-C6)x ( *+") where,Coo,A= average analyzer value during test, ppmvd C" -0.3 = average ofpretest & posttest zero responses, ppmvd CrnA= actual concentration of calibration gas, ppmvd CM 9.7 : average of pretest & posttest calibration responses, ppmvd Cco 2.8 : CO Concentration, ppmvd CO - Outlet Concentration (Cco"rs), ppmvd @ l5o/o Oz cco"rs= Ccox (#J where,Cco 2.8 = CO - Outlet Concentration, ppmvd Co,_ lil = oxygen concentration, To Cco"rs 2.8 = ppmvd @15%Oz O Co - outlet Emission Rate (ER6q),lb/hr - CcoxMWxQsx60#x28.32 h.^ao - where,C.oA: CO - Outlet Concentration, ppmvd MW 28.01 = CO molecular weight, g/g-mole Qs 192,492 : stack gas volumetric flow rate at standard conditions, dscfm ERco 2.4 = lb/hr 20 of288 plll6rrrcE) If ti N i () A L- () F-t () i..j I-Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit I Project No.: AST-2024-177 8 Run No. /Method Run 2 / Method 7E NOx - Outlet Concentration (Cxo,), ppmvd c*o*= (co5,-ce)x (dh") CroA= actual concentration of calibration gas, ppmvd C"_ 93 = average ofpretest & posttest calibration responses, ppmvd C*6A: NOx Concentration, ppmvd NOx - Outlet Concentration (Cxo."rs), ppmvd @ lSYo O, LNOxc l5 Crro* co, CNoxct s = average analyzer value during test, ppmvd = average ofpretest & posttest zero responses, ppmvd / 20.9-15 \ -l \ zo.s -o, ) = NOx - Outlet Concentration, ppmvd = oxygen concentration, 7o = ppmvd @l5o/oOz cp6*xKxFdx (U3"+) t.19482E-07 = NOx - Outlet Concentration, ppmvd = constant, lb/dscf ' ppmvd = fuel factor, dscf/Ir4MBtu = oxygen concentration, 7o = lb/TvIMBtu 8,710 Cob, co 3.5 0.9 CNo* x 3.1 3.2 NOx - Outlet Emission Rate (ERno,), lb/hr L - C*o* x MW x Qs x 60 ff x28.32 na^*o* - Cruo* MW 46.0055 Qs 191,994 ERNo*4.3 NOx - Outlet Emission Factor (EFxo.o,a), lb/MMBtu = NOx - Outlet Concentration, ppmvd = NOx molecular weight, g/g-mole = stack gas volumetric flow rate at standard conditions, dscfm = lb/hr where, EELr NC)xOd CNo* K Fd co, EFNo*o,a 3.1 2l of288 a lo 22 of288 23 of288 pul6rrrcE)NOx Summary TECIlNICAL GROIJI! Locetion: Utah MuiciDal Power Acmcv - West Vallev Citv. uT Sourcc: Unit I Projcct No,: AST-2024-1778 ' Dclimiter for runt oot uscd m RA calculdions Standud Deviation (Sd) Confidence Cafficient (CC) Bis Adjutrcnt Rcquired (BA) Bias AdjEtment Factor (BAF) Rcletivc Accurecy (RA) Perfomce Rcquircd Tcst Result RATA Frcquency Conlidencc Cft fficient, CC .. = ltog" rollVn I where, brrs-l][= degres of frecdom value n____l_= number of ms selrctcd for calculating the RA Sd 0.000 = studud deviation of diffcrencc CC 0.000 = confidence coefficient Biro Tcst Rcsulls, BA BARequired ifd > lCCl whcrc, d -0.001 : average diffcrcncc ofRefercne Method md CEMS CC 0.000 = confdence coefficient BA No = bi6 adjwtrnent factor Bis Adjustmcnt Fector, BAF dBAF=aEMSavs+1 whcrc, d -0.001 = average differcnce ofReference Mcthod md CEMS CEMS.,. 0.013 = avemgc of CEMS valres BAF 1.000 = bir adjutment factor Run No.Drl.Timc Load MW Refcrcncc Mcthod NOx Emission Frctor lb/MMB.u (O2d) CEMS NOx Emilsion Frcaor lb/MMBtu (O2d) Avcrage Difrcrcncc lbi.lvtMBtu (O2d)Stsrt End I 2 3 4 5 6 7 8 9 l0 6^8124 6/18t24 6/t8/24 6n8/24 6/18/24 6n8t24 6^8t24 6ilEt24 6^8t24 6^8t24 L0:30 il:16 I:53 2:28 3:03 3:45 4:25 4:5'l 5:29 .6:02 l0:50 I l:36 l2: l3 t2.4E l3:23 l4:05 l4:45 l5:17 l5:49 l6:22 36 36 36 36 35 35 35 35 35 35 0.012 0.012 0.012 0.012 0.012 0.012 0.012 0.012 0.012 0.013 0.013 0.013 0.013 0.013 0.013 0.013 0.013 0.013 nnr2 -0.00 -0.00 -0.00 -0.00 -0.00 -0.00 -0.00 4.00 -0.00 Avcrasr 35 0.0t2 0.0r3 -0.00 o 000 0 000 No I 000 t.t3% + 0 015 lh/MMBrr 14 oTRsl PASSAPS 4OTRS 24 of288 plll6rrpE)02 Summary T E (i li N I O /\ L (l R () ll P Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit I Project No.: AST-2024-l 778 r Delimiter for runs not usd in RA c.lculstions Standard Deviation (Sd) Confi dence Coefiicient (CC) Bias Adjustment Required (BA) Bias Adjustment Factor (BAF) Relative Accurecy (RA) Performance Required Test Result RATA Frequency Confidencc Coellicient, CC cc = ltog'" sallVn I where, hxs -!\-= degrees of freedom value n2-= number of runs selected for calculating the RA Sd 0.04 : standard deviation ofdifference CC 0.034 = confidence coefficient Rcletivc Accurecy, RA RA _ ld li_..!ccl x 1oo wherc, d 0.08 = average difference of Reference Method and CEMS CC 0.034 = confidence coefficient RM 15.10 = reference method, % dry RA 0.74 = relative accuracy,o/o Run No.Drte Time Lord MW Referencc Mcthod Or Conccntretion oh ilrv CEMS O, Concentretion o/o dry Avcrage Differencc o/o drvStartEnd I 2 3 4 5 6 7 8 9 t0 6/ 6/ 6/ 6t 6t 6t 6t 6l 6t 6/ 8/24 8/24 8124 8t24 8t24 8/24 8/24 8/24 8/24 8/24 l0:30 I l:16 I l:53 t2.28 l3:03 l3:45 l4:25 l4:57 t5'29 16.02 l0:50 I l:36 L2:13 l2:48 t3.23 l4:05 t4.45 l5:17 15.49 l6:22 36 36 36 36 35 35 35 35 35 35 5. 5. 5. 5 5 5 5 5. 5 5. 5.0 50 5.0 5.0 5.0 5.0 5.0 5.0 5l 5l 0 n n n 0. 0 0. 0 0 Averagt 35 I r00 ts.o22 0.078 0.044 0.034 No 1.000 0.74 c/o RA<75%(4oTRS) PASSED 4OTRS 25 of288 pul6rrrcE)NOx Summary Tf (lllNlOAL (lR(-) l.,P Location: Utah Municipal Power Agency - West Vatley Q!ry-UT Sourcc: Unit I Projcct No.: AST-2024:1778 t Delimiter for runs not urd in RA alculations Confidence Coefticient, CC .. = ltogt , rollVn I wherc, 6er -!306 = degrecs of freedom value n 9 = number ofruns selected for calculating the RA Sd-0100 = standard deviation of difference CC 0.077 = confidence coefficient Relative Accuracy, RA ldl+lcclRA = 7r;ffix1oo where, d -0. l3 = average difference of Reference Method and CEMS CC 0.077 = confidence coefficient AS 100.000 = applicable source standard, ppmvd @ 15 o/o Oz RA 0.21 = relative accuracy,lo Run No.Deic Time Rcference Mcthod NOx Conccntration oomvd @ 15 Yo Ot CEMS NOx Conccntration Averagc Difference Strrl End I 2 3 4 5 6 7 8 9 l0 6t 6t 6l 6/ 6/ 6/ 6t 6/ 6/ 6/ 8t24 8/24 8/24 8/24 8t24 8124 8124 8/24 8/24 8/24 0:30 I :16 l:53 2.28 3:03 345 4:25 4:51 5:29 6:02 l0:50 ll:36 t2'.13 l2:48 t3.23 l4:05 l4:45 l5:17 l5:49 l6:22 3.2 3.4 3.4 3.3 3.4 3.4 34 33 3.3 3.5 3.5 3.5 3.5 36 35 34 3.5 3.4 34 -03 -0.I -0 1 -0.3 -0 1 00 -0 1 -0.I -0 1 Averagr 3 344 3.478 -0. I 33 Standard Deviation (Sd 0 100 Applicable Source Standard (AS t00 Confi dence Coeffi cient (CC 0.077 Relrtive Accurecy (RA 0.21 o/o Performance Required - Applicable Source Standard RA s l0% Performance Specifi cation Method PS2 26 of288 pJ/IATEE) TECt]Nr()At__ GR()tiP NOx Summary Location: S^,,t""' Project No.: AST-2024-l 778 'Delimitcr for runs not usd in RA alculations Confidence Coeffi cient, CC .. = ltogt r rollVn I where, t4e7s 2.306 = degrees offreedom value n 9 = number ofruns selected for calculating the RA Sd 0142 = standard deviation ofdifference CC 0.109 = confidence coefficient Rcletivc Accurecy, RA ldl+lcclRA = 'x 100AS or RM whcre,d -0.14 = average difference of Reference Method and CEMSCc-d':i0g = confidence coefficientRM 4.41 I = reference method, lb/hrRA 5.76 = relative accuracy, To Run No.Drte Timc Refcre ncc Method NOx Emission Rate lb/hr CEMS NOx Emission Rete lb/hr Avcrege Difference lb/hrStartEnd I 2 J 4 5 6 7 8 9 l0 6l 6l 6/ 6l o/ 6l 6t 6/ 6/ 6/ 8/24 8124 8/24 8t24 8/24 8/24 8t24 8/24 8/24 8/24 l0:30 I l:16 ll:53 l2:28 t3:03 l3:45 14.25 l4:57 l5:29 l6:02 0:50 l:36 2:13 2.48 3:23 4:05 4:45 5:17 5:49 6.22 4.3 4.5 4.5 4.3 4.5 4.5 4.5 43 43 4.7 4.7 4.6 46 4.6 4.6 44 4.6 4.5 4.4 -0.4 -0.I -0 1 -03 -0.1 0.t -0.1 -0.2 -0 I Averagr 4.411 4.556 -0.144 Standard Deviation (Sd 0.142 Applicable Source Standard (AS 7.4 Confidence Coelficient (CC 0.109 Rclativc Accuracy (RA 5.76 yo Performance Required - Mean Reference Method RA s 20% Performance Specifi cation Method PS2 27 of288 pul6npE) r[(] ll N .-'l\L (ltlf)[i{- CO Summary Locetion: Utah Municipal Power Agency - West Valley City, UT Source: Unit I Project No.: AST-2024-1778 Run No.Date Time Refercnce Method CO Concentration nnmvd Cf,MS CO Concentration oomvd Avcrege Difference oomvdStertf,nd I 2 3 4 5 6 ,7 8 9 l0 6t 6/ 6t 6l 6l 6/ 6/ 6l 6/ 6/ 8124 8124 8124 8124 8/24 8/24 8/24 8/24 8/24 8/24 0.10 l:16 l:53 7..28 3:03 3.4s 4.25 4:5? 5.29 6:02 0:50 l:36 2.13 2:48 3:23 4:05 4"45 5.17 5:49 6.22 2.8 28 28 2.6 2.4 2.4 2.4 2.4 2.4 24 9 9 9 I 8 8 8 8 8 8 0.9 0.9 0.'1 0.6 0.6 0.6 0.6 0.6 06 Average 2.5n 33 0.678 Standard Deviation (Sd'0 t30 Confidence Coefficient (CC 0.100 Alternative Relativc Accurecv (RAl 0 78 nnm Altemative Performance Required (d + CC <5ppm Performance Specifi cation Method PS 44 ' Delimiter for runs not usd in RA calculations Confi dcnce Coeffi cicnt, CC cc = ltoSt , sallVn I where, hns -!jj-= degrees of freedom value n 9 = number of runs selected for calculating the RA Sd 0.130 = standard deviation ofdifference CC ;[![ = confi dence coeffi cient Alternetive Relative Accuracy, RA p;1 = lAl+CC whe rc,d 0.68 = average difference of Reference Method and CEMS CC 0.100 = confidence coefficient RA 0.78 = relative accuracy, ppm 28 of288 pulTarpE) '!-f (:liN|(.1 n i- (lR()l.lta Locetion: Utah Municioal Power Asencv - West Vallev Ciw. UT 02 Summary Source: Unit I Project No.: AST-2024-l 778 Run No.Date Time Refe rence Method Or Conccntration oh drv CEMS O, Concentration Yo drv Avcrrge Difference o/o drvStrrtEnd I 2 3 4 5 6 ? 8 9 t0 6t 6t 6/ 6t 6t 6l 6t 6t 6l 6/ 8124 8124 8t24 8t24 8t24 8t24 8124 8/24 8/24 8/24 l0:30 ll:16 ll:53 l2:28 l3:03 l3:45 14.25 l4:57 15.29 l6:02 0:50 l:36 2:13 2.48 3.23 4:05 4:45 5:17 549 6:22 5 5 5 5 5 5 5 5 5 5 5.0 50 5.0 5.0 50 5.0 50 50 5.1 5,1 0. 0. 0 0. 0. 0. 0. 0 0 Average 100 022 0 078 Standard Deviation (Sd 0.044 Confi dence Coeffi cient (CC 0.034 Relative Accuracy (RA)0.74 e/o Performance Required - Mean Reference Method RA < 20% Performance Specifi cation Metho<PS3 ' Delimiter for runs nol urd in RA @lculations Confi dencc Coe{Iicient, CC cc = ltogt, sallVn I whe re, turrt L= degrees of freedom value n 9 = number ofruns selected for calculating the RA Sd -0.044 = standard deviation of difference CC ;QQ}!- = confidence coefficient Relativc Accuracy, RA ldl+lcclRJ{ = :----r-----j----j x 100 whcrc, d CC RM RA 008 = average difference of Reference Method and CEMS __ i !]1_=.onfidence coefficient 15.100 = reference method, % dry 0.74 = relative accuracy,%o 29 of288 pllIATEE! TECHNICAL GFIOI.JP Method 1 Data Sourca Pold No, Drr.:06/lt/11 D*l Orlcntrtlon: Vdiill Dd Doltn: CiEulu DlltrmcfrcmFrrW.llbOEid.ofPon: 155.75 h Nlpplc kn8h: 11.75 ln lhprhoflhri: t{4.0o h CmtrS.rtloulAn.ofDsr: l13.lo ltr No. olTd Ponr: 4 DLlu. A: 7.0 fl Dltlm. A Ihrct lrhml.n: 06 (rut bc>05) Dlrim. E: 63.0 Il DltiM. B DEi Di!ffi.E: 5J (rui bc > 2) ActudNun$arofTnvce?oldt: l Mcsunr (InirLl ud Dlcl: _I4!!!!_R.vlocr (Inilld sd Drt.): CRH 6/18 LOCATTON OF TRAVERSE EOINTS Nrnba of tdv.& point 6 . allofrda I 3 .a 5 6 t 9 t0 ll 3 a 5 9 ll57 t2l0t 14.6 t67 6.7 - {.1 - 3.2 - 2.6 - 2.1 t5.4 50.0 25.0 - 14.6 - l0 5 - A.2 - 6.? - Er.3 75.0 - 29.6 - t9.4 - l{.6 - ll.8'i ii: ii: irit , i19lt - 821 97.4 - tE.2- : : : : - : - - : iii TnvcEc Polnt Vc oI DlrM.r Dirtmc frcm ourlda ol,rll I 3 I 5 6 1 I 9 l0 lt t2 7 500 833 24 05 72.N I 19.95 35 EO t3 75 l3 L70 Set Di!8tu A- 7f,. B-63t. Dcprh ofDu.t - 144 in. Cr6i Setiml Arc! Oldurb.nc. Upstraam Dliu.b.ncc 30 of288 u6LI*aa&rIItEdddoz X^ ^ <o N -o € Iii o o aX* . €X- - ;! ' l Y G- - X- - >Y " G- - X- - ;9 i ' l G- - X- - -N d€X- - -- d IX- . aXo o -O O a FF ot o Ec O o5 6 66aath __ NHY o o- r " : __ o o. t E ^^ o . X= r -,. . 6 ^^ do. \ E o. r . = ^^ o X: 6 i o. r " s N ;= 6o. \ R ;= r -" . r O. T " R __ o x= - ; o" \ s aa 9 io e fi EE c0 "- d; =!s sc @v o ; PE #, I i 5 6 5 do oridUeEioO 6i . i . i aR q !1 q NN N NN N NN N9n q 91 q NN N99 . 1 e0 9 . 1 09 0 9 n 09 e a NN N ,l ld . " u' IIJ ^G) EEcc t o a ; :: r ; 65 8 iidoo E UU I ! oo o sv - I l .' ! ' 1 9 o N -i - i + q ON d- i + ? N -i r i + q od dr i +q O -i d i + q a -i - i + q ON r; r i + ? -i - i t q o -i d i + q a .: x e 5 ,i f r E ,{ 6 co vz > > -6 E E F N * s4 : :; n i 9 oo d x :* d r L! C CEE . 9 , 9 OO E E o o q. t [i. l oo o o o(!()qt{ rrNdF6z'=A F;o=BoI?qq=aes = \r E : -t - IT(!o:8l 3l of 2 8 8 puIATGE)Runl-RMData T t_ () lir! |()n 1.. (.1 r, () [., P Location: Utah Municioal Power Aqencv - West Vallev Citv, UT Source: Unit I Project No.: AST-2024- 1778 Date:6118124 Time Unit Status Oz - Outlet o/o dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Void Uncorrected Run Average (Co5,) Cal Gas Concentration (Cprr) Pretest System Zero Response Posttest System Zero Response Average Zcro Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) 10.99 0.04 0.03 0.04 r 0.88 10.89 10.89 15.07 2.48 9.99 -0.23 -0.41 -0.32 9.65 9.66 9.66 2.80 9.80 0.90 0.59 0.75 9.55 r 0.35 9.95 Corrected Run A l0:30 l0:31 l0:32 l0:33 l0:34 l0:35 l0:36 l0:37 l0:38 l0:39 l0:40 l0:41 l0:42 l0:43 l0:44 l0:45 l0:46 l047 l0:48 l0:49 l0:50 14.91 14.91 14.92 t4.91 14.90 14.92 14.91 14.91 14.91 14.92 14.91 14.90 14.92 14.91 14.9t t4.92 14.92 14.92 14.91 14.93 14.92 2.46 2.49 2.47 2.50 2.47 2.44 2.50 2.48 2.50 2.51 2.47 2.43 2.50 2.49 2.49 2.44 2.48 2.51 2.46 2.46 2.51 3.89 3.94 3.82 3.79 3.83 3.80 3.77 3.73 3.79 3.76 3.80 3.76 3.69 3.69 3.74 3.83 3.58 3.61 3.71 3.59 3.50 32 of288 puIATEE)Run2-RMData -IEOill'JlCAi (ln()LrP Location: Utah Municipal Power Asencv - West Vallev City, UT Source: Unit I Project No.: AST-2024-1778 Datez 6ll8l24 Time Unit Status Oz - Outlet o/o dry Valid CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid Uncorrected Run Average (Co6r) Cal Gas Concentration (Crtra) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) 0.03 0.06 0.05 10.89 10.91 r0.90 15.08 2.37 9.99 -0.41 -0.48 -0.45 9.66 9.56 3.50 9.80 0.87 0.83 0.85 9.26 9.28 9.27 3.09Corrected Run 2.80 I l:16 ll:17 l l:18 l l:19 I l:20 ll:21 ll:22 ll:23 ll:24 ll:25 ll:26 ll:27 I l:28 ll:29 I l:30 I l:31 ll:32 I l:33 I l:34 I l:35 I l:36 14.92 t4.93 14.92 t4.94 14.93 14.95 t4.94 t4.94 t4.94 14.94 t4.94 14.95 14.93 14.92 14.94 14.94 14.96 14.95 14.95 14.94 14.95 2.40 2.37 2.39 2.38 2.32 2.36 2.40 2.38 2.39 2.38 2.37 2.34 2.40 2.39 2.41 2.38 2.37 2.36 2.35 2.35 2.32 3.65 3.64 3.55 3.48 3.53 3.5 I 3.53 3.61 3.56 3.53 3.52 3.51 3.49 3.52 3.52 3.57 3.45 3.42 3.43 3.24 3.30 33 of288 pur6rpe T i:() ll N I ()n L (l R() LJ P Run3-RMData Utah Municipal Power Asency - West Valley Citv, UfLocation: Source: Project No.: Unit I AST-2024-1778 Datez 6ll8l24 Time Unit Status Uncorrected Run Average (Co6r) Cal Gas Concentration (CuJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Or - Outlet o/" dry Valid 14.95 10.99 0.06 0.08 0.07 10.91 10.92 10.92 15.08 14.94 14.94 14.95 14.95 14.96 t4.95 14.95 t4.95 14.95 t4.94 14.96 t4.95 14.94 14.95 14.95 14.97 14.96 14.96 14.94 t4.96 14.95 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.32 9.99 -0.48 -0.41 -0.45 9.s6 9.49 9.53 2.77 3.56 9.80 0.83 0.44 0.64 9.28 9.20 9.24 3.33 I l:53 I l:54 I l:55 I l:56 ll:57 I l:58 I l:59 l2:00 l2:01 l2:02 l2:03 l2:04 l2:05 l2:06 l2:07 l2:08 l2:09 l2:10 l2:11 l2:12 l2: l3 2.32 2.29 2.26 2.34 2.34 2.30 2.31 2.28 2.33 2.31 2.32 2.34 2.35 2.36 2.32 2.27 2.35 2.36 2.29 2.34 2.35 3.76 3.66 3.54 3.55 3.69 3.70 3.58 3.59 3.61 3.66 3.64 3.6s 3.58 3.49 3.50 3.41 3.50 3.42 3.44 3.40 3.43 34 of288 pdll6rrpE) TECIJNICN L (JROL]P Run4-RMData Location: Utah Municipal Power Agency - West Valley City' UT Source: Unit I Project No.: AST-2024-l 778 Date:6118/24 Time Unit Status Oz - Outlet o/o dry Valid 10.99 0.08 0.1I 0.10 10.92 10.90 10.91 15.09 t4.96 14.94 t4.94 14.94 14.94 14.94 14.95 14.94 14.93 14.94 14.94 14.95 14.94 14.96 14.95 14.95 t4.94 t4.94 14.93 14.95 14.95 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co6") Cal Gas Concentration (C*rJ Pretest System Z,ero ResPonse Posttest System Zero ResPonse Average Zero Response (Co) Pretest System Cal Response Posttest System Cal ResPonse Average Cal Response (Cs) Corrected Run A l2:28 l2:29 l2:30 l2:31 l2:32 l2:33 l2:34 l2:35 l2:36 l2:37 l2:38 l239 l2:40 l2:41 l2:42 l2:43 12:44 12:45 l2:46 l2:47 l2:48 2.36 9.99 -0.41 0.02 -0.20 9.49 9.63 9.s6 2.61 2.3t 2.33 2.32 2.33 2.37 2.35 2.41 2.40 2.38 2.36 2.38 2.36 2.40 2.38 2.42 2.33 2.36 2.34 2.28 2.35 2.36 3.41 9.80 0.44 0.49 0.47 9.20 9.t6 3.31 3.36 3.44 3.46 3.44 3.48 3.39 3.38 3.43 3.39 3.24 3.24 3.29 3.48 3.48 3.43 3.41 3.s0 3.43 3.47 3.46 3.47 plll6rrpE)Run5-RMData ft () t., P Utah Municipal Power Agency - West Valley City, UTLocation: Source: Project No.: Unit I AST-2024-t778 Date: 6/18/24 Time Unit Status Uncorrected Run Average (Coo,) Cal Gas Concentration (Cmr) Pretest System Zero Response Posttest System Zero Response Average Z,ero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (C*) Corrected Run Average (Co Oz - Outlet o/o dry Valid 14.93 10.99 0.1 I 0.03 0.07 10.90 10.87 10.89 15.10 CO - Outlet ppmvd Valid 2.33 9.99 0.02 -0.04 -0.01 9.63 9.60 9.62 2.43 NOx - Outlet ppmvd Valid 3.46 9.80 0.49 0.70 0.60 9.16 9.59 9.38 3.20 l3:03 l3:04 l3:05 l3:06 l3:07 13:08 l3:09 l3: l0 l3:l I l3:12 l3: l3 l3: l4 l3: l5 l3: l6 l3:17 l3: l8 l3: l9 13:20 13:21 13:22 13:23 14.9t t4.92 t4.91 14.92 t4.93 14.93 14.92 14.93 t4.93 t4.93 14.93 14.93 14.92 t4.94 14.94 14.93 14.93 14.93 14.93 14.93 14.93 2.35 2.33 2.34 2.29 2.33 2.37 2.30 2.35 2.26 2.35 2.36 2.34 2.33 2.30 2.31 2.35 2.34 2.35 2.32 2.30 2.36 3.45 3.35 3.39 3.38 3.36 3.36 3.38 3.39 3.45 3.54 3.56 3.52 3.55 3.48 3.54 3.50 3.51 3.50 3.50 3.53 3.46 pdtIATEE)Run6-RMData L.(j lil.rl(;/\l (lF- Location: Source: Project No.: Utah Municipal Power Asency - West Valley City, UT Unit I AST-2024-1778 Datez 6/18124 Time Unit Status Oz - Outlet o/o dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co6.) Cal Gas Concentration (Cr,rJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) 14.92 10.99 0.03 0.03 0.03 10.87 r 0.86 10.87 15.10 2.29 9.99 -0.04 0.04 0.00 9.60 9.61 9.6t 2.39 3.67 9.80 0.70 0.51 0.61 9.59 9.69 9.64 3.32Corrected Run A l3:45 l3:46 13:47 l3:48 13:49 l3:50 l3:51 l3:52 l3:53 l3:54 l3:55 l3:56 l3:57 l3:5 8 l3:59 l4:00 l4:01 l4:02 l4:03 l4:04 l4:05 14.89 14.91 14.91 t4.91 14.91 14.92 14.93 t4.93 14.91 t4.92 t4.92 t4.91 t4.91 t4.93 14.92 t4.91 14.91 14.93 14.93 14.93 t4.94 2.32 2.23 2.33 2.30 2.28 2.28 2.30 2.34 2.23 2.30 2.28 2.26 2.26 2.31 2.30 2.30 2.32 2.30 2.35 2.27 2.32 3.73 3.75 3.86 3.82 3.8s 3.81 3.70 3.61 3.70 3.66 3.71 3.76 3.65 3.53 3.53 3.72 3.67 3.57 3.43 3.51 3.42 37 of288 pul6rrpE) .TECIINICAL GRoIJP Location: Utah Municipal Power Agency - West Valley City, UT RunT-RMData Source: Unit I Project No.: AST-2024-1778 Datez 6/18124 Time Unit Status Or - Outlet %o dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co6,) Cal Gas Concentration (Cr*re) Pretest System Zero Response Posttest System Zero Response Average Z,ero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) t4.92 10.99 0.03 0.03 0.03 10.86 10.87 10.87 2.30 9.99 0.04 0.02 0.03 9.61 9.61 9.61 2.37 3.53 9.80 0.51 0.46 0.49 9.69 9.46 9.58 3.28Corrected Run A l4:25 l4:26 l4:27 l4:28 l4:29 l4:30 l4:3 I l4:32 l4:33 l4:34 l4:35 l4:36 l4:37 l4:38 l4:39 l4:40 l4:41 l4:42 l4:43 l4:44 t4;45 t4.9t t4.91 14.92 14.93 14.94 14.92 14.93 14.93 14.93 14.93 14.93 14.93 14.93 t4.92 14.93 14.9t 14.92 14.93 14.92 14.92 14.93 2.27 2.30 2.30 2.3t 2.29 2.33 2.36 2.35 2.32 2.30 2.34 2.29 2.30 2.35 2.28 ))1 2.26 2.31 2.26 2.29 2.28 3.64 3.63 3.59 3.49 3.48 3.46 3.46 3.49 3.44 3.48 3.4t 3.44 3.51 3.59 3.49 3.61 3.64 3.54 3.60 3.49 3.59 38 of288 plll6rrpE)Run8-RMData [: t ) 1.r [' Utah Municipal Power Asency - West Valley City, UTLocation: Source: Project No.: Unit I AST-2024-1778 Dile:6118/24 Time Unit Status Uncorrected Run Average (Co6") Cal Gas Concentration (Crrrr) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Ou - Outlet %o dry Valid 0.03 0.05 0.04 10.87 10.87 r 0.87 15.10 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.29 9.99 0.02 -0.05 -0.02 9.61 9.58 9.60 2.39 3.50 9.80 0.46 0.45 0.46 9.46 9.42 9.44 3.32 l4:57 l4:58 l4:59 l5:00 I 5:01 l5:02 l5:03 I 5:04 l5:05 l5:06 l5:07 l5:08 l5:09 l5: l0 l5:l I l5:12 l5: l3 l5: l4 l5: l5 l5: l6 l5: l7 t4.91 t4.90 14.91 14.93 14.92 14.92 14.93 t4.93 t4.9t 14.92 14.92 14.93 t4.92 t4.92 14.95 t4.92 t4.92 14.93 t4.92 t4.95 14.93 2.28 2.30 2.28 2.31 2.29 2.28 2.29 2.31 2.32 2.23 2.29 2.26 2.22 2.27 2.28 2.30 2.38 2.31 2.29 2.30 2.29 3.54 3.56 3.57 3.47 3.58 3.58 3.50 3.47 3.60 3.46 3.40 3.54 3.52 3.60 3.41 3.58 3.49 3.49 3.41 3.34 3.43 39 of288 pul6rrcEr TE(]IiNICAL (iROI.JP Run9-RMData Utah Municipal Power Agency - West Valley City, UTLocation: Source: Project No.: Unit I AST-2024-1778 Date:6118124 Time Unit Status Uncorrected Run Average (Co5") Cal Gas Concentration (Cun) Pretest System Zrcro Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run A Oz - Outlet oh dry Valid 14.92 10.99 0.05 0.07 0.06 10.87 10.86 10.87 15.t2 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.27 9.99 -0.05 -0.03 -0.04 9.58 9.49 9.54 2.41 3.40 9.80 0.45 0.39 0.42 9.42 9.55 9.49 3.22 l5,29 l5:30 l5:31 l5:32 l5:33 l5:34 l5:35 l5:36 l5:37 l5:38 l5:39 l5:40 I 5:41 15:42 l5:43 l5:44 I 5:45 l5:46 l5:47 l5:48 l5:49 14.91 14.92 14.92 14.92 14.92 14.93 14.93 14.93 t4.92 14.92 t4.92 t4.93 t4.9t t4.94 14.94 t4.93 r4.93 t4.92 t4.92 t4.92 14.92 2.30 2.23 2.24 2.26 2.25 2.32 2.25 2.25 2.28 2.26 2.24 2.28 2.28 2.30 2.25 2.30 2.29 2.28 2.28 2.27 2.27 3.38 3.39 3.45 3.50 3.50 3.4t 3.41 3.39 3.47 3.43 3.48 3.38 3.31 3.31 3.38 3.38 3.30 3.31 3.38 3.42 3.35 40 of288 pill6rrrcE) TECHNICN L (;F()t,IP Run 10 - RM Data Utah Municioal Power Asency - West Valley CiW. UTLocation: Source: Project No.: Unit I AST-2024-1778 Date: 6/18124 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (Cr,6) Pretest System Z,ero Response Posttest System Zero Response Average Z,ero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (C*) Corrected Run A Corr O: - Outlet o/o dry Valid 14.91 10.99 0.07 0.05 0.06 10.86 10.86 10.86 15.12 CO - Outlet ppmvd Valid 2.26 9.99 -0.03 0.00 -0.02 9.49 9.49 9.49 2.39 NOx - Outlet ppmvd Valid 3.37 9.80 0.39 0.45 0.42 9.55 9.35 9.45 3.21 l6:02 l6:03 l6:04 l6:05 l6:06 l6:07 l6:08 l6:09 l6: l0 l6:l I l6:12 l6:13 l6: l4 l6: l5 l6: l6 l6:17 l6:18 l6: l9 16:20 l6:21 16:22 14.69 14.90 14.91 14.91 14.91 14.92 14.93 14.92 14.93 14.93 14.93 t4.94 14.92 14.94 14.93 14.92 14.94 14.94 14.94 14.93 14.93 2.21 2.23 2.24 2.26 2.26 2.28 2.27 2.25 2.24 2.24 2.28 2.26 2.21 2.27 2.30 2.28 2.30 2.33 2.27 2.23 2.27 3.3 r 3.46 3.34 3.42 3.38 3.40 3.36 3.39 3.35 3.33 3.41 3.33 3.46 3.33 3.40 3.43 3.38 3.29 3.36 3.35 3.38 4l of288 42 of288 puthrpe T [ (] ll N I (,i\L (l B() tJ F' Locetion: Utah Municipal Power Agency - West Valley City. UT NOx Summary Sourcc: Unit 2 Project No.: AST-2024-1778 ' Dclimiter for runs not used h RA cslculatrons Studild Deviation (Sd) Confidence CGIICient (CC) Bi6 Adjutrrent Rcquired (BA) Bias Adjutrnent Factor (BAF) Perforunce Requircd Test Result RATA Frequency Confidencc Cmllicicnt, CC cc = ltnr'" sallVn I wherc, \t.tt: -/jf-= dcgrees of Aeedom value n_____2_= number of ms selected for calculating the RA Sd 0.001 = standrd deviation ofdifference CC 0.001 = confidence coemcient Bias TBa Resulh, BA BARequired ifd > lCCl where, d -0.002 = average difference ofReferencc Method md CEMS CC 0.001 = confidencc ccfEcient BA No = bi6 adjstment faclor Birs Adjustmcnt Factor, BAF dBAF=-+1 wherc, d___:9992_= "uerage differcnce of Reference Method ild CEMS CEMS.,. 0.013 = average ofCEMS valucs BAF 1.000 = bias adjustmetrt factor Run No.Datc Time Losd MW Refcrencc Method NOx Emissioo Factor tb/MMBtu (O2d) CEMS NOr Emission Frctor lb lMBtu (O2d) Avcrtgc Differcncc lb4vlMBtu (O2d)Starl End I 2 3 4 5 6 7 8 9 t0 6/t9/24 6/t9/24 6il9t24 6/t9t24 6^9t24 6/20124 6/20t24 6t20/24 6t20/24 6t20/24 l3:33 l4:02 l4:40 l5:17 I 5:48 't .t2 1.43 8:14 8:47 9.20 l3:53 l4:22 l5:00 l5:37 l6:08 7 .32 8:03 8:34 9.07 9.40 35 35 35 35 35 35 35 35 35 35 0.010 0.01I 0.012 0.01 I 0.0tl 0.01 I 0.010 0.01I 0.012 0.012 0.013 0.0t3 0.013 0.013 0.013 0.013 0.013 0.013 0.013 0.013 -0.002 -0.001 -0.002 -0.002 -0.002 -0.003 -0.002 -0.001 -0.001 Averag€35 0.0t I 0.013 -0.002 0.001 0 00r No 1.000 a 0 015 lh/MMBtu (4 OTRS) PASSAPS 4OTRS 43 of288 plll6rrpE) TIO11Nr(]AL GR()tJP Locrtion: Utah Municioal Power Agency - West Valley CiW, UT O2 Summary Sourcc: Unit 2 Project No. : AST1202!:! Z! Run No.Dste Time Loed MW Reference Method Or Conccntrrtion o/o dw CEMS Or Concentrrtion o/o drv Avcrege Diffcrencc oh drvStrrlEnd I 2 3 4 5 6 7 8 9 l0 6/t9t24 6il9t24 6il9t24 6lt9l24 6/19/24 6/20t24 6120124 6/20/24 6/20n4 6/20t24 l3:33 l4:02 t4.40 l5:17 l5:48 7:12 7:43 8: l4 8:47 9.20 l3:53 14.22 l5:00 l53'l l6:08 7:32 8:03 8:34 907 9:40 35 35 35 35 35 35 35 35 35 35 5.0 5.0 50 50 50 5.0 50 50 5.0 5,0 5.1 50 5.0 50 5.0 5.0 5.0 5.0 50 5.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 00 Averagr 35 15.000 15 000 0 000 'Dclimiter for runs nol usd in RA alculations Standard Deviation (Sd) Confidence Coeffi cient (CC) Bias Adjustment Required (BA) Bias Adjustment Factor (BAF) Relative Accurrcy (RA) Performance Required Test Result RATA Frequency 0.000 0.000 No 1.000 00h RA < 7.5 % (4 oTRS) PASSED 4OTRS Rclative Accurecy, RA RA _ ld li_.!ccl x 1oo where, d 0.00 = average difference of Reference Method and CEMS Confi dencc Coeflicient, CC cc = lto'zt, sallVn I wherc, to.o, 2.306 = degrees offreedom value nl_= number of runs selected for calculating the RA Sd 0.00 = standard deviation ofdifference CC 0.000 = confidence coefficient CC 0.000 = confidence coefficient RM 15.00 = reference method, % dry RA 0.00 = relative accuracy,Yo 44 of288 pul6rpEr NOx Summary Tt:()ttN t()At 6; plitliP Locstion: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Project No.: AST-?024- 1778 Confidence Cocflicicnt, CC .. = ltogt , rollVn I where, hsj5 2.262 = degrees of freedom value n-!|_= number of runs selected for calculating the RA Sd 0.145 = standard deviation ofdifference CC 0.104 = confidence coefficient Relative Accuracy, RA ldl+lcclRA = 7s;;Tr:x 1oo whcre, d -0.49 = average difference of Reference Method and CEMS CC 0.104 = confidence coefficient AS 100.000 = applicable source standard, ppmvd @ l5 % Oz RA 0.59 = relative accuracy, o/o Run No.Date Time Reference Method NOx Concentration oomvd@15%Or CEMS NOx Conccntretion oomvd @ 15 o/o Oz Averege Differcnce pomvd @ 15 lo O,Start End I 2 3 4 5 6 7 8 9 l0 6/t9t24 6/19/24 6/t9t24 6/t9/24 6/19/24 6/20/24 6/20/24 6120/24 6/20/24 6/20/24 l3:13 t4.02 t4'40 15. l7 l5:48 7.12 7.43 8: l4 8.47 9.20 I 3:53 l422 l5:00 l5:17 l6:08 7:32 8:03 8:34 9:07 9:40 2.8 3.0 32 3r 30 3.1 2.8 30 J,J J,J 35 3.5 36 36 3.5 3.5 3.5 3.6 36 36 -ut -05 -0.4 -0.5 -0.5 -04 -07 -0.6 -03 -03 Averag(3.060 3 550 -0 490 Standard Deviation (Sd'0.145 Applicable Source Standard (AS 100 Confi dence Coeffi cient (CC 0 104 Reletive Accurecy (RA 0.59 % Performance Required - Applicable Source Standard RA < r0% Performance Specifi cation Methoc PS2 45 of 288 pul6nrcE)NOx Summary If( ltNl(rn I CR()UF Locrtion: Utah Municipal Power Agency - West Valley CiW, UT Source: Unit 2 Project No. : AST -2024 - 177 8 ' Delimiter for runs not usd in RA calculations Confidencc Coefficient, CC cc = ltoxt, sallVn I wherc, hsr -!!l= degrees of fretdom value n 9 = number of runs selected for calculating the RA Sd-llil= standard deviation of difference CC 0.177 = confidence coefficient Rcletivc Accurecy, RA ldl+lcclna = 7s;;Tr:x loo where, d -0.54 = average difference of Reference Method and CEMS CC 0.17'1 = confidence coeflicientRM 4.178 = reference method, lb/hr RA 17.26 = relative accuracy,o/o Run No.Dete Time Refercnce Mcthod NOx Emission Rste lb/hr CEMS NOx Emission Rete lb/hr Avcrege Differencc lb/hrStartEnd I 2 J 4 5 6 7 8 9 l0 6fi9124 6il9124 6lt9l24 6il9124 6^9124 6t20t24 6t20/24 6/20t24 6t20t24 6t20t24 l3:33 14..02 t4.40 l5:17 l5:48 '7:12 7:43 8: l4 8:47 9:20 l3:53 14.22 l5:00 l5:3 7 l6:08 7:32 8:03 8:34 9:07 9:40 38 4.0 4.3 4.2 4.0 4.2 3.8 4.t 4.5 4.5 47 4.? 4.8 48 4.7 4.'1 4.7 4.7 4.7 4.7 -09 -07 -0.5 -0.6 -07 -0.5 -0.6 -02 -0.2 Averagr 4.178 4.722 -0.544 Standard Deviation (Sd'0.230 Aoolicable Source Standard (AS 7.4 Confidence Coeflicient (CC 0.t77 Reletive Accurecv (RAl 17.26 yo Performance Required - Mean Reference Methoc RA < 20% Performance Specifi cation Methoc PS2 46 of288 pul6rrpE) TECIlNICAL GROTJP CO Summary Locrtion: Utah Municipal Power Agency - We$ lellq!!ry,lJf Sourcc: Unit 2 Project No.: AST-2024-1778 Run No.Dete Time Rcfcrcncc Mcthod CO Conccntretion DDmvd CEMS CO Conccntrrtion oomvd Averegc Differencc nomvdStsrtEnd I 2 3 4 5 6 7 I 9 l0 6n9t24 6/t9t24 6lt9l24 6^9t24 6/19t24 6t20/24 6t20/24 6t20t24 6/20/24 6t20/24 l3:33 14.02 l4:40 15.r7 l5:48 7.12 7:43 8: l4 8.47 9:20 l3:51 t4.22 l5:00 l5:37 l6:08 7:32 8:03 8:34 9:07 9:40 2.7 2.6 2.4 2.5 2.6 4.1 38 3.7 37 3.7 1.9 1.8 r.8 1.8 l8 3.1 2.9 2.8 28 27 0.8 0.8 06 0.7 08 1.0 0.9 09 0.9 Averagt 3.122 2 300 0 822 Standard Deviation (Sd 0.120 Confi dence CoefTicient (CC 0.092 Altcrnetivc Reletivc Accurecy (RA 0.91 pom Altemative Performance Required (d + CC)<5ppm Performance Specifi cation Method PS 4A r Delimiter for runs nol uscd in RA calculations Confidcncc Coellicient' CC cc = ltogt , sallVn I whcrc, h.ns -!\= degrees of freedom value n2=numberofrunsselectedforcalculatingtheRA sdg9-= standard deviation of difference CC 0.092 = confidence coefficient Alternetivc Rcletive Accuracy, RA s.,,q = ldl+CC where,d 0.82 = average difference of Reference Method and CEMS CC 0.092 = confidence coefficient RA 0.91 = relative accuracy, PPm 47 of288 pul6nrcE) TE(]IINI(]AL GROUP 02 Summary Locetion: Utah Municipal Power Agency - West Vallry Q!ry-QI Sourcc: Unit 2 Project No.: AST-2024-l 778 ' Delimiter for runs not uFd in RA calculations Conlide nce Cocllicient, CC .. = ltog" rollVn I where, hsr -2.306 = degrees of freedom value n 9 = number ofruns selected for calculating the RA Sd 0.000 = standard deviation ofdifference CC _;!Q[ = confi dence coeffi cient Rclativc Accuracy, RA ldl+lcclne = 7riffix 1oo where,d 0.00 = average diflerence of Reference Method and CEMS CC 0.000 = confidence coeflicient RM 15.000 = reference method, % dry RA-000 = relative accuracy, To Run No.Datc Time Refercncc Mcthod Or Conccntretion 'h drv CEMS O, Concentretion V" drv Avcragc Differencc YodwStrrtEnd I 2 3 4 5 6 7 8 9 l0 6il9124 6il9124 6/t9t24 6n9/24 6il9/24 6t20124 6n0D4 6/20t24 6120/24 6t20124 l3:3 3 t4'02 l4:40 l5:17 l5:48 7.12 '1 43 8: l4 8:47 9:20 l3:53 l4:22 l5:00 l5]'l l6:08 7.32 8:03 8:34 9:07 9:40 50 5.0 50 5.0 5.0 5.0 50 5.0 5.0 5.0 5.1 5.0 5.0 5.0 5.0 5.0 5.0 50 50 5.0 0.0 00 0.0 0.0 0.0 0.0 0.0 00 0.0 Averag(1s.000 15.000 0.000 Standard Deviation (Sd 0 000 Confidence Coeffi cient (CC 0.000 Relative Accurecy (RAl 0 o/o Performance Required - Mean Reference Method RA s 20% Performance Specifi cation Method PS3 48 of288 plll6rpEr T E () I'tN t() A L () R (-) Ll P Method 1 Data kriion Ulrh SourcG Unit 2 Prcrct No. AST-202J-l 7-IE Drtc: 06/19/2J DEI Oriaht.lbn: Vdicd Dul Detign: Circule Dirle.frcmFrrW.llloOdlidco,Pod: 155.75 in Nippl. Lntth: I1.75 in Dcpth o, DEt: lg 0o h CorrSfitionalaftaofDNl: l13.l0 ftr No.otTcil Pont: { Dirtrfta A: 7.0 i Dill.mc A lhf,l Dhmtcn: 0.6 (mut be >0.5) Dirtrftc B: 63.0 tl DirtrG B lrrr Dbtu.6: 5J (rut b. Z 2) Acturl NumbcrofTnvcda Polil,: 3 Mcsurr (lnilld ud Drtc): TAL 6/19 Reld.r (Inlllrt ed Drlc): CRH 6/19 LOCATION OF TRAVEBSE FOIN[ Numbu oJ fiawftc Ninb on e dicfrda I, 3 { 5 6 1 t I l0 ll l2 3 I 5 6 8 9 l0 ll t2 l{.6 16.7 61 - { { -- 3.2 - 26 - 2.1 8J1 5oO 2r.0 - 116 - 10.5 - t2 - 6.7 -- 83.3 ?5.0 -- 29.6 - 194 - 14.6 - ll.8 " .'.'" ii, , iti Ii "iil 9t r - E2.397.1 - 88.2:--::-:::-z:,:i .Pcrccd of strck dioil.tetlrcn tnid. Ndll to ttMrs. Pont TlavaB€ Point o/o ot Dim.r Dirtrftc fmm lBid.irll fmm out.idc of I J { 3 6 1 t 9 l0 ll 16.7 50.0 83.3 24.05 72.00 I 19.95 35.80 E1.75 t3L70 Stet Dilgm A=7n.B"6ln Dcpth of DEr - l{ it Cr6s Serioill tuct Disturbancc Upitrc.m Olnurb.nc. 49 of288 UE0=&a@rdEd&E&Id=zI -. ( < Q6 6 ICl r r qa o IC{ s s d- 6Q# . b ' €(!o o d$ oQr € IilN N (: r r =h 6 sXs s =6 6 I:v o a= n I^- Q o := <X- - a oo9E 'F r: EE E a60 :iN^^ a=i s . ^^ 9 d" \ g 3 :" s " oo 9 d. - ^ g ^^ 1 == @d. \ = ^^ q 6. r - E d. - . 9 ^^ o dN Qd. -. 9 ls c =o tE>3 6! "oi a S r. e m; a !; or d : d 99 9 rr r 6e Iooo€r6N6oraa€INrOE!o&Iro6 adcaaO riqqqqqqIq6O!coEoL) n. ' ! 9 \t - : r: r : : rr - -i ri r; -i -i ri -- a 99 - Nd N ai 6 i 6i 1n 9 NN N 99 - oi 6i 6 i rr N6i .i 6i u df i G) !!i) = q q 6 ::n ; oo d 'E = d cE = oo E QU I ! oo o UU O di - i + ? N ri - i + ? d ;- i + ? r; d i s q aO 6i 6 i - i q a -i - i e q -; - i r q o di d+ 9 aN -i - ; + q o r; d + 9 6i . i - i q - - F 5i 9 : 6, \ f r i -t !-- c\ Y E E S N q q _ d - ;; d 9 oo d : =a d , t ; , rE e c OO E E uu u l q l oo o o zz z z rrNdFOzEo!. NcDU) (I .{ ..Z-.-;F F*.2U=>Eo'&Eo:EE)EGQ0P \r E II( q6Qqoqori 50 of 2 8 8 puIATEE) TECI]NICAL (]FOt]P Runl-RMData Utah Municipal Power Agency - West Valley City, UT Unit 2 Location: Source: Project No.: Date: AST-2024-1778 6n9/24 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (C;rJ Pretest System Zero Response Posttest System Zero ResPonse Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run Avera O: - Outlet o/o dry Valid 14.87 10.99 0.06 0.06 0.06 10.88 10.89 10.89 15.04 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.67 9.99 0.27 -0.r5 0.06 9.70 9.70 9.70 2.70 2.69 2.59 2.77 2.68 2.63 2.68 2.75 2.71 2.55 2.77 2.72 2.63 2.64 2.72 2.6s 2.53 2.62 2.68 2.67 2.71 2.68 2.57 9.80 0.06 -0.31 -0.1 3 9.28 9.48 9.38 2.78 2.53 2.s9 2.55 2.53 2.55 2.s8 2.54 2.s9 2.57 2.54 2.54 2.53 2.53 2.56 2.6t 2.59 2.60 2.67 2.67 2.60 2.57 l3:33 13:34 l3:3 5 l3:36 13:37 l3:38 l3:39 l3:40 l3:41 13:42 l3:43 l3:44 l3:45 13:46 13:47 l3:48 13:49 13:50 l3:5 I 13:52 l3:53 r4.86 14.87 r 4.88 14.88 14.87 t4.87 t4.87 t4.87 t4.87 t4.87 14.88 14.87 14.86 14.87 14.8 8 14.87 14.87 14.87 14.87 14.88 14.86 5l of288 pllIATEE) Ir (] lir! l()Al (l ll("; lJ P Location: Utah Municipal Power Agency - West Valley City, UT Run2-RMData Source: Unit 2 Project No.: AST-2024-1778 Datet 6119124 Time Unit Status Or - Outlet oh dry Valid r 4.86 10.99 0.06 0.04 0.05 10.89 10.89 10.89 15.02 CO - Outlet ppmvd Valid 2.63 9.99 -0. l5 0.36 0.1I 9.70 9.87 9.79 2.61 2.61 2.54 2.6s 2.74 2.s6 2.63 2.66 2.56 2.60 2.72 2.59 2.67 2.63 2.66 2.67 2.58 2.68 2.68 2.63 2.59 2.63 NOx - Outlel ppmvd Valid Uncorrected Run Average (Co6.) Cal Gas Concentration (Cmr) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cna) Corrected Run A 2.66 9.80 -0.31 -0.37 -0.34 9.48 9.57 9.s3 2.98 l4:02 l4:03 l4:04 l4:05 l4:06 l4:07 l4:08 l4:09 l4:10 l4:l I l4:12 l4:13 l4:14 l4:15 l4: l6 l4:17 l4:18 l4:19 l4:20 l4:21 l4:22 14.84 14.85 14.86 14.87 14.86 14.86 14.86 14.86 14.85 14.85 t 4.86 14.87 t4.87 t4.87 14.86 t4.86 14.86 14.86 t4.87 14.87 14.87 2.66 2.70 2.65 2.68 2.7t 2.69 2.74 2.70 2.64 2.67 2.72 2.63 2.65 2.64 2.58 2.61 2.63 2.58 2.63 2.66 2.63 52 of288 pul6rrpE) TEOl1r\lIOAL (lF()tJP Location: Utah Municipal Power Asencv - West Vallev Citv, UT Run3-RMData Source: Unit 2 Project No.: AST-2024-1778 Date: 6119124 Time Unit Status Oz - Outlet Yo dry Valid CO - Outlet ppmvd Valid NOx - Outlel ppmvd Valid Uncorrected Run Average (Co6") Cal Gas Concentration (Ceu) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) 14.85 10.99 0.04 0.05 0.05 10.89 10.89 10.89 15.00 2.56 9.99 0.36 0.10 0.23 9.87 9.94 9.91 2.40 3.07 9.80 -0.37 -0.03 -0.20 9.57 9.77 9.67 3.24Corrected Run A l4:40 l4:41 14:42 l4:43 l4:44 l4:45 l4:46 l4:47 l4:48 l4:49 l4:50 l4:51 l4:52 l4:53 l4:54 l4:55 l4:56 l4:57 l4:58 l4:59 l5:00 14.83 14.86 14.86 14.86 14.86 14.85 14.85 14.83 14.84 14.84 14.85 14.84 14.85 14.85 14.86 14.85 14.85 14.86 14.85 14.85 t 4.86 2.56 2.57 2.55 2.57 2.66 2.74 2.57 2.64 2.60 2.56 2.55 2.43 2.59 2.63 2.41 2.42 2.60 2.53 2.56 2.48 2.53 3.02 3.06 3.04 3.06 3.04 3.03 3.07 3.13 3.10 3.t2 3.16 3.12 3.16 3.t2 3.22 3.23 3.00 2.79 2.80 2.98 3.15 53 of288 puIATEE)Run4-RMData it li'.r1t)Al- (lP()tlP Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Project No.: AST-2024-1778 Date: 6119124 Time Unit Status Oz - Outlet oh dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co6.) Cal Gas Concentration (CnJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) 14.83 r0.99 0.05 0.04 0.05 10.89 10.87 10.88 15.00 2.52 9.99 0.10 0.02 0.06 9.94 9.70 9.82 2.52 3.01 9.80 -0.03 -0.12 -0.08 9.77 9.69 9.73 3.08Corrected Run A l5:17 l5:18 l5:19 I 5:20 l5:21 l5:22 l5:23 l5:24 l5:25 l5:26 l5:27 l5:28 l5:29 l5:30 l5:31 l5:32 l5:33 l5:34 l5:35 I 5:36 l5:37 14.82 14.83 14.83 t4.82 t4.84 r 4.83 14.84 14.83 14.84 14.84 t4.84 14.83 14.82 14.82 14.83 14.83 14.83 14.84 14.84 14.84 t4.84 2.52 2.46 2.50 2.52 2.49 2.s9 2.53 2.60 2.55 2.55 2.49 2.42 2.54 2.53 2.51 2.57 2.s9 2.54 2.50 2.44 2.51 2.84 2.81 2.85 2.83 2.85 2.86 3.03 3.22 3.21 3.19 3.13 3. l6 3.12 3.12 3.20 3.17 3. l9 2.96 2.78 2.84 2.81 54 of 288 pul6nrcE) TEO11l\lI()n L (lROLJP Location: Utah Municipal Power Agency - West Valley City, UT Run5-RMData Source: Unit 2 Project No.: AST-2024-1778 Datez 6ll9l24 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (Cne) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run Av Or - Outlet Yo dry Valid 14.84 10.99 0.04 0.05 0.05 10.87 10.87 10.87 15.02 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.95 9.80 -0.r2 0.03 -0.0s 9.69 9.66 9.68 3.02 2.54 9.99 0.02 0.10 0.06 9.70 9.70 9.70 2.57 l5:48 l5:49 l5:50 l5:51 l5:52 l5:53 l5:54 l5:55 l5:56 l5:57 l5:58 l5:59 l6:00 l6:01 l6:02 l6:03 l6:04 l6:05 l6:06 l6:07 l6:08 14.82 14.83 t4.84 14.84 14.83 t4.84 14.83 14.83 14.84 t4.84 14.84 14.84 14.84 14.83 14.84 14.84 14.84 14.84 14.83 14.83 14.83 2.53 2.57 2.55 2.56 2.56 2.53 2.46 2.53 2.s0 2.44 2.56 2.50 2.48 2.56 2.56 2.56 2.56 2.71 2.54 2.59 2.46 2.85 3. l6 3.09 3.05 3.04 3.09 3.10 3. l6 2.99 2.77 2.77 2.74 2.79 2.77 2.75 2.73 2.89 3.08 3.09 3.07 3.07 55 of288 pul6rrpE) Tr () il I.J I (.),\ l- C t:]() ii P Location: Utah Municioal Power Asencv - West Vallev Citv, UT Run6-RMData Source: Unit 2 Project No.: AST-2024-1778 Date:6120124 Time Unit Status Or - Outlet %o dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co5,) Cal Gas Concentration (Cua) Pretest System Zero Response Posttest System Zero Response Average Zrro Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cs) 10.99 0.01 0.04 0.03 10.87 10.88 10.88 3.93 9.99 -0.29 0.17 -0.06 9.63 9.75 9.69 4.08 3. l3 9.80 0.18 0.05 0.12 9.67 9.72 9.70 3.08Corrected Run Average (Corr 7:12 7:13 7:14 7:15 7:16 7:17 7: l8 7:19 7:20 7:21 7:22 7:23 7:24 7:25 7:26 7:27 7:28 7:29 7:30 7:31 7:32 14.79 14.80 14.79 14.79 14.79 14.79 t4.79 14.79 t4.79 14.80 14.80 14.81 14.80 14.80 14.8 I 14.81 14.81 14.81 14.80 14.81 t4.82 4.t5 4.06 3.98 4.00 3.86 3.90 4.01 3.84 4.10 3.91 3.99 3.78 3.92 3.86 3.86 3.78 3.84 3.93 3.92 3.82 3.92 3.26 3.20 3.18 3.t2 3. l0 3.10 3.14 3.13 3. l0 3.01 3.l l 3.16 3.t4 3.14 3.07 3. l3 3.16 3.13 3.16 3.1 I 3.07 56 of288 plll6rrpE)RunT-RMData TF()HNron L (.1F()tlP Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Project No.: AST-2024-1778 Datet 6120124 Time Unit Status Or - Outlet oh dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co6r) Cal Gas Concentration (CuJ Pretest System Zrro Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) 14.82 10.99 0.04 0.06 0.05 10.88 10.90 10.89 14.98 3.79 9.99 0.17 0.16 0.t7 9.75 9.67 9.71 3.80 2.80 9.80 0.05 -0.05 0.00 9.72 9.83 9.78 2.81Corrected Run,A,verage (C 7:43 7:44 7:45 7:46 7:47 7:48 7:49 7:50 7:51 7:52 7:53 7:54 7:55 7:56 7:57 7:58 7:59 8:00 8:01 8:02 8:03 14.81 14.81 t4.82 t4.82 14.82 14.82 14.82 14.82 14.83 14.83 14.82 14.82 14.83 14.83 14.83 14.83 14.82 14.82 14.82 t4.82 14.81 3.89 3.85 3.74 3.85 3.98 3.83 3.78 3.72 3.88 3.83 3.70 3.77 3.74 3.79 3.73 3.77 3.76 3.79 3.85 3.74 3.69 2.69 2.66 2.68 2.66 2.63 2.7t 2.88 2.83 2.89 2.88 2.95 2.88 2.87 2.86 2.89 2.87 2.77 2.75 2.85 2.82 2.86 57 of288 pllIATGE)Run8-RMData I E:O ll t'r t oAl_ G F()l.r P Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Project No.: AST-2024-l 778 Dile:6120124 Time Unit Status Or - Outlet o/o dry Valid CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid Uncorrected Run Average (Co5") Cal Gas Concentration (CuJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) 14.83 10.99 0.06 0.05 0.06 10.90 10.90 3.70 9.99 0.l6 0.25 0.21 9.67 9.65 9.66 3.69 3.10 9.80 -0.05 0.17 0.06 9.83 9.87 9.8s 3.05Corrected Run Ave Corr 8: l4 8: l5 8: l6 8:17 8: l8 8: l9 8:20 8:21 8:22 8:23 8:24 8:25 8:26 8:27 8:28 8:29 8:30 8:31 8:32 8:33 8:34 t4.82 14.83 14.82 t4.82 14.82 t4.82 14.83 14.83 14.83 14.84 14.85 14.85 14.84 14.84 14.83 14.84 14.84 14.82 14.83 14.82 14.82 3.66 3.92 3.69 3.54 3.80 3.73 3.69 3.72 3.69 3.73 3.70 3.58 3.72 3.59 3.61 3.63 3.65 3.76 3.72 3.77 3.74 3.12 3.t4 3.20 3.14 3.06 2.98 3.07 3.t2 3.08 3.08 3.1 I 3.10 3.18 3.15 3.12 3. l4 3.t2 3. l0 3.09 3.04 3.06 58 of 288 puaATEE) TE(lt1lr. I(-AL (,1 n()i,t' Location: Utah Municipal Power Asencv - West Vallev Citv, UT Run9-RMData Source: Unit 2 Project No.: AST-2024-1778 Date: 6120124 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (Cur) Pretest System Z,ero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Oz - Outlel oh dry Valid 14.84 10.99 0.0s 0.06 0.06 10.90 10.89 10.90 14.99 CO - Outlet ppmvd Valid 3.63 9.99 0.25 -0.06 0.10 9.6s 9.7r 9.68 3.68 NOx - Outlet ppmvd Valid 3.41 9.80 0.t7 0.17 0.17 9.87 9.84 9.86 3.28 o 8:47 8:48 8:49 8:50 8:51 8:52 8:53 8:54 8:55 8:56 8:57 8:5 8 8:59 9:00 9:01 9:02 9:03 9:04 9:05 9:06 9:07 14.82 14.84 14.84 14.85 14.85 14.85 14.84 t4.84 14.85 r4.85 14.86 14.85 t4.84 14.83 14.83 14.83 t4.84 14.85 14.86 14.85 14.84 3.59 3.76 3.61 3.67 3.81 3.60 3.51 3.67 3.62 3.71 3.64 3.53 3.51 3.59 3.57 3.67 3.70 3.67 3.66 3.61 3.49 3.44 3.41 3.44 3.42 3.36 3.38 3.31 3.37 3.38 3.42 3.37 3.37 3.37 3.47 3.49 3.53 3.44 3.38 3.40 3.46 3.47 59 of288 plll6rrpE) T t- () l1 l.l l ()A I (l R() l.l P Location: Utah Municipal Power Aqencv - West Vallev Citv, UT Run 10 - RM Data Source: Unit 2 Project No.: AST-2024-1778 Date:6120124 Time Unit Status Ou - Outlet o/o dry Valid 14.85 10.99 0.06 0.06 0.06 10.89 10.89 r 0.89 CO - Outlet ppmvd Valid 3.58 9.99 -0.06 0.17 0.06 9.7 t 9.49 9.60 3.68 NOx - Outlet ppmvd Valid Uncorrected Run Average (Co6.) Cal Gas Concentration (Cu,r) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run Average (Co 3.43 9.80 0.t7 0.18 0.l8 9.84 9.82 9.83 3.30 9:20 9:21 9:22 9:23 9:24 9:25 9:26 9:27 9:28 9:29 9:30 9:31 9:32 9:33 9:34 9:35 9:36 9:37 9:38 9:39 9:40 14.83 t4.84 14.84 14.84 14.85 14.85 14.84 14.84 14.83 14.84 14.85 14.84 14.85 14.85 14.86 14.85 14.86 14.86 14.86 14.86 14.86 3.54 3.67 3.49 3.57 3.57 3.s7 3.60 3.47 3.58 3.67 3.61 3.52 3.69 3.58 3.63 3.70 3.56 3.48 3.49 3.55 3.57 5.3 I 3.37 3.44 3.47 3.53 3.38 3.37 3.32 3.37 3.40 3.43 3.53 3.41 3.36 3.43 3.43 3.46 3.44 3.49 3.48 3.50 60 of288 o o o pJll6rrpE) T f,'; li N I LAL r-l R() [., P Locaaion: Utah Municipal Powcr Agency - West Valley City, UT NOx Summary Sourcc: Unil 3 Prcjeca No.: AST-2024-1778 Run No.Drte Timc Load MW Rcfcrcncc Mcthod NOx Emission Factor lbilvlMBtu (O2d) CEMS NOx Emission Factor lb/MMBtu (O2d) Avcmge Differcnce lb/lvlMBtu (O2d)Sasrt End I 2 3 4 5 6 7 8 9 l0 6/20/24 6120t24 6/20t24 6/20124 6/20/24 6/20/24 6t20/24 6t20t24 6/20t24 6t20/24 l2:43 l3: l5 I 3:50 l4:25 l4:56 l5:28 l6:00 l6:32 l7:05 t't .37 l3:03 l3:35 l 4:10 I4:45 l5 rl6 l5:48 l6:20 t6.s2 t1 .2s 17:57 35 35 35 35 35 35 35 35 35 35 0.0 t3 0.013 0.013 0.013 0.0 t3 0.013 0.0r3 0.013 0.012 0.013 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 00 t3 l3 t3 l3 t3 l3 t3 L4 2 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Ayeragr 35 0.013 0.013 0 000 ' Dclmitcr for runs not used in RA ctlculrtions Standild Deviation (Sd) Confidence Cft fficient (CC) Bir Adjutmnt Required (BA) Biro Adjutment Factor (BAF) Rchfive Accurscy (RA) Perfomce Required Tcst Rcsult RATA Frequency 0.000 0.000 No 1.000 o o/" RA < 7.5 % (4 oTRS) PASSED 4OTRS Confidcncc Cmflicicnt, CC cc = ltol', sdllVn I wherc, toers..-ll[= degrees of freedorn value n 9 = number of ms selected for calculating the RASd_.9.0q_= stmdud deviation ofdiffercnce CC 0.000 = confdence cocfficient Rclstive Accurscy, RA ld I + lcclRA = __;r-x100 whcrc, d__@_= "rerage difference of Referencc Method md CEMSCC 0.000 = confidcnce coefficicntRM 0.013 = rcGrence rcthod, lb/MMBtu (O2d) RA 0.00 = relativc accuracy, o/o Bis T6t RGsuIts, BA BARequired ifd > lCCl wherc, d 0.000 = avcrage difference of Rcference Mcthod md CEMSCC 0.000 = confidene cocfficimt BA No = bia adjutrncnt factor Bias AdjBtmcnt Factor, BAF dBAF=cEMSa%+1 where, d_!!Q_ = uueragc difference of Reference Method ad CEMS CEMS."* 0.013 = average ofCEMS values BAF 1.000 = bias adjuunent hctor 62 of288 pul6rrpE) it Location: Utah Municipal Power Agency - West Valley City, UT 02 Summary Source: Unit 3 Project No.: AST-2024-l 778 Run No.Dete Time Loed M.w Reference Method Or Concentration oh drv CEMS Or Conccntration oh drv Avcrege Differencc o/o dryStartEnd I 2 3 4 5 6 7 8 9 l0 6t20/24 6/20/24 6/20124 6/20t24 6120t24 6/20/24 6/20/24 6/20t24 6120t24 6/20124 2.43 l: l5 3:50 4.25 4.56 5.28 6:00 6:32 7:05 7:37 I 3:03 t 3:35 l4: l0 l445 l5: l6 l5:48 l6:20 t6.52 l7:25 t7.57 35 35 35 35 35 35 35 35 3s 35 4.9 4.9 4.9 4.9 4.9 4.9 4.9 49 4.9 4.9 t4.9 r5.0 r5.0 t4.9 t4.9 t4.9 t4.9 t4.9 14.9 49 00 -0r 00 00 00 00 0.0 00 00 Averagt 35 14 900 14 9ll -0.01I ' Delimiter for runs oot ued in RA calculations Standard Deviation (Sd) Confi dence Coefticient (CC) Bias Adjustment Required (BA) Bias Adjustment Factor (BAF) Reletive Accuracy (RA) Performance Required Test Result RATA Frequency 0 033 0.026 No r.000 0.23 0 RA<750l"(4OTRS) PASSED 4OTRS Confidence Cocflicient, CC cc = lt'gt, sallVn I where, \ns -f\= degrees of freedom value n 9 = number of runs selected for calculating the RA Sd--61-= standard deviation of difference CC 0.026 = confidence coefficient Relative Accurrcy, RA ldl+lcclRA = :- ---j----r x 100RM d -0.01 = average difference of Reference Method and CEMS CC 0.026 = confidence coefficient RM 14.90 : reference method, % dry RA 025 = relative accuracy, To 63 of288 pul6rrpEr NOx Summary Location: Utah Municioal Power Asencv - West Vallev Ciw. UT Source: Unit 3 Projcct No.: AST-2024-l 778 t Delimiter for runs not used in RA calculations Confi dence CoeIIicient, CC ..:ltoltrrollVn I where, to e75 2.306 = degrees of freedom value n 9 = number of runs selected for calculating the RA Sd 0.050 = standard deviation ofdifference CC 0.038 = confidence coefficient Rclative Accuracy, RA ldl+lcclRA = 7s;;;r:xloo where, d -0.07 = average difference of Reference Method and CEMS CC 0.038 = confidence coefficient AS 100.000 = applicable source standard, ppmvd @ I 5 % Or RA 0.1 I : relative accuracy,Yo Run No.Date Time Referencc Mcthod NOx Conccntration CEMS NOx Concentretion oomvd @ 15 7o Or Average Difference oomvd @ 15 o/" 02StrrtEnd I 2 J 4 5 6 7 8 9 l0 6/20t24 6/20t24 6/20/24 6t20/24 6t20/24 6t20t24 6t20/24 6t20/24 6t20/24 6t20/24 2.43 3:15 3:50 4.25 4:56 5.28 6:00 6:32 '7.05 7.37 r3.03 L3:35 L4: l0 t4.45 L5: l6 15.48 l6:20 t6.52 r7.25 l7:51 3s 35 36 34 3.5 35 3.4 3.5 t_L 3.4 3s 3.5 3.6 3.s 3.6 36 3s 3.7 3.3 3s 00 00 00 -0. t -0.I -0.1 -0. t -0.1 -0 1 Averagr 3.444 3 51r -0 067 Standard Deviation (Sd)0.050 Applicable Source Standard (AS'100 Confi dence Coeffi cient (CC'0 018 Relrtive Accurecy (RA)0.ll "h Performance Required - Applicable Source Standard RA < l0% Performance Soeci fi cation Method PS2 64 of288 NOx Summary T;i ill'1 ,( /ri (_l[i(]i.i ll Locetion: Utah Municipal Power Agency - West Valley City, UT Sourcc: Unit J Project No.: AST-2024- I 778 Run No.Drte Time Referencc Mcthod NOx Emission Rete lb/hr CEMS NOx Emission Rete lb/hr Averege Difference lb/hrStrrtEnd I 2 3 4 5 6 7 8 9 l0 6/20/24 6/20t24 6tz0/24 6/20/24 6/20t24 6/20/24 6/20/24 6/20t24 6/20t24 6/20t24 t2.43 l3:15 l3:50 14.25 l4:56 l5:28 l6:00 l632 l7:05 l7.37 l3:03 l3:35 l4: l0 14.45 l5:16 l5:48 16.20 16.52 17.25 17:57 48 4.8 50 4't 4.8 4.8 4.7 4.8 4.4 46 48 4.8 4.9 48 49 48 4.8 50 4.5 4.6 00 0.0 0l -0. I -0r 00 -0.1 -0.1 0.0 Averaqt 4.'733 4.767 -0.033 Standard Deviation (Sd 0.071 Applicable Source Standard (AS 7.4 Confi dence Coeffi cient (CC 0.054 Relative Accuracy (RA l.ts o/" Performance Requrred - Mean Reference Methoc RA s 20% Performance Speci fi catron Metho<PS2 ' Delimiter for runs not used in RA calculations Confi dence Cocflicient, CC cc : ltoIt, sally'n I where, hrrr--j.]9!-= degrees of freedom value n 9 = number ofruns selected for calculating the RA Sd 0.071 = standard deviation ofdifference CC 0 054 = confidence coefficient Relative Accuracy, RA ldl+lcclRA = 'x 100AS or RM where, d -0.03 = average difference of Reference Method and CEMS CC 0.054 = confidence coefficient RM 4.733 = reference method, lb/hr RA 1.85 = relative accuracy,o/o 65 of288 CO Summary Locetion: Utah Municipal Power Agency - West Valley City, UT Source: Unit 3 Project No.: AST-2024-l 778 Run No.Date Time Refercnce Method CO Concentretion nnmvd CEMS C0 Conccntration nnmvd Averege Difference oomvdStartEnd I 2 3 4 5 6 7 8 9 l0 6t20t24 6t20t24 6120124 6120t74 6t20t24 6t20/24 6t20t24 6t20t24 6t20/24 6/20/24 2.43 3:15 3:50 4:25 4.56 5.28 6:00 6.32 '7..05 '7"3'1 l3:03 I 3:35 l4: l0 t4.45 l5: l6 l5:48 l6:20 t6..52 17:25 17:57 27 28 2.7 2.7 2.6 25 2.6 24 23 2.0 0 0 9 9 8 8 8 8 6 3 0.7 08 0.8 0.8 08 0.'7 0.6 0.7 0.7 Averagr , (r,L789 0.733 Standard Deviation (Sd'0 071 Confi dence Coeffi cient (CC 0 054 Alternrtivc Rclative Accurecv (RAl 0 79 oom Altemative Performance Required (d + CC <5ppm Performance Specifi cation Methoc PS 4A * Delimiter for runs not used in RA calculations Confidencc Coeffi cient, CC cc = ltoIt, sallVn I where, hns 2306 = degrees offreedom value ng: number of runs selected for calculating the RA Sd 0.071 = standard deviation ofdifference CC 0.054 = confidence coefficient Alternative Rcletive Accurrcy, RA RA = ldl+ cc where, d 0.73 = average difference of Reference Method and CEMS CC 0.054 = confidence coefficient RA 0.79 = relative accuracy, ppm 66 of288 puIATEE) '1-follNrcnL R()UP Location: Utah Municipal Power Agency - Wesllq qy!ry']Jl 02 Summary Source: Unit 3 Project No.: AST-2024-l 778 Run No.Date Time Reference Method Or Concentretion o/o dry Cf,MS O, Conccntretion o/o dttt Averrge Difference oh drvStertEnd I 2 3 4 5 6 7 8 9 l0 6120/24 6t20t24 6t20t24 6t20/24 6t20124 6/20/24 6/20t24 6/20t24 6t20/24 6t20t24 2:43 3:15 3:50 4:25 4..56 5:28 6:00 6.32 7"05 7:3'1 3:03 3:35 4: l0 4..45 5: l6 5:48 620 6:52 7.25 7.57 149 t4.9 149 14.9 t4.9 t49 14.9 14.9 149 149 4.9 5.0 50 4.9 4.9 4.9 4.9 49 49 4S 00 -0.1 -0. r 0.0 00 00 00 00 00 0.0 Averagr 900 14 920 -0 020 Standard Deviation (Sd)0.042 Confidence Coefficient (CC,0 010 Relative Accurecy (RAl 0.34 0 Performance Required - Mean Reference Method RA s 20% Performance Specifi cation Method PS3 Confi dence Coellicient, CC cc = ltogt , sallVn I where, arns_/\_ngsd 0 042cc 0 030 = degrees of freedom value = number of runs selected for calculating the RA = standard deviation ofdifference = confidence coefficient Relative Accuracy, RA ldl+lcclRA = 7s;;R :x 1oo d -0.02 = average difference of Reference Method and CEMS CC 0.030 = confidence coefficient RM 14.900 = reference method, % dry RA -dil = relative accuracy, 7o 67 of288 put6rpe At. Gn()LJf) Method 1 Data lftrtlon Utrh Municlprl Poi.r ArGm! ' w.3l v.llcy Cliy' III Sounc Unh 3 Preiccr No. AST-2021-177E Drtc: 06/20/2{ DslOricnlrtion: Vdrcd Duc( Dclign: Circultr DirlrncaarcmFrrWalltoOutlidoofPon: 1J5.75 ln NiPPl. Lcrgth: I 1 75 in Dcpth or DEt: l44 m h CrurrSstion lArciof DGt: lll lo ltl No. ofTeri Pons: 4 Diltsftc A: 7.0 fl Diltrft. A DBt Dirmlers: 06 (m!l b. > 0.5) Di3trtr. B: 63o ll Di!(rfta B DEt Dirrelcn: ,3 (mutl bc > 2) Acluel Numbcr ofTr&r'cEc PoinlJ: 3 Mcsurcr (lnitirl rnd Drt.): TAL 6/20 Rerio'cr (Iniriel md Dst.): _g!!j411- 'rtsro. numorr 'r orR.cl.6oU.r 9i.ck. o. TrrvaBc Point '/o ol Diamclcr Di.r.mc frem outrida olwrll I 3 I s 5 8 9 l0 il t6.7 500 Ell 24 05 72N 19 95 35 80 83 7J ''l-'o LOCATION OF TRAVERSE POINTS Nufrb$ ofnuv.rs. points on o diailde, 167 61 - .1.{ - 32 J00 250 - 116 - 105 833 7t.0 - 296 - l9J -- 93.1 -- 70.{ - 323 -- 85.4 -- 67 7 : - - ':u : :i: : 968 26 - 2l 82 - 67 It6 -- llE 226 - 177 312 - 250 658 - lJ6 111 -- il{ EJt -- 750 91.8 -- 82 3 97.1 -- 88 2 Stack Diagram A= 7ft B=63it DcpthofDuct= l{lm Cross S$tionll tu a Upstrcam Di(urb.nc. 68 of288 Ue*a4€r/EI&EENEEaDEzEI X- * R- - IX- - :9 r 1 Xr r aX^ ^ R- - I>o N Xe e aX- - aXs s x+ , ; 6- -x- - >d s IIX- - I5s " I FF !2 E O ;6 o l) o o dEa ^^ o == @d. - . f N oo=; o " oo :R 6 ^^ $=: , d q aa - . 99 * d- r - n YY 6 ^^ o == v i 6^ - - n V= Ne= i i: * l= a dr r c0 eSo=>3 :!d;=- s sc N- o =; o :E d: ca E EE o6q €NI6ro:Orrar6or6NrrrIortr!qod)oE 666cQ q6qqqoqdO-(. ) 6i 6 i 6i oo a 6i6 i - 6ia i - NN - A9 - ^i ^ i ^ i 6i . i 6i 9\ q - dN N \r : . 1 dd dc: \ . 1 NN N o9 o g .1 \\ ( ' ! NN N .? t d " U" lr J o!G) FF ' o o = ;;n ; oo 6 =5 & FF -33 8 oo h (J U U I oo o .- i -i s? d- i + q oN d- i + q dr i +q a -i - i + q -i - i + C -i - i + q O -i - i n q a r9 O - ;F i r ; ? -i - i + q a ;- i +q o 6_ l .+ v d . i - u.l -= c0 Ls ) .E > > *6 E E 5 . 6 o o i ' : if o i 9 oo d x '; u d L OO E E (J (J IJ . 1 IJ. ) oo o o zz z z 6a!Qo!d rrNNF6ozEoA t-)o=3tr.o "oEo.EEEs foa \r g ; I-(! fl i 69 of 2 8 8 pul6rlpE) T E t.) lili i(r,\ I (.1 P () Ll F' Location: Utah Municioal Power Agencv - West Vallev Citv, UT Runl-RMData Source: Unit 3 Project No.: AST-2024-1778 Datet 6/20124 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (Crur) Pretest System Zcro Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (C*) Corrected Run Average (Corr Oz - Outlet oh dry Valid 14.68 10.99 0.00 0.00 0.00 10.8 I 10.81 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.62 9.99 -0.03 -0.06 -0.05 9.75 9.57 9.66 2.75 3.59 9.80 0.01 0.00 0.01 9.67 9.62 9.65 3.64 l2:43 l2:44 l2:45 l2:46 l2:47 l2:48 l2:49 l2:50 l2:51 l2:52 l2:53 l2:54 l2:55 l2:56 l2:57 l2:58 l2:59 I 3:00 l3:01 l3:02 I 3:03 14.68 t4.66 14.67 14.68 14.69 t4.67 14.68 14.67 14.68 14.68 t4.67 14.67 14.68 14.68 14.69 14.69 14.68 14.68 14.67 14.68 14.69 2.63 2.56 2.59 2.67 2.68 2.65 2.61 2.59 2.66 2.64 2.63 2.63 2.64 2.61 2.61 2.62 2.60 2.59 2.63 2.59 2.69 3.57 3.69 3.74 3.60 3.53 3.50 3.52 3.70 3.66 3.57 3.61 3.59 3.52 3.70 3.57 3.53 3.60 3.65 3.61 3.42 3.51 70 of288 pul6rrpE> rl ri I (. i'\ I (l [i () lJ P Location: Utah Municipal Power Agency - West Valley City, UT Run2-RMData Source: Unit 3 Project No.: AST-2024-l 778 Date:6120124 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (Crtre) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Oz - Outlet o/o dry Valid 14.68 10.99 0.00 0.00 0.00 10.81 10.8 I 10.81 t4.93 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.63 9.99 -0.06 -0.t2 -0.09 9.57 9.63 9.60 2.81 3.52 9.80 0.00 0.00 0.00 9.62 9.76 9.69 3.56 l3:15 l3: l6 l3:17 l3: l8 l3:19 13:20 l3,21 13:22 l3:23 l3:24 13:25 13:26 13:27 l3:28 13:29 I 3:30 I3:31 l3:32 I 3:33 l3:34 l3:3 5 t4.68 t4.67 14.68 14.69 t4.68 14.68 14.69 14.69 14.69 14.69 t4.69 t4.69 14.68 14.68 14.68 14.67 14.68 14.69 14.68 14.68 14.68 2.63 2.64 2.61 2.61 2.66 2.60 2.63 2.68 2.69 2.57 2.65 2.64 2.62 2.65 2.66 2.60 2.67 2.69 2.62 2.60 2.60 3.37 3.43 3.s 8 3.58 3.61 3.58 3.57 3.43 3.45 3.41 3.45 3.5 r 3.60 3.s9 3.58 3.50 3.57 3.52 3.39 3.58 3.53 7l of288 pul6rrpE) I I L.lll.j ,;,\ Run3-RMData l) r) Jf Utah Municipal Power Agency - West Valley City, UTLocation: Source: Project No.: Unit 3 AST-2024-1778 Date: 6/20124 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (Cr,re) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (C*) Corrected Run Average (Corr 0z - Outlet oh dry Valid 14.68 10.99 0.00 0.00 0.00 10.81 10.82 10.82 14.92 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 2.48 9.99 -0.t2 -0.24 -0.18 9.63 9.62 9.63 3.67 9.80 0.00 0.00 0.00 9.76 9.69 9.73 3.70 l3:50 l3:51 13:52 l3:53 l3:54 l3:55 I 3:56 l3:57 l3:58 I 3:59 l4:00 l4:01 l4:02 l4:03 l4:04 l4:05 l4:06 l4:07 l4:08 l4:09 l4: l0 14.67 14.69 14.69 14.68 14.68 14.68 14.68 14.68 14.68 14.68 14.68 t4.69 t4.69 14.68 14.68 14.68 14.68 14.67 14.68 14.68 14.69 2.56 2.55 2.50 2.56 2.48 2.47 2.55 2.47 2.45 2.47 2.43 2.44 2.45 2.45 2.45 2.50 2.46 2.47 2.46 2.45 2.52 3.63 3.67 3.59 3.77 3.71 3.74 3.78 3.67 3.83 3.63 3.70 3.89 3.90 3.69 3.62 3.58 3.59 3.50 3.61 3.55 3.47 72 of 288 plll6rnoE) lt IIN|(,,1i (,l- Run4-RMData Utah MuniciDal Power Asencv - West Vallev CiW, UTLocation: Source: Project No.: Unit 3 AST-2024-1778 Dilez 6120124 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (CuJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Corr O: - Outlet Yo dry Valid 14.68 10.99 0.00 0.01 0.01 10.82 10.80 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 3.5 I 9.80 0.00 -0.01 -0.01 9.69 9.77 9.73 3.54 2.44 9.99 -0.24 -0.16 -0.20 9.62 9.61 9.62 2.68 l4:25 l4:26 l4:27 l4:28 l4:29 l4:30 l4:31 l4:32 l4:33 l4:34 l4:35 l4:36 l4:37 l4:38 14:39 14:40 l4:41 l4:.42 l4:43 l4:44 t4'.45 14.66 14.68 14.68 14.67 t4.68 14.68 t4.67 t4.67 14.68 14.68 t4.67 14.68 14.67 14.67 14.67 14.68 14.68 14.68 14.68 14.67 14.68 2.46 2.53 2.44 2.43 2.40 2.42 2.44 2.51 2.46 2.47 2.41 2.43 2.46 2.39 2.45 2.44 2.44 2.41 2.40 2.35 2.41 3.46 3.41 3.38 3.40 3.50 3.54 3.48 3.44 3.53 3.36 3.55 3.49 3.55 3.49 3.58 3.55 3.58 3.43 3.63 3.67 3.66 73 of288 td Run5-RMData 1i (lllNl Utah Municipal Power Asency - West Valley CiW, UTLocation: Source: Project No.: Unit 3 AST-2024-1778 Date: 6/20124 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (CnJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run Avera Or - Outlet Yo dry Valid 14.66 10.99 0.0 r 0.00 0.01 10.80 10.80 r 0.80 t4.92 CO - Outlet ppmvd Valid 2.34 9.99 -0.16 -0.18 -0.17 9.61 9.66 9.64 2.55 NOx - Outlet ppmvd Valid 3.58 9.80 -0.0 r 0.02 0.01 9.77 9.86 9.82 3.57 l4:56 l4:57 l4:58 l4:59 I 5:00 l5:0 I l5:02 I 5:03 I 5:04 l5:05 I 5:06 l5:07 I 5:08 I 5:09 l5: l0 l5:l I l5:12 l5: l3 l5: l4 l5: l5 l5: l6 14.65 14.66 t4.66 r4.66 t4.66 14.66 14.66 14.66 t4.65 14.66 14.66 t4.67 14.67 14.67 14.68 14.66 14.66 14.67 14.66 14.65 14.65 2.36 2.36 2.43 2.35 2.38 2.32 2.28 2.34 2.30 2.34 2.29 2.29 2.32 2.29 2.35 2.32 2.29 2.38 2.37 2.34 2.38 3.53 3.46 3.62 3.61 3.67 3.68 3.58 3.54 3.74 3.73 3.74 3.69 3.69 3.57 3.69 3.s7 3.58 3.50 3.43 3.28 3.36 74 of288 Run6-RMData iltr f) Utah Municipal Power Agency - West Valley City, UT I i i! I ( -A i I Location: Source: Project No.: Unit 3 AST-2024-t778 Date:6120/24 Time Unit Status Uncorrected Run Average (Co5.) Cal Gas Concentration (Crur) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cna) Corrected Run Ave Corr O: - Outlet oh dry Valid 14.65 10.99 0.00 0.02 0.01 r 0.80 r 0.80 10.80 14.91 CO - Outlet ppmvd Valid 2.3.7 9.99 -0.1 8 -0.07 -0.13 9.66 9.60 9.63 2.51 NOx - Outlet ppmvd Valid 3.57 9.80 0.02 -0.06 -0.02 9.86 9.82 9.84 3.57 3.53 3.55 3.56 3.46 3.54 3.48 3.55 3.69 3.69 3.63 3.52 3.54 3.49 3.58 3.64 3.48 3.59 3.57 3.57 3.64 3.66 I 5:28 l5:29 I 5:30 l5:31 l5:32 l5:33 l5:34 l5:35 l5:36 l5:37 l5:38 I 5:39 l5:40 l5:41 t5'.42 I 5:43 l5:44 I 5:45 I 5:46 l5:47 I 5:48 14.66 t4.65 14.65 14.65 14.64 r4.64 t4.66 t4.65 14.64 14.65 14.66 14.65 14.64 14.66 14.66 t4.66 14.66 14.66 14.65 14.65 14.66 2.31 2.38 2.28 2.35 2.36 2.36 2.30 2.20 2.33 2.3t 2.30 2.32 2.37 2.33 2.32 2.30 2.29 2.38 2.36 2.3s 2.33 75 of288 RunT-RMData T[-i Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 3 Project No.: AST-2024-1778 Datez 6120124 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (Cur) Pretest System Z,ero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cp1) Corrected Run A Oz - Outlet o/o dry Valid t4.64 10.99 0.02 0.00 0.01 10.80 10.80 10.80 14.90 CO - Outlet ppmvd Valid 2.39 9.99 -0.07 -0.1 5 -0.1I 9.60 9.66 9.63 2.56 2.44 2.46 2.46 2.37 2.38 2.43 2.39 2.36 2.35 2.34 2.32 2.39 2.37 2.36 2.32 2.39 2.42 2.38 2.41 2.38 2.47 NOx - Outlet ppmvd Valid 3.50 9.80 -0.06 -0.08 -0.07 9.82 9.88 9.85 3.53 l6:00 l6:01 l6:02 l6:03 l6:04 l6:05 l6:06 l6:07 l6:08 l6:09 l6:10 l6:l I l6:12 l6:13 l6:14 l6:15 l6: l6 l6:17 l6:18 l6: l9 l6:20 14.64 t4.63 t4.65 14.65 14.65 14.64 14.64 14.64 14.64 14.65 14.64 14.64 14.63 14.65 14.64 14.65 t4.65 14.64 14.64 t4.64 t4.64 3.42 3.50 3.55 3.48 3.43 3.49 3.s3 3.46 3.s9 3.52 3.55 3.50 3.62 3.52 3.53 3.47 3.40 3.48 3.55 3.53 3.40 76 of288 pllt6rpe T ir rl 11 l\l I On l- (l n() l-l P RunS-RMData Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 3 Project No.: AST-2024-1778 Datez 6120124 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (Crtre) Pretest System Zero ResPonse Posttest System Zero ResPonse Average Zero Response (Co) Pretest System Cal Response Posttest System Cal ResPonse Average Cal Response (C1,1) Corrected Run Average (Corr CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.64 9.80 -0.08 -0.06 -0.07 9.88 9.96 9.92 3.64 2.37 2.43 2.43 2.49 2.47 2.50 2.46 2.35 2.25 2.26 2.34 2.31 2.36 1.90 1.87 1.83 r.86 r.83 1.89 1.83 1.84 3.40 3.40 3.44 3.4s 3.25 3.39 3.38 3.45 3.51 3.52 3.60 3.62 3.56 3.78 4.04 4.08 4.29 4.25 3.90 3.62 3.6 r Oz - Outlet oh dry Valid 14.65 10.99 0.00 0.00 0.00 10.80 10.80 10.80 t4.91 14.63 14.64 14.63 14.64 t4.64 t4.64 t4.65 14.65 14.65 14.65 14.65 14.65 14.65 14.66 t4.66 t4.65 14.66 14.65 14.66 14.65 14.65 9.99 -0.15 -0.19 -0.17 9.66 9.30 9.48 2.44 l6:32 l6:33 l6:34 l6:35 l6:36 l6:37 l6:38 l6:39 l6:40 l6:41 l6:42 l6:43 l6:44 l6:45 l6:46 l6:47 l6:48 l6:49 l6:50 l6:5 I l652 77 of288 plll6rrpE) 'rEC il r.r I oA L (l R ()t.j P Run9-RMData Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 3 Project No.: AST-2024-l 778 Date:6/20124 Time Unit Status Uncorrected Run Average (Co6") Cal Gas Concentration (Cr"rJ Pretest System Zero ResPonse Posttest System Zero ResPonse Average Zero Response (Co) Pretest System Cal ResPonse Posttest System Cal ResPonse Average Cal Response (C*) Corrected Run A CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 2.07 9.99 -0.19 -0.12 -0.r6 9.30 9.49 9.40 2.32 2.07 2.05 2.04 2.07 2.06 2.04 2.07 2.04 2.07 2.09 2.08 2.05 2.08 2.08 2.04 2.08 2.09 2.03 2.07 2.07 2.10 3.02 3. l5 3.15 3.12 3.34 3.20 3.30 3.33 3.46 3.40 3.35 3.44 3.37 3.47 3.34 3.32 3.28 3.38 3.45 3.37 3.31 l7:05 l7:06 17:07 l7:08 17:09 17:10 l7:l I 17:12 17:13 17:14 l7:15 17:16 l7:17 l7:18 17:19 17:20 17:21 17:22 17:23 17:24 17:25 Or - Outlet oh dry Valid 14.64 10.99 0.00 0.01 0.01 10.80 t0.79 10.80 14.64 t4.65 14.64 14.65 14.65 14.65 14.65 t4.64 14.64 14.65 14.64 14.64 14.64 14.63 14.62 14.64 14.64 14.64 14.64 14.63 14.63 9.80 -0.06 -0.06 -0.06 9.96 9.93 9.95 3.30 78 of288 put6rpe T E () Fl N I O A L (l R () t.l P Run 10 - RM Data Location: Utah M Source: Unit 3 Project No.: AS!!Q!!!lZ! Dilez 6/20/24 Time Unit Status Or - Outlet o/o dry Valid CO - Outlet NOx - Outlel ppmvd ppmvd Valid Valid Uncorrected Run Average (Co6r) Cal Gas Concentration (Cue) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) 14.65 10.99 0.01 0.00 0.01 10.79 10.80 r0.80 14.92 9.99 -0.12 -0.23 -0.r8 9.49 9.s6 9.53 1.99 3.49 9.80 -0.06 -0.05 -0.06 9.93 10.06 10.00 3.45Corrected Run Average (C 17:37 l7:38 17:39 17:40 17:41 17:42 17:43 17:44 17:45 17:46 17:47 17:48 17:49 l7:50 l7:5 I 17:52 l7:53 17:54 17:55 17:56 17:57 t4.65 t4.66 14.65 14.65 14.65 14.65 14.64 14.64 14.66 14.66 14.66 14.66 14.65 14.65 t4.66 t4.65 14.65 14.64 t4.66 14.65 14.64 1.75 1.75 t.73 1.75 t.75 1.75 1.81 1.75 1.73 1.73 t.77 t.76 1.74 1.76 t.82 1.79 1.78 t.76 t.74 t.76 1.76 3.63 3.56 3.58 3.41 3.45 3.37 3.39 3.55 3.5 l 3.56 3.5 r 3.45 3.41 3.5 I 3.43 3.39 3.5 I 3.60 3.44 3.44 3.53 79 of288 80 of288 NOx Summaryt6 \l i...i Location: Utah Municipal Power Agmcy - West valley City, UT Sourcc: Unit 4 Projcct No.: AST-2024-1778 Run No.Doae Time Load MW Referencc Method NOx Emission Factol lb/MMBtu (O2d) CEMS NOx Emission Frctor tb/MMBtu (O2d) Avcrage Differencc lb/lltMBtu (O2d)Stsrt End I 2 3 4 5 6 7 8 9 t0 6/2V24 6t2l/24 6t2U24 6/2124 6/2U24 6t2t/24 6t2t/24 6t2t/24 6t2v24 6/2V24 7.40 8:13 8:45 9.22 l0:0 I l0;35 tl:09 I l:40 12.13 12:48 8:00 8:33 9:05 9:42 l0:21 l0:55 1.29 l2:00 l2:33 l3:0E 35 35 35 35 35 35 35 35 35 35 0.013 0.014 0.014 0.014 0.013 0.014 0.014 0.014 0.014 0.014 0.013 0.013 0.012 0.013 0.013 0.013 0.013 0.0 t3 0.0t3 0 0t3 0.000 0.001 0.002 0.00 t 0.000 0.00 t 0.00 r 0.00 t 0.00 r Averagr 35 0 014 0.013 0.001 'Delmitcr for runs nol uscd m RA calculdions Standud Deviation (Sd) Confidence Caffcient (CC) Bi6 Adjustrrent Requircd (BA) Bias Adjustment Factor (BAF) Relative Accuracy (RA) Perfonmnce Required Test Result RATA Frequency 0.001 0.000 Yes 1.069 9.4 o/" r 0 0t5 Ib/MMBtu (4 oTRS) PASSAPS 4OTRS Confidencc C@mcient, CC cc = ltog'x sdllVn I where. torrs..:l][= degrees of &eedorn value n ____:_= number of runs selected for calculating the RA Sd 0.001 = standrd deviation ofdifference CC 0.000 = confidence coefficient Rclative Accurecy, RA ldl+lcclRA = ' -x100 wherc.d---qgL= average difference of Refcrence Method md CEMS CC ___9 iq_ = "on6dence coefEcient RM 0.014 = rcGrence mthod, lb/MMBtu (O2d) RA 9.80 = rclative aeuacy, 70 Bias T$t Result3, BA BARequired ifd > d 0.001 = average differencc of Reference Method md CEMS CC l!99_ = "onfidence ccfEcicnt BAlg!_= biil adjutnmt factor Bis AdjBtmcna Frctor, BAF BAF = where, d -+ 1cEMSavs d_9.09f_= "reragc difference of Refercncc Method md CEMS CEMS."* 0.013 = average of CEMS values BAF L069 = biu adjEtmcnt factor 8l of288 pul6rrrce i (l ll l\j i(.1 /\ I (l tl (-) [. {'' Locetion: Utah Municioal Power Asency - West Valley Citv, UT O2 Summary Sourcc: Unit 4 Project No.: AST-2024-l 778 Run No.Date Time Loed MW Refe rence Mcthod Or Concentration Yo drv CEMS Or Conccntration oh drv Avcrrgc Diffcrence oh drvStertEnd I 2 3 4 5 6 7 8 9 t0 6/2 6/2 6/2 612 6/2 6/2 6/2 6/2 6/2 6/2 /24 124 t24 /24 t24 t24 t24 t24 t24 t24 7:40 8: l3 8:45 9.22 l0:01 l0:35 I 1.09 1 1.40 12.13 t2.48 8:00 8:3 3 9:05 9.42 l0:2 I l0:5 5 fi.29 l2:00 12.33 l3:08 35 35 35 35 35 35 35 35 3s 35 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 50 49 4.9 49 4.9 4.9 5.0 50 5.0 5.0 49 49 0l 0.1 0l 0I 00 0.0 00 00 0.0 Averag(35 r4 989 944 0 044 i Delimiter for runs not used in RA calculations Standard Deviation (Sd) Confi dence Coeffi cient (CC) Bias Adjustment Required (BA) Bias Adjustment Factor (BAF) Reletivc Accuracy (RA) Performance Required Test Result RATA Frequency 0 053 0.041 No 1 000 0.57 "/" RA < 7.5 % (4 oTRS) PASSED 4OTRS Confi dencc Coeflicient, CC cc = ltog'* sallVn I where, t"nrt 2.306 = degrees offreedom value nl-= number of runs selected for calculating the RA Sd 0.05 : standard deviatron ofdifference CC 0.041 = confidence coefficient Relative Accuracy, RA ldl+lcclRA = x100RM where,d 0.04cc-b 04lRM 14 99RA 057 = average difference of Reference Method and CEMS: confidence coefficient = reference method, % dry = relative accuracy, o/o 82 of288 pulrerrpE) ]t l\rr('./\' 1;Pl1l.t NOx Summary ljtah Municioal Power Asencv - West Vallev Citv- UTLocation: Source: Project No.: Unit 4 AST-2024- I 778 Run No.Drte Time Reference Method NOx Concentrntion CEMS NOx Concentretion nomvd @ 15 7o O, Averrge Difference oomvd @ 15 oh O,Start End I 2 J 4 5 6 7 8 9 l0 6/2 6/2 6/2 6/2 6/2 6/2 6/2 6t2 612 6/2 /24 124 /24 t24 t24 t24 tl24 r/24 t/24 t/24 '7 40 8: l3 8:45 9:22 l0:0 I l0:3 5 I l:09 I l:40 l2:13 l2:48 8:00 8:l3 9:05 9.47 l0:21 l0:5 5 t l:29 l2:00 12.33 I 3:08 3.6 37 37 3.7 35 38 39 38 3't 3.7 35 3.5 3.4 3.4 3.4 3.5 3.5 35 3.5 3.5 0.1 02 0.3 0.3 0.t 03 0.3 0.2 0.2 Averag(3 689 3.467 0.222 Standard Deviation (Sd'0 083 Applicable Source Standard (AS 100 Confi dence Coefficient (CC 0.064 Relativc Accurecv (RA 0.29 Yo Performance Required - Applicable Source Standard RAsl0% Performance Specifi cation Method PS2 * Delimiter for runs not used in RA calculations Conlidence Coeffi cient, CC cc = ltogt, sallVn I where , = degrees of freedom value = number of runs selected for calculating the RA 0.083 = standard deviation ofdifference 0.064 = confidence coefficient Relativc Accuracy, RA ld l+ lcclRA = 'x 100AS or RM where,d 0.22 = average difference of Reference Method and CEMS CC 0.064 = confidence coeflicient AS 100.000 =applicablesourcestandard,ppmvd@ l5%O: RA 0.29 = relative accuracy, To to.sus n Sd CC 2 306 9 83 of 288 pul6rrpE> 1l ,lN,( 1\i C[1 ::tr NOx Summary Ijtah Municioal Power Asencv - West Vallev Ciw. UTLocation: Source: Project No.: IInit 4 AST-2024- I 778 Run No.Drt€Time Reference Method NOx Emission Rete lb/hr CEMS NOx Emission Rate lb/hr Averege Difference lb/hrStrrlEnd I 2 3 4 5 6 't 8 9 l0 6lz 6/Z 612 6/2 612 612 6t2 612 6t2 6/2 t24 t/24 t/24 I/24 t24 t/24 t/24 t/24 t/24 l/24 740 8: l3 8:45 9.22 l0:0 I l0:3 5 I l:09 I l:40 12:13 l2:48 8:00 8:33 9:05 9:42 l0:21 l0:55 |.29 l2:00 12.33 t l:08 4.8 4.9 4.9 49 46 5.0 <, 50 4.9 4.9 4.6 4.5 4.4 4.5 46 4.6 4.6 4.6 4.5 4.6 0.2 0.4 0.5 0.4 00 04 0.4 0.4 0.3 Averagr 4.878 4 544 0.33 3 Standard Deviation (Sd'0 r50 Applicable Source Standard (AS 74 Confi dence Coefficient (CC 0.1 t5 Reletive Accuracv (RA 9.2 o/o Performance Required - Mean Reference Method 911120o/o Performance Specifi cation Method PS2 ' Delimiter for runs not u*d in RA calculations Confidence Cocllicient, CC cc = ltol'* sallVn I where, hrrr 2.306_= degrees offreedom value n2= number of runs selected for calculating the RA Sd 0. I 50 : standard deviation ofdifference CC 0.115 =confidencecoeflicient Rclative Accuracy, RA ldl+lcclRA :7s;;;r:x1oo where, d 0.33 = average difference of Reference Method and CEMS CC 0.115 =confidencecoefficientRM 4.878 = reference method, lb/hr RA 9.20 = relative accuracy,lio 84 of288 A/lArGEr l.j r('/rL (li()t..1 P Location: Utah Municipal Power Agency - West Valley City, UT CO Summary Source: Unit 4 Project No.: AST-2024-1778 Run No.Drte Time Referencc Method CO Concentration oomvd CEMS CO Concentrrtion oomvd Average Difference oomvdStartEnd I 2 l 4 5 6 7 8 9 l0 6/2v24 6/2v24 6/2v24 6/2t/24 6/2v24 6/2tD4 6t2124 6/2124 6/21/24 6t2t/24 7..40 8:13 8:45 9:22 l0:0 I I 0:35 I l:09 I l:40 l2:13 l2:48 8:00 8:33 9:05 9..42 l0:21 I 0:55 ll29 l2:00 12.33 l3:08 l9 2.0 2.0 20 l9 1.9 1.9 l9 2.2 2.2 2.9 2.9 2.9 29 29 2.8 29 2.8 30 3.2 -1 0 -09 -09 -0.9 -1.0 -09 -1 0 -0.9 -08 Averagr t 967 2 889 -o 922 Standard Deviation (Sd 0 067 Confidence Coeffi cient (CC 005r Alternetive Reletivc Accurecy (RA 0.97 oom Altemative Performance Required (d + CC <5oom Performance Specifi cation Methoc PS 4A ' Delimiter for runs not used in RA calculations Confidence CoeIIicient, CC cc = lt'It, sallVn I wherc, to szs n Sd CC 2.306 = degrees of fieedom value = number of runs selected for calculating the RA 1!Qfu= rtandard deviation of difference _..,1!Q!l_ = .onfi dence coeffi cient Alte rnrtivc Relativc Accurrcy, RA prq = ldl+CC where, d -0.92 = average difference of Reference Method and CEMS CC 0.051 = confidence coefficient RA 0.9'7 = relative accuracy, ppm 85 of288 02 Summary l-ocrtion: Utah Municioal Power Asencv - West Vallev Citv, UT Source: Unit 4 Project No.: AST-2024- I 778 Run No.Dete Time Reference Method 0: Concentretion oh drv CEMS O: Concentration o/o dry Avcrege Difference o/" drvStertEnd I 2 3 4 5 6 7 8 9 t0 6t2 6/2 6/2 6/2 6/2 6t2 6t2 6/2 6/2 6/2 /24 /24 t24 /24 t24 /24 t24 /24 /24 124 7:40 8: l3 8:45 9:22 l0:01 l0:35 I l:09 I l:40 l213 12.48 8:00 8:33 9:05 9.42 10.2 r l0:55 |.29 l2:00 1233 l3:08 5.0 50 5.0 5.0 50 50 50 5.0 5.0 4.9 49 4.9 4.9 4.9 5.0 50 5.0 50 4.9 4.9 0.r 0. l 0l 0.1 00 00 00 0.0 00 Averagr 14 989 t4.944 0 044 Standard Devratron (Sd 0.0s3 Confi dence Coeffi cient (CC 0 04t Relative Accurecv (RA 0.57 o/o Performance Required - Mean Reference Methot RA s 20% Performance Specifi cation Methoc PS3 'Delimiter for runs not ued in RA calculations Confi dencc Coeffi cient, CC cc = ltozt, sallVn I where, her -!\= degrees of freedom value n2= number of runs selected for calculating the RA Sd 0.053 = standard deviation ofdifference CC 0.041 = confidence coefficient Relativc Accuracy, RA ldl+lCClRA = 'x 100AS or RM where, d 0.04 = average difference of Reference Method and CEMS CC 0.041 = confidence coeflicient RM 14.989 = reference method, % dry RA 0.57 = relative accuracy,o/o 86 of288 Method I Data Lm.tion Uirh Soum. Unll I Proi.ct No. AST-!02{-17r8 D.tct 06lll l2t DuctOricntrtion: VcnErl Dftt Dclign: Circule DiilemcfremFrrWrlltoOullidcofPon: 15J75 in Nipplc Lcngrh: I l.7J in DeprhofDEt: l{m ir Crurr Sdtional Arcr of DEt: I ll.l0 ftr No. ofTert Poi3: 4 Ditlrncc A: 7! ll Diflrmc A Dml Dirmlc6: m (mu!t bc >0-l) Diltamc 8: 63! ll Dirlrm. I Duct Dirmdcrr: 5J (mut be > 2) Acturl Number ofTnreBc Point3: 3 Mceurcr(lnitirlrndDxte): TAL6/21 R.r'icw.r (Initirl ud Drte): CRH 6/2 I LOCATION OF TRAVERSE POINTS Nunba ofilawtse pin6 on e liondd I 3 I 3 6 1 t 9 loll t2 2 3 I 3 5 1 8 9 l0 lt l7 t{.6 167 67 -- 4.t - 32 - 26 - 2.1 8r{ 500 250 -- l.16 - 105 - 82 -- 61 -- El3 7J0 - 296 - 19{ - l{6 - ll.8::"-':l:l:::',-1i:-)11, 956 - 806 - 6J8 - 15.6 li9 5 * 77.! -- 61.1 : : - : r r ':- - ;i: .. :t; 9ll 97.9 .Pc.c.nt ofstack dtaneterftom insille i'all to traverse point Tnrana ./. ol Dirtrfic frcm Point Dieter out!ide of I j t 5 6 1 8 9 l0 il t6.7 J0.0 '1', 24.0J 72.OA il9 95 15.80 83.75 I I I.70 Stscl DiagM A= 7ft B=63n Dcpth ofDuct = 14{ m Cr6s Ssrional tuct Up5trcam Di*urb.nc. 87 of288 Uc6-4rc&Ea&NE&Ezca4 X- - <+ o =- i ; aNd N€{r o N- N IXo o \O dF: J IX- - IS5 T dO O >N $ Qo 6 ICln n :+ o (: . b o ICl6 o j- 6 (: .b dd Icr o o :r oQr . l j € EE 'F r: eE o ,E .s .9 d6o ^^ r o. r . E oo 9 O" T . R ^^ 9O. T . R Y= 6 6. r S r == @ _@ 6 . YY o d. - . s d. - . n r Y= 6 o. r " l r ooO, \ X ;: ^ i o" \ N == r Ir c ,- - r r & -so<>g c0 - . d;S sc @= o E 9s f ,T J EE E (6o sr6rrrrIr.t^rrN€Na.t!;o/,r eo6dO Ioc9qqUa!oo 9q 9 dd -dd r ci 6i -: qn 0 9 Nd - q6 . v 1 6. O . v1 qo . v 1 qq n q9 9 qq 9 NN - o. o . 9 d. u * o:v EEzz > i1 0 = :; ioo d == dES 9 ao t s (J U I ! oo o rr 6 F or i v Q o €r o - -; d+ ? rr O - -; r ; + 9 o -i - i r i q O 66 N - ;- i r i q O -i ; r i 9 ri ;+ q o rr 6 - am w ! rr 6 - -i - i + q a rr 6 - d- i e q a A€ € - ri r i + q - -x 5p 9 i ,1 2 4 Z - ar Q f - trJ A!o\ Y c0 Ls l s tr t r < ^ d d = -" ;; n i 9 oo 6 x 'a E d t Lt s C C == o o OO E E U U l! lr . l xx x x oo o o zz z z a!CE(,ooOof. l rrTNoN*qzLA FDdoIEB{l=d:q)( =!a tr E ; II(I fl i 88 of 2 8 8 plll6rrpE) rF Location: Utah Municipal Power Agency - West Valley City, UT Runl-RMData Source: Unit 4 Project No.: AST-2024-1778 Date:6121/24 Time Unit Status Or - Outlet Yo dry Valid 14.82 10.99 0.00 0.00 0.00 10.87 10.87 10.87 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.67 9.80 0.08 0.02 0.05 10.08 9.88 9.98 3.57 1.76 1.74 1.81 1.75 t.79 1.79 1.79 t.77 1.79 t.75 t.75 1.80 t.82 t.77 1.76 1.75 r.75 1.80 1.82 1.78 1.76 4.01 3.46 3.10 3.22 3.83 3.78 3.77 3.74 3.71 3.63 3.65 3.68 3.69 3.67 3.7 t 3.75 3.76 3.73 3.70 3.72 3.67 Uncorrected Run Average (Co6.) Cal Gas Concentration (Cr,rJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run A 7:40 7:41 7:42 7:43 7:44 7:45 7:46 7:47 7:48 7:49 7:50 7:51 7:52 7:53 7:54 7:55 7:56 7:57 7:58 7:59 8:00 9.99 -0.18 -0.09 -0.14 9.72 9.75 9.74 1.93 14.82 14.82 14.83 t4.82 14.82 14.82 14.82 14.83 14.83 14.83 14.82 t4.82 14.83 14.83 14.83 14.82 14.82 14.82 14.82 14.82 14.83 89 of288 All6rlrcEr\( Run2-RMData ,\! ( Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: AST-2024-1778 Datez 612ll24 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (CrnrJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run Average (Co Oz - Outlet %" dry Valid 10.99 0.00 0.00 0.00 10.87 10.85 10.86 15.00 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 9.99 -0.09 -0.17 -0.13 9.75 9.60 9.68 1.98 3.75 9.80 0.02 0.06 0.04 9.88 9.94 9.91 3.68 8: l3 8:14 8:15 8: l6 8:17 8:18 8: l9 8:20 8:21 8:22 8:23 8:24 8:25 8:26 8:27 8:28 8:29 8:30 8:31 8:32 8:33 14.8 I t4.82 14.82 14.82 14.82 14.81 t4.82 14.82 14.82 14.81 t4.82 14.81 14.82 14.81 14.82 14.82 14.82 14.82 14.83 14.82 14.82 1.80 l.8l 1.82 I .81 1.78 1.88 1.87 1.88 I .81 I.85 1.78 1.84 I .81 1.82 1.83 I .81 1.80 I.8r 1.78 1.76 1.75 3.68 3.76 3.78 3.77 3.79 3.77 3.76 3.72 3.74 3.7 | 3.77 3.70 3.74 3.74 3.78 3.70 3.73 3.77 3.74 3.77 3.78 90 of288 pllIATEE) 1 f r) ll N l(lA 1- (.i ftr. il P Location: Utah Municipal Power Agency - West Valley City, UT Run3-RMData Source: Unit 4 Project No.: AST-2024-1778 Date: 6/21124 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (Crt6) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal ResPonse Posttest System Cal Response Average Cal Response (Cr) Corrected Run Averaqe (Cor 8:45 8:46 8:47 8:48 8:49 8:50 8:51 8:52 8:53 8:54 8:55 8:56 8:57 8:5 8 8:59 9:00 9:01 9:02 9:03 9:04 9:05 Or - Outlet "/o dry Valid 0.00 0.00 0.00 10.85 10.88 10.87 14.99 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.70 9.80 0.06 -0.03 0.02 9.94 9.77 9.86 3.67 L78 1.77 l.80 l.8l t.7 t 1.74 1.82 t.77 1.78 1.73 1.69 1.72 1.75 t.76 1.82 1.75 1.77 t.76 1.76 1.77 1.80 3.7 | 3.76 3.75 3.70 3.70 3.74 3.75 3.68 3.65 3.7 | 3.7 | 3.77 3.76 3.68 3.65 3.66 3.65 3.66 3.65 3.67 3.64 9.99 -0.17 -0.16 -0.17 9.60 9.54 9.57 1.98 t4.80 t 4.81 14.82 14.82 14.82 t4.82 t4.82 14.82 14.83 14.83 14.83 14.83 14.83 r 4.83 14.83 14.83 14.83 14.83 14.83 14.82 r 4.83 9l of288 puIATEE) Tra!Nr()n L- cln()L.JP Run4-RMData Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: AST-2024-1778 Datez 6121124 Time Unit Status Uncorrected Run Average (Co6r) Cat Gas Concentration (Crrre) Pretest System Zero Response Posttest System Zero ResPonse Average Zero Response (Co) Pretest System Cal Response Posttest System Cal ResPonse Average Cal Response (Cs) Corrected Run Average (Corr 9:22 9:23 9:24 9:25 9:26 9:27 9:28 9:29 9:30 9:31 9:32 9:33 9:34 9:35 9:36 9:37 9:38 9:39 9:40 9:41 9:42 Oz - Outlel Y" dry Valid 14.86 10.99 0.00 0.00 0.00 10.88 10.93 10.91 t4.97 t4.84 14.85 14.85 14.85 14.85 14.85 t4.86 14.86 14.86 14.86 14.86 14.86 14.86 14.85 14.86 14.86 14.86 14.87 14.88 14.87 14.87 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 3.54 9.80 -0.03 -0.1 I -0.07 9.77 9.33 9.55 3.68 3.60 3.57 3.57 3.63 3.62 3.50 3.56 3.53 3.5 8 3.52 3.52 3.54 3.s8 3.56 3.53 3.51 3.53 3.56 3.48 3.46 3.45 1.69 9.99 -0.16 -0.29 -0.23 9.54 9.56 9.55 1.96 1.73 1.69 1.69 1.70 t.7 t 1.74 t.7 | t.73 1.70 1.72 1.7 | 1.67 1.66 t.7l 1.66 r.73 t.7 | 1.69 1.65 1.62 1.64 92 of288 pllIATEE) Location: Utah Municioal Power Asencv - West Vallev Citv, UT Run5-RMData Source: Unit 4 Project No.: AST-2024-1778 Date;6121124 Time Unit Status Uncorrected Run Average (Co5r) Cal Gas Concentration (CuJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run Average (Corr Oz - Outlet o/o dry Valid 10.99 0.00 0.03 0.02 10.93 10.92 10.93 15.00 CO - Outlet ppmvd Valid 1.60 9.99 -0.29 -0.28 -0.29 9.s6 9.38 9.47 1.93 NOx - Outlet ppmvd Valid 3.28 9.80 -0.1I -0.t2 -0.12 9.33 9.29 9.31 3.53 l0:01 l0:02 l0:03 l0:04 l0:05 10:06 l0:07 l0:08 l0:09 l0:10 l0:l I l0:12 l0: l3 l0:14 l0:1 5 l0: l6 l0:1 7 l0:1 8 l0: l9 l0:20 l0:21 14.90 r4.90 14.90 14.89 14.89 14.90 14.90 t4.91 14.91 t4.9r 14.92 14.91 14.90 14.90 14.90 14.91 14.91 t4.91 t4.90 14.90 14.89 t.54 1.56 1.56 1.56 l.6l 1.60 1.62 t.57 1.59 1.58 t.62 l.6l t.62 1.65 1.57 1.60 1.64 1.58 1.60 1.63 1.64 3.23 3.27 3.22 3.26 3.20 3.17 3.20 3. l9 3.25 3.28 3.27 3.28 3.31 3.37 3.37 3.35 3.37 3.35 J.JJ 3.34 3.35 93 of288 pJ/IATGE)Run6-RMData I i .. lr i! i(;n i (tli('jtlI., Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: 4!r2Q24:_!llt Dile:6121124 Time Unit Status Oz - Outlet %o dry Valid 10.99 0.03 0.02 0.03 t0.92 10.91 t0.92 15.01 14.87 14.89 14.90 r4.89 14.89 14.90 14.91 14.91 14.91 14.91 14.9t 14.91 14.90 14.90 14.90 14.90 14.90 14.89 14.89 14.89 14.89 CO - Outlet ppmvd Valid 1.63 9.99 -0.28 -0.23 -0.26 9.38 9.s0 9.44 1.62 l.6l 1.60 1.59 1.59 1.60 1.65 r.56 1.65 1.60 l.6l 1.68 l.6l L68 L65 1.64 1.64 1.63 1.65 1.63 1.64 NOx - Outlet ppmvd Valid 3.47 9.80 -0.12 -0.r I -0.12 9.29 8.96 9. l3 3.80 3.41 3.41 3.40 3.46 3.39 3.47 3.46 3.45 3.49 3.50 3.48 3.45 3.55 3.47 3.48 3.49 3.52 3.46 3.49 3.51 3.50 Uncorrected Run Average (Co6.) Cal Gas Concentration (CnrJ Pretest System Zero Response Posttest System Zero ResPonse Average Z,ero Response (Co) Pretest System Cal ResPonse Posttest System Cal ResPonse Average Cal Response (Cy) Corrected Run Average (Corr l0:35 l0:36 l0:37 l0:38 l0:39 l0:40 l0:41 l0:42 l0:43 l0:44 l0:45 10:46 l0:47 l0:48 l0:49 l0:50 l0:51 l0:52 l0:53 10:54 l0:55 94 of288 plll6rpEr f Eo11NtCn L (.1 F(.)l.l P RunT-RMData Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: AST-2024-1778 Dile:,6121124 Time Unit Status Uncorrected Run Average (Coor) Cal Gas Concentration (CprJ Pretest System Z.ero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (C*) Corrected Run A Cor Oz - Outlet %. dry Valid 14.88 10.99 0.02 0.03 0.03 10.91 10.89 10.90 t4.86 14.86 14.86 14.86 t4.87 14.87 14.87 t4.87 14.87 14.86 14.87 14.88 14.88 14.88 14.88 14.88 14.89 14.89 14.90 14.89 14.89 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.60 9.80 -0.1I -0.03 -0.07 8.96 9.54 9.25 3.86 1.60 r.67 1.68 t.7 t t.7 | t.67 1.72 r.68 t.7l t.72 t.7l 1.68 1.60 1.66 1.62 1.67 1.67 1.62 1.62 1.63 1.66 9.99 -0.23 -0.21 -0.22 9.50 9.55 9.53 1.93 I l:09 I l:10 ll:ll ll:12 I l:13 1l: l4 1 l:15 I l:16 ll:17 I 1:18 I l:19 ll:20 ll:21 ll:22 ll:23 ll:24 ll:25 ll:26 ll:27 I l:28 11:29 3.46 3.49 3.53 3.56 3.58 3.56 3.61 3.58 3.64 3.63 3.62 3.67 3.68 3.70 3.63 3.66 3.61 3.63 3.71 3.67 3.45 95 of288 Run8-RMData l f (-' ti l'J !()A i (l rl()tr P Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: AST-2024-l 778 Date:6121124 Time Unit Status Uncorrected Run Average (Coor) Cal Gas Concentration (CuJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal ResPonse Posttest System Cal Response Average Cal Response (Cr) Corrected Run Avera I l:40 I l:41 ll:42 I l:43 ll:44 I l:45 ll:46 ll:47 I l:48 ll:49 I l:50 I l:51 ll:52 I l:53 I l:54 I l:55 I l:56 ll:57 I l:58 I l:59 l2:00 Oz - Outlet %o dry Valid 10.99 0.03 0.01 0.02 10.89 10.89 10.89 15.02 CO - Outlet ppmvd Valid 1.63 9.99 -0.21 -0.18 -0.20 9.55 9.68 9.62 1.86 1.59 t.62 1.64 1.66 1.60 1.64 r.63 1.67 1.59 l.6l 1.68 1.65 1.65 1.60 1.65 t.66 1.65 t.64 1.65 1.62 1.59 NOx - Outlet ppmvd Valid 3.65 9.80 -0.03 -0.14 -0.09 9.54 9.77 9.66 3.76 3.68 3.65 3.60 3.61 3.62 3.66 3.62 3.66 3.72 3.69 3.63 3.49 3.52 3.60 3.64 3.68 3.64 3.73 3.69 3.73 3.78 14.88 14.89 14.89 14.88 14.88 14.88 14.88 14.88 14.88 14.89 14.88 14.87 14.88 r4.88 14.87 r 4.88 t4.87 14.87 14.87 14.87 14.87 96 of288 l-t Run9-RMData rlAL (lf.)(il I Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: AST-2024-1778 Datez 6121124 Time Unit Status Uncorrected Run Average (Co6.) Cat Gas Concentration (CrrrJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cs) Corrected Run A Or - Outlet %o dry Valid 14.83 10.99 0.01 0.00 0.01 10.89 10.90 10.90 14.97 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.6 r 9.80 -0.14 0.01 -0.07 9.77 9.60 9.69 3.69 1.60 t.70 1.70 1.83 2.02 2.05 2.12 2.07 2.02 1.96 t.92 t.97 1.96 1.90 1.98 t.94 1.98 1.92 1.89 2.00 2.03 3.82 3.80 3.6s 3.42 3.14 3.06 3.18 3.42 3.70 3.90 3.89 3.87 3.76 3.59 3.s2 3.53 3.64 3.7 | 3.72 3.76 3.74 9.99 -0.18 -0.25 -0.22 9.68 9.58 9.63 l2:13 12:14 l2:15 l?:16 l2:17 l2:18 l2:19 l2:20 l2:21 l2:22 l2:23 12:24 l2:25 l2:26 l2:27 l2.,28 l2:29 l2:30 l2:31 l2:32 l2:33 14.87 t4.87 t 4.88 t4.91 14.90 t4.90 14.89 14.89 14.87 14.85 14.83 t4.82 14.8 I 14.80 14.79 14.79 14.79 t4.78 14.77 t4.76 14.76 97 of288 pul6rrrcE) r t: al l1 l.J l() A L (l n () t-l P Location: Utah Municipal Power Agency - West Valley City, UT Run 10 - RM Data Source: Unit 4 Project No.: AST-2024-l 778 Date: 612l/24 Time Unit Status Uncorrected Run Average (Co6") Cal Gas Concentration (CM,q,) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run Average (Corr Oz - Outlet o/o dry Valid 14.79 10.99 0.00 0.00 0.00 r0.90 10.89 10.90 t4.92 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 3.76 9.80 0.01 -0.05 -0.02 9.60 10.00 9.80 3.77 3.54 3.50 3.45 3.5 r 3.69 3.68 3.68 3.75 3.73 3.80 3.90 4.00 4.08 4.00 3.83 3.78 3.73 3.74 3.75 3.92 3.92 9.99 -0.25 -0.30 -0.28 9.58 9.63 9.6r l2:48 12:49 l2:50 l2:51 12:52 l2:53 l2:54 l2:55 l2:56 12:57 l2:58 12:59 13:00 l3:01 13:02 l3:03 l3:04 l3:05 l3:06 l3:07 I 3:08 14.78 14.79 t4.78 14.79 t4.79 14.78 14.78 14.79 t4.79 14.80 14.82 r4.80 14.80 14.80 14.79 r 4.80 14.80 14.79 14.80 14.80 14.80 1.97 2.01 1.94 1.90 l.9l 1.95 1.92 1.93 1.97 1.87 1.77 1.77 t.76 1.82 l.8l 1.77 1.80 1.80 1.76 1.79 1.80 98 of288 o o o AIi-t NOx Summary Locetion: Utah Muicipal Power Agency - west Valley City, UT Source: Unit 5 Projcct No.: AST-2024-1778 Run No.Dste Time Load MW Rcference Method NOx Emission Fscto] lb/MMBtu (O2d) CEMS NOx Emission Factor lb/IIMBtu (O2d) Averagc Differencc tb/MMBtu (O2d)Stsrt End I 2 3 4 5 6 7 8 9 6l 6t 6/ 6/ 6/ 6/ 6/ 6l 6l 't/24 1t24 '7/24 7/24 7 t24 7 /24 7/24 7/24 7/24 l5:40 16"12 l6:45 l7:15 l8:09 l8:44 l9: l7 l9:50 t0.2t l6:00 l6:32 t7 .05 l7:35 l8:29 l9:04 t9.37 20:10 20"41 38 38 38 38 38 3E 38 38 38 0.0t7 0.0 t3 0.013 0.013 0.012 0.012 0.013 0.013 0 0r3 0.013 0.013 0.013 0.013 0.013 0.013 0.013 0.013 0.013 0.004 0.000 0.000 0.000 -0.00 I -0.001 0.000 0.000 0.000 Averagr l8 0.013 0 013 0.000 Stmdtrd Deviation (Sd) Confidence Cocfficicnt (CC) Bias Adjustmnt Required (BA) Bis AdjGtmcnt Factor (BAF) Rclativc Accurecy (RA) Perfonmcc Rcquired Test Result RATA Frequenry 0 001 0.001 No 1.000 10.29 v" + O 015 lhA4MBtu (4 OTRS'I PASSAPS 4OTRS Confi dencc Cefficicnt, CC cc : ltogt x sdllVn I wherc. turs_l]!!_= degrees of frredorn value tr___2_= number of ros selected for calculating the RA Sd 0.001 = stmdud deviation of differencc CC A= "onfidencc co€fficient Rclative Accurecy, RA ldl+lCClRA = --;M:xloo d___9!Q_= "ueragc difference of ReGrencc Method md CEMS CC 0.001 = confidcncc coefficicnt RM 0.013 = reference rethod, lbMMBtu (O2d) RA 10.29 = relative accuacy, o/o Bi$ Test R€sults, BA BARequired ifd > d 0.000 = average differcnce ofReference Method md CEMS CC A= "onfidence cocfficient BA No = bi6 adjNtrnent Actor Bis Adjustmcnt Frctor, BAF BAF = whcrc. d -r I cEMSa,s ' ' dA = ,ucrage difference of Rcfercnce Method md CEMS CEMS.,8 0.013 = averagc of CEMS values BA-F 1.000 = bi6 adjutment factor I 00 of 288 puIATEE) Tr t..t rr ri () l_J P Utah Municipal Power Agency - West Valley City, UT 02 Summary :'ii l\i I ( Location: Source: Project No.: I Init 5 AST-2024-1778 Run No.Dstc Time Load MW Reference Method Or Concentretion oh drv CEMS O, Concentretion lo dry Average Differe nce o/o d,ryStarlEnd I 2 J 4 5 6 7 8 9 6l 6l 6/ 6/ 6/ 6l 6t 6l 6l 7/24 7124 7t24 7t24 7124 7124 7/24 't/24 7/24 l5:40 16..12 l6:45 l7:l 5 l8:09 l8:44 t9.t7 l9:50 20..21 l6:00 l6:32 l7:05 t7'.35 l8:29 l9:04 19.3'7 l0:10 l0:41 38 38 38 38 38 38 38 38 38 52 5.0 50 5l 50 50 50 50 50 5.0 50 50 5.0 50 50 50 50 50 0.2 00 0.0 0l 00 00 00 00 0.0 Average 38 033 15.000 0 033 Standard Deviation (Sd) Confi dence Coeffi cient (CC) Bias Adjustment Required (BA) Bias Adjustment Factor (BAF) Relative Accuracy (RA) Performance Required Test Result RATA Frequency 0 071 0 054 No r 000 0.s8 0z RA<750l"(4oTRS) PASSED 4QTRS Confi dence CoeIIicient, CC cc : ltolt , sallVn I where, \,.er -!\= degrees of freedom value n2= number of runs selected for calculating the RA Sd 0.07 = standard deviation ofdifference CC 0.054 = confidence coefficient Rclrtive Accuracy, RA ldl+lcclRrq = 'x 100RM where, d 0.03 = average difference of Reference Method and CEMS CC 0.054 = confidence coefficient RM I 5.03 = reference method, % dry RA 0.58 = relative accuracy,?o l0l of288 A/lArEEr Locetion: Utah Municinal Power Asencv - West Vallev Ciw. UT NOx Summary Source: Unit 5 Project No.: AST-2024- I 778 Run No.Date Time Reference Method NOx Concentration CEMS NOx Concentration oomvd @ 15 oh O, Average Difference oomvd @ 15 o/o O,Stert End I 2 3 4 5 6 't 8 9 6l 6/ 6/ 6t 6/ 6/ 6t 6/ 6/ 7t24 7 t24 '7t24 '7t24 '7124 7 t24 7t24 7 t24 I 5:40 t6.t2 t6.45 l7: l5 l8:09 l8:44 t9.17 l9:50 t0.21 l6:00 l6:32 l7:05 17:35 l8:29 l9:04 l9:37 l0: l0 l0:41 4.6 3.6 3.4 3.5 33 33 3.6 3s 3.5 36 36 3.4 3.5 3.4 3.6 36 3.6 36 l0 00 00 00 -0 1 -0.3 0.0 -0 1 -0 1 Averaqr 3.589 3 544 0.044 Standard Deviation (Sd 0.371 Applicable Source Standard (AS 100 Confi dence Coeflicient (CC 0 285 Relative Accurecv (RA 0.33 % Performance Reouired - Aoolicable Source Standarc RA S IO% Performance Specifi cation Methoc PS2 Confi dence CoeIfi cient, CC cc : ltogt ,. sallVn I wbere, turzs_l][= degrees of freedom value nl_= number of runs selected for calculating the RA Sd 0.371 = standard deviation ofdifference CC 0.285 = confidence coe{ficient Relative Accuracy, RA m = ld l+ lccl " ,ooAS or RM where, d 0.04 = average difference of Reference Method and CEMS CC 0.285 = confidence coefficient AS 100.000 =applicablesourcestandard,ppmvd@ l5%Oz RA 0.33 = relative accuracy, To 102 of288 plll6rrrcE) T[(]ilNICn L, Cn0[Jr' Location: Utah Municioal Power Agencv - West Vallev Citv. UT NOx Summary Source: Unit 5 Project No.: AST-2024- I 778 Run No.Date Time Referencc Method NOx Emission Ratc lb/hr CEMS NOx Emission Rate Ib/hr Avcrrge Differenre lb/hrStsrlEnd I 2 3 4 5 6 7 8 9 6lt7l24 6/17t24 6n7t24 6/17/24 6/t7/24 6/t7t24 6/17 t24 6/t'7124 6/t7/24 l5:40 l6 12 t6.45 l7: l5 l8:09 l8:44 t9.t7 l9:50 20.21 l6:00 16.32 l7:05 t7 35 l8:29 l9:04 t9 37 l0: l0 104t 6.4 50 4.8 48 4.6 4.6 5.0 4.9 49 4.9 4.9 4.8 48 4.8 5.0 50 5.0 50 l5 0I 00 00 -02 -04 0.0 -0.1 -0 1 Averagr 5 000 4.91I 0 089 Standard Devration (Sd'0 549 Applicable Source Standard (AS 7.4 Confi dence Coeflicient (CC 0.422 Relativc Accurucy (RA 10.21 6/o Performance Required - Mean Reference Method RA s 20% Performance Specifi cation Method PS2 Confidence Coeffi cicnt, CC cc = ltol', sallVn I where, \sts -!\= degrees of freedom value n _l_= number of runs selected for calculating the R { Sd 0.549 = standard deviation ofdifference CC 0.422 = confidence coefficient Relative Accurrcy, RA ldl+lcclRA = 'x L00AS or RM where,d 0.09 = average difference of Reference Method and CEMSCC 0.422 = confidence coeflicientRM 5.000 = reference method, lb/hrRA 10.21 = relative accuracy,o/o t03 of288 pul6rrrcE) T [ (] llN l(-) /'\ I (r P. {) l.-l P CO Summary Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024-l 778 Run No.Dete Time Refercncc Method CO Conccntration oomvd CEMS CO Conccntretion oomvd Avcrage Difference oomvdSirrtEnd I 2 3 4 5 6 7 8 9 6t 6t 6/ 6l 6/ 6/ 6l 6t 6/ 7t24 7/24 7/24 7/24 7/24 7/24 7/24 7/24 7/24 l5:40 t6.t2 l6:45 t'7 "15l8:09 l844 t9 t'7 l9:50 l0:21 l6:00 16.32 l7:05 l7:35 l8:29 l9:04 19.37 Z0:10 20:41 4.t 33 28 2.6 2.6 2.5 2.2 23 2.3 8 .6 .7 .6 .7 .7 ,6 .8 .8 23 t7 Ll 1.0 0.9 0.8 0.6 05 0.5 Averagt 2.744 1.700 |.044 Standard Deviation 1Sd,0 600 Confidence Coeffi cient (CC 0 461 Alternative Reletive Accuracy (RAl l 5l DDm Alternative Performance Required (d + CC <5ppm Performance Specifi cation Methoc PS 4A Confidence Coe flicient, CC cc=lff.sal where, to szs n Sd CC 2.306 9 = degrees offreedom value = number of runs selected for calculating the RA = standard deviation ofdifference = confidence coefficient 0.600 0.46t Alternativc Relative Accurecy, RA p"q : ldl +CC where, d 1.04 = average difference of Reference Method and CEMS CC 0.461 = confidence coefficient RA l.5l = relative accuracy, ppm I 04 of 288 pul6rrpE) Tt CllNr()n i.- (lti()I.lP 02 Summary Locetion: Utah Municioal Power Aqency - West Vallev City, UT Source: Unrt 5 Project No.: AST-2024-l 778 Run No.Dflte Time Reference Method Or Concentretion oh dry CEMS O, Concentration o/o dry Averege Differcnce oh drvStartEnd I 2 J 4 5 6 7 8 9 6/ 6/ 6/ 6/ 6/ 6/ 6/ 6l 6/ 7124 7t24 '7124 7 t24 7 t24 7t24 7t24 7/24 7124 l5:40 l612 l6:45 l7: l5 l8:09 l8:44 19.t7 l9:50 20.2t l6:00 16.32 l7:05 t7.35 l829 l9:04 t9'37 l0: l0 l0:41 5.2 50 5.0 5l 5.0 50 50 s0 5.0 5.0 5n 50 50 5.0 50 50 50 50 0.2 00 0.0 0l 00 00 0.0 0.0 00 Averag(l5.033 15.000 0.033 Standard Deviation (Sd)0.071 Confi dence Coeffi cient (CC,0.054 Relntive Accuracv (RAl 0.58 % Performance Required - Mean Reference Method RAs20% Performance Specifi cation Method PS3 Confi dence Coeflicient, CC cc = ltog'" sallVn I whe re, h.ns -!\= degrees of freedom value n 9 = number of runs selected for calculating the RA Sd 0.071 = standard deviation ofdifference CC 0.054 = confidence coef'ficient Relative Accurecy, RA p,q = l_gucc.lr166 where, d CC RM RA 003 = average difference of Reference Method and CEMS 0.054 = confidence coefficrent 15.033 = reference method, % dry 0.58 = relative accuracy, o% I 05 of 288 AllArGe [ (]ilNlCn L (lFl()[iP Method I Data Lcrllon Ur.h MunkiDd Potcr AlcNy - Watl Vrncy Clty. LfT SourcG Unil 5 Prej.ct No. AST-202I-177t Drt : Mllllu Dmt Ori.nl.thn: Vdrcal D*l Dc!i8n: Circule DiltaNG fmm F.r wrll to Outsida ofPon: lJ5.7J in Nipplc L.nBlh: I I 7J in Dcprh of DEI: lffi io CmttSstionslAftsofDwl: ll3.l0 ftr No. ofTcll Ponr: 4 Dist3nccA: 70 ft Diltrncc A Dwt Disfttcn: 06 (mu!t ba >0.5) Disl.mc Br 6l 0 ft Dirtrtrc B D[t Dirfticn: 53 (mut b. > 2) Acturl NumbcrofTr.vcBc Poiil!: 3 M.surcr(lnitid.nd Dst.): TAL 6/17 R.vi.w.ronitirl sd Drlc): CRH 6/17 1'r-rj5:l'rf'j:;;: 'Hrgn.. xuno.r s brR.ct.nou.r 3n.k. 07 ouc LOCATION OF TRAVERSE POINTS Ntnhu oInevcBc points on o diomdct t 3 I 5 6 1 E 9 l0 ll l2 2 J 5 6 7 9 lrlllo8 11.6 t6? 6.7 - {..1 -- 32 - 2.6 -- 2l 85.4 500 250 - 116 -- 105 -- 8.2 -- 67 - tll 750 - 296 - 19{ - l{6 - ll8- : '1' : lil ." ',1', - 11', - ii,i, 956 - 806 - 6Jt - 356 89J - 771 - il4 -,1"r::':-t;ii:iil - 979 ste.-k.tioNtet lron tnsi.le,oll to ttNts. N'nt TrllcBc Point '/. oI Di!trfta Dirmr.r w.ll I J .l 5 6 1 I 9 t0 ll l2 16.7 J00 81.3 24 05 12 00 ll99J 35 80 a1 75 l3t 70 Srel Dr.gm A=7n. B=63n. DcpthofDu€t= l.l.lin Cr6s Setioul tuc, Disturb.nc. Diiurbanca 106 of288 0!CaE€&rIEtr/dLz aF = €:- 6 o \- NAr r :- 6 6 \oXs s =s 9 :- @ o €Xo o \O N :- @ 6 €:- r r €:1 9 :- a r ii o n :- a a Xo o <+ o :-h Qa ooE. E FF ot o =6 o d6 a 6€a ^^ - : -- 3 39 ^ or ! j" d 3 do€ H: o d or 9 ! j* t ; ^^ o ;: oor 9_j _ B ^^ 6 -6 ; .3= ; AN d -€ dx: . d or = -i di u" I 3= - a OO - l 6 f, o r c0 q5>Bar ; f€Sn . U- g =; o I! i : d 66 6)= = rr r OT 6cE 6€o,r6N€-9r6o:6o"oq6Oo:6r{"6Oa,oNlE!6o6dg.ooo 6ac6U riqr;no(Je!6oI()U r€ . t dN d dl c ? I dN d "' ) .' l q NN N .! . l q dN - 9! ? ' : NN d 99 . ' ! dd d99 n Nd d09 0 9 s NN N na o q I v d3 o@ E!q o_ d fi s i oo 6 u; d 66LL E 99 . 2 oo E O( J q ] oo o U( J O c.! + \O \ O o - -i - i r i q ri r i + q dr i +? -i e i r i 9 d -i - i + 9 d -i ;+ 9 di - i + 9 o ;d i +q o d- i r i q Or $€ + - ++ € q 3 3e iN 6A co (( l ) = > > -6 tr +> -i i- ' c t g oo d x aa d t i c c ' = '= OO E t s UU q l q . l xx x x zz z z oo€!6Utrori rr1NoN*ZL FO=ou!)o=odf6J )o \\ E ; I-(=0:P, 10 7 of 2 8 8 plll6rrpG) I tj i) li I'i I ();\ t- (l fi a) L.J tr Runl-RMData Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024-1778 Date: 6l17l24 Time Unit Status Uncorrected Run Average (Co6,) Cat Gas Concentration (Crtre) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (C*) Corrected Run Average (C I 5:40 I 5:41 l5:42 l5:43 l5:44 l5:45 I 5:46 l5:47 I 5:48 l5 49 l5:50 l5:51 l5:52 l5:53 l5:54 l5:55 l5:56 l5:5 7 l5:58 l5:59 l6:00 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.58 9.99 -0.49 -0.60 -0.55 9.58 9.61 9.60 4.06 3.43 3.35 3.30 3.15 3.1 l 2.97 3.87 3.76 3.83 3.85 3.34 2.93 4.05 3.93 3.52 2.57 2.67 4.41 3.49 4.72 4.98 s.28<)) 5.18 5.32 5.20 5.06 4.91 4.86 4.96 4.94 4.87 4.86 4.76 4.62 4.60 4.51 4.43 4.40 4.49 4.31 4.21 Oz - Outlet oh dry Valid 14.7 5 10.99 0.41 0.16 0.29 10.61 10.93 t0.77 15.16 14.50 t4.52 14.53 14.53 14.59 14.7 5 14.77 14.78 14.79 14.80 14.80 14.80 t4.82 t4.82 14.83 14.83 t4.84 14.84 14.84 14.85 14.85 9.80 0.62 0.51 0.57 9.83 10.15 9.99 4.41 I 08 of 288 Run2-RMData T f.) ll t.l I (l r'\ l- (l Fl () tl P Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024-1778 Datet 6l17l24 Time Unit Status Uncorrected Run Average (Co6r) Cal Gas Concentration (Cur) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cr) Corrected Run A l6:12 l6:13 l6:14 l6:15 l6: l6 l6:17 l6:18 l6: l9 l6:20 l6:21 l6:22 l6:23 l6:24 l6:25 l6:26 l6:27 l6:28 l6:29 l6:30 l6:3 I l6:32 0r - Outlet oh dry Valid 14.88 10.99 0.16 0.14 0.15 10.93 I 1.02 10.98 14.95 14.80 14.79 14.79 t4.78 14.79 14.79 14.82 14.90 14.91 14.91 14.93 t4.93 14.93 14.94 14.93 t4.92 14.92 14.92 t4.92 14.92 14.92 CO - Outlet ppmvd Valid 2.75 9.99 -0.60 -0.67 -0.64 9.6r 9.57 9.59 3.31 3.21 3.34 3.27 2.73 2.48 2.63 2.84 3.03 3.62 2.81 2.68 2.33 2.62 2.98 2.86 2.40 2.52 2.36 2.40 2.37 2.31 NOx - Outlel ppmvd Valid 3.93 9.80 0.51 0.16 0.34 10.15 r0.00 10.08 3.62 3.92 3.97 3.93 3.85 4.01 4.00 3.89 3.82 3.97 4.00 3.93 3.93 4.04 4.03 3.96 3.93 4.01 4.02 3.81 3.78 3.76 109 of288 pul6rpEr TL l.,l l()n t, rriir)llF Run3-RMData Utah Municipal Power Agency - West Valley City, UT Unit 5 Location: Source: Project No.: Date: AST-2024-1778 6lt7/24 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (Cu,r) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cnn) Corrected Run A l6:45 l6:46 l6:47 l6:48 l6:49 l6:50 l6:51 l6:52 l6:53 16:54 16:55 16:56 l6:57 l6:58 l6:59 l7:00 l7:01 17:02 l7:03 17:04 l7:05 Or - Outlet o/o dry Valid 15.0r 10.99 0.14 0. l6 0.15 |.02 I 1.03 I 1.03 15.02 CO - Outlet ppmvd Valid 2.19 9.99 -0.67 -0.75 -0.71 9.57 9.63 9.60 2.81 2.27 2.30 2.34 2.22 2.20 2.31 2.21 2.17 2.09 2.10 2.15 2.20 2.20 2.08 2.17 2.23 2.15 2.21 2.14 2.13 2.05 NOx - Outlet ppmvd Valid 3.50 9.80 0.16 0.05 0.1 I 10.00 9.70 9.8s 3.63 3.66 3.71 3.60 3.65 3.60 3.52 3.46 3.58 3.52 3.47 3.40 3.s3 3.46 3.40 3.34 3.44 3.43 3.35 3.29 3.39 14.89 14.89 14.90 14.90 14.90 t4.91 14.99 15.02 I 5.04 I 5.05 I 5.05 I 5.06 15.06 15.06 15.06 15.06 15.07 15.07 15.08 15.08 15.08 I l0 of288 pua6rrce l'lr. ltll"ll(),'il- (lP()t.l P Run4-RMData Location: Utah Municipal Power Agencv - West Valley City' UT Source: Unit 5 Project No.: AST-2024-1778 Date:6117124 Time Unit Status Uncorrected Run Average (Co5.) Cal Gas Concentration (Cr*rJ Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal ResPonse Posttest System Cal Response Average Cal Response (Cy) Corrected Run A 17:15 17 16 17:17 l7:18 l7:19 17:20 17:21 17:22 17:23 17:24 17:25 17:26 17:27 17:28 17:29 17:30 17:31 17:32 17:33 17:34 17:35 Oz - Outlet Yo dry Valid 15.07 10.99 0.16 0.14 0.15 I 1.03 I 1.05 I 1.04 15.05 14.98 14.99 15.00 t4.99 14.99 15.00 I 5.08 15.10 15.09 15.10 15.10 15.10 15.10 I5.10 15.09 15.10 15.10 15.09 15.09 l5.l I 15.10 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 3.26 9.80 0.05 -0.14 -0.05 9.70 9.36 9.53 3.39 1.87 2.00 2.03 1.97 1.90 t.94 r.83 r.90 1.94 1.94 1.89 2.09 2.10 2.03 1.96 l.8l 2.03 2.tl 2.10 2.tl 1.90 3.2s 3.36 3.29 3.24 3.24 3.35 3.33 3.24 3.2s 3.35 3.30 3.22 3.21 3.32 3.24 3. l9 3.3 r 3.22 3.15 3.22 3.26 9.99 -0.75 -0.70 -0.73 9.63 9.46 9.55 2.62 I I I of288 Run5-RMData Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024-l 778 Date:6117124 Time Unit Status Uncorrected Run Average (Co6.) Cal Gas Concentration (Cr.6) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Oz - Outlet oh dry Valid 15.08 10.99 0.14 0. l3 0.14 l 1.05 1t.09 I 1.07 15.02 CO - Outlet ppmvd Valid NOx - Outlet ppmvd Valid 1.89 9.99 -0.70 -0.79 -0.75 9.46 9.46 9.46 2.58 I .71 1.99 2.02 1.93 1.87 1.86 1.96 1.97 2.01 1.87 1.87 1.89 r.83 l.9l 2.01 r.84 1.85 1.89 1.92 r.79 1.64 2.95 9.80 -0.14 -0.30 -0.22 9.36 9.23 9.30 3.27 l8:09 l8:10 l8:l I l8:12 l8: l3 l8: l4 l8: l5 l8: l6 l8: l7 l8: l8 l8: l9 l8:20 18:21 l8:22 18:23 l8:24 l8:25 l8:26 l8:27 l8:28 l8:29 15.01 15.01 15.01 15.01 15.01 15.01 15.04 l5.r I l5.l I l5.l I 15.12 l5.ll l5.l I l5.t I 15.12 t5.12 15.13 15.13 15.13 15.13 15.13 2.98 2.85 2.93 2.94 2.87 2.82 2.92 2.92 2.85 2.82 2.89 3.10 3.04 3.03 3.09 3.1 I 2.98 2.95 3.05 2.97 2.94 I l2 of288 IlllErlEE) I I r.l li f! i (, ,^\ L tl n () L.i tl Location: Utah Municipal Power Agency - West Valley City, UT Run6-RMData Source: Unit 5 Project No.: AST-2024-1778 Datez 6117l24 Time Unit Status Uncorrected Run Average (Co6r) Cal Gas Concentration (Crua) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Or - Outlet oh dry Valid 10.99 0.r3 0.12 0.13 I 1.09 I 1.09 I 1.09 15.00 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 9.99 -0.79 -0.89 -0.84 9.46 9.48 9.47 2.54 3.05 9.80 -0.30 0.23 -0.04 9.23 9.30 9.27 3.25 l8:44 l8:45 l8:46 l8:47 l8:48 l8:49 l8:50 l8:5 I l8:52 l8:53 l8:54 l8:55 l8:56 l8:57 l8:58 l8:59 l9:00 l9:01 19:02 l9:03 l9:04 15.00 15.0 I 15.0 I 15.02 15.0 I t4.99 15.02 l s.l0 15.1 l 15.12 15.r3 15.13 15.13 15.l4 15.14 15.14 15.15 15.15 15.16 15.14 15.14 1.70 t.76 t.85 1.92 1.92 1.92 1.83 r.89 1.78 1.75 1.77 t.67 1.75 1.52 1.70 1.74 1.75 l.8l 1.75 1.75 1.83 3.01 3.15 3.1 I 3.07 3.23 3.18 3.17 3.24 3.28 3. l3 3.06 3.10 3.19 3.08 2.91 3.00 2.91 ?.83 2.78 2.79 2.84 ll3 of288 pl/l6rrrcE) l1 lrJ I r),^r I (l tl () tJ f' Location: Utah Municipal Power Agency - West Valley City, UT Run7-RMData Source: Unit 5 Project No.: AST-2024-1778 Date: 6l17l24 Time Unit Status Uncorrected Run Average (Coor) Cal Gas Concentration (Cr,rr) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Oz - Outlet Yo dry Valid 15.13 10.99 0.12 0.12 0.12 I 1.09 I l.l0 I l.l0 15.03 CO - Outlet NOx - Outletppmvd ppmvd Valid Valid 19:17 l9:18 l9:19 l9:20 l9:21 l9:22 19:23 19:24 19:25 l9:26 19:27 19:28 19:29 l9:30 l9:31 19:32 l9:3 3 19:34 l9:35 19:36 19:37 15.04 15.04 15.05 15.05 15.05 15.06 15.14 15.16 15.16 15.16 15.16 15.17 15.17 t5.17 15.t7 ts.t7 15.17 15.t7 15.18 15.18 15.18 4.r2 4.20 4.09 3.95 3.88 3.91 3.75 3.65 3.59 3.72 3.62 3.39 3.46 3.38 3.29 3.38 3.37 3. l9 3.02 3. l0 3.06 9.99 -0.89 -0.77 -0.83 9.48 9.2t 9.3s 2.25 1.48 1.47 1.48 t.44 1.50 1.52 t.49 t.52 1.47 1.42 1.47 1.50 1.45 1.47 1.37 1.43 1.48 1.48 1.40 t.4t 1.43 3.58 9.80 0.23 0.1I 0.17 9.30 9.41 9.36 3.53 ll4of288 plll6rrpE) 'r [ (]llfilOn l.- (',tl()liP Location: Utah Municipal Power Agencv - West Valley City, UT Run8-RMData Source: Unit 5 Project No.: AST-2024-1778 Datez 6117l24 Time Unit Status Uncorrected Run Average (Co6r) Cal Gas Concentration (Cun) Pretest System Zero Response Posttest System Zero Response Average Zero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run A Oz - Outlet oh dry Valid 10.99 0.t2 0. l3 0. l3 I l.r0 I 1.09 I l.l0 15.02 CO - Outlet NOx - Outlet ppmvd ppmvd Valid Valid 9.99 -0.77 -0.7 | -0.74 9.21 9.41 9.31 2.33 3.44 9.80 0.1I 0.t5 0. l3 9.41 9.43 9.42 3.49 l9:50 l9:51 l9:52 l9:53 19:54 l9:55 l9:56 19:57 l9:58 l9:59 20:00 20:01 20:02 20:03 20:04 20:05 20:06 20:07 20:08 20:09 20:1 0 l5.05 l5.05 15.05 r5.04 15.05 15.08 15.14 15.15 15.r4 15.t5 15.15 15.15 15.14 15.t5 15.15 15.l5 t5.15 15.t5 t5.15 t5.15 t5.t5 l.5l 1.56 1.59 1.58 1.64 l.6l t.57 r.57 1.56 l.6l 1.59 l.6l 1.67 l.6l 1.65 1.54 r.56 1.64 1.64 1.69 1.67 3.75 3.81 3.75 3.65 3.61 3.65 3.54 3.45 3.43 3.53 3.43 3.35 3.27 3.39 3.31 3.24 3. l9 3.32 3.30 3.17 3.t4 I l5 of288 pul6rrrcEr I l (;ll l.r l(ln L ()F?()tlP Location: Utah Municipal Power Agencv - West Valley City, UT Run9-RMData Source: Unit 5 Project No.: AST-2024-1778 Datez 6117l24 Time Unit Status Uncorrected Run Average (Co6,) Cal Gas Concentration (Cue) Pretest System Zero Response Posttest System Zero Response Average Z,ero Response (Co) Pretest System Cal Response Posttest System Cal Response Average Cal Response (Cy) Corrected Run Averase (Co Or - Outlet oh dry Valid 10.99 0. l3 0.12 0. l3 I 1.09lt.ll 11.10 15.01 CO - Outlet NOx - Outletppmvd ppmvd Valid Valid 20:21 20:22 20:23 20:24 20:25 20:26 20:27 20:28 20:29 20:30 20:31 20:32 20:33 20:34 20:35 20:36 20:37 20:38 20:39 20:40 20;41 15.03 15.03 15.04 I 5.04 15.05 15.04 15.05 15.13 15.15 15.14 15.15 15.15 15.15 15.t5 15.16 15.16 15.1 6 15.r6 15.15 15.15 15.15 4.22 4.23 4.06 4.00 4.04 3.94 3.77 3.69 3.58 3.71 3.58 3.47 3.44 3.52 3.40 3.r8 3.03 3.14 3.02 2.99 3.03 9.99 -0.7 t -0.77 -0.74 9.41 9.39 9.40 2.33 1.46 t.53 1.46 L56 L59 t.62 1.65 l.6l r.68 t.69 1.72 1.65 l.6l 1.68 1.62 1.72 1.66 t.64 t.70 t.66 l.6l 3.57 9.80 0.15 0.54 0.35 9.43 9.42 9.43 3.48 I l5 of288 o o o AI QA Data (.i ri a) I I F: Location Utah Municipal Power Agency - West Valley City, UT Source Unit I Project No. AST-2024-1778 Parameter Or - Outlet CO - Outlet N0x - Outlet Make Model S/N Ooeratins Ranse Servomex 4900 100269 0-25 Thermo 48iQ 12326830210 0-30 Thermo 42c-HL 42CHL-59778-324 0-30 P75 Operating Level Code P75 Monitoring System ID P75 RATA Test Number P75 RATA Test Reason P75 Grace Period Indicator P75 Reference Method P75 Report w/ Protocol Gas Data P75 Report w/ NOX as Diluent Gat N 000 001 QA 0 3A Yes Yes N 000 001 QA 0 l0 NA NA N 000 001 QA 0 7E Yes No Cylinder ID Zero Mid Hish NA E80042240 cc7t9736 NA EBo I 5482 I AAL07l100 NA EBo I 5482 I AAL07l 100 Cylinder Certifed Values Zero Mid Hieh NA 10.99 24.0 NA 9.986 21.68 NA 9.799 21.48 Cylinder Vendor ID (PGVPID) Zero Mid Hish NA G12023 Gt2020 NA 872024 /.32024 NA 872024 A32024 Cylinder Expiration Date Zero Mid Hish NA t2/27131 8lt6l28 NA 517/27 517127 NA 5/7127 5/7127 Cylinder EPA Gas Type Code LOW MID HIGH ZERO CO2,02,BALN C02.02,BALN NA NA NA ZERO CO,NO,NOX,BALN CO.NO,NOX,BALN fvpe of Sample Line Heated Line I l9 of288 plll6rrrcE) [:otiNt()n L (]F()lrP Location: Utah Municipal Power Agency - West Valley City, UT Response Times Source: Unit I Project No.: AST-2024-1778 30 NA 30 30 30 NA 60 60 7*ro Low Mid 120 of288 pllIATEE) Calibration Data Location: Utah Municipal Power Asencv - West Vallev Citv, UT Source: Unit I Project No.: AST-2024-1778 Datez 6l18/24 Parameter 0r - Outlet CO - Outlet NOx - Outlet Exoected Averase Concentration 15.00 4.00 4.00 Span Between Low High Desired Span 15.00 75.00 24.00 4.00 20.00 21.58 4.00 20.00 2t.48 Low Range Gas Low Hieh NA NA NA NA NA NA Mid Range Gas Low Hish 9.60 14.40 8.67 13.01 8.59 12.89 High Range Gas Low Hieh NA NA NA NA NA NA Actual Concentration (7o or ppm) Zero Low Mid Hish 0.00 NA 10.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 2t.48 Upscale Calibration Gas (Cya)Mid Mid Mid Instrument Response (7o or ppm) Zero Low Mid Hish 0.00 NA 10.97 23.99 -0.01 NA 9.s6 21.45 0.10 NA 9.84 21.67 Performance (7o of Span or Cal. Gas Conc.) Zero Low Mid Hish 0.00 NA 0.08 0.04 0.05 NA 1.96 1.06 0.47 NA 0. r9 0.88 Status Zero Low Mid Hish PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS l2l of288 pul6rrpE) rE_.:t{NIOn L Gn()t.l P Location: Utah Municipal Power Agency - West Valley City, UT Calibration Data Source: Unit I Project No.: AST-2024-1778 Date:6118124 Parameter Oz - Outlet CO - Outlet NOx - Outlel Expected Average Concentration 14.91 2.48 Span Between Low High Desired Span 14.91 74.57 24.00 2.48 20.00 21.68 2t.48 Low Range Gas Low Hieh NA NA NA NA NA NA Mid Range Gas Low Hieh 9.60 14.40 8.67 13.0 I 8.59 12.89 High Range Gas Low Hieh NA NA NA NA NA NA Actual Concentration (7o or ppm) Zero Low Mid Hish 0.00 NA 10.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 2t.48 Uoscale Calibration Gas (C Mid Mid Mid Instrument Response (7o or ppm) Zero Low Mid Hish 0.00 NA 10.97 23.99 -0.01 NA 9.s6 21.45 0.10 NA 9.77 2t.52 Performance (7o of Span or Cal. Gas Conc.) Zero Low Mid High 0.00 NA 0.08 0.04 0.05 NA 1.96 1.06 0.47 NA 0.14 0. l9 Status Zero Low Mid Hish PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS 122 of288 pul6rnsEr rI()11 l..l |.l/rL Ofjl()tJP Bias/Drift Determinations Locetion: Utah Municipal Power Agency - West Valley City, UT Project No.: AST-2024-l 778 Parameter O, - Outlet CO - Outlet NOx - Outlet Run I Date 6118/24 ipan Value nitial Instrument Zero Cal Response nitial Instrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Uoscale Resoonse 24.00 0.00 10.97 0.04 0.03 10.88 10.89 21.68 -0.0 l 9.56 -0.23 -0.41 9.65 9.66 2t.48 0. l0 9.84 0,90 0.59 9.55 10.35 3ias (%) )retest Zero )osttest Zero )retest Span )osttest Span 0.17 0.13 -0.f7 -0.33 -r.01 -1.85 0.42 0.46 3.72 2.28 -l.3s 2.37 )rift (%) Lero vid -0.04 0.04 -0.83 0.0s -1.44 3.72 Run 2 Date 6ll8n4 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Response 24.00 0.00 10.97 0.03 0.06 10.89 10.91 2l .68 -0.01 9.s6 -0.41 -0.48 9.66 9.56 21.48 0.t0 9.77 0.87 0.83 9.26 9.28 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0. l3 0.2s -0.33 -0.25 -r.85 -2.t'7 0.46 0.00 3.58 3.40 -2.37 -2.28 Drift (%) Zero Mid 0. l3 0.08 -0.32 -0.46 -0.19 0.09 Run 3 Date 6118124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.97 0.06 0.08 10.91 10.92 2 1.68 -0.01 9.56 -0.48 -0.41 9.56 9.49 21.48 0. l0 9.77 0.83 0.44 9.28 9.20 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.25 0.33 -0.25 -0.21 -2.17 - 1.85 0.00 -0.32 3.40 1.58 -2.28 -2.65 Drift(%) Zero Mid 0.08 0.04 0.32 -0.32 -r.82 -0.37 I 23 of 288 Biasfl)rift Determinations CR(ttiP Location: Utah Municipal Power Agency - West Valley City' UT Source: Unit I Proj ect No.: AST -2024 - I 7 7 I Parameter Or - Outlet CO - Outlet NOx - Outlet Run 4 Date 6118124 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal ResPonse Pretest System Zero ResPonse Posttest System Zero ResPonse Pretest System Upscale ResPonse Posttest Svstem Upscale ResPonse 24.00 0.00 t 0.97 008 0.1 l t0.92 10.90 2t.68 -0.01 9.56 -0.41 0.02 9.49 9.63 21.48 0. l0 9.77 0.44 0.49 9.20 9.16 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.33 0.46 0.21 0.29 1.85 0. l4 0.32 0.32 r.58 t.82 2.6s 2.84 Drift (%) Zero Mid 0.r3 -0.08 1.98 0.65 0.23 -0. l9 Run 5 Date 6118124 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero ResPonse Pretest System Upscale ResPonse Posttest System Upscale Response 24.00 0.00 10.97 0.1 I 0.03 10.90 10.87 2t.68 -0.01 9.56 0.02 -0.04 9.63 9.60 2t.48 0. l0 9.77 0.49 0.70 9. l6 9.59 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.46 0. l3 0.29 042 0. l4 0. l4 0.32 0. l8 1.82 2.79 2.84 0.84 Drift(%) Zero Mid -0.33 -0. l3 -0.28 -0. l4 0.98 2.00 Run 6 Date 6118124 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 r 0.97 0.03 0.03 10.87 10.86 2l .68 -0.01 9.56 -0.04 0.04 9.60 9.61 21.48 0.10 9.77 0.70 0.51 9.59 9.69 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Soan 0. l3 0.r3 0.42 0.46 0.14 0.2J 0.r8 0.23 2.79 l.9l 0.84 0.37 Drift (%) Zerc Mid 0.00 -0.04 0.37 0.05 -0.88 0.47 I 24 of 288 A/l6rrEE) T E (l ll l.r iO A L (.1 R O tJ fl Location: Utah Municipal Power Agency - West Valley City, UT Bias/Drift Determinations Source: Unit I Project No.: AST -2021:Ul8 Parameter Or - Outlet CO - Outlet NOx - Outlet Run 7 Date 6ll8n4 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem [.loscale Resoonse 24.00 0.00 10.97 0.03 0.03 10.86 10.87 21.68 -0.01 9.56 0.04 0.02 9.61 9.61 21.48 0.10 9.77 0.51 0.46 9.69 9.46 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest SDan 0. l3 0. l3 0.46 0.42 0.23 0. l4 0.23 0.23 L9l 1.68 0.37 1.44 Drift(%) Zero Mid 0.00 0.04 -0.09 0.00 -0.23 -r.07 Run 8 Date 6^8n4 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 10.97 0.03 0.0s 10.87 10.87 2 1.68 -0.01 9.56 0.02 -0.0s 9.6t 9s8 21.48 0. t0 9.77 0.46 0.45 9.46 9.42 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Soan 0. l3 0.21 0.42 0.42 0. r4 0. l8 0.23 0.09 1.68 1.63 1.44 1.63 Drift (%) Zero Mid 0.08 0.00 -0.32 -0. l4 -0.05 -0.19 Run 9 Date 6llEl24 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale Response 24.00 0.00 10.97 0.0s 0.07 10.87 10.86 21.68 -0.01 9.s6 -0.0s -0.03 9.58 9.49 2t.48 0. l0 9.77 0.45 0.39 9.42 9.55 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest SDan 0.2r 0.29 0.42 0.46 0.l8 0.09 0.09 0.32 1.63 l.3s 1.63 1.02 Drift(%) Zero Mid 0.08 -0.04 0.09 -0.42 -0.28 0.61 125 of288 plll6rrpE) TL il !iN t()A L .l ftr.) iJ P Bias/Drift Determinations Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit I Project No.: AST-2024- I 778 Parameter Or - Outlel CO - Outlet NOx - Outlet Run 10 Date 6118124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale ResDonse 24.00 0.00 t0.97 0.07 0.05 10.86 10.86 2t.68 -0.01 9.56 -0.03 0.00 9.49 9.49 21.48 0. l0 9.77 0.39 0.45 9.55 9.35 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.29 0.2t 0.46 0.46 0.09 0.05 0.32 0.32 1.35 L63 1.02 t.96 Drift(%) Zero Mid -0.08 0.00 0. l4 0.00 0.28 -0.93 126 of288 FTAAITf oill'.t tCn L (1 tr()t.lP Location: Utah Municipal Power Agency - West Valley City, UT Project No.: AST-2024-1778 NO2 Converter Check - Outlet Analyzer Make Thermo Analyzer Model 42c'HL Serial Number 42CHL-59778-32I Cylinder ID Number CC509482 Cylinder Exp. Date 3120126 Cvlinder Concentratioltr ppm 47.8 Pre-Test Date 6118124 Time 9:28 Pre-Test Concentration, ppm 44.23 Pre-Test Efficiency, 7o 93 Post-Test Date Time Post-Test Concentration, pPm Post-Test Efficiencv. To +Required Eficiency is > 90 % 127 of288 plll6rrpE) TECHNICAL GROUP Air Emissions Testing Data Location: Utah Municipal Power Agency - West Vallev CitY, UT Source: Unit I Project No.: QI Last Name: Horton AETB Nsme: Alliance Source Testing, LLC AETB Phone Number 256-35 l-0121 AETB Email quality@stacldest.com QI First Name: Charles QI Middle Initial: R Exam Date: l.2n312022 Provider Nsme: Source Evaluation Provider Email: 128 of288 129 of288 pul6rrrcE) 'T f () 11 N I ()n I () Fl () ti t'] Location Utah Municipal Power Agency - West Valley City, UT QA Data Source Unit 2 Project No. AST-2024-1778 Parameter Oz - Outlet CO - Outlet NOx - Outlet Make Model S/N Operatins Range Servomex 4900 100269 0-25 Thermo 48iQ t2326830210 0-30 Thermo 42c-HL 42CHL-59778-324 0-30 P75 Operating Level Code P75 Monitoring System ID P75 RATA Test Number P75 RATA Test Reason P75 Grace Period Indicator P75 Reference Method P75 Report w/ Protocol Gas Data P75 Reoort w/ NOX as Diluent Gal N 000 00r QA 0 3A Yes Yes N 000 001 QA 0 l0 NA NA N 000 001 QA 0 7E Yes No Cylinder ID Zero Mid Hish NA E,80042240 cc719736 NA EBo I 5482 I AAL07l t00 NA EBO I 5482 I AAL07l100 Cylinder Certifed Values Zero Mid Hish NA 10.99 24.0 NA 9.986 21.68 NA 9.799 21.48 Cylinder Vendor ID (PGVPID) Zero Mid Hish NA Gt2023 Gt2020 NA 872024 A32024 NA 872024 1.32024 Cylinder Expiration Date Zero Mid Hieh NA t2/27/3t 8lr6l28 NA 5t7127 517127 NA 5/7/27 5/7127 Cylinder EPA Gas Type Code LOW IITID HIGH ZERO CO2,O2,BALN CO2.O2.BALN NA NA NA ZERO CO,NO,NOX,BALN CO.NO.NOX.BALN Tvoe of Samole Line Heated Line 130 of288 pdltErrre TE(]IINI()AL (IFoLJP Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Project No.: AST-2024-l 778 Response Times secondsnse Perameter Or - Outlet CO - Outlet NOx - Outlet 7*ro Low Mid Hish 30 NA 30 30 30 NA 45 45 30 NA 60 60 Average 30.0 40.0 50.0 l3l of288 Calibration DataI /\ I (r F r) l.i ['] Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Project No.: AST-2024- I 778 Dile 6l19l24 Parameter Or - Outlet CO - Outlet NOx - Outlet Exoected Average Concentration 15.00 5.00 5.00 Span Between Low High Desired Soan 15.00 75.00 24.00 5.00 25.00 21.68 5.00 2s.00 21.48 Low Range Gas Low Hish NA NA NA NA NA NA Mid Range Gas Low Hioh 9.60 14.40 8.67 13.0 I 8.59 12.89 High Range Gas Low Hish NA NA NA NA NA NA Actual Concentration (7o or ppm) Zero Low Mid Hish 0.00 NA 10.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 2t.48 Uoscale Calitrration Gas (C Mid Mid Mid Instrument Response (7o or ppm) Zero Low Mid Hish 0.00 NA t0.96 23.98 -0.04 NA 9.61 21.56 0.02 NA 9.98 21.39 Performance (7o of Span or Cal. Gas Conc.) Zero Low Mid Hish 0.00 NA 0.12 0.08 0.18 NA 1.73 0.55 0.09 NA 0.84 0.42 Status Zero Low Mid Hish PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS 132 of288 Calibration Data Source: Unit 2 Project No.: AST-2024- 177 8 Date:6120124 Parameter Ou - Outlet CO - Outlet NOx - Outlet Exoected Averase Concentration t4.87 2.67 2.57 Span Between Low High Desired Soan 14.87 74.35 24.00 2.67 20.00 21.68 2.57 20.00 2t.48 Low Range Gas Low Hish NA NA NA NA NA NA Mid Range Gas Low Hish 9.60 14.40 8.67 r3.0r 8.s9 12.89 High Range Gas Low Hish NA NA NA NA NA NA Actual Concentration (7o or ppm) Zero Low Mid Hish 0.00 NA 10.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 21.48 Upscale Calibration Gas (C-Mid Mid Mid Instrument Response (7o or ppm) Zero Low Mid Hieh 0.00 NA r0.94 23.97 0.t2 NA 9.66 21.52 0.02 NA 9.85 21.63 Performance (%o of Span or Cal. Gas Conc.) Zero Low Mid Hish 0.00 NA 0.21 0.13 0.55 NA 1.50 0.74 0.09 NA 0.24 0.70 Status Zero Low Mid Hish PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS I 33 of 288 pul6rpEr r c ('r (tn()t., P Bias/Drift Determinations Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 2 Proj ect No.: AST -2024 -17 7 8 Parameter Or - Outlet CO - Outlet NOx - Outlet Run I Date 6ll9n4 Span Value lnitial Instrument Zero Cal Response lnitial lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 10.96 0.06 0.06 10.88 10.89 2 1.68 -0.04 9.6t 0.27 -0.15 9.70 9.70 21.48 0.02 9.98 0.06 -0.31 9.28 9.48 Bias (%) Pretest Zero Posttest Zero Pretest Span Posnest Soan 0.25 0.25 -0.33 -0.29 t.43 -0.5 I 0.42 0.42 0.19 -l.54 -3.26 -2 33 Drifr (%) Zero Mid 0.00 0.04 -t.94 0.00 -t.72 093 Run 2 Date 6119124 Span Value lnstrument Zero Cal Response Insrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.96 0.06 0.04 10.89 10.89 2t.68 -0.04 9.6 r -0. l5 0.36 9.70 9.87 21.48 0.02 998 -0.31 -0.37 9.48 9.57 Bias (%) Pretest Zero Posnest Zero Pretest Span Posttest Soan 0.25 0.17 -0.29 -0.29 -0.51 L85 0.42 1.20 1.54 1.82 2.33 l.9t Drift (%) Zero Mid -0.08 0.00 2.35 0.78 -0.28 0.42 Run 3 Date 6/19/24 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.96 0.04 0.05 10.89 10.89 2t.68 -0.04 9.61 0.36 0. l0 9.87 9.94 2t.48 0.02 9.98 -0.37 -0.03 9.57 9.77 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0. l7 0.2t -0.29 -0.29 1.85 0.65 1.20 152 -1.82 -0.23 -1.91 -0.98 Drift(%) Zero Mid 0.04 0.00 -r.20 0.32 L58 093 134 of288 FraAI Bias/Drift Determinations Locrtion: Source: Project No.:AST-2024-1778 Utah Municipal Power Agency - West Valley City, UT tjnit 2 Parameter 0r - Outlel CO - Outlet NOx - Outlel Run 4 Dete 6119124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response pnsftect Swetem I lnscele Resnonse 24.00 0.00 10.96 0.05 0.04 10 89 10.87 21.68 -0.04 9.61 0. l0 0.02 9.94 9.70 21.48 0.02 9.98 -0.03 -0.12 9.77 969 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.21 0.r7 0.29 0.38 0.65 0.28 1.52 0.42 0.23 0.65 0.98 t.35 Drift (%) Zero Mid -0.04 -0.08 -0.37 -l.ll -0.42 -0.37 Run 5 Date 6/19124 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Uoscale Resoonse 24.00 0.00 10.96 0.04 0.05 10.87 10.87 21.68 -0.04 9.61 0.02 0. l0 9.70 9.70 2t.48 0.02 9.98 -0.12 0.03 9.69 9.66 lias (%) )retest Zero )osttest Zero )retest Span )ostie.l Snrn 0.17 0.2 r 0.38 0.38 0.28 0.65 0.42 0.42 0.65 0.05 L35 1.49 Drift(%) Zero Mid 0.04 0.00 0.37 0.00 0.70 -0.14 Run 6 Drte 6120/24 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 10.94 0.01 0.04 t 0.87 t 0.88 21.68 0.12 9.66 -0.29 0.t7 9.63 9.7 5 21.48 0.02 9.85 0. l8 0.05 9.67 9.72 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Soan 0.04 0. l7 0.29 02s L89 0.23 014 0.42 0.74 0. l4 0.84 0.61 Drift (%) Zero Mid 0. l3 0.04 2.t2 055 -0.61 0.23 I 35 of 288 puIATGE) Tt'(t t1Nj(1,/\i (lFl .)iir Bias/Drift Determinations Location: Utah Municioal Power Asencv - West Vallev CiN. UT Source: Unit 2 Project No.: AST-2024- I 778 Prrameter Or - Outlet CO - Outlet NOx - Outlet Run 7 Date 6/20n4 Span Value Instrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale Resoonse 24.00 0.00 10.94 0.04 0.06 10.88 r0.90 21.68 0.12 9.66 0.17 0. l6 9.7 5 9.67 21.48 0.02 9.85 0.05 -0.05 9.72 9.83 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0. l7 0.25 0.25 0.17 0.23 0. l8 0.42 0.05 0.14 0.33 0.61 0.09 Drifr (%) Zero Mid 0.08 0.08 -0.05 -0.37 -0.47 0.51 Run 8 Date 6120/24 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Uoscale Resoonse 24.00 0.00 10.94 0.06 0.05 10.90 10.90 2 r.68 0.t2 9.66 0. l6 0.25 9.67 9.65 21.48 0.02 9.85 -0.05 0. l7 9.83 9.87 Sias (%) )retest Zero )osttest Zero )retest Span )osttest Snan 0.25 0.21 0. l7 0. l7 0. l8 0.60 0.05 0.05 0.33 070 0.09 0.09 Drift (%) Zerc Mid -0.04 0.00 0.42 -0.09 1.02 0. l9 Run 9 Date 6n0/24 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.94 0.05 0.06 10.90 10.89 21.68 0.12 9.66 0.2s -0.06 9.65 9.71 2t.48 0.02 9.8s 0. l7 0.t7 9.87 9.84 Bias (%) Pretest Zero Posttest Zero Pretest Span Posnest Soan 0.21 0.25 0.17 0.21 0.60 0.83 0.05 0.23 0.70 0.70 0.09 0.05 Drift (%) Zero Mid 0.04 -0 04 -1.43 0.28 0.00 -0.l4 I 36 of 288 pul6rrpE) TfC!NtCn L (lR()lll) Bias/Drift Determinations Location: Utah Municipal Power Agency - West Valley City' UT Source: Unit 2 Project No.: AST-2024- I 778 Parameter Or - Outlet CO - Outlel NOx - Outlet Run l0 Date 6120124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero ResPonse Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 10.94 0.06 0.06 10.89 t 0.89 2l .68 0.12 9.66 -0.06 0.17 9.71 9.49 21.48 0.02 9.85 0.t7 0. l8 9.84 9.82 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Snan 0.25 0.25 0.2t 0.21 0.83 0.23 0.23 0.78 0.70 0.74 0.05 0. l4 Drift (%) Zero Mid 0.00 0.00 1.06 - 1.01 0.05 -0.09 137 of288 Location: Utah Municipal Power Agency - West Valley City, UT Project No.: AST-2024-1778 NO, Converter Check - Outlet Analyzer Make Thermo Analyzer Model 42c-HL Serial Number 42CHL-59778'32I Cylinder ID Number CC509482 Cylinder Exp. Date 3120126 Cvlinder Concentration. DDm 47.8 Pre-Test Date 6119124 Time 6:37 Pre-Test Concentration, ppm 43.50 Pre-Test Efficiencv, To 9l Post-Test Date Time Post-Test Concentration, ppm Post-Test Efficiencv, 7o +Required ElliciencY is 2 90 %o. Analyzer Make Thermo Analyzer Model 42c-HL Serial Number 42CHL'59778'322 Cylinder ID Number CC509482 Cylinder Exp. Date 3120126 Cvlinder Concentration. DDm 47.8 Pre-Test Date 6120124 Time 6:45 Pre-Test Concentration, ppm 43.23 Pre-Test Efficiency, To 90 Post-Test Date Time Post-Test Concentration, ppm Post-Test Efliciencv, 7o I 38 of 288 plll6rrpE) TECHNIOAL C]ROUP Air Emissions Testing Data Locrtion: Utah Municipal Power Agency - WeflY4ley!!ry.UT Source: Unit 2 Project No.:AST-2024-1778 Ql Lrst Name: Horton Ql First Nrme: Charles QI Mlddle Initial: R Exrm Dete: 12/2312022 Provider Namc: Source Evaluation Society ProviderEmall: ffi AETB Name: Alliance Source Testing, LLC AETB Phone Number 25&351-0121 AETB Email quality@stacktest.com 139 of288 I 40 of 288 pul6rrpE) Tt r) ti fn l()AL (lF()lrT QA Data Location Utah Municipal Power Agency - West Valley City, UT Source Unit 3 Project No. AST-2024-1778 Parameter Or - Outlet CO - Outlet NOx - Outlet Make Model S/N Oneratins Ranse Servomex 4900 100269 0-25 Thermo 48iQ 12326830210 0-30 Thermo 42c-HL 42CHL-59778-324 0-30 P75 Operating Level Code P75 Monitoring System ID P75 RATA Test Number P75 RATA Test Reason P75 Grace Period Indicator P75 Reference Method P75 Report w/ Protocol Gas Data P75 Report w/ NOX as Diluent Gar N 000 001 QA 0 3A Yes Yes N 000 001 QA 0 10 NA NA N 000 001 QA 0 7E Yes No Cylinder ID Zero Mid Hieh NA E80042240 cc719736 NA EBo I 5482 I AAL07l 100 NA EBO I 5482 I AAL07t 100 Cylinder Certifed Values Zero Mid Hish NA 10.99 24.0 NA 9.986 21.68 NA 9.799 21.48 Cylinder Vendor ID (PGVPID) Zero Mid Hish NA Gt2023 G12020 NA 872024 A32024 NA 872024 A32024 Cylinder Expiration Date Zero Mid Hieh NA t2t27t3t 8n6/28 NA 5t7/27 517/27 NA s/7t27 5/7127 Cytinder EPA Gas Type Code LOW MID HIGH ZEP.O CO2,O2,BALN CO2.O2.BALN NA NA NA ZERO CO,NO,NOX,BALN CO.NO.NOX.BALN Tvpe of Sample Line Heated Line l4l of288 pul6rrrcE) TECIIIJIC)AI- (;ROtJP Location: Utah Municipal Power Agency - West Valley City, UT Response Times Source: Unit 3 Project No.: AST-2024-1778 se Times. seconds Parameter Oz - Outlet CO - Outlet NOx - Outlet Zero Low Mid Hish 30 NA 30 30 45 NA 45 45 60 NA 60 60 Averase 30.0 45.0 50.0 142 of288 Calibration Datailr,i i(1.r. i ri f.(,1.1 [- Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 3 Project No.: AST-2024-1778 Date:6/20124 Parameter Or - Outlet CO - Outlet NOx - Outlet Exoected Averase Concentration 15.00 5.00 5.00 Span Between Low High Desired Soan r 5.00 75.00 24.00 5.00 2s.00 21.68 5.00 25.00 21.48 Low Range Gas Low Hish NA NA NA NA NA NA Mid Range Gas Low Hish 9.60 14.40 8.67 r 3.01 8.59 t2.89 High Range Gas Low Hieh NA NA NA NA NA NA Actual Concentration (7o or ppm) Zero Low Mid Hieh 0.00 NA r0.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 21.48 Upscale Calibration Gas (Cmr)Mid Mid Mid Instrument Response (7o or ppm) Zero Low Mid Hish 0.00 NA 10.88 23.91 -0.r3 NA 9.61 2t.83 0.05 NA 10.00 21.66 Performance (7o of Span or Cal. Gas Conc.) Zero Low Mid Hiph 0.00 NA 0.46 0.37 0.60 NA 1.73 0.69 0.23 NA 0.94 0.84 Status Zero Low Mid Hish PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS 143 of288 Bias/Drift Determinations Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 3 Proj ect No.: AST -2024 -1 7 7 8 Persmeter O, - Outlet CO - Outlet NOx - Outlet Run I Date 6120124 Span Value Initial Instrument Zerc Cal Response lnitial lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale ResDonse 24.00 0.00 10.88 0.00 0.00 10.81 I 0.81 2t.68 -0. l3 9.61 -0.03 -0.06 9.7 5 9s1 2t.48 0.05 r 0.00 0.01 0.00 9.67 9.62 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Soan 0.00 0.00 -0.29 -0.29 0.46 0.32 0.65 -0.18 -0. l9 -0.23 -l.54 -1.77 Drift (%) Zero Mid 0.00 0.00 -0. l4 -0.83 -0.05 -0.23 Run 2 Date 6/20/24 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 10.88 0.00 0.00 l0 8l 10.8 I 21.68 -0.r3 9.61 -0.06 -0. l2 9.57 9.63 21.48 0.05 10.00 0.00 0.00 9.62 9.76 Bias (%) Pretest Zero Posffest Zero Pretest Span Posttest Span 0.00 0.00 -0.29 -0 29 0.32 0.05 -0.18 0.09 -0.23 -0.2) -t .77 -t.t2 Drifr (%) Zerc Mid 0.00 0.00 -0.28 0.28 0.00 0.65 Run 3 Date 6120124 Span Value Instrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Uoscale ResDonse 24.00 0.00 t 0.88 000 0.00 10.81 10.82 2t.68 -0.13 9.6t -0.12 -0.24 9.63 9.62 21.48 0.05 10.00 0.00 0.00 9.76 9.69 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.00 0.00 -0.29 -0.25 0.05 -0.51 0.09 0.05 -0.23 -0.23 -t.t2 -t.44 Drift(%) Zero Mid 0.00 0.04 -0.55 -0.05 0.00 -0.33 I 44 of 288 A/IATEE) ' i: il1r r'i Ir) A I C t-l c) i..1 f' Location: Utah MuniciDal Power Agency - West Valley Citv, UT Bias/Drift Determinations Source: Unit 3 Project No.: AST-2024- I 778 Prrrmeter Or - Outlet CO - Outlet NOx - Outlet Run 4 Date 6120124 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 r0.88 0.00 0.01 10.82 10 80 21.68 -0.13 9.61 -0.24 -0. l6 9.62 9 61 21.48 0.05 10.00 0.00 -0.01 9.69 977 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.00 0.04 0.25 0.33 0.51 0. l4 0.05 0.00 0.23 0.28 t.44 1.07 Drifr (%) Zero Mid 0.04 -0.08 0.37 -0.0s -0.05 0.37 Run 5 Date 6/20124 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.88 0.01 0.00 10.80 10.80 2t.68 -0.13 9.61 -0. l6 -0.18 9.61 9.66 21.48 0.05 10.00 -0.0 r 0.02 9.77 9.86 Bias (%) Pretest Zero Posnest Zero Pretest Span Posttest Soan 0.04 0.00 0.33 033 0.r4 023 0.00 023 0.28 0. l4 107 05s Drift(%) Zerc Mid -0.04 0.00 -0.09 0.23 0. l4 0.42 Run 6 Date 6120/24 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem IJnscale Resnonse 24.00 0.00 10.88 0.00 0.02 10.80 10.80 21.68 -0.r3 9.61 -0. l8 -0.07 9.66 9.60 21.48 0.05 10.00 0.02 -0.06 9.86 9.82 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.00 0.08 0.33 0.33 0.23 0.28 0.23 0.0s 014 0.5 I 0.65 0.84 )rift(%) Lero vid 0.08 0.00 0.51 -0.28 -0.37 -0. l9 145 of288 Bias/Drift Determinations Location: Source: Project No.: AST-2024-l 778 Utah Municipal Power Agency - West Valley City, UT Unit 3 Perrmeter O, - Outlel CO - Outlet NOx - Outlet Run 7 Date 6120124 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Uoscale Response 24.00 0.00 t 0.88 0.02 0.00 t 0.80 10.80 21.68 -0. l3 9.61 -0.07 -0. l5 9.60 9.66 21.48 0.05 10.00 -0.06 -0.08 9.82 9.88 lias (%) )retest Zero )osttest Zero )retest Span )6etlecl Snen 0.08 0.00 0.33 0.33 0.28 0.09 0.05 0.23 0.51 0.61 0.84 0.56 -0.08 000 -0.37 0.28 -0.09 0.28 Run 8 Date 6/20124 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Uoscale Response 24.00 0.00 10.88 0.00 0.00 10.80 10.80 2t 68 -0. l3 9.6t -0. l5 -0. l9 9.66 930 21.48 0.05 10.00 -0.08 -0.06 9.88 9.96 Sias (%) )retest Zero )osttest Zero )retest Span )osttest Snan 0.00 0.00 0.33 033 0.09 0.28 0.23 143 0.61 0.51 0.56 0. l9 0.00 0.00 -0.18 -l.66 0.09 0.37 Run 9 Date 6120124 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osftest System Zero Response )retest System Upscale Response )osttest Svstem Upscale ResDonse 24.00 0.00 10.88 0.00 0.01 10.80 t0.79 21.68 -0.13 9.61 -0.19 -0.12 9.30 9.49 21.48 0.05 10.00 -0.06 -0.06 9.96 9.93 lias (%) )retest Zero )osttest Zero )retest Span )osttest Soan 0.00 0.04 0.33 0.38 0.28 0.05 1.43 0.55 0.5 I 0.5 I 0. l9 0.33 )rift (%) Lero Mi.l 0.04 -0.04 0.32 0.88 0.00 -0.14 ft(%\ Zero Mid Zerc Mid ift(%) I 46 of 288 pull6rrrcE)Bias/Drift Determinations T f C ll N I (.rA L (l l-l (-) Ll P Location: Utah Municipal Power Agency - West Valley City. UT Source: Unit 3 Project No.: AST-2024- I 778 Parameter Or - Outlet CO - Outlet NOx - Outlet Run l0 Date 6n0n4 Span Value Instrument Zero Cal ResPonse Instrument Upscale Cal Response Pretest System Zero ResPonse Posttest System Zero Response Pretest System Upscale ResPonse Posttest System Upscale ResPonse 24.00 0.00 10.88 0.01 0.00 t0.79 10.80 2t.68 -0. l3 9.61 -0.12 -0.23 9.49 9.56 21.48 0.05 10.00 -0.06 -0.05 9.93 10.06 Bias (%) Pretest Zero Posttest Zero Pretest Span Posftest Span 0.04 0.00 0.38 0.33 0.05 0.46 0.55 0.23 0.51 0.47 0.33 0.28 Drift (%) Zero Mid -0.04 0.04 -0.5 I 0.32 0.05 061 147 of 288 plll6rpEr T t- L-l liN l()n L (l R() Ll P Location: Utah Municipal Power Agenry - West Valley City, UT Source: Unit 3 Project No.: AST-2024-1778 Datez 6/2012024 Traverse Point Time o2 (o/"1 CO (nnm'l NOx (onm) A-l 2 3 12:26 12:28 l2:30 14.72 14.7 | t4.70 14.7 2.39 2.45 2.71 2.5 3.47 3.73 3.7 | 3.6Averaqe Criteria Met Single Point Single Point Single Point 148 of 288 pul6rpEr -ito11Nt rCn L CFl(,rl.r p Location: Utah MuniciDal Power Asency - West Valley Citv, Uf Project No.: AST-2024-1778 NOz Converter Check - Outlet Analyzer Make Thermo Analyzer Model 42c-HL Serial Number 42CHL-59778-324 Cytinder ID Number CC509482 Cylinder Exp. Date 3120126 Cvlinder Concentration. DDm 47.8 Pre-Test Date 6/20/24 Time 6:45 Pre-Test Concentration, ppm 43.23 Pre-Test Efficiency, 7o 90 Post-Test Date Time Post-Test Concentration, ppm Post-Test Efliciencv. 7o +Required Efficiency is > 90 %. I 49 of 288 pllIATEE) TE(JI]NICAL GFOLJP Air Emissions Testing Data Locstion: Ulah Municioal Power Agencv - West vallev City, UT Source: Unit 3 Project No.: AST-2024-1778 QI Lsst Nsme: QI First Name: QI Middle Initial: Errm Date: Provider Name: Provider Email: AETB Nsme:Alliance Source Testing, LLC AETB Phone Number 256351-0121 AETB Emeil quality@stacldest.com t2tBn022 Source Evaluation Society qstiprogram@gmail.com 150 of288 l5l of288 pul6rce Ttr O li r! I ()/\ L. (l n() U F' QA Data Location Utah Municipal Power Agency - West Valley City, UT Source Unit 4 Project No. AST-2024-1778 Parameter O, - Outlet CO - Outlet NOx - Outlet Make Model S/N Oneratins Ranse Servomex 4900 r00269 0-25 Thermo 48iQ t23268302t0 0-30 Thermo 42c-HL 42CHL-59778-324 0-30 P75 Operating Level Code P75 Monitoring System ID P75 RATA Test Number P75 RATA Test Reason P75 Grace Period Indicator P75 Reference Method P75 Report w/ Protocol Gas Data P75 Report w/ NOX as Diluent Ga N 000 00r QA 0 3A Yes Yes N 000 001 QA 0 l0 NA NA N 000 001 QA 0 7E Yes No Cylinder ID Zero Mid Hieh NA E80042240 cc7t9736 NA EBO I 5482 I AAL07l100 NA EBO I 5482 I AAL07l100 Cylinder Certifed Values Zero Mid Hish NA 10.99 24.0 NA 9.986 21.68 NA 9.799 21.48 Cylinder Vendor ID (PGVPID) Zero Mid Hish NA Gt2023 G12020 NA 872024 432024 NA 872024 A32024 Cylinder Expiration Date Zero Mid Hish NA 12127/3t 8tr6t28 NA 517/27 5/7127 NA 5/7127 st7l27 Cytinder EPA Gas Type Code LOW MID HIGH ZERO C02,O2,BALN C02.O2.BALN NA NA NA ZERO CO,NO,NOX,BALN CO.NO.NOX.BALN Ivpe of Sample Line Heated Sam Line I 52 of 288 pdlr6rtrr- TECFINICAL GROTJP Location: Utah Municipal Power Agenry - West Valley City, UT Source: Unit 4 Project No.: AST-2024-1778 Response Times seconds Parameter Or - Outlet CO - Outlet NOx - Outlet Z,cro Low Mid Hieh 30 NA 45 60 30 NA 45 60 30 NA 45 60 Averase 45.0 45.0 45.0 153 of288 Calibration Data plll6rrpE) T i a) ll ri i it,^, 1,. (l fl() iJ P Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: A!T2Q?4:I lZ! Datet 612ll24 Parameter Oz - Outlet CO - Outlet NOx - Outlel Exoected Averase Concentration 15.00 s.00 5.00 Span Between Low High Desired Soan 15.00 75.00 24.00 5.00 25.00 21.68 5.00 25.00 21.48 Low Range Gas Low Hish NA NA NA NA NA NA Mid Range Gas Low Hieh 9.60 14.40 8.67 13.0 t 8.59 12.89 High Range Gas Low Hish NA NA NA NA NA NA Actual Concentration (7o or PPm) Zero Low Mid Hish 0.00 NA 10.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 21.48 Upscale Catibration Gas (Crur)Mid Mid Mid Instrument Response (7o or PPm) Zero Low Mid Hieh 0.00 NA 10.92 24.00 -0.22 NA 9.61 21.68 -0.05 NA 9.91 2t.38 Performance (7o of Span or Cal. Gas Conc.) Zero Low Mid Hieh 0.00 NA 0.29 0.00 l.0l NA t.73 0.00 0.23 NA 0.52 0.47 Status Zero Low Mid Hish PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS 154 of288 AI Fta Bias/D rift Determinations Location: Utah Municipal Power Agency - West Vg!!9y1Q!15Qf Source: Unit 4 Project No.: AST-2024-1778 Parameter Or - Outlet CO - Outlet NOx - Outlet Run I Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem UDscale ResDonse 0.00 0.00 10.87 10 87 -0. l8 -0.09 9.72 9.75 0.08 0.02 10.08 9.88 Run 2 Pretest System Zero Response Posttest System Zero Response Pretest System Upscale ResPonse Posttest Svstem Uoscale ResPonse 0.00 0.00 10.87 10.85 -0 09 -0 17 9.75 9.60 0.02 0.06 9.88 9.94 Run 3 Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 0.00 0.00 10.85 10.88 -0. l7 -0. l6 9.60 9.54 0.06 -0.03 994 9.77 Run 4 Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale Response 0.00 0.00 10.88 10.93 -0 16 -0.29 9.54 9.56 -0.03 -0. ll 9.77 9.33 Run 5 Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale Response 0.00 0.03 r 0.93 t0.92 -0.29 -0.28 956 9.38 -0.1 I -0.12 9.33 9.29 Run 6 Pretest System Zero Response Posttest System Zero Response Pretest Syslem Upscale Response Posttest Svstem Upscale Response 0.03 0.02 10.92 10.91 -0.28 -0.23 9.38 9.50 -0.12 -0. ll 9.29 8.96 Run 7 Pretest System Zero Response Posttest System Zero ResPonse Pretest System Upscale Response Posttest Svstem Upscale Response 0.02 0.03 10.9l 10.89 -0.23 -0.21 9.50 9.55 -0. ll -0.03 8.96 9.54 Run E Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 0.03 0.01 10.89 10.89 -0.21 -0.18 9.55 9.68 -0.03 -0.14 9.s4 977 Run 9 Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale Response 0.01 0.00 10.89 10.90 -0. l8 -0.25 9.68 9.58 -0. l4 0.01 9.77 9.60 Run l0 Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale ResDonse 0.00 0.00 10.90 10.89 -0.25 -0.30 9.58 9.63 0.01 -0.05 9.60 10.00 I 55 of 288 FlarEE)AI Bias/Drift Determinations I I' Location: Utah Municioal Power Asencv - West Vallev City, UT Source: Unit 4 Project No.: AST-2024-l 778 Parameter Or - Outlet CO - Outle(NOx - Outlet Run I Date 6/21n4 Span Value Initial lnstrument Zero C al Response lnitial lnstrument Upscale Cal Response Pretest System Zero ResPonse Posttest System Zero Response Pretest System Upscale ResPonse Posttest Svstem Upscale Response 24.00 0.00 10.92 0.00 0.00 10.87 10.87 21.68 -0.22 9.61 -0. l8 -0.09 9.72 9.75 21.48 -0.05 9.91 0.08 0.02 10.08 988 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.00 0.00 -0.21 -0.21 0.r8 0.60 0.51 0.65 0.61 0.33 0.79 -0. l4 Drifr (%) Zero Mid 0.00 0.00 0.42 0. l4 -0.28 -0.93 Run 2 Date 6121124 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Response 24.00 0.00 t0 92 0.00 000 10.87 10.85 21.68 -0 22 9 61 -0.09 -0.17 9.7 5 960 21 48 -0.05 9.91 0.02 0.06 9.88 994 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Snan 0.00 0.00 -0.21 -0 29 0.60 0.23 0.65 -0.05 0.33 0.5 I -0. l4 0. l4 )rift (%) l,ero \4id 000 -0.08 -0.37 -0.69 0. l9 028 Run 3 Date 6121124 Span Value Instrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Response 24.00 0.00 10.92 0.00 0.00 r 0.85 10.88 2l .68 -0.22 9.61 -0. l7 -0. l6 9.60 9.54 2t.48 -0.05 9.91 0.06 -0.03 9.94 9.77 Bias (%) Pretest Zero Posnest Zero Pretest Span Posttest SDan 0.00 0.00 -0.29 -0 t7 0.23 0.28 -0.05 -0.32 0.51 0.09 0. l4 -0.65 Drifr (%) Zero Mid 0.00 0. l3 0.05 -0 28 -0.42 -0.79 156 of288 pllr6rrce r [ (; ilN I(] A I. (l u " j,"J,,r* UtahMunicioal powerAqencv-westVa,eyciry,ur Bias/Drift Determinations Source: Unit 4 Proj ect No.: AST -2024 - 17 7 8 Perrmeter O, - Outlet CO - Outlet NOx - Outlel Run 4 Date 6nlD4 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.92 0.00 000 10.88 10 93 21.68 -0.22 9.61 -0. l6 -0.29 9.54 9.56 21.48 -0.05 9.91 -0.03 -0.1 I 977 9.33 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.00 0.00 0. l7 0.04 0.28 0.32 032 0.23 0.09 0.28 0.65 2.70 Drift (%) Zero Mid 0.00 0.21 -0.60 0.09 -0.37 -2.0s Run 5 Date 6121124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Upscale ResDonse 24.00 0.00 t0.92 0.00 0.03 10.93 10.92 21.68 -0.22 9.61 -0.29 -0.28 9.56 9.38 21.48 -0.05 9.91 -0.1 I -0.12 9.33 9.29 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.00 0. l3 0.04 0.00 0.32 0.28 0.23 1.06 0.28 0.33 2.70 2.89 Drift (%) Zerc Mid 0. l3 -0.04 0.05 -0.83 -0.05 -0. l9 Run 6 Date 6121124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale ResDonse 24.00 0.00 t0.92 0.03 0.02 10.92 10.91 21.68 -0.22 9.61 -0.28 -0.23 9.38 9.50 2t.48 -0.05 9.9r -0. l2 -0. ll 929 8.96 Sias (%) )retest Zero )osttest Zero )retest Span )osttest SDan 0. l3 0.08 0.00 0.04 0.28 0.05 1.06 0.51 0.33 0.28 2.89 442 )rift (%) Lero \,{id -0.04 -0.04 0.23 0.55 0.05 -1.54 I 57 of 288 pul6rlrcG) r f ("r ti t.t I (.) n i- (t Fr r) i.J ia Location: Utah Municipal Power Agency - West Valley City, UT Bias/D rift Determinations Source: Unit 4 Project No.: ASI2Q?t!ZZ! Parameter Oz - Outlet CO - Outlet NOx - Outlet Run 7 Date 6121124 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale ResPonse Posttest Svstem Upscale Response 24.00 0.00 t0.92 0.02 0.03 10.91 10.89 2l .68 -0.22 9.61 -0.23 -0.21 9.50 9.55 21.48 -0.05 9.91 -0.1 1 -0.03 8.96 9.54 Bias (%) Pretest Zero Posttest Zero Pretest Span Poqttest Snan 0.08 0.r3 0.04 0.12 0.05 0.05 0.51 0.28 0.28 0.09 4.42 1.72 Drift (%) Zero Mid 0.04 -0.08 0.09 023 0.37 2.70 Run 8 Date 6/21/24 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Upscale Response 24.00 0.00 t0.92 0.03 0.01 r 0.89 10.89 2l .68 -0.22 9.61 -0.21 -0.18 9.55 9.68 21 48 -0.05 9.91 -0.03 -0.14 9.s4 9.77 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.13 0.04 0.12 0.12 0.05 018 0.28 0.32 0.09 0.42 t.72 065 Drift (%) Zero Mid -0.08 nnn 0.r4 0.60 -0.5 r 1.07 Run 9 Date 612l/24 Span Value Instrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 t0.92 0.01 0.00 10.89 10.90 21.68 -0.22 9.61 -0. l8 -0.25 9.68 9.58 21.48 -0.05 9.91 -0.14 0.01 9.77 960 Bias (%) Pretest Zero Posttest Zero Pretest Span Pnstteqi Snan 0.04 0.00 0.12 008 0.18 0. l4 0.32 0.14 0.42 0.28 0.65 1.44 )rift (o/o) Lero vid -0.04 004 -0.32 -0.46 0.70 -0.79 I 58 of 288 puaATEE) Tf (,tIiNr(jAL GR()[JP Bias/Drift Determinations Source: Unit 4 Project No.: AST-2024-l 778 Parameter O: - Outlet CO - Outlet NOx - Outlet Run l0 Date 6121124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem UDscale Resoonse 24.00 0.00 10.92 0.00 0.00 10.90 10.89 2t.68 -0.22 9.61 -0.25 -0.30 9.58 963 21.48 -0.0s 9.91 0.01 -0.0s 9.60 10.00 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest SDan 0.00 0.00 0.08 0.12 0. l4 0.37 0. l4 009 0.28 0.00 1.44 0.42 Drift(%) Zero Mid 0.00 -0 04 -0.23 0.23 -0.28 r.86 159 of288 pul6rrrcE) Iti i..lll.,l lOAL (.iR()tlP Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 4 Project No.: AST-2024-1778 Date: 612112024 Traverse Point Time o2 (o/o) CO (oom) NOx (nnm'l A-l 2 3 7:34 7:36 7:38 14.82 t4.82 14.82 14.8 2.00 1.94 l.8l 1.9 2.97 3.09 3.76 3.3Average Criteria Met Single Point Single Point Single Point 160 of288 plll6rrpE) Trr)IlNlOn I (iR()llP Location: Utah Municipal Power Agency - West Valley City, UT Project No.: AST-2024-1778 NO2 Converter Check - Outlet Analyzer Make Thermo Analyzer Model 42c-HL Serial Number 42CHL-59778-324 Cylinder ID Number CC509482 Cylinder Exp. Date 3120126 Cvlinder Concentration. DDm 47.8 Pre-Test Date 6121124 Time 6:48 Pre-Test Concentration, ppm 43.92 Pre-Test Efficiencv, 7o 92 Post-Test Date Time Post-Test Concentration, ppm Post-Test EIficiencv. 7o *Required Efficiency is > 90 %. l6l of288 t6 Air Emissions Testing Data T E C }I N IC A L (] R O U P Locotion: Utah Municipal Power Agency - West Valley CiW. UT Source: Unit 4 Project No.: AST-2024-17?8 QI Last Neme: Horton AETB Nrme: Alliance Source Testing, LLC QI First Name: Charles AETB Phone Number 25&351-0121 QI Middle Initial: R AETB Email quality@stacktest.com Exrm Date: 12123n024 Provider Name: Source Evaluation Society Provider Email: 152 of288 163 of288 QA Data Source Unit 5 Project No. AS1 !Q!!l ll! Parameter O: - Outlet CO - Outlet NOx - Outlet Make Model S/N Ooeratinp Ranse Servomex 4900 100269 0-25 Thermo 48iQ 12326830210 0-30 Thermo 42c-HL 42CHL-59778-324 0-30 P75 Operating Level Code P75 Monitoring System ID P75 RATA Test Number P75 RATA Test Reason P75 Grace Period Indicator P75 Reference Method P75 Report w/ Protocol Gas Data P75 Report w/ NOX as Diluent Gat N 000 001 QA 0 3A Yes Yes N 000 001 QA 0 l0 NA NA N 000 001 QA 0 7E Yes No Cylinder ID Zero Mid Hish NA E80042240 cc719736 NA EB0 I 5482 I AAL07l100 NA EBo I 5482 I AAL07l100 Cylinder Certifed Values Zero Mid Hieh NA 10.99 24.0 NA 9.986 ?t.68 NA 9.799 21.48 Cylinder Vendor ID (PGVPID) Zero Mid Hieh NA G12023 G12020 NA 872024 A3?024 NA 872024 A32024 Cylinder Expiration Date Zero Mid Hieh NA t2127l3t 8lt6l28 NA 517/27 st7l27 NA 5/7/27 517127 Cylinder EPA Gas Type Code LOW MID HIGH ZERO CO2,02,BALN CO2.02.BALN NA NA NA ZERO CO,NO,NOX,BALN CO.NO.NOX.BALN Tvpe of Sample Line Heated Line 164 of288 puIATEe TECI-INI()AL GFOTJP Location: Utah Municipal Power Asency - West Valley City, UT Response Times Source: Unit 5 Project No.: AST-2024-l 778 seconds Parameter Or - Outlet CO - Outlet NOx - Outlet Zero Low Mid Hish 30 NA 30 30 30 NA 45 45 30 NA 60 60 Averaqe 30.0 40.0 50.0 165 of288 Calibration Data Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024-l 778 Datez 6117/24 Parameter Or - Outlet CO - Outlet NOx - Outlet Exoected Averase Concentration 15.00 2.00 4.00 Span Between Low High Desired Span 15.00 75.00 24.00 2.00 20.00 21.68 4.00 20.00 2t.48 Low Range Gas Low Hish NA NA NA NA NA NA Mid Range Gas Low Hish 9.60 t4.40 8.67 I 3.01 8.59 12.89 High Range Gas Low Hish NA NA NA NA NA NA Actual Concentration (7o or ppm) Zero Low Mid Hieh 0.00 NA 10.99 24.00 0.00 NA 9.99 21.68 0.00 NA 9.80 21.48 Upscale Calibration Gas (Cuo)Mid Mid Mid Instrument Response (7o or ppm) Zero Low Mid Hieh 0.00 NA 10.98 24.03 -0.13 NA 9.66 21.62 0.02 NA 9.60 21.4t Performance (7o of Span or Cal. Gas Conc.) Zero Low Mid Hish 0.00 NA 0.04 0. l3 0.60 NA 1.50 0.28 0.09 NA 0.93 0.33 Status Zero Low Mid Hieh PASS NA PASS PASS PASS NA PASS PASS PASS NA PASS PASS 166 of288 t6 T L () ii N I(.rAL (l P()Ll {-' Bias/Drift Determinations Location: Utah Municipal Power Agency - Welt I4!!9y !4y.llf Source: Unit 5 Project No.: AST-2024- I 778 Prrameter Or - Outlet CO - Outlet NOx - Outlel Run I Drte 6117124 Span Value Initial Instrumenl Zeto Cal Response lnitial Instrument Upscale Cal Response Pretest System Zero ResPonse Posttest System Zero ResPonse Pretest Syslem Upscale ResPonse Posttest Svstem Uoscale Resoonse 24.00 0.00 10.98 0.41 0. l6 10.61 r 0.93 21.68 -0. l3 9.66 -0.49 -0.60 9.58 9.61 2t 48 002 9.60 062 0.51 9.83 10.15 lias (%) )retest Zero )osttest Zero )retest Span )6stfe(i Snan t.7 t 0.67 -1.54 -0.21 -r.66 -2.17 -0.37 -0.23 2.79 2.28 1.07 256 Drift (%) Zero Mid -l.04 1.33 -0.51 0. l4 -0.51 I.49 Run 2 Date 6111/24 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero ResPonse Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0,00 10.98 0. l6 0.14 10.93 I 1.02 21.68 -0. l3 9.66 -0.60 -0.67 9.61 9.57 21.48 0.02 9.60 0.5 r 0. r6 10.15 10.00 lias (%) )retest Zero )osttest Zero )retest Span )osttest SDan 0.67 0.s8 -0.21 o.t7 -2.17 -2.49 -0.23 -0.42 2.28 0.65 2.56 1.86 )rift (%) Lerc \,Iid -0.08 037 -0.32 -0. l8 -l.63 -0.70 Run 3 Date 6117124 Span Value lnstrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest Systenl Zero Response Pretest System Upscale Response Posttest System Upscale Response 24.00 0.00 10.98 0.14 0. l6 I 1.02 il.03 21.68 -0. l3 9.66 -0.67 -0.7 5 9.57 9.63 2t.48 0.02 9.60 0. l6 0.05 10.00 9.70 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Snan 0.58 0.67 0. l7 0.21 -2.49 -2.86 -0.42 -0. l4 0.65 0.14 1.86 0.47 Drift (%) Zero Mid 0.08 0.04 -0.37 0.28 -0.51 -1.40 167 of288 pul6rrcEr -,r r (-- l1 l.l lil n l. (l R () l.l P Bias/Drift Determinations Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024- I 778 Parameter O, - Outlet CO - Outlet NOx - Outlet Run 4 Date 6117124 Span Value Instrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posftest Svstem Uoscale Resoonse 24.00 0.00 10.98 0. l6 0. t4 l 1.03 I 1.05 2l .68 -0. l3 9.66 -0.75 -0.70 9.63 9.46 2t.48 0.02 9.60 0.05 -0.14 9.70 9.36 lias (%) )retest Zero )osttest Zero )retest Span )osttest Snan 0.67 0.58 0.21 0.29 286 2.63 0. l4 0.92 0.14 0.74 0.47 t.t2 Drift (%) Zero Mid -0.08 0.08 0.23 -0.78 -0.88 -1.58 Run 5 Date 6117124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 r 0.98 0. l4 0. l3 I t.05 11.09 21.68 -0. l3 9.66 -0.70 -0.79 9.46 946 21.48 0.02 9.60 -0. l4 -0.30 9.36 9.23 Bias (%) Pretest Zero Posttest Zero Pretest Span Postiest Snan 0.58 0.54 0.29 o.46 2.63 3.04 0.92 0.92 0.74 1.49 t.t2 1.72 (o/o) Zero Mid -0.04 0. l7 -0.42 0.00 -0.74 -0.61 Run 6 Date 6/17n4 ipan Value nstrument Zero Cal Response nstrument Upscale Cal Response )retest System Zero Response )osttest System Zero Response )retest System Upscale Response )osttest Svstem Uoscale Resoonse 24.00 0.00 10.98 0.13 0.12 I 1.09 I 1.09 21.68 -0. l3 9.66 -0.79 -0.89 9.46 9.48 2t 48 0.02 9.60 -0.30 0.23 9.23 930 lias (%) )retest Zero )osttest Zero )retest Span )osttest Snan 0.s4 0.50 0.46 0.46 3.04 3.s l 0.92 0.83 1.49 0.98 1.72 1.40 Drift (%) Zero Mid -0.04 0.00 -0.46 0.09 2.47 0.33 168 of288 pul6rrrcE) T.i. i. r\ i(tAt (rFlOl_;I Bias/D rift Determinations Location: Utah Municipal Power Agency - West Valley City, UT Source: Unit 5 Project No.: AST-2024- I 778 Parameter Or - Outlet CO - Outlet NOx - Outlel Run 7 Date 6117124 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero ResPonse Pretest System Upscale Response Posttest Svstem [Joscale Resoonse 24.00 0.00 10.98 0.12 0.12 I 1.09 n.l0 2t.68 -0.13 9.66 -0.89 -0.77 9.48 9.2t 21.48 0.02 9.60 0.23 0.1 I 9.30 9.41 Bias (%) Pretest Zero Posttest Trro Pretest Span Posttest Span 0.50 0.50 0.46 050 3,5 1 2.95 0.83 2.08 0.98 0.42 1.40 0.88 Drift (%) Zero Mid 0.00 0.04 0.55 -1.25 -0.56 0.51 Run 8 Date 6117124 Span Value lnstrument Zero Cal Response lnstrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.98 0.t2 0. l3 I l.l0 I 1.09 21.68 -0.13 9.66 -0.77 -0.71 9.21 9.41 2t.48 0.02 9.60 0.1 I 0.15 9.41 9.43 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Soan 0. s0 054 0. s0 0.46 2.95 2.68 2.08 l.l5 0.42 0.61 0.88 o.79 Drift (%) Zero Mid 0.04 -0.04 0.28 0.92 0.19 0.09 Run 9 Date 6117124 Span Value Instrument Zero Cal Response Instrument Upscale Cal Response Pretest System Zero Response Posttest System Zero Response Pretest System Upscale Response Posttest Svstem Uoscale Resoonse 24.00 0.00 10.98 0. l3 0. l2 I t.09 ll.ll 21.68 -0.t3 9.66 -0.71 -0.77 9.41 9.39 2t.48 0.02 9.60 0.15 0.54 9.43 9.42 Bias (%) Pretest Zero Posttest Zero Pretest Span Posttest Span 0.54 0.50 0.46 0.54 2.68 2.95 l.l5 1.25 0.61 2.42 0.79 0.84 Drift (%) Zero Mid -0.04 0.08 -0.28 -0.09 1.82 -0.05 169 of288 pllaATEE) T l"(l lil'! l(lA r (l R() l.l P Location: Utah Municipal Power Agency - West Valley City, UT Project No.: AST-2024-1778 NOr Converter Check - Outlet Analyzer Make Thermo Analyzer Model 42c'HL Serial Number 42CHL'59778-324 Cylinder ID Number CC509482 Cylinder Exp. Date 3120126 Cvlinder Concentratior, Dplrl 47.8 Pre-Test Date Time Pre-Test Concentrationr ppm Pre-Test Efficiency, 7o Post-Test Date 6118/24 Time 9:28 Post-Test Concentration, ppm 44.23 Post-Test Efficiency, To 93 *Required Efficiency is > 90 %. I 70 of 288 pllIATGE) TECIINICAL GROTJP Locetion: Utah Municipal Power Agency - Wcst ValglQ!ry-pT Air Emissions Testing Data Source: Unit 5 Project No.:AST-2024-1778 QI Lrst Nrme: Horton QI Fint Nrme: Charles QI Middle lnitial: R Ersm Drte: 1212312022 Provider Name: Source Evaluation Society Provider Emeil: AETB Neme: Alliance Source Testing, LLC AETB Phone Numbcr 256351-0121 AETB Emril quality@stacktest.com l7l of288 172 of 288 .a"','t -i,''r,-i \\---l i-iliEffiit z-:a/^\>z.zl,1-),l.."PJI.Aothrh.dBh Accreditation ,62754 Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-ss1 -81 s0 PGVP Vendor lD *412023 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number: Product lD Number: Cylinder Pressure: coA # Customer PO. NO.: Customer: 480042240 12537'l 1900 PStG =B OO 4 224 0.20 23',t 220- 0 Certilication Oate: Expiration Date: MFG Facility: Lot Numbe.: Tracking Number: Previous certifi cation Dates: 't212912023 12127t2031 Shreveoort - LA =6UU4ZZ4U.ZUZJ I ZZV 165 1 26635 This calibration standard has been certified perthe May 2012 EPA Traceability Protocol, Document EPA-600/R-12/531, G1 Certified Concentration(s) Concentration Uncertainty *oo9 % 10.03 % Analytical Prlnclple NDIR MPA Assayed On 12t29t2023 12127t2023 Dioxide 10.97 olo 10.99 % Nitrogen Balance Analytical Measurement Data Available Online. SMART.CERT cc716408 cc7491 45 E8000431 5 E80014830 cc716408 20230r09 cc749145 20230r08 E8000431 5 20201022 E80014830 20150605 12 003 % ?0 03 0k 24.75 % 9.53 % Analytical lnstrumentation o2 co2 NOIR Themo Themo 41 0i 410i 1 162980025 12t18t2023 1 162980025 12t14t2023 This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable lhrough Nalional lnstitute of Standards and Technology (NIST) to the lnternational System of Unats (Sl). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximale the 95% confidence level of the measurement, unless otherwise noted. This calibration cerlificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas SeMces. lf not included, the uncertainty of calibrations are available upon requesi and were taken into accouni when deiermining pass or fail. l|up"^ l'h,@ Hayden Hartley Analyst Assay Laboratory: Red Ball TGS Version 02-J. Rcvisod on 2018-09-17 I 73 of 288 ko,*.TJl*** Accreditation 162754 Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71'107 800-551-8'150 PGVP Vendor lD # G12020 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number: Product lO Number: Cylinder Pressure: coA # Customer PO. NO.: Customer: t()71 9735 12 t90t 9OO PSIG 1c719736 20200810-0 Certification Oate: Expiration Date: MFG Facility: Lot Number: Tracking Number: Previous Certifi cation Dates: tat18t?o2|d cgt16t2028 - Shreveport - LA cc71 9736.20200810 c98506945 standard been certified per the May 2012 EPA Traceability 1, G1 looNotUseTh.scylinderBelow100psig(0.7Megap SMART.CERT Certif ied Concentration(s) ponenl Concentration-E.r % 24.0 olo Uncertalnty Analytlcal Principle Assayed On o,t17t2o?s 08t18t2020 Carbon Dioxide Oxygen r0.'18 % +O.12 o/o NDIR MPA Nitrogen Balance Analytical Measurement Data Available Online E80041474 20180504 E80089906.20190405 E80097897.201 71 01 8 r 162980025 08t03t2020 1 162980025 07t23t2020 This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable through National lnstitule of Standards and Technology (NIST) to lhe lnternational System of Units (Sl). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximate the 95% confidence level of the measurement, unless otheMise noted. This calibration certificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas SeMces. lf not included, the uncertainty of calibrations are available upon request and were taken into account when determining pass or fail. a,,^* aaA,a Jasmine Godfrey Analytical Chemist Assay Laboratory: Red Ball TGS Vsrsion 02-J. Revised on 2018-09-'17 I 74 of 288 Aitgas an Air Uquide company Airgas Specialty Gases Airgas USA LLC 525 North Industrial Loop Road Tooele, UT 84o74 Airgas.com CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: E03Nt99E15A38W6 E80154821 124 - Tooele (SAP)- UT 872024 CO,NO,NOX,BALN Expiration Date: Reference Number: 153-403026992-1 Cylinder Volume: 144.0 CF Cylinder Pressure: 2015 PSIG Valve Outlet: 660 Certification Date: May 07,2024 Mav 07,2027 Certification performed in accordance with "EPA Traceability Protocol for Assay and Certilication of Gaseous Calibration Standards (May 2012)" document EPA 60O/R-1 2/531 , using the assay procedures lisled. Analytical Methodology does not require correclion for analytical interference. This cylinder has a total analytical uncertainty as stated below with a contidence level of 95%. There are no significant impurities which affecl the use of this calibraiion mixture. All conc€nlrations are on a mole/mole basis unless otherwise noted. The resulls relate only to the items tested. The report shall not be reproduced except in full without approval of the laboratory. Do Triad Data Available Upon Request Sionatrrra on file Not Use This below 100 t.e megapascals. Requested Concentration Actual Concentration ANALYTICAL RESULTS Protocol Total RelativeMethod Uncertainty Component Assay Dates NOX 10.00 PPM 9.799 PPM G1 +l- 1.3o/o NIST Traceable 0413012024,0510712024 CARBON MONOXIDE 10.00 PPM 9.986 PPM Gl +l-'l .2o/o NIST Traceable 0413012024 NITRIC OXIDE 10.00 PPM 9.788 PPM Gl +l- I .2o/o NIST Traceable 0413012024, 0510712024 NITROGEN Balance CALIBRATION STANDARDS Type Lot lD Cylinder No Concentration Uncertainty Expiration Date Dec 04, 2025 Jun 07, 2026 Jun07,2026 NTRM NTRM NTRM 9.82 PPM CARBON MONOXIDE/NITROGEN 9.95 PPM NITRIC OXIDE/NITROGEN 9.95 PPM NO}/NITROGEN 't2062802 16010',t22 16010122 cc36531 3 ND48023 ND48023-NOX 1.0o/o 'l .00/o 1.00/o lnstrumenUMake/Model ANALYTICAL EQUIPMENT Analytical Principle Last Multipoint Calibration Thermo 48i-TLE 1163640031 CO Thermo 42i-LS 1 1 23749327 NO Thermo 42i-LS 1 123749327 NOx CO NDIR (Mason) Chemiluminescence (Mason) Chemiluminescence (Mason) Apr 25,2024 Apr 26,2024 Apr 26,2024 Approved for Release I 75 of 288 Page 'l of 1 Airgas an Air Uquid€ company Airgas Specialty Gases Airgas USA LLC 98ro BAYAREA BLVD Pasadena, fi 75o7 Airgas.com Customer: Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Reference Number: 163403026991-1 Cylinder Volume: 140.0 CF Cylinder Pressure: 2015 PSIG Valve Outlet: 660 Certification Date: May 07,2024 CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARI) ALLIANCE SOURCE TESTING LLC E03Nt99E15A1368 AAL071 1 00 124 - Pasadena (SG06) - TX 432024 CO,NO,NOX,BALN 07.2027 Certification performed in accordance with "EPA Traceability Prolocol for Assay and Certification of Gaseous Calibration Siandards (May 2012)" documenl EPA OOOIR-telSSt, using the assay procedures listed. Analytical Methodotogy does nol require correclion for analytical interference. This cylinder has a total analytical uncertainty as stated bao,v with a confidence level of 95%. There are no significant impurities which affecl the use of this calibration mixture. All concentraiions are on a mole/mole Lasis unless otherwise noied. The results relate only lo the items tested. The report shall not be reproduced except in lull u/ithout approval of the laboratory. Do Triad Data Available Upon Request Sionature on file EX Not Use This Cyllnder below IOO Component Concentration Method Uncertainty Requested Concentration ANALYTICAL RESULTS Actual Protoco! Total Relative Assay Dates NOX 21.50 ppM 21.48 PPM G1 +l-1.3o/o NlsTTraceable 0413012024,0510712024 CARBON MONOXIDE 21.50 PPM 21.68 PPM Gl +L0.5% N|STTraceable 0413012024 NtTRtCOXIDE 21.50PPM 21.30PPM Gl +l-l.4VoN|STTraceable 0413012024,0510712024 NITROGEN BAIANCC CALIBRATION STANDARDS Type Lot 1D Cylinder No Concentration Uncertainty Expiration Date 26.54 PPM CARBON MONOXIDE/NITROGEN 9.95 PPM NITRIC OXIDE/NITROGEN 9.95 PPM NO'NITROGEN +l-0.4o/o +l-1.0 +l-0.6% Jun 28,2027 Jun 07.2026 Jun 07, 2026 NTRM NTRM GMIS 200609-02 160101-18 1 601 01 cc714621 ND47940 ND47940-NOX Last Multipoint CalibrationlnstrumenUMake/Model ANALYTICAL EQUIPMENT Analytical Principle Apr 29,2024 Apr 30,2Q24 Apt 30,2024 SIEMENS ULTRA CO 6 M2 529 NO CAr 700 CLD 201 201 I NOX CAr CLD 2012018 NDIR CHEMI CHEMI Approved for Release I 76 of 288 Page 1 of 'l Airgas an Arr Liquac,€ company Part Number: Cylinder Number: Laboratory: PGVP Number: Gas Code: Airgas Specialty Gases Airgas USA LLC 5zS North Industrial Loop Road Tooele, UT 84o74 Airgas.com Reference Number: Cylinder Volume: Cylinder Pressure: Valve Outlet: Certification Date: 1 53-402667045-1 145.0 CF 2015 PS|G 660 Mar 20,2023 Expiration Date: Mar 20, 2026 Certiflcation performed in accordance with "EPA Traceability Protocol for Assay and Certification of Gaseous Calibration Standards (May 201 2)' document EPA OOOIn-tZSSt, using the assay procedures listed. Analytical Methodology does not require @nedion for analytic€l interference. This cllinder has a total analytical uncerlainty as slated belo,v with a confidence level of 95%. There are no signiricant impurities which affed the use of this calibration mixture. All concentrations are on a mole/mole 6asis 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 below 100 psig, i.e. 0.7 megapascals. Triad Data Available Upon Request Sionature on file CERTIFICATE OF ANALYSIS Grade of Product: EPA PROTOCOL STANDARD E03Nt94E15W0005 cc509482 124 - Tooele (SAP) - UT 872023 N02.02,BALN NTTROGEN D|OXIDE 5O.OO PPM 47.80 PPM G1 +l- 2.0% NIST Traceable 03113t2023,0312012023 OXycEN 5.OOO % 5.004 % Gl +l- 0.7o/o NIST Traceable 0311312023 CALIBRATION STANDARDS Lot lD Cylinder No Concentration Uncertaanty GMIS NTRM 59.32 PPM NITROGEN DIOXIDE/NITROGEN 4.7 94 YO OXYGEN/NITROGEN 12397 14060629 cc51 1 358 cc436987 +l- I .4o/o 0.4Yo Oec 17,2O24 Ocl29,2025 ANALYTICAL EQUIPMENT Analytical Principle MKS FT|R NO2 018143349 Horiba MPA-510 W603MM58 02 FTIR 02 Paramagnetic Mar 09, 2023 Mar 09, 2023 Approved for Release 177 of288 Page 1 of 1 Calibration Detail Plant West Valley Pomer Plant Report Pedod: O6t18D@4 00:00 Through 06/1812022123:59 Source: CTi 6t18t&2403:15 0.0 0.0 0.0 111.8 110.5 0.7 20.0 STD Passed Ycs NOXHI 06/182024 03:15 0.0 0.0 0.0 180.4 181.4 0.5 5.0 STD Passed Yes NOXHt60 0d182024 03:15 0.0 0.0 0.0 180.4 181.4 0.5 10.0 STD Passed Y€s NOXLO C6t1812024A3t20 0.0 0.0 0.0 9.2 9.4 0.2 5.0 DIFF Passed Ycs NOXLO60 O6l'18f20240tl20 0.0 0.0 0.0 9.2 9.4 2.0 10.0 STD Passed Yes 02 0d182024 03:15 0.0 0.0 0.0 20.9 21.2 0.3 1.0 DIFF Pased Yes 02_60 0611812s2403:15 0.0 0.0 0.0 20.9 21.2 0.3 2.0 DIFF Passed Yes No Quarterly Type Calibration Records Found calbrdimEroc @ I-ffiI i@ Report Generded: (E/1E/24 07:rE Reporl Veeim 4.0 WESTVAIIEYDAS 1 d 1kcffttlnnf, Zero Level Span Level Resufts End Date/Time Referenoe Value Adual Response Cal Enor Reference Value Actual Response Gal Enor Cal Umit Error Method Pass/Fail On- Line COPPM 180 of288 sloo6E(! .o)U)ouJJJFU>u3 OO O O @ O O O 6 O I O O O O ! 3 O O i l OO O F - ? ci c i a , d d r i c i d d r i c i r i d i r i d d d i d d a i d ri d a i r i NN F ts t s F F F F F F F F t s t s N t s F F N N O N F 3s i l 9 s s q 3 ? ! q ! € t { t 3 t s * @ o o o o @ o a o o o o o o 6 0 @ o @ o o 6 @ @ 6 F F o o o o o o o o o o o o o o I o o o o o o 6 0 6 6 N N N o o o o q r o (D o o o o o o o o o o o o o o q q q q q c c Gq q q o! q q q q ol q q q o l ot l- a + ?? 66 6 d d d oo o o ci c , c i ci 60 0 0 0 0 6 0 0 6 0 0 h o o 6 n o D a o O O O O O O o g O O O o O O O O O O S O O ON O N FF oo o o o o o o o o o o o o o , o o o o o o ob o l \ " " o o o c i c i c i o ci d o o c i o o o o < r c i d c r o ' Ad 6 d ts 0 t s O -- =r + a i NN o @O O O ?- J; ; o i NN OO o o -- F- J o i NN OO o o eF ;;; ; il N !o rc ll ?6 :- 1r 1o E'oEc L EE =. !oo Il lo) -9 bEt E =o n =c L d to ai ll n (J . E EE co€3Eo fl E UI O N r[ 3 II J F \lN OP o9 E .= O s =E HEE E =6 0 ) i= o -n tr E I! E & c? s O O ? I o O I - n O N N N E 3 N F O O () N O O -- do -t t d + 6 i ;o @ F s E i 6 @ ds * o ' F d ;ii l ^ i a N = o o o N S N o o v ! 6 s i + = !; G 6 - =; 6 d o @ @ @ a o o @ o 6 6 o 6 o 6 o 6 o 6 o o o 6 6 6 o o 0 6 0 0 6 6 0 0 0 6 0 6 6 0 e o o 6 0 60 0 q N EE E g E E E E H E E E E E E E E d E E E o0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 oE c c a - o Es E E Ei u EEEE tO F N O q O O F o O O F N o * 6 @ t s o 6 6 - _c , oo o o o o o o o o 3 s t ! ! + s 9 ! < l . ) 6 E- oo d 6 6 t r 6 6 ' o o o 6 o 6 6 5 a i 6 c j o o = EE 6 F f oa f i l l ! * s t t ! 3 l r ? = i i * r i l E N N ' N N N N N N N N N N N N R N N N N N N @ @ @ o a o € . @ @ . o o 6 0 0 0 0 6 @ 6 6 0 EI E . E B EI E B E ts B E E E E E 3 B E] E E B l8 l of 2 8 8 Fo $c=3B3 txfOe zEg =Bedg gr * oo^=9 o- EBE o=^&E8sEEEEUE*eo oY?3$NoNcO h b9 e- o . g ru : -c - ! E 9E TE /- ^o E- : F ;; 5 p = s 6, # I a, 3 € E: SE ; ? o Bg ' s. = z= E s5 \j - j So c (o t r (U Cr . = rE 0oo_ooV, hlo(\Ibooo-oooulJJt-oU c3 io :i ,=_ 6 ;u-oEgEc L EE =( !ut o ti ll o= ao oG t EE g =c L E oi i ll n (J . E EE EO€3 to9E II J O l- nr t : IJ J I. tN -- 6 oE E =6 : E E Hhs E ve 6=8 6 il l l gE= & oY?=tAIoNco E E9 r o . g cE : 'c - ! E gq :, E r' \ ^o =- !- -: = E F id o a: E 8' 5 O) 8 . . e oE E: S 5 I : o Eg ' s. = 2= E S5 \. ji Eo c (o t r (E 0. = o- ii 'o(DLoo-oE oo o o o o o o o o o o o o o o o o o o q ;9 ; e 3 9 i F dd s i d o { i v i d c i d d s i ! i d o s i d n r i d d PP P P - - - - q q q q q (| q g q a a q cl c? q Iq q c? q c 33 3 3 1 s oo o o o o o o o o o o o Q o o o o o o o "" ' - K EE E E E E E EeF EO F N O T 6 O F O O O F f f O T O O F O O O -0 0 0 0 0 0 0 0 0 0 0 - a t i ? ! ! t ! ? 0 A 6 - c i c t o c i c i 6 c , o o d o o o o c t ci d o t i 6 6 E E E 6 F = o! - 6 < - - i + l l l r l t i i i r ! i l ! i l r Q $ I A { A {, e A N N N ( A { t e q A e e o 6 . 6 6 0 0 0 , o o o , o o o @ @ o o a o @ @ E EE , E i E Si E l E E l E E B E B E D B E' E E E I 82 of 28 8 Nooooo-d,aoulJ)FU)uJ3 o* t s ( ' Fe oia i o i q NN F O f O O O O O g O O O O O O O O O O O O O OO = t FF .F E N N 99 g e q q q q q q q q q g q q q q g q Q oo o i \ - - - ' oo o o o o o o 0 o o o c i c i c t 0c t c t o c i d o o d e FO O O FF +3 d @ NN o Oe O F FF :i - o i NN = s g I Y s I g ! = s s s r 3 ! I q ! ! = st= = -F I I I E t t t 8 I 8 I 8 I 8 8 8 8 I8 I 8 8 8 8 8 . * e o o o c i c, ci o o o o o o o o o o o c i c i d c i d c i c i 9O 6 O ?- .; ; ; N N @ F O O O A rO O 3 0 0 0 0 0 0 0 6 @ (o .( r rO r, ai r i s i r i ai ! i c i c t d c i a i a i o o d i d d i c i ! t dt NO F N t s t s N F F F F t s F F t s F t s N F t s O !d s s i i i s + r s s r r * s ? { r i $ oo o o o o o o @ @ € @ @ @ @ € @ @ @ o o oo o o o o o 6 0 6 6 6 0 0 0 6 0 6 6 6 6 OO @ @ F F oo o o NN oo @ o @ o o o o o @ o o @ o @ o o o o @ OO O @ F- J;. j 6d N N @9 0 0 0 0 0 0 0 0 0 0 0 6 6 0 0 0 c , 0 @ 60 0 0 6 6 6 6 0 0 0 @ 6 0 a 6 0 0 s 6 0 (o@_96o 3o =EZ, o ;l-ooEc L EE€Eoo il l l@) g-9EE =E LE9 , oi i ll nO. o gE 6( ) !, -to9E uJ o [! t II J F a q q q q .! a q q .Y q c q q a q c ! : c? a r o ! 3 o FF ;A i ! c i i F c i o i s i + c i o ; i? ;o i at d a i d r i d i d N N I N O N O O F ? ' , s 0 0 N N O O @ a O i N 6 N o 6 - 6 0 @ e F o @ o o a Q c a o o @ @ o @ @ F 6 t s 6 6 dd du t d d d ui ' r t c i 6 dr i dv t d r i d d s i d 6 - d r t . ' i N E O N 6 O O F N O = O @ N O O O F N' O - O 6 - I i F F i N N N N N N N N N f l O O O O A O O a! @ - = EE 6 qt > 'h E g r t l i i l l l < l r r l r l l - - i ! qN N N N f l N N N N f l N N d N N N N N N N N oo 6 0 0 0 0 0 0 0 0 0 @ o @ @ 6 0 6 0 0 BE E B E B E B E E E B E g B E B E E B B (oL,I€N@@<)!IEotroooo.oE. o o9 :6 gH. 9 =( !5= ll lL- 9E E E . ! 2 o l ! y,! = y c€ c EE E E E E ' oEo= ECEE F(J E. 8E=3EE e.+=xoo= z?9o==t^OEdEo9so- t EE o=^ o- F o- a Og { o=!=( o EE d. ^== o 18 3 of 2 8 8 (o:*NoN@ b b9 6- o. Y -f , fU g =E A AE e: ; B= E a x O, E . E; t E U SE ; B o Eg ' 8- = >e c sl E <i =; C (f J E O o, L o_ ti 'o.CoIEoo.ot. Nofitd)9Eoc-o)ooUJJJFoul tr = 3o EEZo ;I-ooEE L ?=gr f 'l J (E U' A Il la)odEU E Xo o =c L d od i ll tr (J " E 8EEOoO EsEo iEUl O o rt r t!? ul F qN 6r = 9H B sr g - EE XEE E =G q ) 5= 9 nt l e E= B (oTINoNco E \ C D # 8g R-- = fU L -- c .A EE e: U CE E F; * o a= 0. 9' E O) E - a: E E: S E ; ? o Eg ' 8. E Z= S S5 <l . i ; Sa ) c (o t r o o, ! o- ii 'o(Do-oo-oe" OO O O FF o6 d d NN oo o o o o 9 0 a o o o o o o o o o o o o d ri d qi d d ci {i d d d ri ri u i d d d u i c i d ci @@ @ 6 o r r 6 s @ @ o o D @ s o o o 6 6 qa r q ' : = = @E C C A - O 6tr = ! B E o F o o o F N o ! o @ ts a o e F N o s 6. EE E E f EE :: - r 9! $ I! \ C! $ $ q! + ! ! f? q? s? gt q? e o -- 2 i =s J (, Xq E- E + { t * t 3 ! g s ? ! q t i < I I ? i Q o E' N N N N N N N N ' N N N d N N N N d d N N N i' o € o @ @ o o @ , @ @ o @ @ o @ @ o € 6 0 0 Eo - F ? ? F ? , F , F F F f F F F f F -- - - - B 88 8 E 8 E E E8 E 8 E 8 8 E E E I 8 8 . I €- E E'E 6 s ! @E o- 18 4 of 2 8 8 Noo6=R(boot!JJFoIU3 M a q Q q q q q q c c e q q c? iq c? u ? c? oo o o o o o o o o o o o o o o o o o o o F F ts @ O O ts O O O N N t s N t s ts O t s F F N OO N 3 F- t r r ? = s s 3 3 r e r r + + + r + 3 + s ! 3 = N NN o @ O O @ @ O @ @ @ O o @ O O O O o O O o @ € s o o F- o o o o o o ' o o Q o o o o o o o o o o o o o o o s N N qq q q q q q q q q q G q q q q q q q q c ql q q q q q q q q q q q c qq q q q q ol q q OO O d F- ri c i d d N( F o o o o N N o o o o o o o o o o o o o a o o f l o F FF ?r t s NN qq q q c Q q q q q c q q q q q q q q q q cq q q " - ' o o o o o o o o o o o o o o o o o o (, e o o o o o Oo O O FF ;; ; d NN oe O O -F -;; 6 i NN C3o =gZo :t t1o Eo.E GL EE =6oo ll ll tt = o@_9o0, oEr =o=E L E3 oi i ll nO. E EE co 6( , tt -Eo !Eur O ll rr ur F Nl!N!toao8EoEooo&E. o o9 :. !9E =65= il l l tr . E q ! q - u? c! . ! 1 q g? a n e c? q e n a a F o o F @ - -F d 6 i r i a i f i F 6 i 6 c i r i ct ai ; ; d + < 6 i d d d c i d ; c i N N O F O @ F F O o @ O O F = O F O 6 @ O O N 6 O l N @ O @ N N N N t s N N @ @ O @ € F F N F @ t s F F 6 t s rt d d dd u t d d d r t d d E t u t d dr i du t r t r i d d d J N !o < o @ t s 6 o o F N o l o @ F o O O F N o - I 66 6 6 O 6 O O O O O O O O O O O F + - e 6 O - r ? - q' N N N d N N N d N N N N N = E'E 6 t o f u) F = = l r r l - i r i l i l + r r r { r l i r N , N N N N N N N N N N d N . N N , N N N N N , N a b a a a ts a a ts B a - B ts ts . a B B a E. E B B E] E i E E B E B E E E E E Ei E E E E . E 6O A O -- -- - - NN g? * 3 v v + I v ! ? q M q ? ? - 3 G q! 9 = * - E E E E 8 E E q q q q E q e A q E q q E E qq q q -* o o o o o o o o o 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 oh 66 6 0 6 0 0 6 0 6 0 0 0 00 00 6 0 @E E C O - O E5 ! E EE ' uEOtEeEE Fo Ee5E=E IEd.*ex. 6 i5 = zEg =3^OEEBo8aEEo- q oEeogoEg t^55 o I 85 of 28 8 (f):S$AIo6l = 6^ k b9 - E ?; fU L -- c .P 0) d ! =' ' = E EE E: ; "r = P ; s O) 6 . . e aE E: SS ; ? o 8. 0 ' 8. s > > c SE <i =; c (c i E (E O. = o_ ii ' -30)o_oo_o)d. Nonto6oEU)oluJJFg)UJ tr 3 3o EEZO :r r t, a E'gEo . 6E€Eoo II lo) @ .E ; EU E 58 8 ai i ll n (J . e EE 6( ) tt rto9E fU O N rt i l * UJ F $N ^6 oe b .= t E r Et r H TE E 5s g Il l I 'L = & PS$NoN\ = @^ h b9 ;- o .: g -= lU L -- c # (l ) d! ='' = .A EE E: ; B= E ; s O) 8 . . E JE E: SS : ? o E- g ' 8- E z= E s5 \. i - , {o c, (o t r (E 0, = o_ ii 'ooo-Eoo-o,n OO O O F- ri d d d NN qq q q q q q q q q q q q q q c q c c q g 6, 6 6 6 , 0 6 6 6 0 0 0 6 0 D A A 6 0 A 6 0 ; ; 3 ; 3 3 3 3; q 3 3; B 3 3 3 3 3 3 3 ; 33 : i EF SE E E E E E Ep ^ E sS E f r E f r f i E E S g E g E E E E : ; i * E EE E F f ., ) E ss s g s s * s s $ * $ * s s s s s s * * B B B B E E E E E E B B B E E, E E E B E E 18 6 of 2 8 8 AIoo@Eoo-oU)ot!JJFatl l E=3o .= E io ;I-o - N - - N € O N O 3 A - O F V 6 O S 6 O O € r g q -F ^i^ i o d c i F + sic i e so o o o *< i ts d c i ci Fe s d N N F o F o o 0 F o N o 6 o q @ @ 6 s o o a s @ ( . N N F F N ts N O N N O N E N N ts ts t s t s N F N t s t s F @ F dd d s t d ui d dr t d d s t d dd dr t dr i d d v i d d - N tlo=c . ;Eot h Il l (r ) = -E ; Ft - E =o o =c L E oA ; ll tr (J * o EE co6s (, EoHE tt , I O co rr n B EI F $ oF or o b 3E E '= ( E O i= o iu E E= & 6O F S FF cia i c i * Nc N O O O O O O O O O O O € N O O O O O 3 O o ON S O F- -- N NN o o 6 o o o o o o o o o o o o o o o o o o oo o a \ '' - - ci c i o c i o o o o o o o o d c t o o o o o o d oo c i c j vs = s s s s s = s s = s s q s 9 s s s s s o o o o o o o o o o o o o o o o o o o o o o 6 6 6 N N o o o o o o o o o o o o o o o o o o o o o o o o o oo o o o o o c i c i d o o o o d d d c i d d o od o o 9t O S ?- ;- ; ; NN a q q q q q q c q qq a . ? a q q q q \ q q oo o o o o o o o o o o o o o o o o o o o @ O O O F F @ @ ts F @ @ O @ o O O @ O @ O O O O F FF + + s + + s + s + + + s q + + q + s ri + + i + d s NN 6 @ O @ o @ @ @ 6 O 6 O 6 O @ @ O o O 6 O 6 66 @ @ -- o o o o o o o o o o o o o o o o o o o o o o o e s N a ol o l q q q qq q c o l q q s : o ? o ? sl o l ol . c o q Q o o o N - - _ _ ; ; 6 i N N o oo o o 6 6 6 6 0 0 s o o o o 6 0 0 0 0 s +<xaO= z ol q q q q q o q q e c q q 6 ! c q q qq q q e @ oo o F F F ; -'j ' j o NN o ILlH e l* 8 oE g c o - o gE E E EX E @ o o ? N o v o o F o o o F N o ! o @ F - EE E F t ; ' $f l ee s ? s ? e q? | ? e q ? q ? I : : r g : x T ! : -= > 5 E k N N N N N N N N N N N N N N N N N N N N N O A X F -gEbof tc { ! t t { r s t = 3'i s s s s ! f 9 * ! a :- N N N N N N N N N N N N , N N N N N N N N N N6 @ @ @ @ @ o @ € o o o @ o o o @ o @ @ @ @ s- o o@ 6 @ o o 6 6 6 0 6 @ 6 @ O @ 6 6 0 0 6 o0 0 0 0 0 0 0 0 0 0 0 0 0 0 a o o o o o EE = E F5 OE 0- 18 7 of 2 8 8 co:qSt(\I(>(\ l\co E E9 0 ot s $ L sd # O) d! Y " = $ == dE A. V - = F ; "r = E a s o) E .- a 6. i = g: s 5 ; ? o Eg ' 8E z= E s5 \: . ; so E (o t r (E C) . = o_ ii ,o'Eo)0-rox. NoN0,IEoctd) (DotU)JFotl l tr = =o :j 5Zo ;l_o E'oE3 lE # =G00 Il lo= 6 o;Et - E =o o =c L d od i !l nOr E EE aoo( ) to9E uJ O 6 rr t r B UJ F *N oP o9 D EE XbE E =( ! t l , sE o rl l l e u- E & aO\t:sAIoN L \ ( , ru (o : i ;i o. : c -= lU L -- E # G ) d t =' ' = E E= e: u r+ a ts i ; O d= E R' E o) E - q c. i E E: S E ; : o Eg ' 8. = 7= s s5 <l . r =o C (O E o o' ! o- €'oo)Ltoo.oE, OO O O -- dq i d d NN qq q q q q q q q q o o o o o oo Q o o o si v i ut ri r i u i o D d o ui d d ui d r i r i d s j s i d .q q s ! q q q C q q q o r o 3 o F o @ F @ q 33 1 3 l l ci ri ri r r i ci , c i ri a, d s i c i o r i c i d r i r i d c i ci - - I -'- - gE E E EE E 8E ECEE @O O F N O + D O F € O O ? N O i O @ F O Nil O O O O O O O 6 0 0 - ! ! t - t S S S .i c i N N N i N N N a, i 6i r i c, i ci c i i \ i Ai s, i 6,i N di N { r r , r l , l I t . l l i I I I I t - 3 I I - N N N N N , N d N N N N N d N N N N N N N N o6 0 0 6 6 G 6 € 6 @ O 6 6 0 0 0 0 0 @ @ E E B I E I E , E I E E I E E E E , E E E; E E E E E B s *- d F5 o6 o_ 18 8 of 2 8 8 Noooa.Eu)o[lJJJFoul E3 3o .= i , =6 :l r-ooeo . .i=3, r . @o I1 1 cD = (o -E ; EU E =c , o =c L E Y' l u) tl tt O* E o=Eb soEo9: tu O ( o nu I UJ F 3N o= o9 D sq ,b€ E =( ! o5= P nl l S uE p Oq N O rF ci c i F i q NN N O o O O o O O O O O O O I O s O O O O O O o g S o -r f F N NN o o o o o o o o o o o o o o o o o o o o o o o o N o o o o o o o o o o o o o o o o o o o o o dc i o o OO O € F- ;; ; N NN O@ @ O ?- .i. i . i F N N o E E E E g E E E E E g E E E E E E E E g E ES E E EE oo o c i o o o o o o o o o o d c t c i o o d o oo o o s? s? q u? I q 1 1 I cl c? I \ q \ q q q I c c oo o o o o o o o o o o o o o o o o o o o q q I q e q q q q q q q q q q q I q q c 6 6 @ 0 0 rF 3 s s < s s 3 ! r s $ i o 9 s t q q q 9 i i + r i i l NN o 6 6 6 0 0 A O O O 6 0 @ 6 0 0 @ A A O 6 Q bO @ O F- o o o o o o o o o o o o o e o o o o o o o o o o o N N @o a o o o o @ o o @ € o @ @ 6 @ o Q @ o o@ o 6 @ o @ @ o a @ Q @ @ a o @ o @ Q @ u? u? c ? q q q a a 9 9 a a = a Y iq q u? c? ql q O3 6 6 FF -i- c j NN o s N o o o F o o o o @ a o 3 o N N N = N Fo @ s i- + c i d i - - dt o t 6 i c i ; ci c i a i - o € d o c i F o e < i c i ^ ; N( 6 < N 6 O O F N F F O N O N - O @ s O t O O g F - ts I i N N t s F F F ts F t s ts F N N F N F N ts N N t s N O dr i d d d u t d dr i d d o r t r t d d d dd D' s t dd r t d N Lo * 6 @ F o O O - N O + O @ F @ O O F N O ^ g o9 9 e 9 9 9 ' r : : : : - : : - r : ' : : * ! ! n $ x E , - o o I o o o o o o o o o o o o o o o o o o E <= B F5 (/ ) E = < i l r i < r l l r l l l s n ! t i t 9 o- c s a I e a s s s e t t e t Q t e N, e { E 66 6 6 6 0 0 @ @ O O O @ @ O O @ O @ O @ ?l - ? 7 ? F F ? ? F ? F,F EB E E E g 3 B B E B B B B E E B E B B B =i^OEdE ae(, t-o 6e c c 6- o EE S E EI E <i 9 E E E 6 6. 8 pEo= EE6. 9 E6 -F I 89 of 28 8 (oN:sNo{€o b b9 ; o. : g -f fU u !- E # (D 6r Y ' ' = .A AE E: I | ^ E- ! H E. € E F i. i o d= oc 8' E O) ? . . e dt E E Z S" + ; ? o Eg ' 8. s z= E s5 \. ! =o c (o t r (I J Ct . = o_ ii ' .3(l )o-=8.ot 6roNogEIa(]UJJJFaEI EE 'o .= J' =_ 6 ;r t -ooEc L BE €E ct o It ll o) co o( oEt . E =6 r d , =c L d oa i !l IO. E EE EOE( )Eo 9E UI O ( o Ir r I II J F tN OP o9 D =G !bE E *! E '= 6 0 , 5= : Il l I lI . = p (7 )*:$NoN00 E ;9 ;i oj g cE : -c ^ ! 6 ge =' E A ^v c- E- ;; = p = s 5, * : u B€ E: S 5 ; : o E- g ' s. E z= E s5 \. : j so c (o E (E 0, = o_ ti 'oo0-oo, t OO - e -- -i{ i d d NN qq q q q q q q q q C q q q q r C q e q q ho o o o a 6 6 a e o a Q o 6 6 6 0 6 6 Q 3 3 3 3 3 3; 3 3 3: : i : : 3: 3 : 3 3 3; i ; EF og E c a- a g3 =x c! c EE E E E E ' EF E o t 6 @ t s O 6 O - N O ! 6 O F € . O O F N O ^g 99 9 9 9 9 9 : - : - - r - - r r * { Y q Y f ! x a b - o o o o o o o o o @ !, a o ql o c ) d t ! ) o ! ) o g cE 6 F , f c" ' E ss s B s s $ s s $ * s $ g g B s * s s * Fr ? F Fi? ? F'? ? 7 r r ? t s r ? ' F E E E : B B ] B B E B E B . B E B E E B B g E g 19 0 of 2 8 8 (\oG,6ooog>oUJJJF(nUJ E=B0 =E7o ;n-o a q - q c ! c q q q - q q o! - I a ol c \ - o o- o F -- N ; ci s o, o s F o oi ot ci ; r oi - ri o oi ot o . , i a i d o NN - N N O t q 3 N O o O O A N @ O 6 O O ts O NF o @ F ts F F ts F t s F F F F F t s F E @ F F 9 € F F. O F F dd d q t d d d d d d a 6 6 s i d r t d d r t d d dd d d N oEE L 6E tr =oo It ll o) o. c i Et . E =o o =c t E od ; ll tt (J . P E= r0g( ) to9E tu O @ rr l t l II J F N oF o2 D =63e E =( E ( D i= o ;n I L= & q u? . q q q q q q u? !: a c? q u? a c? c ? q r o 6 0 @ - F+ si d d a i a i . i d r i c i d a i r i r i r i f i s i d d d i . i r i fi o a i F i NN N 60 0 0 0 0 0 €o o @ @ @ @ @ @ o @@ € N si i q s s + + + s s s e + + ! v i q t + O O O 6 O 6 o o O O O O O 6 o O o 6 6 6 A O O n O -- o o o o o o o o o o o o o o o 6 0 0 0 0 0 0 0 0 0 N N q q q e e q q q q q q q q e q q e q q 6 o @a o @ -: - F - i r -- - t NN o €o o 6 0 0 0 00 0 0 @ @ o @ 6 0 0 a o a qs o o S - ? s 3 t 3 l r s O O O O o O O O O O O O O O O O N O O O N ON O : FF .F t s NN qc q q q q q c c q g q q q q q q c q q q cq q q - " - o o o o o o o o o o o o o o o o o o o o o o o o o ON @ O FF sl i r i NN o 66 6 0 ?? --- N NN =s s v s s s q s ! = ! < q q 9 s ? = = 8 8 8 I I I 8 I 8 8 I I 8 I 8 8 8 8 8 8 8 88 8 3 ** dd o o ci o o o o o o c i c i o o < r o o c r c i c i dd o o tt O @ -P -- - O i NN BE E E €e * E E EE €A E r= E 5 EE " oEo=9cEE -F L6 @ t s 6 o o F N o ? 6 @ t s 6 o o F N o ? 6 - I 9 r 3 : q : P Y ? g ? Y ? Y ? Y ? , 1 ? 9 9 ' t ? 9 9 9 9 9 9 5 q) - o o o o o o o o o o o o o o o 3 ? 3 3 3 * E EE 6 t r 5 (D d t a t ! ! ! s ! i t s r t t i t 3 ! r 3 s qN N N N N N N N N N N N N N N N N N N N N @o o o @ o o @ @ @ o @ @ o o @ a @ o o o FF F F ? ? I ? F F F ? F T F F F 66 6 6 6 6 6 6 6 6 6 6 6 0 6 6 6 6 0 6 6 oo o o o o o o o o o o o o o o o o o o o rE=e==T3 c.*- - x!O= z Fo E3 =EabL (9Eq LE doog o=^ o- E o- o ogoE3 *=o l9 l of 2 8 8 r' ,o:tq6loN€o E E9 6- o. : s (u : -c - ! .P (l) .! ='' = (5 l < dt 6 ^" c- Er - a= 6 F ir i rr F - f f rr > ' E V eF = C) C, ) E .. e ai ' = E- S 5 ; ? o Eg ' 8. E )= = s5 1; So c (o t r (! or ! II E o0)o-Eoo-ot 6loAIoa=Eoo.oooulJJFU>ulB E,o E! ,Zo ;I-oE'oEE L EE oo lr ll o) c)(o.ooo) coEt =o =c r Eo (J a i ll rr O. o EE cOE( ,Eo 9E ur O il t lut F (o.esao(l,(>i;EoEo)oEIotr o o9 :. EEE =( B5= 1l lu- E Ir )oJ$AIoNo k b9 7i o .l : -= fU g -- c +, (D at Y " = .A =E E: u o. E a F a; o a: E s' 5 o) t - q d. , E E: S5 ; : o E 0' 8€ z= E s5 \i j =o c (o t r c5 0. = o- ii 'oo0-oo.ou F o o o o o o o o o o o e q c q e q o q q 33 : : FF dd d d u i d u i d s i o { i u i d s i { i od dr r d d :3 = P - - - - ro qq a q c q q q q a ' q c ? u ? q c ? lq q E ? c ? c 33 3 3 ; x 0o o o o o o o o o o o o o o o o o o o o ' - - " ' x 9E E E ! ! ol 9 rr r = . E E s EE E ; EE ' ECE*F - E Sg r S S f Ef i S S 8 f r h E 8 8 E S E E g x -o - o o o o 6 i o o o o o o o o o o 3 ! 3 t s t = EE 6 F ) (l r E c G - + + - ? - - r l r i i t l - s l = - (! n* ! . N r ! N E A N A N E A t ! € ! N A { A e t ! d. 6 . 4 d 6 c , G i 6 6 6 G o @ o o 6 o o @ o @ EE E E E E B E E B E E E T E S E B B E S 19 2 of 2 8 8 No lO @ O FF da i c i J NN ts @ o o o - T d) o o o o o o o ! $ o oo o o ; - ; ; ; d c i c , !i . i d a i s i c t o ci d F, a i d i ci ON O O rF ?F F @ dN q9 q q oo o o q q c, q c q a l q . ! o l . ! Al q. ! q q q I q q q 33 S S q 3 $ S q 3 t ? 9 S 3 l 9 S l S 9 6o o 6 6 D 6 o o o 6 t o o o l o r O O l o t O t O A Qi o l i Q - = di - o o o o o a o o o o g o o o o o o o o oo o o N N N oo a o o o o € @ € o a o @ @ @ o o @ @ @ oo o o o o N N N N N N N N O O O O O O O 55 5 5 5 5 6 8 5 5 5 5 5 5 5 5 6 8 5 5 5 ci o o o <, o c i c i o o o o o o o o o o o o o tN @ 3 ?- +r + r i NN o boJooEtooUJJJF.out E3 =o EE76 :I r,r o 3 F O O € * O € O S F O N O N O O N F O F ON O N ii cj 'i ; ; ; + l d ; cr i c i c i F d o i c r . i . i a; o .. i o + d NN - 6 6 - d 6 0 0 0 0 N ? o 6 F 6 0 N N N - F@ O @ - f, E N N 6 6 O N 6 F F @ @ F O F F F F t s N @ F @ du t r i r t d ' d d s t r i d dr t u i dd d d d d d d rt d s t d !toEE L EE =! EU' O Ino) -g tc j Eu . E 5B * , od i ll nO. o 8E c, 0 (, (, Ea9E UI O o) rr t r S II J F ttN o= o9 E =a E : Gt r H Hg E EO =G q , 5= : ul l S lt = & @@ @ @ rF ;J ; r j NN q C q q q q q q . q q q C q C q q q q q o o 6 o 6 6 FF F ' - ; ; ;-- N NN 6 <A l < FP oo o 6 N N oo o o oo g c t a a q 1 a c? tt a a a = q c? q u? a q' c a a r EE E E g gB E gA E E E E E Eg E E E E oo o o o o o o o 0 0 0 0 0 0 0 0 0 0 0 0 qt O N -- ;- ; c i NN Es l i ge s BEEE b & I NE R I E S I $ 3 B 5 B E e E $ 3 S ? R ?6 - + { . i d { + + + r s + s r $ + { 3 + = * * . ,, 6 s$ s g g s s $ s s s s * g $ s E * s * * E Ei E B E T E E E E E E Bi E B E T E B E E 19 3 of 2 8 8 Fo FaTE=_=3BEE*5o:zE3 =EeEEoBs o- E (L q ^OoEegeEg 0a ^ BEo l{ ):ttr{6Io6t\GO h b9 - ol 3 -4 -= \U g -- c E Hg E, E I I ^ L- ! H B = 6 F ir ; O A= E R' E or f r . , q +E H; E F E E ?- 7 = S5 ar =o c (o t r (o 0, = o- ii 'ooo-Loo,otr No6tooB&UtoIIJJJFotr l tr 3 3o =E7o ;r-o !,oEE L E3 €Eoo It ll o= -9 @Et . E =o { , =a . 6 oa i ll tr O. o EE cOg( , to9E uJ O o , rn g UJ F tN oP og D =6 : =E H6E E 5s c rr l ! 8 uE &. LOssF$$toN b b9 - o. : g -L - = \U L =. c .H 0) n r =" = ! eE e: ; "r = E n s R= : " i :- : = \r , (E .: _ : ya s ! E= S 5 ; : o E- 0 ' 8. = z= s s5 \. 1 . ; E o c (o t r (E 0. = o_ ii 'ooLEoo.0)g. o o o o o o o o o o o F o o o o o o o o q 3: : : FE u, ui c i r j d d u i si . o dr i d u j ui d d d u i r i c j c i E= = = -- - - F6 o o 6 o o r s o o o o ! a! o ! r a I I I u? I* ! - q Sl d a i r i d r, ci , r i d ci tt ct ct n i o d a, d ! i c i r i H oE E e o - a g E EE 5X T E= E S EEBEEEEE E 6 @ t s @ O O F N g ! O O ts O O O - N O t.O - O N N N N N O ' O O ' O O O ' O O O O f ! 3 = 3 3 X 6 - + + { + ! i id t r + { i + + + + i r + { { 5F s ?) 6 - * * a a c ? ? i l l ! ! q q s ! t s ! ! " d s* s s $ s s s g s * s s g * s $ s s s s E E E I E . E E E E . B E E B E E E E B E 5 E E 19 4 of 2 8 8 (\rod,aoCLo.nou,JJFU)ul E=3o =EZo ;Itt o !toEe EE€Eoo lt ll o) 6 -9 (o 6r _ E =o 9 =o . i D oa i ll tl C' . e EE .s (, to9E ll j O c) ut r E ul F €N .. b og D Et r X bE E -t s E 5s g 11 l t a lt E T OO 6 O F? ri s i d c i NN ts o o o O o o o O o O O O N o O O O o O o o o N o q ri - - - - r rE E F NN o a , o o o o o o o o o o o o o o o o o o o oo o N 6c t o a d d c r d c r o o o o o o o o o o o o ' od o o ON O F FF vs ! t NN OC @ @ F+ J;; N NN o E E E E E E E E E E E E E d E E E E E E E EE E B &E -; -- 6 4 - -6 6 d d c i o o o o ci c i o o cr o c t < i tt b O FF -? ; c i Nd 6 6 o o 6 o 6 (t |. ) t q Q C u? c ? q. q I c? 9 ! d c i ei di r i c i c , o ci a r . i ci c i d ri !) d d c t o 't c qc q c q I q c q q q . ! c I qq q q q 9 3S { 3 3 3 S 3 3 S S $ S 3 t 33 9 t i r 6 6 6 6 6 o O O A A O O O O lO O lo l o lo Q O O O O I ' FF Fi F ii i t d 5 -t it d J c i a i ct 6 d 5 (i, ra o 6 o o o o o o o R NN q. q q q q q q o q q q q q q c q q q q q c e q qc c P F E -- E 6q q !q oq q cq c e q e c c q c €q q c cq c c !q a a a 1 a q a a q q v? a a 1 ! 1 9 a 1 v? cl o t O O @ ts O N - 6 @ 6 O O o - O = rq F 6 N O O O ii ;; ; = : l , i ; d < i ; ; a o i d d + d c t d d . i ci s i o o N N i. j - d i a r o a ! a \ i 6 6 i ' - o O - N oo o. \ l o o Fo o n ilE L - i . d i . F F F F F . . F F F @ F N F F O FO F O dd d d ; s , dd d d dd r i d r i r i r t ut d d s t ut d r i o - b b 8 g 8 5 8 8 t 8 t 5 t 8 P = - g 6- + + * E 86 6 66 66 6 f i ti $ nt ' b &i i i i i it E E= ; ; ; - F i - e 6 F f u' E ss s * g s s s s s B s s s s s * * s s s BB E E E E E E E B E S B E E E E E E E E 9. E E E 9c 9 rl r i ! . E t s E= E E EE ' uEo! !2 cEEF Fo $sE3EE ttxoci e zE3 =f^OEdE ov(,3s o- EEEoEeog C}EgG. ^ ETo=o 19 5 of 28 8 t-.: : tl )-tNoNco k : 1 4 : xo 6 v--= \U g *c 6 qe 3E ,1 ^e c - EF H r= 6 F t o d: E E' 5 O) E - o += E= S S ; : o Eo ' 8. E >r E s5 \, r j =o c (o E (E 0, = o_ €'ooo-too-od. ato(\Io@roo.oU)ouJJFotl l EE 3o El lZO :t t1o oEo . 6E€Eoo Il lo) 6 .9 . o Et E =o , v , =c L B tr ii ll n (J . e EE e, O cs (, E-to9E UJ O o uu 3 tu F s oP o9 t s =q i i EE * =6 t t ,5= P !r n I rr . E p. l. -:P$GIoGI = E^ b b9 F O. : v ** - = fU L =c .a J (l ) dr =' ' = ! EE E: ;; = p ; s o) E - . e +E E- S 5 ; ? o B- g ' s. = \< - (\ l C <= = P? c <o E (E 0. = L ii 'ooo-EoCLot OO F O -F {id d d NN - o O O O F O O (' O O O O O O O - Or O O O ut d ri u i d ri qi ri d ri u, ui ui u , d d d u i 6 o d 3 g 3 3 3. q g: : . q 3 B 3: : : 3 3 E 3; 33 3 3 F e 9. E E E 9 o ! 95 f y ce E EE E E EE ' uEo!EcETF - b h E 8 8 5 8 8 t 8 8 8 8 8 9 = - P E . . + 5 + , i i , i i , 6 , i i 6 3 6 ii n i t ni Ei ii ii i i ni 6' ' b ,, E ss s s * s s s * g s s * s s s * * * * * EE E E E E E E E E E E E E E E E E E E E 19 6 of 2 8 8 No!,0foEooUJJJFoUJ tr 3 io =gZo :I1o r r o * i Q ! a 3 ! I ! u? 9 ! q q a r? . ? a di d i n i a i d c i d r i ! i d d ri d r i c i c i r i c i t t a i o q q . ! q q q q c q q q q q q q q . ! q . ! . ! c 3? t f 3 q s 3 t * ? 3 { i ! 3 ! 3 1 3 f 88 8 8 8 8 3 8 3 8 8 8 8 3 8 8 8 9 8 9 8 66 O O -F 66 6 0 N N E @6 0 0 @ o @ G e € 6 0 € o @ o o o 6 0 0 o o a o 6 o o o € o o @ o o o o o € o o o a a € o ri . ? ; - ; ; ; - - e - - - - ; - ; ; - ; - ;J ; t s dN o { i n s q 3 s s s I !9 c? -q ! q q. t A q q aO 6 t -' al t i c i J Nil ts O O N o o O O O O O O O O O o N N O N N e , c ) N O . o ir r? 6 NN q q q q q q q q q q o o . o o o o o o o o o o o o N oo o c i o c t o o o o o o o c r c t o o o o o o cr o o c , ON O @ FF qr r + NN o o6 6 o F- J;- F NN EE E E E E E E E E E T E E U E E E E E E EH S E E E o o o o o o o o o o o o o o o o c i o o o o d o o o ta 6 O Fr 'j ; ; c i (N N N o N o o ! o o O N 3 o @ I - o O O N O o- O @ ii n" d ( i ; : ; ; NJ N { ; r j F r t ;; d ? c i F ts ; r i o N N E - i i o F 6 @ o O O - O F O O O F N O ? O@ F s o o o o .o F . o . o o F o- F . o . o - o - o- @ _ o- o - F- t o- o - \ 9 - dd . i r t d q t d d d d d d r i r t e dd r t s t o ' r i dd d d Eo*; ' =63h o Il lut = co o( o E6 - E =0 r r t =o . 6 od i ll nOr E EE io€3Eo9E It l O 6 !r r r 3 II J F s OP o9 A :E : =E X 6E E =G ( l ) 5= 9 rr E l! = & Ee s ! ge r 8EEE s6 6 F N O a 6 O F 6 O O ? N O 9 6 O N @ O - G, 6 1 6 o o o o o d ) a ( O o ! a l l r ? ! s l f R 6 - ii ,i i ,i i ,i i ,i , ni rb ti , ni nt n i n i &i nt n t it i i ni ii ni di E EE 5 F = (/ ) E - c c ? ? r ? ? < = ! q ? " E SS S * S g g S S * S g S S S * S S S $ S eE E E E E E E S E E E E E E E E E E E E 19 7 of 2 8 8 F(. ) $e=e==XEYe - E=€5ezE3 =Ee J=uE @vo9q o- E rcogoEe rA8eEe d. ^*:o o,JIsc!oN@ c se ' o (, = ;- o. : z tu : =^ ! 6 ge 3E o d€ E E; o dI o. R' 5 OI E : . Q &j E E i s 5 ; : o Eg ' 8. E \- - G I C <= = =3 c (o t r (E 0, = r €' ooo_Eoo-oG, 6lo6lc)07tsoeoaoLr lJJF(r ) t! E3 3o EgZ, O ;I-o !,oEE L r=o, { , q) @ Iuo) 6 -E ; E; 5 =c , t n =c L d od i ll rr (J . o o: (, LEO€3EoHE II J O rr > ru r t B ul F N o= og E x. e E vE 6 =. E C ' 5= g Ir l l B L= 8 O)sP3NoNco tr s6 ' s 8E _* _ = fU u :e .P (D d! Y ' ' = (E == dr A 9 ; =- I. J o- E a ts i; o a: E R' 5 O) E - . e , b E E: S5 ; : o Eg ' B. = z= E s5 \i j Eo c (o E o o, ! o- ii 'oC)LEoot FO F N ?F uir j d d N( q- q . : : - q q' : : - - -o o r? or o o d d ut d ci d d ri d d ci ui d ui si o ri d at d d 3 3 3; ; 3 3; ; : J; 3 ; . a 3 ; 3 ; 3 ; ;3 3 : 5 e &E E E 9g P EE E E EE E <= * E E: 66 2 pEo3EE L6 6 F N d * 6 O E @ O O F N O S O O N O O -r D 6 1 6o o o o o 0 o o o S f T t Y s s s s s P 6 - ,i i i' i ,l t ,i i ,i i 'i , ,i t nt i, i nt ni 'i t ii ni n i n i &i fi ni n i ni E -= 6 F D (/ t 6 = G ? < = l < a ! s s s t s s s s o. s { N e I s s s s s N { e s q q s s s s s - d. d - d 6 o . 0 6 6 c6 6 qt q, o 6 o @ o o o E EI E E E I E E E E E E E E, E E E E E E B B 19 8 of 2 8 8 No to o o ?- dd s i d NN ts o o N o o o q o o N N N o N o o N o o N o o N o o ?? F- O Na q q q g q q q q q q q c q c q c q q g q c qq q f r o o o o o o o o o o o e o o o o o o o o o o o o o 3N O N F- -ll d NN o 60 0 * i ? o 3 t o o o n o 3 { o ! a o l d € i d i a i d r i d c i r i o c i d r i qi ci o !i d . i ri at q I q q e q. ! q q . ! . ! 6t q q q q q q q n c *3 $ 3 i ? 3 9 ! 9 S S ? q + 3 r 3 S 9 9 6 6 6 6 6 o 6 o 6 o O O O O O O O O O O S 60 6 0 FF o o o o o o o o o o o o o o o o o o o o o o o o P N N 6C O 6 0 0 0 € e o a 6 6 0 @ o o @ o @ o a6 9 € € € A O O @ O Q A € O O O O O 6 @ @o 6 0 f ? ;; ; i l NN c q q, q q c q a q a r? c? a a a a a a. q = a o@oo- rb@ou,JJFol!= 3o EE:a ;I-o !€ ? 3 F F o r N o t ? q a q q - r : 9 t A o or i o i - .i F . n r i o i 6 i . \ i F ; ci c t d ; - ci e n a i o i c i F . i o J d r ' N N Q'6 0 t s 6 t s t s @ O O O N O O O O O D b G F F O N F N 6 F @ 6 0 6 @ @ @ @ @ @ O O O O 6 0 0 0 0 0 F N o o o a 6 o o a 6 o 6 6 6 o 6 o o o 6 6 a 6 0 0 o t EE E E E E E d E g E E E E E E E g E E E o oo o o o o oo o o o o 0 0 0 9 0 0 0 0 t,oEg lE * . ES {t o It lt o) o ot oEt E =o ! , =o . 6 (J i ; ll uO. E EE EO6( , togE UJ O s nn E II J F s eg E =( E s Et r X ee E EE E ll l I 'L = & o@ O O F- .; J i l NN !n O t F- ;; - c i NN EE E ! 5e s E5EE F N O + O O F O O O G N O T O O F O O O F N -9 o o o o O O O O ? ? q N N !l 5 - 6 d 5 6 6 ' & t t t i , 6 , 6 ii i i 6 i i i i tt 6 & i t 6d d = EE 6 F f ?2 F - ? r r l n n r i i r - ! ? ! i * ! - i s O. S S E N {, N A N N N N T A N A N, S Q Q, { A @ o 6 € a o 6 ' E o o . . o lp o E @ o E o o : o o E E E' E . E I E E E : E E E E E E E E E E E E E 19 9 of 2 8 8 Fo gcEE i-TE G,tEx5o=zE3 =EeES@eoEeBEEa o- 6. 8- o=9 =c o s=8EEs NNgsntoN@ B b9 ii o. t g -= lU r- -^ e +- , (I ) dr :f = J! EE E: t; = E 5 * O) = . - a 6= E = SE ; ? o E- g ' 8. s z= E s5 \. i , i So c <o E (! o' ! o. ii -o'=oLoo_o)E (\ loGIooEoo. (t) ct>oulJJF@UJ=(o(C ,co'6o tr3o :E>_ f r ;r t -o !toEg OJ :6o cl, u! l o) troEr =0 , =E L El Doi i ll n (J . o EE EO g( J to9E ur O lt I uJ t- sN(otNco(o(>EB0,to(,oo.oE o o9 :6EE =65= rr !l tr - E NflI*NoNo h b9 ;i o: c -= fU t - -^ c # G ) d r =" = .E EE E: u L' E o F i; o a= t r s' E O) E .' e ,i i E fi ? E " B c z= E s5 \. '! ' ' = o c (o E (E 0. = o_ ii 'ooo-toaon q - - - - q r r I q o - F ? o - ? o F F - i3 ; 3 ii ri o r i sj s i d 6 5 i c , o r j c i d u i r i ui { i d ci d d :l : : : '- ' Fo qq a a u ? q ' q ar a ' q ' c a e a a ' q q q a c i: - q 3 E F oo o o o o o o o o o o o o o o o o o o o "" - ' i -Ee s ! 5t s uEo=EE 6a o o F 6 o o - N o t o O F @ O O - N fl 6 - 6 6 6 3 a ' 6 .b it , i d ii & i 6 6 i i . U &, $ di , 6 6, 6 E EE 6 F f (/ ) 6 e 3 ! l a l i { i < t r t r r i 3 s r s s rL s s s s s $ s s s s s s s s s $ $ s $ s s EB E E E E E E E E E B E E E E E E E E B 20 0 of 28 8 201 of288 Calibration Detail Plant West ValleY Power Plant Report Period: Cf,11912024 00:00 Through 0611912024 23:59 Source:cT2 06/1912024 03:15 NOXHI 06119t20.2403:15 NOXHr60 0d1912024 03:15 NOXLO A6n9802403:2A NOXLO60 c6,n9n02403'.20 02 0€/1912024 03:15 o2_60 06/19/2024 03:15 0.2 0.0 0.0 0.0 0.0 0.0 0.0 2.0 0.0 0.0 0.1 0.1 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 110.1 1U.7 1U.7 9.0 9.0 21.0 21.O fEriti::l+El 10e.6 187.5 187.5 9.0 9.0 21.1 21.1 WESTVALLEYDAS \rEnodlrser 0.3 20.0 STD Passed Yes STD Passed Yes 10.0 STD Passed 5.0 DIFF 10.0 STD Passed 1.0 DIFF Passed Yes Yes No Quarterly Type Calibration Records Found catibrationEnor: @ I.Jara-,ffil RQort Generded:6f2M4 14:6 Report Version 4.0 Zero Level Span Lwel Results End Date / Time Reference Value Aclual Response Cal Error Reference I ActualValue I Response Cal Enor Cat Limit Enor Method Pass/Fail On- Line COPPM 202 of 288 1of1 Calibration Detail PlanL West ValleY Porcr Plant Report Period: OOl20nO24 @:00 Through 0612012024 23:59 Source: CT2 Zero Level Span Level Results :nd Date / Time Reference Value Actual Response Cal Enor Reference Value Actual Response Cal Error Cal Limit Enor M€thod Pass/Fail On- Line COPPM 06[l0/2,g2aQ3:15 NOXHI 06/202024 03:15 NOXH|60 cfrzo,tfr24g3'.15 NOXLO 06,mm24O3i2O NOXLO60 c6r20m24cE.:n 02 06DA1fr2103:,15 o2_60 O6t20t?o2403:15 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.2 0.0 0.0 0.0 0.0 0.0 0.0 110.1 1U.7 18r'..7 9.0 9.0 21.0 21.0 109-E 't87.1 1E7.1 9.0 9.0 21.1 21.1 o.2 1.2 1.2 0.0 0.0 0.1 0.1 4.3 0.0 0.0 0.0 0.0 20.0 srD 5.0 STD 10.0 sTD 5.0 DIFF 10.0 sTD 1.0 DIFF 2.O DIFF Passed Yes Passed Yes Pased Yes Passed Yes Passed Yes Passed Yes Pa$ed Yes No Quarterly Type Calibration Records Found Cdbratim Enoc @ frEE.I i-@@Eili WESWAIJ-EYDAS kaJtdftr*efReport Geremred:. 06f?ot24 14.u ReportVe,3im4.0 203 of288 ldl $loo6EoECDotuJJFoUJ E3 !o :EZo ;I-o 3 3 ; ; ; ; ; ;; 3 ; ; ; ;; ." : ; 3 3 3 ; 3 : : FF OO F F F t s F t s F N N F N F F t s N t s F F F *i + r gs s s q * 3 s i g q +3 + q i g 66 6 O O 6 O O O o S O O o O 6 o o r O r O O 06 6 6 _ F iiA E 5 i t e i 6 o F F o i 5 - i i t ( i - o - o o o o oo o o N N F oo o o o @ o 6 0 @ @ a @ o o o o o o o @ O@ O F FF ;- ; d NN oo 6 @ o o o o o o @ o @ @ o o o o o o o 6@ O @ @ O O @ O O O 6 6 0 0 0 @ o o 6 a \ a o? q'q q q q c? ol c a a q _q c I r: . q I N -o * F - F a d sn s B E s E E E BN B t i i sB 6 6 E u ad s E ** ts 6 6 6 6 q i c t 6 o o @ q t € o o o € 6 o o o 6o 0 o ;' ;' ; ' o ' ; .; ; d d c t r t d s t d d d c t d s t d q i dd d R N N o o O O O O g o O O O O O O O O O O O O N O i -- E = E E = E E = E a 3 5 E E E E E E E E E 65 E N ** ;5 ; - - 6 6 6 6 a d 6 6 d c t o d c i c i c i o od o e FO N O ?? *i- N NN o O@ O o -F -; - c i NN E g E EE E E E E E EE E E E EE E E E E EE E E F E 6' d d c i d c i c i c i o c i o o o oc i o o o o o o oo o o 46 O O F- ;- ; . i NN o Eo*= ' =. 8aD o Il lo=o@Fa . E =O ! t , =c \ 6 oi i ll rt Ot o EE co (g ( J Eo 9E IJ J O o,) un $ UJ F N -B oI E Et r X b€ E =6 0 ) :E ( 9 ;n I u- E p EE E E E E ' EE b ts x s s 5I B e 5 $ I S I e t 3 g I6 s I 9l t i - li B i i i ; i i i ; i , .i , ,i, i (j ,i , i ct o &i d, o i i &, .i r i ".i = EE - i i F 6 F f o 6 ss * $ $ $ * $ s s B s s B * s s * * s * BE E E i E E E E E E E E E E E E E E i E 20 4 of 28 8 lsIIIII Fe 5= 8 =E*=5E t*<x!O=z?eOE=B^ OEdE g2 voo^=ea- E o- a ^Oo=^ a- EO- a ogo-3-Es=8E0a ^ }Eo= () (v ) tr , c. jFil'No(\ I\9J - =a (! cr Y 6 v- to t -c - l .. P G) dr Y ' ' = (E ;< 6 t A^ o E - i - H r < 6 F id o a: E 8' 5 o) G ." Q n E Ei g S ; ! o Hi a' d. = \< . - N C ,5 = bo \: j So ) E (O t r (E 0: = (L ii 'oq)0-ooq)g. 6tb(\(,oE6'@oulJJFoUJ36(G ,t.eoo g3o .: j ,G==o ;r r -oEoEa - EE .l = fit oo It ll .n ) oEr :o=C LEEoi i !l n (J r E gE -oE( )Eo ,f i 8 nI ll J F- a. ) q, lstNo(ooR6oco(9Eo.otr o o9 .= 6TE =65= il l l L= c. ) |r )3$No(\ Ia L a- o o Gr : f ts t -c - l 6 ge iE ,^ \ ^v c- E- H r < 6 F ki o a= t r 8' E o) t .. q ij = E- S 5 ; ; o Eo ' 8- E Z= s SE \. . j Eo c (o t r o o, = o. ii 'ooo-Eoo_ot ?O ? O -F si r i r i d NN O? F O O - O F F O O O o ni d r j s i d ci d d 6 d d d d { i d c, d d d d o 3: ; 3 : - ' c 3 ;; : 3 ; ; ; ; 3 3 3 3 3 3 3g E [ r r 9E E E 9s 8 EE E E Ei u sEo: ECE. gEa tF n *- EI H E H E $ 3 ; 3 8 i 3 ; I : i q - E E $ f x E E ; ; - i i ? ? - 6 J o f ., 6 ss * * * s s * * s * s s $ s s * s B $ s eE E g E E E E E E E E B E S E E B B E E 20 5 of 28 8 Nod)Loo.oootrJJJFoII J3 3 o e o s tI ) . o o o D o o q a q. q ! a q ! Y? .i d c i c i c i o d i d d ct r, at o o o o c ' o o o o E 6 N t s t s F N ts F ts t s N N F N t s t s N N N N N O N O F' ] +; ; { + ; { ; ; ; ; + i s o s ? s + e '. o t ** 3 g s 3 3 B 3 I B I I 3 B I 3 3 g 3 3 S E B3 3 E rF :3 3 3: :: :: 3: :: : : :: :: : : 33 3 i nr q c q q q q q q q q oq q q q' q oq I ! e e e ul u l q q c! q q q (| c? q q s? u? r| q q ul q c q jji * 60 0 0 ?? ci! i d c i NN F o f l o o o o o o o o o c ) o o c? Q o o o o a 6 N o N e ? .F N N N 5 5 5 5 b 6 b b b o o o o o o o o o Q q o oo o N ;; E ; ; E 6 - E - E - d o o d o o c ; o o oo c i o oo O O eF -- - F NN EE E E E E E E E E E A g E E E E E E E E EE E € E F X E =; ; ; ; E - 6 - - 6 6 6 - 6 o o ci o oo o o 66 0 0 ?? J; J J NN 3o .= := 7- r a ;r r -oE'oE3 o+ , €E u) o Il lo) @dc.c6b oEr =o =o . Eg od i nr l (J . o EE e, o c( ) to(r = fi 6 InUJ F tq!ttNCDlo(>8PocooEoIu o o9 :65€ =65E il l l lI = oo o o o o o F o O o o o c ? ' ! q \ r : a ' i - qq q e = E sr s s s g g $ g E E H E E E $ E E E H g. E g . S ' . ;' ; ' ; ' ; ' ; ; ' ; - ; ; ' ; ' ;' ; - ; ' . t ; " i 6 6' 5 t d r, ut d r t d NN:i+Noc! = o^ Li ( , (E (f , Y cs t €= 6 ge rE o E€ 6 E; o a= 0. 8' 5 o) E .. q +' E E> - S 5 ; ; O Eg . BE >= E S6 {. - =o C (O F (E 0, = (L ii 'oo(LEoot 9E E E *s B EE E E Ei ' uE€E5EC6 - b 8 8 E 8 8 E E g e : i ? I P e = P e R f i S I E- II + I I I = i : : : ! : : : i : S : : J =F s co 6 ** $ * * * * * x $ s s * E E $ B $ i E E er E s rr E r E E E B E E E E B E E E E E E E 20 6 of 28 8 I' rE=e *=9g teXEo=zB3 =tedEat eoo^ =9o- E o- eoeoEeogEaE^ I*o=o olo6lbotoo6'U)oUJJJFotr l E3 'o =EZ| o :- n lo=toEo . EE€E aD O Il lo> CO o. " ; Eu . E Eg B oi i !l n (J r o gE 6( ,Eo iEUJ O q rn $ II J F eN og og D .= 6E€ E 5s g 1t r e tr - E B - q q q q q c q q q o o q q q q q - q q e P; e ; * EE d uj dd s t uj d E ri 6 r i s i si ri d d ut d si d s i :: : = -6 3 3 3 3: 3 3 3 3 3 3 3 3: 3 3; ; : 3 3 33 3 3 EE &E E t Eg P EE E E Ei ' pEo5 E'Ep s *- $g i e e i e $ i i i S i l E l i ? ! I $ ., E i$ E E E $ E E E E E E E E E $ E E E $ E b E B B E . E T E B B E E B B E Bi E E E B B c{q!:sNo6lo, e =4 . (E (O : < ru t €. = E gE :, E f) . , " - C = F - ;; = E E H o) E .. Q +' E EZ S S ; ; o EO ' 8. = \< , i - N C <= = P? C @E o o, ! L ii ' -9o(Loo@t 20 7 of 2 8 8 Noo6EoCLE@oUJJJFoul tr 33o EEzo ;I-o o o o (D o Q 6 Q q c q t t t: t : q q oq ! ol e d d r i r i c i d o o oo o o o o ') o o oo o o ':' : \\\ \\ \\ \ F -. F F F' ? F ! O ! +q < s s s s s i + r i d d o t dd s g + 66 6 6 O 6 6 D O O O O O O A O O O O g ) 0 at -t it 6 ii r t 'i 6 o c t o o o o o o o o o o o OO O O ?- oo o o N N F oo o o o o o @ o o o 0 € o a 6 Q F t s F F c eq q eq q q q q c q q q q c\ \ \ \ !: 60 0 D 6 0 0 0 0 0 0 6 0 0 = t 9 3 a 3 s @N O O ?? ci c i o d NN F Oo O O o o O O o o o ! t T l o ? { O N ! t Q! ! ! t r = = o o o o o o o o o o o o o o o o o o o o o oo o N a - - a 6 o o o o o d o o o o o o o o o o oo c r o oO F t r- st d c i NN o 6N O O -? ;; ; F NN 6F O ? -F JJ J F fl N Eg S E E E E E E E E E g d E E g E E E E EE E E * ' ;E ; - - - 6 - - - 6 - 6 - - d 6 d o o o ci . i d c i 6< 6 6 rr ;, j . i o ' N A o 6O O * O O O N O N O O F O F O N O O N 9 i\c ? q = = E i J d ; e e u s $ u ;; e $ a c b I E s ui B B -* b' @ 6 6 6 6 c 6 o € 6- 6 - 6 . 6- @- -- €- e . 6 - €- o - o- o - @ ! F J dd d r i d d d d d c t d d r t o o ao a o o o oo o 3 E'oEo . EE +i $ ]D U' il l lcn ) 1! < t Et - E Eg 8 tJ ai !1 rr (J r o EE E( J tl sto9E Ul O r rr r s ur F S f! -6 9E E EC t a EE E 5s g Ir ll 8. ll = E SE E E Ee € 3 = r i i. e i i i 3 E 5 $ E $ g g ! ! g E EE E E E E ' ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; E s EE E E E E E E E E E E E E E E E E E E B - 20 8 of 28 8 ,H H= NFo =^BEE3+zXE9g E,*5ci = z3B=Ee dB aD e (9*egeEe8sEgG^E5 o ocPreNoNo, E E9 of ;E +, o ) a = " = (E = q 6E ar 11 c- E- ;; = E E S (, ) 8 . . e +E H; E F x E >= E S5 a, i ; so c (o t r (E 0, = (L ii 'o0)TLEoo-ot 6loGIoEo0,UJouJJJFU' IU tr 3 ;0 =Eeo :r r ,, o t,o3c L EE .a =oo Il lch = 6 -g .o Ea E EB B oi i It rr O. E gE 6Oto9E UJ O q rn S EI F +s! o9 9E B =g i iEE t =G O5= : sl t l e rr . 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I I \ \ \ ts n l s s s s s s 9 s n a l s s S S s s B 3 I B B g g B g 3 3 g B B B B 3 g g 3 B 33 3 8 eF c q q q o? q q q q ol ol c ! o? ol ol o? ol q al c c ri a i c i . . i c i 6i ci ai N N a i s i 6i o i N N N N N N Q c q q q q q q q q c q c q q q q q o! qq eq si ai di d 6 i 6 i .i c i 6i 6i d 6i N N N N N N N N N = M 3 ! I 3 i r ! ! a q q q . ? q q c l c? Ai ^i Ai . i c i a i s i aa ni 6i sa a N N N N N N N N N O O d ? O F O N O h O O - O O O O O O l : ? o o F N F_ Eg g E g s s g t * * g g g t g * $ s B B gr g [ " ' o o o o o o o o o o o o o O o o o Q I Q o oo o o Fi F ir E F NN e e E a q q q c q c q q q q o. q q q q q o o o o N o o o o o o o o o q 5 d A o o ' d o e o o o oo o o Nts F F FF {{ + o ' N N 6 OO O N -F c. i d r i J NN @ 6O O O -F Aid F i ; NN @ EE E E E E E E E E E B E E E E E E E E E EE E E O O ;= ; E E E - 6 6 6 - - A ' 6 6 o' o o o c, o oo c ' c i ?O < O -- ^i . i . i oi N N (o?@ortNoN E Ro o (o Y c t -c - ! E gE XE A ^O E_ : F H T < E F id o a= 0. 3' E E: e g ? E o Eg ' B. = - Z7 S S5 as tl o r c <o = (0 0, = (L ii 'o(D(LLoog. E'gEa - EE€EC" O nl l o= -9 @Et . E Eg . r oi l i ll nO. o EE 6( ) ., r ^ r ov9E ut O 6 rn E Ul l - o rl -. o o9 E .= G - he E to EE E 11 l l g u. E & 3E E 6 *g € EE E E Ei ' uEo3E: eE E ;= Es B E E S S B E B E E B E B E E E E E a @ E EE E E E E E I $ E$ E E H $ E $ H E E E e 21 6 of 2 8 8 G.F() Fa teEA==5Ed. t<5sz3g=Ee dEcD - (9Bs o- t s BE (JEe o- 6- oo , o=g8EE^E5 (- ) (\roN()ooo)ooUJJJFU) l,r J s3 B0 =E=o ;n-oEIo=3 !r f€Eoo Ino= 6 .9 . o E6 - E =o o =o . 6 oa i ll u () t o EE E( , to9E Uf O .o [[ 3 UJ F O t eg B .= q t : EE f i EE € rl l BE= & oO O O FF dd d r i NN o O- O O F- ci . i r i d Nq N 9E E E 9g P EE E E EE E .= s 5 fEuEo3Et r TE oo o o o o ( , o o o o o o o o o o o o Q o ; ; 6 ; 6 6 o- , i rr i u , d d ut d r , € 6 9 uj d aj ;ii F6 6 o O O O 6 6 O O O O O O U! rQ (9 I Q rl O ; J ; ; J - ; d i o ci o ri . i r i di di o c i . ' i rt ri B g= EE E s E E S g s s B B B B E E B E E E E @ 6 HH E E E E E E E H E E H H E E E H E E $ (oo6o$GIoNo e s6 ' s 8E ru : -c ^ ! E gE TE 6Y c H 4< E F ii o a= t r s' 6 H* c $ 3 E >= E S5 <1 . l Sl o c (o g G O, = 4! | .go(Looot 2l ' l of 28 8 No aq g q q q g c ? ! c ? 6 @ O O O O @ O o a 6 6n o o F - oo o o o o o o o o ; ; ; ; ; ; ; ; ; o r i rt t j t j * * NN N t s -- <? + d NN o 33 3 3 8 3 3 gB B t s s B B 8 3 3 3 B 3 8 66 6 6 FF oo o o NN F o o o o o o o o o o o o o o o o o o o o 6 O O O O Fe _ - _ r FtN NN b b b b a 6 o o o o d o o o o q q q q q o oo o N ;; ; ; o- - - d 6 ; 6 o' o d o o o o o o o oo o o NF F t s F F N F F F N t s F t s t s N t s N F F t s :; ; ; + i = i; = + = ! 3 i +3 ? + s < 66 o 6 o o o @ o o o o o @ o qo q q c q c q. q o l q = = - aj 6i. i . i ci s i Gi o i n i N I Gi N N N N N N N N N'* 8 "" o o o l ol q q oq q .q q q q e 9 ? 9 9 I ? 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(d :1 A vr-= tU g =E .P G) dr =' ' = (5 = i 5E tJ L E E F a a o d: 0 ( =' 5 oE .Q dd = H? g F B E >= s s5 a' : . ; Qo c (o t r (E O, = & ii ' .ooo-Eoon oEe . ==O+ . @ ct ) !l ll o) oc E c o - D HE E E F E F r= g E EE - u, o z sEo= ECEE -F b : 9 9= P 9 R EN RX & E N f r fi 4 f i $f r T E E= 88 8 5 8 i i g 8 8 E 8 8 e e s e B E 8 8 E 6 F f O 6 $g g E s E E B E E E E $ E $ g E g E $ E 21 8 of 2 8 8 6toN@ofEoIaoUJJJFU)UJ tr 3 3o EE7o :u,, o oEc L EEEg oonl l o= o .E ; Et - E =o { , =o . 6 o6 ; It nO. o gE oOto ,i 8 6 , un s UJ F : N oR o9 E TE E 5s g nl l B u. = E rlc.)cdorfNo^$v 6 t9 i- o .ic -= \U L =< +J (D d! =' = .A AE e: t; = E 5 x E: s g ? E o E- 0 ' 8. E >= s s5 a: . ; $o c (o E 6 0, = o- .i i ' o@o-oo-oE. oo O O -- dc i d d Nq o oo o o o o o o o o o o o o o o o o o o o ; ; ; d 6 6 d 6 d r i d d 6 ut ci d 6 d ui ci ui 3 3 3 3 3 3 : 3 ; 3 3 3 3 3 3 3 : : 3 5 3 3i E 3 xr BE E E Ee € EE ! E Ei ' oEo=EE . b : 9 9 = 3 3 R F S R i & R n R R 8 5 $ S 3 E E= 8s s 8 ' 8 s s 8 5 t ' ss i i i i 8 5 8 s 8 5 s O E EE E E E B E E E $ E E H H g E E E E E B 21 9 of 2 8 8 c.loC)c2oo(noUJ)JF@lJ l tr 3 Bo :j ,Zo ;i l., o OO @ O FP did i d d NN F o O o o o o o o o o O o O O g Q Q I o o 6 o o o o F F -F N Nfr b b b b a , o o o o o o o o o o o o o o o o o o o N -; - - 6 - 6 ; - 6 A c t o o ' c i o o c i o o o oo o o FN F F . F d! + o o ' N N o ON O F F- .i6 i d 6 d NN o 3 3 E E g 3 3 E E E E 3 3 E g E E E E E 3 83 3 : -- 66 O O O O @ OO 6 O G 0 O 6 @9 q q o @ ; ; ; ; ; ; ; ; ; c j c t ; d d o ci c i s i d d i d F F F F F F F F F F t \ \ t \ t\ \F : !: F : ss s q + 3 1 i T 3 1 9 i 3 t 9 3 9 i 3 + gB E 3 3 8 3 8 B 8 3 3 B 8 H E E B 3 B 3 OO A O F- oo o o N N oq ae I q q 0 q q q q 6 6 6 o N F ts N N F E N N N N N N N N * * o i oi a i c, i c i .i c, i .' i . ' i $ i .i @N 6 F FT A;A i ^ i c i NN o o € 6 o @ a @ o Q @ @ o € q t t:F - \ \ \ \ .( G i A i 6 i . i 6i. i . i 6i. i 6 i 6i N N N N N N N N N o o o o o o o o o o o o o a N c l . ! q' ! ' ! c! ., i . , i . i Gi c. i G i .i . , i c i o i ., i . i ^i N N N N N a N N ON O @ F- oi a i 6 i t s NN s r q q q . \ s q q a e? q - C ! e ? -u ? ! ! cl 9 : : 9 9 eE EE g g g E B gS g B H E E E E H S E E g g. H E . E . -' ;- ; - ; ' ; - ; ' ; ' ; ; - ; r t 6 d r i o ri s d r t d d d o6 6 0 NoojosNoN E Fo (t r t ;E +, 0 ) d r Y ' ' = A^ E E _ E : r- r B= E F t o a: t r 5' E o) E . . U €= H? E F B E Zi S S5 (. i ; So c (o t r (E o, = o- i j ' oo)L?oooe o oEa . F=@- oc D Il lo= -6.9 .r ; E: r E =o r n =a . 6 oA ; ll uO. o EE cOrs (J 0, - r ov9E II J O o nt r ; IJ J F Oa oR o9 D =G ' : he E EO =6 ( D *= o ;r r I 'L = & 9E E E ig I EE E E EE E <5 9 E eI 66 4 EE BC6. es6 -F E E= EE s B E E E E E g * g B E E E E E E E a ' E E$ H H * B E B B g $ g $ E $ $ g E E E E BB B E B . 22 o o r 2 ' B II,b iIiII Ea xxo5z=eE=XE VD2:t<xoO= 2qA=B^ OEdE ovO^ >e (E^OoE^ o- E l! oogo - =!tr o==UENE o (\ to(\ l6qEc6,aoulJJFout E3 30 =EZo :t tIoEoEeEE =6oo I1 1o) o o@Et . E 5B B od i ll tt O* o gE c, o 6( J tl sto9E tl l O o [! t ; uJ F : a oE S -L O :G : EC X 9E E =6 q ) i= o ul l S E= & OO O o F- si u i d d NN q q q q q q q q 9 q o o o o @ o @ o o q C 3I 3 ? lX aj c i . i cj . i d d d ci s t d d d c i Fi d ci ct r i ! i c i a" - R - ' 9E E E !s * EE E ; Ei = EEE'EE F 90 0 0 0 0 0 0 0 0 e o o o o o o o o o o oo 6 0 0 00 0 0 0 0 0 Q o D 6 0 6 6 0 0 _ E +e s 8 6 $ 8 r E B E b 8 8 8 5 8 8 E 8 8 B H E= si i s s s s a E s t s s s s s s s s s s s (D - E < n r l - l l r l l l n i ! r i r a l l = q S SS SS S S SS S S S S S S S S S S S S N f t f t N , R i l N C N ( N d N H N N N d N N N EE E E E E E E E B ! E E I E E E E E E E NIo,or+(\ IoNo E S9 F O : ' -= fU L -- c .F , (t ) ar Y ' - - I eE q: ;" ' = E ; s '!- : ..: .-. - H' S E 48 5 b E5 * EE )= s s5 <L ; ; No c (o E (E 0, = L o. ii ' ._ Q(t ) (LEoo.ot 22 1 of 2 8 8 (\ lobdJEIo(f tI JJJFoUJ s3 io =EZ, o :Itt o !,o=E Lee =( Eoo lt ll o) (D O6Et - E =o 9 =C L E oa i It nO. o EE oO Tl r8o fi E rr r B ul F o & -b o9 - E .= o : s- t r X bE E ES E E li t l BE= & @o F o ?r dr i . r i d NN F O O O O O O t O o o O O O o O o o o o o o oo i 9 -- -F F NN b o b 6 6 o o o o o o o o o o o o o o o o oo o N 66 - 6 - - A a 6 6 o o o o c i c , o c , o o o oo o o i: i : :: ; : i i: i i: : i i: t : i : i i 5 sx E B g g B B 3 3 B B g B B B 3 B 3 3 3 s B 33 B E FE c? l q q q l ? c q - oq c t t q o N o o F oo o oN q 99 1 I E E EE B $ e H E $. E E E EE H . E E€ Bs . E E s. E e _ s - - du t s t s t d r i d v t d D d o o o a oo @ o o o oD a o r: T : \ q E \ t \ \ \ |: \ F: \ \ \ T: \ \ \ L N N O O PF ci c i ., i . i ^i si .i . i c, i * il c, i ci oi * o .i ai .i c i G i ^i . i . i S t - FF N t s t s F N F N F F l : F \ r : \ t \ \ n t s FF F F F T li l i ; i I l. i :. i I ; i i i i * oi .i .i 6i .i ., i .\ i . , i .i .i .i o i . i S *' EE E g T E T E E E E E g E E E E E E g E EE E ! O O -c i c t c , o d c , ci o o o o oc t o og o o o o oo o o NN O O -? .i . . i a . i @ NN 9E E E ! c ! 6 t t = ! 6= E= E E EE ' ECEE F o6 @ o @ o F oo c ' 60 0 lD 0 0D . D o o o ; ; ; ; ; ; c , ;'i a , o c i d ci d i d , ai t c , c t d q 6r q q q c. t q n + N N d N N N N N N N d N N N N N N N N c * c i t i .i . i . i .i c i . i 6i c i r i - b RF N R E R R N R R s 6 S S E E S D S B 9 E E= EE g g s s s s s E B s s s s s s s t s s E F ) ' E EE E $ E i H H E E $ E $ E s E B E B H B EE E E B i 22 2 of 2 8 8 orfo;o<{ ' c{oNo - 6l- S Bl t tu : -c - ! H gE 5E .^ o = E- U L€ E ts i; o d= t r R' E H* c B ; E >= = s5 ai , Ql o c (o t r (6 0, = rL ii 'oo) (Loo-o) e F(J Ec=eB3 tt=xl ,o=zE3 ==^OEgE (9o^EEEEoF= *ELOog o=3==U} E^ *>o=o (\ loNc)IEctEanoutJJFU) IU tr E 3o EI E -= o :r"oor3 =! go0 Il lo) (o -E ; Et E 5t 8 od i ll tt (J . E EE c( , to iE lr J o nn ; tu F o x oR 9E B .= ( E : 5E * Es € nl l e u. E & oo o o ?F ri d d s i NN 3 3 3 ; q 3: i 3 3 3 3 3 3 3: 3 3; q S 3: 33 : 3 Fr EE g E E E $ 6!cb ts oo o o o o o o o o o o o o o o o o o o o ; ; ; ; ri i A G 6 s, d si v, si ri r i d d si c i o 5i i? r - E E= E$ E $ $ g $ E E E B E E E B E B E B E E 8 $, ec E E E $ $ E E B E E H B E E E E E E E os6io$Nohl\o c e! ? ' o (o : f co t iE 6 ge =' E o d€ 6 F; o dI t r R. E E: s g e : o gi 0' B- E Zi S S5 ai . ; $ o c (o t r (! Ot ! o- i i - .e!(l)o-Eoo. (1 ) e 22 3 of 2 8 8 224 of288 Calibration Detail Plant WestValleY Poter Plant Report Period; CFrt2012024 1 1:00 Through 0f,[2ODO24 23:59 Source: CT3 C61?f,ffi2411:23 NOXHI 06mr202411:23 NOXHt60 c6mm24fi:23 NOXLO QOf20l?0,2411:28 NO)GO60 0612012A2411:8 o2 c6mDC24 11in o2_60 eEi'2$t2t2411:23 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.3 110.3 185.0 185.0 9.0 9.0 20.9 20.9 107.4 186.8 186.8 9.2 9.2 20.9 20.9 1.5 20.0 STD Passed 5.0 STD Passed 10.0 STD Passed 0.1 0.'l 0.1 0.9 Yes 0.1 0.1 o.2 5.0 OIFF Passed Yes 0.1 1.0 2.0 10.0 Passed Yes 0.1 0.1 0.1 0.0 1.0 DIFF Passed Yes 0.0 2.O DIFF Passed Yes No Quarterly Type Calibration Records Found cahretonEnon @ I.E,EFI Report Generded: C6t?ol24 11:31 Report Versim 4.0 WESWAIIJYDAS VnnYtrcer 225 of288 Zero Level Span Level Results End Date / Time Reference Value Actual Response Cal Enor Reference Value Adual Response Cal Enor Cal Limit Enor Method PasslFail On- Une COPPM 1dl Nooo5Eo.0) (/ )ol, l JJJF(,UJ3codo6ool (. )sNoN(ooEEoEooEooou Bo .= E '= 6 :i l,, a !,oEc L EE€E o cl , It tl o) -9FuET E6oi i ll nOr o EE cOgo (D A ov9E ur O il l l IJ J Fo o9 .= 63e =l E5E il l t tL = O O o O F O O g (o O O O 6 O A 6 O O 6 O o 6 O F t F r d d c i a i d c i d d r i d c i o ri a o r i c i a j s i r , d ri d a i r N( N O O O O t O O O O O O o o O O O O O O O O O O q S PF F- t s NN q q c q q q q c q q q q q q c q g q q o o o o o q '' " oo o o d o o oo o c , o o c i c i o c i o o c i c i dd o o aa - - -- << d J dN o 66 6 6 ? - o6 0 0 qN ts \q q q d ? q q a \ - q q . ? \ q q t q q - @ o? o e - i ; F , i (i si s c i 6 - oi a c, N ts 6i o c i ; d $i F ., i o i c i d NN s o I s s ? < ! ? N ? 6 0 3 6 0 e o q ! o i N 6 6 o o @ o o o o @ o o o o o o o o o 6, o o o o o o F dd d d d r t d ri { t d d r i r t d d d d d d u t u t dd r t . r ' N OO O a F- d6 i 6 i ^ i Nd O e O O O O O O O O O O O O O O O O O O O OO O O -- ci . i . i . ' i . i ^i ci c. i ^i .n 6 i c i 6 i 6 i . ( c i d . i G i c i o ci 6 i 6 i G i NN q ! 9I3 S ! I S ! = S I S t = S O ! ? ! = !? 6 6 F- E I 8 8 8 8 8 8 8 8 8I 8 8 8 I 8 I 8 8 8 88 8 8 ** o o o o ci c, ci o c i c i o c i c t o o o c i o c i c i o c i d o o O@ F F FF -- - f i NN @= E C 6-6 cE E g EE U pEo=ECu_EEF @6 O O F € o @ € Q O A € @ O O @ O O O e +q i + 6 g s 3 r s + + + s + s q e + s s oo o o o o o 6 6 0 6 00 a o o o o o 6 0 oo o o o o o o o o o o o o o o o o o o o cq q q q q q q c q q c q q q c q q q q c NN N N N N N N N N N N N N N N d N N N N cq q c q q q q c 9 q 9 9 q e q t 9 q q q EO ? O @ F @ O O F N O { O @ F O O O F N O a .9 Y: I S ' : q I : Y? {' Y ? { l Y? Y ? Y l ' l l { ? Y ? P9 9 9 6 O- N N i l N N N N a N d N N N N N N n O o o o = EE 6 Fr f , (D F ! = i ! t q < ! r < < ! s ! = q ? e ! ! = qN N N N N N N N N N N N N N N N N N N N N ts t s B a B B b A 6 6 a B - B 6 A B - b t s - NN N N N N N N N N N N N N N N N N N N N 88 8 8 8 E 8 8 8 E 8 8 8 8 8 8 8 8 8 8 8 22 6 of 2 8 8 c)ICOrrtNoav = s6 ' ru (o : r ;- og -a lU L -^ c # 0. , d! Y ' ' = -a : E e: I I n -: = ! ;a = e I H O) = . . e c. i = Et s s ; ? o E "O ' 8. = Z= S S5 <L i - Cl o c (o t r (s C) . = L o_ ii 'o^oLLoot (\ loNoooo-oU)oLUJJFat) lr l tr B !o EEZo ;I-oo=3@+ . €;q) o ll ll o= @ -9 6Et . E =( D 0 =c r . d od i ll nO. o EE EOgoEo 9E ut O N nn E IU F tN oR og E EC H bE E =a E o i= o It l gE= & (7 '?:tNc)No E S9 ;- o: g -= tU L -- c {- , 0 , a Y " = .A eE e: ; B= p u s o) 8 . . Q &E E: S 5 ; ? o E- C I ' , 8- = >= E S5 <L r Sl o c (o E (E 0. = L ii 'oLoo- too-o0a cq q q g c q c q q o r q q q q o , 1 q q q q o Qe ! \ E i 3 o o 3 o 0 o a s ! ! r s ! D t o o s v + =: P 9 "' - c? q c? q q c? q q q : 6 o o o 6 a @ o o 6 q 1I ; q 3 l l ci Gi d d, d r i c i d d r i o r, c i d ct c i a Fi di d o $E g E E E ' ECEE !o C o 6 t s 6 O O F N O l O @ F € O O - N O _ o i+ n e t + a 6 6 6 6 6 0 0 0 D D o o o o H 6 - N d. i 6 \ i c, i a i d\ i il oi c i i i c l d i . i c i 6i o i ci rii d, t d, i di = EE 6 s f 9) 6 * r r + l l l a r r l l + l = n r i l r t -. d ss s E s s s s s s s s s E s E s s x E E N N N N N . N N N ( N i l N N N N ' N N f l N N N BE T S E B B E B E E S g } E E E E B E E 22 7 of 2 8 8 (\Iob6Eo-6)@outJJFat )UJ E3 =o .: : i i ?61A 6 rO OO t* l 96 0 0 0 0 0 0 00 0 @ o o ci c i c i o c i r t qi ci o c i r i d c i . i ci ri r i d Fi d i ci oo o o o € 3 0 0 € € o a o @ a o € a @ @ {l t i t i 3 i! i { ! 3 s n s 3 3 3 3 3 6 6 o o 6 o O O O O O b A o O O 6 o 6 6 D 6 0 0 0 Fr oa o o o o o o o o o o o o o o o o o o o oo o ( i r N N ts q q e gq - q i- ' : q q q q q q q q q q c NN N N N N N N N N N N N N N N N N N N N q q q q : - - - -': ' : q q q q q - - - q q NN N N N N N N N N d N N N N N N N N N N Oi O t -F dd i d i NN N O O O O O O N O O O O O O O O O O O O O O O N O N FF F? t s NN o o o o o o o o o o o o o o o o o o o o o o o o N ci ci c i o c i ci o o o o ct c, ci c i c t d o o o o o o o o o oq o a ?e ss s g Nd OO F ! FF 6iG I 6 i . i NN OO - O -? d. i . i c i NN 6t O O -F oo o 6 N N oo o o dc i d o N O N - O O @ O O t s - O N O 6 ! O ? O S ts N F O O -F ai F o o d F Gi .i . i od o o ci c i ! - d ci d .i o 6io d F NN N ? 6 0 0 ? o - r o - < s o o s q r o s o 3 N n 6 I O O O O O o ) @ O O O O @ @ O O O 6 0 0 0 0 0 0 N rt r t d r i d d d d d d y t r i u t d r t ri d r t d d c t dd d d N llgEo . EE€E oonl lo= gdEt . E =o o =o . 6 ai ; ll rO" o EE 6( , tl -to9E IU O N nr 3 ur F $N OH OP E .= E Eg HEE E =. ! @5= 9 u[ g '! . & =l ? G 6 6 6 6 6 6 6 D 6 i t 6 0 D 6 0 i 88 3 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 ci c i c i c i c i c i c t c i c t c i c t d o c i o o o o o o o OO O O F t s F F F F F F F F O F t s t s F F @ F@ F F FF ;; - s i NN 9E E E 9 o 9 EE E E Ei ' oE 65B: E€F - E ? P I B * f i i l S * i l f i f Nf r R 4 f i f i f i f i f r x o - o o o o o o o o () ( , o o o o o o o o o o o = EE 6 F f (/ ) d - - - + a - - a + l a < l i l - - < t e - " ff H$ E E * * $ $ H H H H H H $ H f i H H H * EE } E E T B E B E A E B B B E E B E B B 22 8 of 2 8 8 Fo $s=a *=XE>g d,=< ,< . 6 O= z.?t o==i;u) - o9aEEo- a O (JEege rs E tc o5E8Ed. ^SEo !OC')PslNoOI- E S9 F O . I g $: =* = EH g iE H o€ E F i; o a: 0 . P' E O) E : . q c , i = EZ S S ; : o E O ' 8. E )- i = s5 a. i ; Sl o c (o E (U 0. = o- ii 'o(l)o_Eoo.oE, No$loooIooulJJFU) I, U tr = 3o =E=6 ;I-o !,oEc L ri =or € oo Il lo= o@Et E =O r t =c L a od ; 11 n () r E 8E EO .! (J to9E IT J O N rr r r g TI J F sN OR o9 6 =6 -b€ E :t E =6 ( D i= o ;r r E E= & q 9 q ol q q q c q q q q c c q c q q q q c 33 3 : ll s 0 o s 6 o I + o o o o a 6 6 6 3 g 3 ! r =: = ; Fo qq g c ? a e a q q q q q c q c ? g q q q q e 3i 3 3 s s o o o o o o o o a o o o o o o o o o o o o "" " i i oE E C 6 - A Et s t s O == = EE E E €A € rE E ; EE " uEo5ECE8F L6 o t s 6 O O F N O ! D O F O O O F N O ! O @ F i F - i N N N N N N N N d N O O O . O O O R 6 - 6, i ci i , t 'i i ,i i i' i 'i ' i i, i i i i , i d d, i &i 'i, t di d i i i et ci o ,i. , E e= 6 F D (n l E - c a - + + < - - - r l l l t l i { l l = " 8 *H H i T ; H * T H H H E E E H H H H t E u BE E E B B E E E E B E B B B E B E E E B rJ )c?P$(\ loGIo E se F o. : 3 -= fU L -- c {- , 0) nr Y " = .a == E: ?; = E a* c, ) 6 - e &, E $; t F B E )- 7 s S5 <1 . .: ; N o c (o E (5 0F o_ ii 'od,TLoo- (I)E, 22 9 of 2 8 8 (\ loooE6oooo[!JJF(nuJ tr = 3o .= i , io ;i l-ooEa - +. = o, + . €E oc n It la) co -E ; Eu . 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( E O := o nl l I ru - E & o o s s o o o o $ t 3 s 3 $ 3 o O O O O e OO s q ! iI o o o o o o o o o o o o o o o o o o o o o oo o N -o - < i oc i o oo c i ci c t o o d do c t o o o oc t o o OO N @ FF r+ r i a i NN o OO O < r? -- 6 i d NN g E E E E E E E E E E g g E E g g E E E E BE E E E5 a6 - c j < i a o o o o o c i o o o oo o c i o d oo o c i o @ F F O O ts ts F o F o a @ @ O 6 o o (o D NO @ t s r! ;; ; ; iI J o; ; c j ; ; - - or i o d o d i ni . i ' i € * * .q q a - e q 0q qr i r -q : : e qe oq e q 3S O O f 9 9 S 6 6 0 @ o o o i s s s S S 66 6 6 o 6 6 6 o o D O o l O l O lO l ' t 4 O ' Q O AO o O F F ?i A ?5 it Ei it it i5 ii it at a t di i, ' F 5 - o o - o o o o o o NN 00 0 0 0 0 0 0 0 0 0 0 @ o o o o o o o o NN N N N F - - qq q q q q q q q o ? . q q q q q q q q q q o oo o o - F NN N N N N F F ; -- ^ i c i N N 3 o@ o o o o @ @ o @ a q o @ 6 @ D Q 6 9 9 O O O N - O € F N N O O O o O O O N O N r 6@ A 0 r! : : ; ; ;; ; q o o d ; N d d + + NN E B H H H . E H. ; H. ; . 9 . $ g H. B H t s 8. ; . 9 . 8 qE E E . d d ri o 6 o o E o o 6 6 o o o D o o o o o o$ @ N ^ E E6 S f r S f r f r E E f f E E H E H E E E E E : X 6 , d i 6 a. i d c i o o o o o s I s i ! < s 3 $ 3 t = E= i e i - 6 , 0 f @ 6 ss s s u E E H E g E E g e B e e B e g g sN s N N ! 88 8 8 8 1 oc c c o - o EE E E EE E '= 8 5 f; EgEo) EEf_6- 3 cb IIl-li , Fa x*osz=e==x=9g E.x, oo=?t o==3: OE r;ov(9o^ =oo- Eo- + o=^ o- E o- o8e=2co<=EE0a ^ BE - C) 23 0 of 28 8 oF€rtNoNo e sl a (g si :r ;- o .: l ru : -c - ! 6 gg rE /1 l y ' . - E - H4 < E F i r i o d: E 8' E 0) 6 _ . e &, E g; X F i E u, d l : c o= > =E EE <, E; c (o E (E 0. = (L ii ' -9oo-Eoot (\ loNoooo.oooIUJJFU)UJ E3 3o =E io ;i l-E t !,gEo - Fr i €Eoo ll ll o= @ -E ; E; E =o 0 =o . 6 od ; ll nCJ . g EE ao€3 to iEUJ O N nr t g IJ J F €N -t s oE $ .= G t r Bg E ;E g '= G O 5E : rt l l g 't E d OO O F er ds r i g NN oo F t s o o F F t t o F € F o F a o e D ( g C 3i 3 j S P ; r i a i o d d d s i o c i r i o d c i d Fi ri d o d oc t c a- a EE E E EE U pEo, EC=6E5F c q q q q q q o. q q q q q q g o! o? 01 q q g o3 9 0 0 s s t o Q 6 a o o s = l ! t s o - E 8 5 S 3 3 E E B 8 E 8 5 8 8 t B t 5 8 8 P R 6 - i i ai i, i , &i ii & i ci s i , + r { r i * 3 $ + +i X E' E E E= -r + = a 3 r r - ? * r r s ! t t = ? ! - O. d I N N N N ( i N N N . i . i N N $ I C { N N N N N N is at E -i - b ts ts a 6 - a ts E - a a - -. 8 E ft N N N N N N N N N N N , N N N N N N N N q BB E E E gB gE T B E B E B E B B E B B Ps{(\ loNo E S9 F O . : g -* _ = +/ O) ar =' ' = .A EE E: ;; = E ; s () ) E .. e d' , E H? E F B e >= E S5 a. + $o c (o t r (E Cr . = (L ii '€o,o-Eoo. o)g. 23 I of 28 8 $loooEo6. ll)ooIJ JJJF(nIJ J c= =o E' ! o=6 :I,t o Eg=E L ;E€Eoo lt !l q, = (D -g dEu . E 5B s oa ; ll tt Or E gE 6( )to9E uJ O < . r nr r B EI F sta og s =E t ; EE T EE E ul l g u. E &. 66 o o o o o o o s G o 6 o o o o @ o o . o 6b o s I - .i d o c , ci rt tj s, ci .i t i c i c , ti d i d c i d i r i d c i o d g i i RN ts O O O o O O O O O O O O o o O o o O o O O oo o o PF FF F NN o o o o o o o o o o o a o o o o o o o o o o o o N ci c i c i c i c i d e i c i d c , o c , o o c i o o d o ci o dc i c i c t OO O O ?- id { 8 NN 6 6 6 6 6 6 0 h 6 0 6 0 6 0 0 a a 0 0 0 6 F- it d t A S a t qS d O ar 6 O 6 o o o o oO O O O O Oo o o N N qo ! 9 q ! a ! q q q \ . q q q q q q c ? . Y q a 60 F F - N6 o 6 o o o 6 ? o N o @ o o o t s o o F - 6j i r i N N N tu - N * - N 6 N F N < o N N N = ? N F O N N F I F at o o 6 0 0 t D o o .D o g ' G o o oo o o o - @ - o- c - a - o - rt r t s t r t d r t c t rt u t r i d d r t o d d { t d u t d c i d d d 3 O O @ O (t O O O O O O O O O 6 6 O @ O O O Oo O O I= ' : J ; J - a i NN OO O O -- J- ; s i NN E E B E E E E E E E E E E E E E E E g E E EE E E FF oo o o o o o c i o o c i o c i o o o o d o o o dc i o o 66 O O F- JJ J ; NN gE E E EE E 8EEE eq e q e q q cq q c c q q q ee qq q qq T- ! - 3 t l ? t l l ! ? l l i { 9 { 3 3 @ o6 o o o o o o o o o r o o o o o o o o o 6D 6 6 0 0 0 0 0 0 0 0 0 6 0 6 6 0 0 0 6 L6 6 N 6 6 O F N O i D O t s € @ O F N O I O o- & N N f t O O O O O O O O O O t S S 3 ! A B ? 5 - + + + + { t { { ! i { q t ? s i + t ? + r ,, 8 HH H $ * H E H H H * $ H H H H H H H H H EE E E B E E B E E E E E E E E E E B E E 23 2 of 2 8 8 t( )I:t(\ toNo E S9 i- ov ru : -c - l .a J (! ) d) Y ' = (U =g dE ,- \ ^e c- E - ;; = E h s (, ) 8 . . q +E E: S S ; : o E0 ' 8. E >= e s5 a. : ; Sl o c (o t r (E 0= o. ii 'o(l)o-Loo.ot NoNd)ooCLooot!JJFol,r J3@(r 'co6oNgl io$NoN@(>ii6ocooto6- lDd. E3o El l:61A EoEo . EE€Eoo lt ll o=EoEr =o=c r E9 (J d ; ll nO. E EE EO c( JEa9E UJ O Iuru F e og :Gx. 9 e!=G5= 1l l u- E oo o o o o o o o o o o o o o o o o o o o 9Q q c ? E = rs l o i + d l = = o ! * s g i s u i u i d s :S 9 3 " " 6 O6 O 6 -F dd d r i NN F SE E E 9e E 6 ' t= ! dt bE E e 86 8 .= S E EEEEEE a6 s 6 6 6 6 6 6 6 0 6 6 0 6 0 0 D e O O oo o o o o o o o o o o o o o o o a o o o E6 O F o O O F N O i O O F O O O - N O ! O o I ' . 1 S ! q! q! ! ! e { ? q l e e S ? S? g? f ? g ! X: q 9I :q f 6 O! ! 3 = i !a t <c 3 !t I s 3 ! 3 r t ! { I 3 r =E E 6F ' 9) E q s q i q i r - ! l < ! l i ! s ? ! ! ? ! TN N N d N N N d d N N N N N N N d N N N N EE B B b B B B A B t s t s A t s B t s E t s A B B NN N N N N N N N N N N f l N N N N N N N d EE t s E E E E E B E E E E B B E E E S B B ros:$GIoNo E E9 a* - =* 9e E= -\ ^o E- !- -: E 6 F ft i o d: 0 . RE Or E : . q + = E: S5 ; ? o Eg ' 8= - Z= S S5 <L i ; el o c (o E (U 0, = o- ij 'o.EoLLoo_ot 23 3 of 28 8 (\ lbo3ECLG)ooII JJJFU) l,r J3@(otooll,6lqtu)*NoN(o<)E6@co(,oo.otr 3o =E (! =Z- r o :u,t o ?roEc L EEESoo Il lat a toEr =o=o . 89 , od i luO. o EE cog( , to9E II J O nI IJ J Fo og :G3g =65E rr !l tl . E FO 6 O F? ri r i r i a i NN ts OO ! F re FF F t s NN oo o N oo o o Ot s F O -? +s r i J NN o 6 6 6 6 o 6 o 6 o 6 6 o O O O O O 0 A 0 O O A O q FF o o o o o o o o o o o o o o o o o o o o o o e o P N N a: q o q q q A d ? q q q t q q \ q q ' : \ F @ Ft o o P - 6o o o F o N o o - r a i ^ a c i ; . i r i d . i 6 o i @ d c i o i N N @ O O N N O O F ft O O F O O N F Q O N N N N@ O O oo o ) o o o o @ o @ o o o o o o o o o o _ o _ o. o . o _ 3 - dd d c i ' d r t d d ' d d d d d 6 d dd r i d r t d o d d p OO O O FF :;; F NN O@ e o FF ;- ; t i NN o E E E E E E E E E E E E E A E E E E E E E EE E E FF o o o o o o o o o o o o o o o o o o e o o o o o o A? e O FF ,j. i ; c j NN o rE E E f; f E gg E g E E E E E E E E E B E E $ E E E E ' = s ; E E - rE HH s E $ $ $ H n * * * * H H H H $ H H H EE EE E B T E T ! B B E E E E E B E E B E E 23 4 of 2 8 8 \\ q t 9 q t q \ q ( o o F F F t s o F o F 6 ci r i c i d c i . i a i ci !t o Fi o ai r i r t ai d ! , r i d di o6 f , 0 0 0 ? o o o o o o o o s o r t a o oo o o o o o o o o o o o o o o o o o o o o o c i o o o o d o o o o ci c i o ct o o d o ci \ q q cq q !q r q oq c. q q q q q : q a r q q t! s 9 l = o 3l * t l t 1 3 0 { o 6 ! s @o € o o o o o o o o a o o @ € @ o @ o @ €o € 6 @ o - a o o € € o G o c 6 0 0 0 0 I c? cl a a .q q I q ul q c ! c? rq a a u? q q q ur ;E = -( o FPsNoNo .E E9 (U t ;- E .P 0) d t ='' = (U B< dE r\ ^o E- E- H T € E F U O d= E E' E (f ) E : . E +E $? E F B E )- i s s5 Q. i ; So c (o c (u 0, = g o_ ii 'oo(LLoo.o, t NbNooEoo-ou)oUJJJFoIJ J tr 3 3o EEzo :r,, o E'gEE L af = !A rEEoo It tl ut = @ o( oEt . E =o o =o . 6 (J t i ll nO. E gE .s C) togE UI O < . r nn B UJ F sNo og S .= 6 - EE XEE E 5s g It t e 'L = & P5tC{oNts E S9 F o j g rr r i- -c . ? Jd n ' 9' = .A EE E: t; = E ; s O) 8 . . e +E E: SF ; ? o B -0 ' s. = a: = Hf c (o t r (E 0= o. ii 'oLoo-Looox. o @ o o 6 o o o o o o o o o o o o o o @ C 3 3 ^ C : FI +s 3 + c ? d s s + ! i ! i t d d d + s + == = = ' - " Fo c q q q a c q q \ c q q q q q q cr \ \ \ c 33 I I ll o o o o o o o o o o o o o o o o o (, o o o " " " t oq E c 6- 6 E. E . E E E6 P <E 3 E *E o oEsEo=EEEf E 6 N 6 o o - N o s D @ N o O o F N o 9 o o -O 6 o o 6 O o o o o o O O O O F ? Fa 6- + ' r t + ni ii ni ii nt nt ii i , ni ri i ni n i iJ it ni ni nt E EE 6 F 5 |4 E o G ? ? ! - l - ! { < q a r r l r ! i ! ! q S S S S S S S S S S S 8 8 SS S S S S S S N N N N N N N d N N N , N N N f l N , N N N N N EE E E B E E E E E E E B E E E E E B E B 23 5 of 28 8 6toooo.L@aou]JJFthUJ tr 3 3o .= 57o :I1o ts o o 6 0 0 0 0 0 0 0 0 c o (o oo o o o ro rt d d F i r i d r i r i r t r i c i o ni d t ') di d , ! i r i r , , d q q 0q !q q q !q q e e q q q q e q q e. q q c sl s S s ! t l l ! * t s l t ? 3 l t i a b6 6 6 d 6 6 6 6 6 0 0 0 0 0 00 n D 9 6 oo - o o s t a c'g ) o o O O O O OO O O O O 66 6 6 -F 60 0 0 N N F q q oq q q c q q q q q q q . q q q I q q q c 6S { ? r S i t s i ! 3 3 l l i s 3 $ 3 ! 66 t s O FF dd r i u i NN F O o o O O O O O O O O O O O o O O O O o O O O O o -F -- N NN o o o o o o o o o o o o o o o 0 0 0 0 0 0 0 0 0 N oo o o o o o o o o c i o o o c i o c t c i o o d oo o o @O @ @ -r +l + g sr @O O t s @ O O O O O N F F t s t s t s t s N o o O @t s @ A r i F-o r!! ! o OO O O ?F JJ - i l d( E E E E E E g E E E E E ts d E EE E B E g EE E E F5 ci c i c t o c i d o o o c i o o c i o o oo o o o o o < i o g al4 O -F F- - * NN qq e q q q d ? r ' : o l Q q 6 ! q \ q i t q q o oe o - F - NF 6 6 F o o @ F o o o N F o o @ @ e N C i OA i d C i N N N 6 A 6 6 + N N N O d N O O O F F O N t ! O F l t o a t o o o o o o @ @ o o o O o O (' ( , o o o Oo o a d' i , s t d r t d d dd d ut < t d d r t d u t d d d c t r f r j r i : t - N Eots€Eoo Il lo2 (o o@Et E =o o =o . 6 oa i ll tt (J r o EE 6( ,Bo 9E uJ O o rr n B uJ !- .e -E oE S =( EEt xhs E EO =( E ( D 5= 3 rl l g tr - E &. EE E E E E E EF s6 o o - N O - 6 O F O O O F N O I C ) O N O -o N N O O O O O O O O O O T S S S ! 3 - ! 9 B 5 - ,i i t i t 'i t 'U &i n, 6' &i ii &i nt n i it ni nt 'i i 'i i 'i i ni ii EF 5 (/) 6 = G i i ? r a l k n r - = 3 { s ! " d Es g s B s I E s $ s * s s * E s s s * s $E E E E E E E $ E $ E E E T $ $ g $ $ T 23 6 of 28 8 Ii-IFloI EeES=e*-x= 9E _ c*=xoOe zE3 =B^ c. EEE (93s o- E a- ooe C)E^&EAAo=?=E8E0, ^B3 o cosP!c6lo(\ Io E S9 F O . : g m l' -c . 2 RL a, J (D ar Y " = .A AE E: u L= E F i; o A= r n' E Or E '. q .i , E E i gE ; ; O B qr ' ts . = \S , - N c <7 = R? g (o E (o 0, = o- ii ' -9o)o-Loo.ot AIoNq,ooCLo@outJJFa)u, r tr 3 3o rl tZo ;r t -oEoEE L E3 gE oo Il lcr , = 00 .E ; Eu _ 6 =o a =c L d oi i ll rr O. E EE EO6( J to9E lU O o tu u S lu F *N -b oE S :G l ! Et l l6E E =6 l D *= o ;r r I uE & 6$PtNoNo 6 Se e- o. i g G: 'c ^ ! 6 EE =' E f' \ ^" c- E- ;; = E I x g, ) 6 :. q ,i i E E Z S5 ; : o B- g ' 8- E )- i = s5 ai , So c (o t r (E 0. = (L ii 'ooo-Eoo.ot Oo O o -r *e q 6 i NN o o o o o ' o( D @ o o o o o o o @ o o o o o 33 * l + i l l i l * t i l l = l i l 9 ! cc ? q c ? q c q u ! q c c a e o e e @ e q e c 33 3 3 X n ai o ci r i o .i d r i r , c, ci o o Fi ri s i t a i c i st EE I E E E F PCEE E6 o o F N O I O O F O O O - N O t O O F o - g !! ! ! e q ? q ? { ! q ? g l 9 ? e f ? e : s r s : q ! 9 : q s i5 0 , - o 6 0 0 6 0 ro o o o o u) 6 0 0 6 0 0 0 0 0 5E E 6 F = aD -6 rr a e ? - r r t ? ! ! ! ? = ? ! 9 ! s - 4 N N d d R d N N d N d N N N N N N N N ' N N ts t s a t s B B t s t s A E b t s E 6 A B B a A t s t s ft N N N N ( N N N N N N N N N N N N N f l N B E , E E E E B E B ! ts E E B B g E E E B E 23 7 of 2 8 8 (\looofoo.o(] )oujJJFU)t! E3 Bo =EZo :u,, o oEa . = @+ . oa h Il l@) -E ; EU E =@ t , =c L d tJ i; ll i lO. E EE tr ooOBo9E ul O . o nn S EI F a(\ t oR o9 b Eg xE! E =( ! o := e rr l l B u- E & OO F O ee ci d d u i NN F O O O O O O O O O O O O I O O O O O O O O O O O O e- FF N NN o o o o o o o o o o o o o o o o o o o o o o o o N oc t c i o c t o o o c i c , o o o c i o o6 ct o c i o oo o o Oo @ @ FF r'i { d NN O O 6 O O O O 6 O 6 O 6 O D O O O O O O O O O O S FF o o o o o o o o o o o o o o o o o o o o o o o o o N N qq q c 9e l - a c ! o l q F : \ q q . i q o l c ? q N !@ o F i - o o N @ o F t s -- o o i r i 6 i r - ct o c i o o o .i o + a i N N o 6 O N v t O * s O O { = 6 O O t s 3 Q 3 ! N O @ o o o o o o @ 6 0 0 0 0 0 0 0 0 @ o o o o @ o o F dd r i { t d s t d rt d d r t d d o d d s t d d d d dd d ! : N q q q q q e c c q q e I q q c c q e q oq @ 6 a o o .i ; -- ; d NN o ol q q q q q C qo l q o l o ! q q . q o! q s l e Q € o o o F i r _ _;_ a i NN o i< t ? -F 66 6 6 N d oo o o ci ci c i ci S 6 O 6 6 O O o O O O O O A O A e 0 6 A A o D O o FF . ; -- - J NN o 9E E E 9s P $E E ; EE ' oEotpcEEF GO O @ e O @ @ O @ O @ O O O O F N F O . o d ri r i r t e, ai r i o ri ci o r i d c i c t at ai c i c i d ci q q q q q e q q e 0q . q q q q q q q q q q q ss T S s i t { g r l s l s s 3 3 3 s s 3 EE g E E E E EE E E B E B E E E E E E E oo o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 EO - N O i O @ F O O O F N O { A @ t s O O O ^ g 9e e P 9 9 9 9 9 9 : : r : r : - : : : : : : : 9 ! ii a D - @ @ @ @ o (o @ o (o o @ o o o @ o o o @ @ (o = EE 5 ql o6 ? < < = r - t < q = = s = ! E s ! s g s ! LN d d N * N d N N N N N N N N N N N N N N ts 6 8 - 8 t s . 6 E 6 5 8 E - 4 6 6 4 E 6 6 &N N N N N N d N N N N N N N N N N N N N BE g E E E T E t s E B B E E E E E E E B B 23 8 of 28 8 oflI$NN = R^ h E9 ;i o. : y -= LU L =c {J (D a! Y " = .A eE s: I r a L- ! H r E E l- i'i o a= 0. 8' E o) ? . . q 6E E: S5 ; ? o E 0' 8. E \< . - 6 I C <= = R? -(5 0. = o- ii ' .g(l,o-=ooE (\ lo(\tboEocto(notuJJFou, E3 30 =E ec n ;n-oEoEc L EE =( goo Il l(n = -g <r i EX E =o o =c L d od i ll rt Or E EE 6( ) E>Eo 9E UJ O 6 nr E UJ F t o g E .= ( ! r =t xTE E 5E g Il l I 'r = & oN6rtNo(\ to c sl a (E cd ; a Av - CE : €= 6 gg 5E ,. \ ^v c- E- r- . r < 6 F H o d: ( 8' 5 O) ? - q, b E H? E F B e >= = s5 ai ; Qo c (o E o o. = E €,oo(LEoo.oE OO O O -- +i + c i NN 66 N O FF di c i c i t NN F 6O O O O o ' O O O O 6 ( D O O O O O @ Q @ O ;+ + a ; - - + t e t + t 3 ! 3 q $ s g < 6 o o 6 o o s o o o a ro a c? Q q \ \ c ul u? di d i c i € i r i r i r t d ri r t d d, o f , o o o o o o o 23 9 of 2 8 8 SE E E 9s * EE S E EE E .= E E E; oEo3 ECEE F g E= EE E E E E E E E E E E E E E E E E E E E 6 F > OE E $ E E E $ B E H H $ E H E H H E $ E E g 6to0)oEoo.o<,,oU,IJJFU)ul tr 3 Bo Zo ;r r -ooEc L EE€E cD o It ll o= @ .E ; EE E =o . 6 oa ll nOt oL 8E EO tg O EsEo 9E II J O \r nu E EI F No og b x- e f ; v- 6 =G o := o ; u I 'L = & O O O O O O o O N O O O O O O O 6 @ O O i t N O O FF E E E q E E E E E 6 E 6 E E E 6 5 5 5 E 5 55 3 & ** cj c, ci o o o o o o ci o o c i c , c , ci o o o c i o ci c i o - c , OS @ N FF d+ d < NN o qq a r : q q r : a q q o o o o N @ F @ o N N FN 6 O F F i@ r c r @ r i d d € i c i 6 i F d N c i ci d ; ; N d +d i d i i N N 9S S q , S t 4 q ) ( ) O N N o s - e O N F F 6 N .i 6 6 N o o o o o o o o o @ o o o o N @ 6 o a 6 o o t s o t t s rt d d d d d d a t r t r i d d d v i d ri d d d d s , Et r t i t e t N { I S ? ! S s 3 I q v ! - T I S S S O O O s O e F FF I I I 8 I I 8 8 8 8 8 8 8 8 8 8 8 g g g B B8 B E ** cr c i c t c i c r o o cr o o o e c i o o oo d 6 d 6 -- 6 - F 6 O @ O 6 O O t O F F O @ O - O O N - O FlO f F F ci d s i c i d c i d Fi o. i r i r i d . i d s? r s = ci r i o s a i N N ts .q q e 0c e q q 0q r: e c q q q \ =. q \ a a q 33 * = l t t 9 s l ! 1 t 3 q o 6 0 6 6 6 oo o 6 0 0 0 0 E o o o o o o 6 6 6 6 6 6 oo o o o o o o a o 0 0 0 0 0 0 0 d o o o OO A O FF oo o o N N F q q q c c o? c o? ol o l q c q oq q 0q r: q q? a a c c q q e q ol q ol o? q q c oq 0q q \ q c? ! rt AV 3 O 6 O O O O 6 O 6 € O S 9O o N - F @= O O F- ;; ; N NN o o= @ r F- ;; - F NN tF D O Fr ;- ; o i NN &E E t 9e E 6E t = 5 6 5 !E E 6 O A O E= E ; EE " qEEEF hN O S O € F O @ O - N O ! 6 O F @ O O ? N o I s? c l e e e q ? q ? 9 a S I : q : : q - 1 I s : Y l Y l Y ? 6 O- O O O . o O . o O O O O O (o O O (o (o O O O O O E E'E 6 F f (4 F = t + s 9 = r a ? ! s s t ? s { - < < a q TN N N N N N N N N N N N N N N N N N N N N oo o o o o o o o o 0 0 0 0 0 0 6 0 0 0 6 N N N N N N N N N N N N N , N N N N N ' N N f t B E E E E E B E E E E B E g ts E B E E e- E Fo rc=3E=Eg a*tx€ov<sd==t^oEHE oBs te o oEe8s=eEE oa ^ ==o= 24 0 of 2 8 8 or o N Ntr )It(\ IoNo E S9 ;- o .:y -= fU L :c .F r 0) ar =' ' = E E= E: ;" r = E ; s R: '- i ;i - H' S o EP E L, e t ' [ - ' S d) o E. E ' , 8^ = )= = s5 <\ ; Sl o r c (o E (s 0: L o- ii 'o'tonLo(: -ot (\ tE$l(,03tooooolUJ)Fat ) IJ J E} 3o =g76 :r r ,, o E'oEE L EE€t ?r t o It ll o) g< oFr . a 53 8 oi i tl u (J r sftt(btNc)NBiio6ocd)oC)o.otr E EE cOG( ) to9E ru o ll tt II J Fo o9 =G5€ =65= ;g ll rr . E qc q q q q q q o ? q c q o l q q q q q q q e 33 3 : l l 3 3 S 3 V I 3 + s ! 3 t S 9 l O O 3 ! 3 r :: = - -o Fq O @ FF ct d $ N NN $5 5 5 f eE rE 5 ; Ei ' uEo,EcEE OO O o t o o s S f O F O O @ F N O N F O oo o o o o o o o o o o o o o St t t l o o - 6 6 N ' 6 O O - N O { O @ F O O O F N -O o o a i t o d ) o o o s t r t r t s 3 3 i o o o B 6 - ci 6 i , A, i, i t id , 6 , i i rU 'U t, ii &, &t di , 6 ii t r d i o- EF 5 (D 6 + n a i - ! < i l r i r q s * t r r s ! g " I *$ H X $ E r H H * H H H t H H H s H H H EE E E E B E B E E B B B B E E B E B B t s Nr. )grfNo(\ Io E il g (E t ;. E .} . , c, 6 Y " = 16 3< dE ,- ^o E- i- ;; = p 5 s 5, * I u 3€ (6 > s * : o b E5 F Eg ?- 7 = 55 <L i ; (! o c (o t r (u o. = (L ii ' .eL0,LEoo-oc. 24 1 of 2 8 8 GIo IN O O FF si c i d c i qN N O N N N N N N N ( N N N N N N N O O o N N NN O O FF FP 6 NN oo o o o o o o o o o o o o o o o o o o o oo o . : - - - - oo o o o d qi ct c r c i c , o o o o oc i c i o o d ad d d OO C @ -- -j; ; Gi N N oo o o o s + S S 6 i s < = = ! r r o 6 6 c E E q q q 8 E E E E q q q q E q 6I I I I E8 E 5 ** oo c r c t o o o oc i c i go o ( ' c i o c i c i d c i o o o o c i oo o N N o N N o o t t t * t s a e o t s d r i a i d r i r t F i r i ri d o d a i d o r i ri Fi ei c i d al q a ! a a a r q a : c q q q r c ! : 3S 3 i t 3 9 S 3 9 S S S S 3 ! = o3 @ O F- +€ s + Nf l o O I6 D D O O O Q 6 O O 6 O 6 6 O 6 O O n O 6 O h F - o o o o o o o o o o o o o o o o o o o o 6 0 0 0 0 N N N oo = o 9 @ @ @ o o @ @ o o @ 6 @ o @ € o qe ? a u ? u ? c c q c q c q q . 4 q q q q q q q @ eo o o - - - - - - o i NN o O - - N N O O O o O O O O O O O O O o O o o o o < F F ; - - - - - - ; ; ; ; - - - ; ; ; - - - ; -;J d NN N q. q 1 ! qs 9 s @oEoo.oaou,J)FU) I.I J c3 Bo .= 51o _o oEo . Ur E =a E oo Il lo) .o ( oEt E =o a t =o . d od ; ll l (- ) .E 8= EOsoBoH= Ul O 6 r rr u l II J F N -. b og E :G ' J =t r x , b€ E =G @ i= o rr l l E uE & O S @ = ts O O t s F O N { N F O O O A O O O FA O O -- cj e C2 i e r { e r, o - .. i ! o j - 6i ai ts j d 6 o ;c j . i c j NN F O N N O N O N - N N N - F O F F - N N N N6 6 6 @ o o @ o o o o o o o @ @ o @ o o a o @ o 0 6 0 0 dd d v t d d r t d d d r t d r t d d dd d d d d rt d u t i N ho € F @ O O F N O I O O t s O O O ? N O t O -9 O O O O O - ? - F F F N N N N N N 5 O- F t s F F F F F F t s F F F F t s F F F F N F t s -g tr ' F E F5 o ii s s s ? s ! { t s q ? s q { q ! a * q q n gN N N N N N N N N N N N N N N N N N N d N oo o o o o o o o o o o o o o o 6 0 0 0 0 NN N N N N N N N N N N N N N N N N N N N BE E t s B E B B t s E E E E E E B E B E E B @c = c 6 - 6 g E EE 5A E P= t F O - - O - <= s E E- : o oBsEgEEg IIIIIIIIIiiIIir I El O. = =e==x=o> d.*<XDO= zEB =3^ OE 'b - L oo^ =9Lt s cL q ^Oo=^ o- E aa60 (J>===x=5E I=^=o 24 2 of 2 8 8 u-M rI )c{:.cNo(\ l\o E S9 ;- o l 9 R* -= iY b ,, E. = (5 3 < dt ^ O= ! - H s E E F; r i o a= 0. 8' H O) E .. e rr j E E: S S ; ? o E -g ' 8. = 7= s s5 1: - S! c: c (o t r (o 0, = o- ii 'oE(l)0_LooG, (\ lo(\ lo3E8.oooI!JJFU)uJ tr 3 3o EE ?" o -r r1o !oEc L BE =a !OU ' il l lo> GO O< o Ft . E =o r ) =o . 6 od i ll tt Or E EE EO6C , Ea iE II J O cn nr E EI F F qr! og E EE IEE E :6 t D i= o ;u I u. E # ()$l5s(\ toN E se ;i o. l s $: .c - ! E gE =, E 6 ^e c- EF ;; = E E H O) E .- e F' E E= 9 S ; : o Eg ' 8. s )= s s5 <1 . i. ; S! o c @E (E c) . = (L €,oLooLoo(Dn g g q c q q q q q q q q q q q q q q. q q o Qc 3 9 5E ri d d u t * + - s s r + l a l + a l - ! s = i S= 9 9 ' - " Fo . 3 3 i i B i s 3 3 3; ; ; ; ; J ; ; ; 3 3i i f i r r oE E C a- a dE = 6 =g = $s E E EE U pEgPE€F k F o F,O O O F N O l 6 O ts @ O O - A . ? ! 6 o I e e e c 9 r : r r r r r r E r ! ! i ! ! , ! q ! f i q! 6 O - N t s F F F F F F F F F F F t s F F ts F F F F E EE 6 F f (D F l l { e e l s { r r q + l s = l ! * l ! * qN N N N i l N N N N N N N N N N N N d N N R ts B B t s B B t s t s B B t s E t s t s 6 E t s t s t s A b N N N d N , f l f l N A N N N N N N N N N N N N EE E E E B S B ! E E E E E E E E B E E B 24 3 of 28 8 $to oq @ o ?= ci c i c i c i Ns F o o o o O O O O O O O O O o o o O o N O O d) N O N -F -F F NN c q c q q q q q q q q q q q q q q q q q q q q q q o o o o o o o o o o o o o o o o o o o o o o o o o ao 3 4 0 0 @ o o o o € o o o o o o s o o di F i . i c i c i d d t c t d c t d a i r i ri a i d r i d s i d d r: q \ t \ q \ t: \ q \ q q q \ q q q q q q 33 3 1 t S t 3S S * i - 3 3 ! l l s n s 66 6 6 6 6 6 0 0 6 6 0 6 6 0 4 O O O O O 60 6 6 0 0 0 00 0 0 0 0 0 0 00 0 0 0 0 OD 6 O F? oo o o N N N O O O O O O O O O O O O O O O O 6 O O O O O O O O ia - - -; * -; - ; - J -, - - - * - - ; ; ;;J N NN N O O O O O O O O O O e o o o o O O O O O O O O O O F- ' ; J -- ; N NN OO O O OO F - F F F o o o o O O Qg F O ?F ;; J ; NN N @O F N ?- rt = r NN o Q)oIo)oolllJJFaUJ EE 3o =t ,=O :u-oo3c L .{ = or ? 6c n il l lut = -€ o -E ; Er t =G , q t =o . 6 o0 ; ll tr O. 6 EE EOsoEo9E El O o Ir r E TI J F sN 9R o= e .! - ( E r 6€ E '= ( E 0 ) i= o ri l I E= # \ q q i - el g q sl q c ? \ q c ? q q d? e q q - o@ o o F? 6o N o o o 6 < 6 @ o N e = o Fo s ! - F <t F C i N N N 6 6 6 6 6 0 0 6 6 6 0 6 0 @ O F @ @ O ts @ @ F O S ts F F F F F F F N F F ts F F 6 ts t s N F F F F F Q O do d d d d d u t r t s t d s i e t o dd o d d r t d do o - N o o o o o O O O O O O O o O o o o O O O o o o O O ?- q q I I E q q q q q q q q q q q q E q q E qq q q " o o o o o o o o o o o o o o o o o 0 0 0 0 0 0 0 0 oc t c o - o EE E E E3 F <i * E EE g, 68pEo=DCEcF LN 6 6 6 - d O = O @ F O @ O F N O g O O N -o o o , o < 3 ! ! ! ! ! t ! l o 6 o o o D a a X O - t s F F F F ts F F ts F F F F t s F N t s F F F F E EE 6 F f U) E e < e c < G e - e ? e < < s ! t r < s = g L SS S S S SS SS S SS S S 5 S Sg SS S NN d f t N f t d N N N N N N N N N N N N q N EB E E E E E E B E E E E B B B E B E E g Fa5s=e==x=93E< xoO= z?t o==B^ o€u) ! oo^=o ct s rg^OOEa o- E AOo=gSE8E=to= (J 24 4 of 2 8 8 9q/ F- |f )5vNo6l- E SE i- o. y tE : .c ^ l .P 0) a ! ='' = (t r B < dE t< O= =- u a€ E tr i'; O A: E ts . 8 R= : : -' i = Ir r r f t l : !g r L E= S 5 : ? o B- 0 ' B. = )- i e s5 a. i : Sl o c (o t r (5 0, = n J r o.Eoo-oot (\toNb6oodJU)oIUJJFanIl, J gE 3o IEeo ;r r ,t oEoEa - a. =OJ :Goo ll ll o=o. g , Et E =o ! , =o . 6 .J d; ll nO. e gE G, C) tl sEo 9E UI O c D [[ E II J F tN og E :g i iEE f i =6 ( D := o ul l e rr - E & Ntr ):$6loNo E S9 = ol g <o t €= (E =< dE ;, o - - ! - u r € E F a o d= t r h E o) t . . E il E E: S 5 ; : o Eg ' 8. s \\ - C \ t c <= = R? E (O E (E 0, = o- ii 'ooo-oo.ot OO O F -? +! v i d NN oo o o o o o o o o o o o o o o o o 6 0 0 6? O 6 3 1 ! l ? ! O 6 h 6 t t i l t q s 3 3 ; 3 ; 3 : 3 3 3 3 3 3 3 3 ; 3 3 ; 3 3 B; 3 3 ee &E E E 9. 9 EE E E Ei u rEolECEeF b 5 I I 9 = $ 9 : S I5 S g I6 S I3 E 3S R 6 - X ( X r S i { * S F F F F F N t s t s ' t j t s t s F t s = EE 6 l o l 9, 6 EE $ H E E E E E $ B $ $ g E * $ g $ E H 24 5 of 2 8 8 246 of288 Calibration Detail Plant West Valley Porler Plant Report Period: 06,12112024 fi):00 Through 0f,12112024 23:59 W21m24A3:23 NOXHI c6t21m240}7j NOXHr60 c6,D1t2021A323 NOXLO 06121m2403.,28 NOXLO60 6n1m2403:28 02 e6,f21m2403123 o2_60 CE,1211fr2a03:?3 110.2 184.1 1U.1 9.1 9.1 21.0 21.0 114.5 183.8 183.8 8.9 8.9 21.0 21.0 20.0 STD Passed 0.1 0.1 o.2 5.0 STD Passed 0.0 -0.1 10.0 STD Passed 5.0 DIFF Passed 10.0 STD Passed 1.0 DIFF Passed Yes 0.0 0.0 -0.1 0.1 Yes 1.0 2.0 Ye€ 0.0 0.0 0.1 0.1 0.0 0.1 0.0 2.0 DIFF Passed No Quarterly Type Calibration Records Found cdibratinEnw @ fEila-E] Report Generated: 0621/24 05:O5 RepodVssion 4.0 @r!il WESWALLEYDAS \reryrtlser 247 of288 Source: CT4 COPPM 1olt1 NooaEoooU)oulJJFaul c=3o =E=o :I-oE'oEe . ?E rh ct nl l o) .9 @Et . E =o 6 =o . 6 oa ; 1l tt (J . E 8E ?. 0 cOEo 9E uJ o nu B E, F O st o& o2 E :G :3E E =( E 0 , i= o E 11 1 1 8 L= B O1 @ 6 FF oo n i d NN F O O O O O o o O O O O N O O O N O o O O o o N O F -i ?F F NN b b o o o o o o o o o o o I Q o q C q q q q q q 6 { ci c i o o c i o o o o o o o o o o oo o o o o oo o o @O @ O rF ds + o NN 6 OO 6 O Fr 60 0 0 N N N q\ . q : ' : e \ q . l c ? N N N o ? o@ @ N @ N 6t s t s @ F - @ < N r ? o I Fo q c; c i s c i s i -c i r i r q@ \q q s N * 6 ; i i . n o ( o N i t o < < o i 3 9 s s s o o or o @ i{ t s i . : i . : F t s i i t s N F r i FF N F ts N t s N N t s Ft s F s o- 6 ' o ' 6- ; ' d 6 d d d d dd d r i d d d d d r t ris i r i g ' N o@ @ @ a o @ @ o o s ? q q o ? o l q q q e q o l qq q : = E 6i N N N N N f l N N N N N N N N N N N N N N N(N Q .'' _ @ o? q o! o? ol q q c q q cq o! q c 9 9 9 ol C 9 q ol 9 o ? a == E E E g E E g E T BE E E E E g E 5 TE E ST E F I ' o o o do o o c i o d o c i o c i o ci c i o c i o o oo o o ot 6i 6! 6l . . 1 . ! .i 6l c .? r? I c c? c ? a? c q e l 6l sl q. ! c c ? 5= ni . i Ai 6 i 6 i Gi 6 i 6 i 6 i c i ci. n 6 i 6i 6 i N N N N N 6 i NN d t s !! 1 r @c E c 6- @ at = = E6 E F E E C O A O E5 E E !; " -< = 6 = @ oEoEof EC)-6oc6 F oo o o o n o o o o o S D o o a o Q Q o 6 a ; ; d d ci r i .i o o d, o ci r i o ri o ci o d F, (o @ o o e9 q q q q q . ? qq q q? q qq q c a+ ? < < s r = q s s s t s 9 9 g t s s ( 66 6 6 6 O O O 66 O 6 6 O 6 6( o T D A l r ? l ' i; d i i i t ci - ct o - o o o o o o o o o o o o b s 5 $ s 3 g e 5 E E3 6 S I3 E3 B 8 E8 ef i i : a a * * * * N N N t s t s F F F F F F F 6 i E E = ii t i b b b 6 6 o o 6 o o o o o o o o o o o 5 F = a 6 =< t s s s s i q s t i s s ! q g s s s s ! o- n S tS sS s s* s {s s N Q {t { E t { $$ $ E gu $ H E E E $ $ g E g$ H E $ $ ,o,o <tos 'NrO N L Llo o (6 : . ;- o. : y cs : =- = +- , (l ) d! Y ' ' = (t r l l E d b A P E- i - Hi s < 6 F 6 or a : tr ?' E E* s g i E o: E 0' 8. = >i = . {E /:- Fv <t l - e! ar :c (o t r iG O, = io _ ii ' ,. o .Llo ) 1L Eoo-o 't, 24 8 of 28 8 (\ lba\ld,6EooU)oulJJFaUJ E3 'o El tZo :! r tr 6 toEa EEEg oo Il lct , ) 6 OdEr . a 5r B Eo > oi i ll uO. E EE co 6( ,Eo 9E UJ O rl r E ll l F o tlN og E :I E : I= E H 5E E =E o5= : Il t e uE & Oo o O -F !r s 6 i NN o or 6 o ? 6 Q o r r g . q a q q a q g ? u l c ? q !: l I F e ri a i r i c i r i o r i d q, ci o d i o d ci 6 o ai ri t i c i ooSE E E E E E Et r EE qq q q q q q q q q q a ! q q q q e qq q q 3T ? ? ! 3 9 t ? ! 3 t { 9 3 q S l ? 3 3 b O F N O = 6 O t s o O O F f l O t O @ F O O O -o ! ! t i r ! r t = 3 6 0 Q D o o n s o e o - @- t s t s F N t s t s F t s N F N t s F N F , N F N t s F 6 = EE OO O O O O O O O O O O O O O O O O O O O 6 0 f o F r * s r i r * t r i l { t * ! ? r ! ? r ? L N N N N N N N N , N N N N N N N N N N N N N N N d N N N d N A d N , d N N d N N N N N N B B E E B B B B B E E E B' B E B B B E E B oPcoo\t(\oN E BE - o. : g . E l se 3= o= E - n -= = I ;= p 5 s v- t q, =. . id '{ E :E S : : 4 6 ' tX . E ;E SE u Qo c (o E G' c) . = (L ii 'ooo-Eoo- (DE 24 9 of 2 8 8 AIooo=oosooTUJJFoUJ c= io .v j l io:n-o t,oEo . ?=o#ooul l th =-E ; Et . E =o t , =o . 6 oi ; ll tt Ot o EE rp (J Eo 9E u. t o o ur r g II I F O sN o& oP D lE = 9 , o: B =( ! O := o Il l 8 u- E &. 6t . o o -F ri c i r i d NN N o o a o o o o o o N o N o N o O O N O o o o N o Q rr FF @ NN o o o o o o o o o o o o o o o o o o o o o o o o N oo o o o d c i o o o o o o c i o c i o o o o o oo o o ON O O FF q< q s i NN 6 6o o O FF oo o o NN N qq q g q \ q 9q q s F o 6 \ r! t : a - . ? a qr q e ? e = = - oe i a i A i c t 6 i a i s i d ri er 6id d N N s { a n j F a, j io e t < o o q 'l : o 9 o o o N t @ o s N @ . g i'i F : E i N F F N N N F N t s F F N F N N t s ts N N O sia dr t d d d dd d d d r t d d st r t d d r t r i r i a i c i q - N @O @ O F- Gi6 i 6 i c i NN OO O O -F 6i 6 i d d NN e E E q E E E E E E E E E E g E E € E E g E EE E $ OO oo o o o o g q q o c i c i o o o o o o o o o oo c r o 6 O O O O O o O O O O o o O O O O O A o o O O O O F- ' :c . , i .i . i ai c i N* - NN N N N N N S - d N N N N N N N N N N N S 6C l C 6 - 6 6= = O =!= o I == :6 5 rE E 6 0^ O rE E E 3E " pEgEE3 -F oo o o o o @ o 0 s o q a s 6 0 0 ! o 0 6 ; ; r, d o ei d r i r, d ai s i o d ri r i c i c i o ri ci @o o @ @ o o @ @ o @ o o o @ oo N @ @ o ++ < s = s r s + + 9 + s q = < g s s v q 38 3 3 S 3 3 8 3 3 3 3 3 9 3 3 3 3 8 3 8 q o! c ot q q q q ol q q q o q q qq q q q q N N N N N N N N S - N N N N N N N N N N N N ol q q o: q q ol o! q q s} q q c q q q q ol q q NN N N N N N NN N N N N N N N d N N N N E6 < 6 o t s o o O F N O - O O t s O O O r N . ? E E= I gB B i3 gg I g BB B ' i , g g 88 8 a i i i i d F5 v) E ? < < < l < < < r < < l ! s q g l = ! * < O- d . N f i N . i N . i Nq . i N N N N i T N N N N N N EE S S E S & E E E 5 & E F & E F 5 E F & EB B B B B E E E B E E B B B E B B E B B (' ) (' )do$Nos E SE x- o .l g G: =- = .a J 0) 6 ! =' ' = o t= 6E A^ v c :; = p 5 P E: ; s ? f i o, E O, g. = >, = c s: E <i N; c a s (E C) - = o- ii ' -oo^=oCLoV, 25 0 of 28 8 oNboJto&ootr JJJF@lr J tr 3 3o =EZ6 :I,, o E0'Eg EY€;O ct ) It ll ch = -9 ct Et E =o 0 =C L E oi i ll nOr E EE goEo 9E tu O 6 rr n g UJ F ( ) t(\ i og E :( EEE H xe i vE 6 =6 ( D i= o ul l S rl . E & OO O ? -? r. d 6 o NN OtO O F- dc i r j N NN BE E E 9s 9 EE E E Ei ' uEor ECEf ot q q o! q q q q q q q q q q q ol q q ol o? q QO O i i q 9 S l r ! 3 ? 3 t i i ? ? ? l c? 14 a q a c? q c? c? a 6< e t o o o < ! ? ? ci r i ci d ci d . i a ci d c i c i o o ii . i ci o d o ei ! os o O N O O O F N ( ) ! 6 O F @ O , O F N O a Q) i: : : - - : F - N N . i . i N . r N N f t o o o o E E= Bg g g g g g g B g g B g g S S g E s E S 6 F f ., 6 EI I s , E E s s s s s * s s s s s s s s s $ u $ $ $ $ $ $ $ $ $ $ $ i $ , $ E $ $ E $ $ Elq (t )g?totNoe E S9 = ol g o) .r : 3 = B< dE o = = F ^ L_ L *= E F hi il = t r PE *c s s E = e aF FV Lt $o c (o E o oF (L ij 'o(Do_oo-oN (t r$ooo(so 25 I of 28 8 a)Too.oooUJJJFatr l3@€tEo(,o(f)o;o{eN(oo8E@6otoo.oG. (\lE c3o =EZo :utt o 'r E ,oEG L =: !O 'r . =GoU ' lt ll ur = c,oEr =oE9Qa i ll tt C) . E o=Eb oOEsEo 9=xJur o [l tUJ F o@9 .= 66€ =65= il l l rr - E ?n O i FF ;. , r i N NN NN O O O N O O N q N O N O O O N ! ? ! ! ! ! N dN o N ? - FF O NN E b b b b b b b o o b o 6 o o o I o q q o oo o o ;E ; E ; ; ; - 6 E 6 - 6 o o o c , o < i o c i oo c ' c ' +o @ a -F ss = $ NN BB 3 8 S 3B g3 I g 83 8 I E3 B 83 S B8 E E 5 E o- q q - q a q c ! ' : c ? c ? q = v ? C e q : : 6 N6 o F - ? E g i I i E i 3 p- e € E s i i g s i r p ! s: s f ; *' ;- ; - ; = ; ; ' ; ; ' ; ' ; - ; - i J r i t ' " i a ; d d d r t ut r t dd d 3 oo O O -- si 6i . i c i N N oo o ? ?? ^i ^ i c i ; NN @ Eg E T E E E E g E g E E B E E E E E € E EE E E O * 6o o o o o o o o o E E - - 6 6 o o c i o o ci o o o T * i TT i * T * * T * T T 3 TT T R i T *T i E EE SE E E E E E EcEE r r o e o s o o r I ! u? 9 q q c? ! q a !' q ri d r i c i o d d d ci . i r i c, o o o o o o o o o o o o o o o o o a o c? q c? q q q q q e q c? rs e s + r + q g s a a a s r ! 3 3 s s q oo @ o o @ o o @ o a o a q q q q q q e q .i c i . , i ., i ci .i . i . i .i d c i N N N N N N d N N N o o o o o o o o Q oQ q q q q ol q q ol e q d o . i a, i c i ci. i .i 6 i N N N N N N N N N N N d E E= EE E u u E E E E g E E B E E E E a E E E ., 6 {$ { ! { I { I I { E E E I E * S I $ S S g$ I $ $ E $ $ E u $ E E $ $ $5 E $ t E 25 2 of 2 8 8 tJ )oo;o!+NoGI\ E Ia (l , (r r : r 4ge xE O- - ! r s€ 6 t- u a= 0. 3' E if , . . (l ) co ' = ; HF i E 13 = t( E 5= >o ij Qo c @F o or ! o- i i - o(l)Loo-od. iI (U r (E r r] I (l ,o(uL, , lot I 6loAIboE6-othoui)JFU' 1r l TB ;o =E -e o ;r ! -o !,gtg€E oc D Il lo) 6 o@Et E Et $ o0 i ll nOr E EE EO6OEogE tr J O o rr B IJ J F o sN og s =a !TE E =. E O := o ;r p nE & oo O O FF r+ ? o i NN a! l a a q a c ? a a o 6 a q r 1 c z i e . t a . r 13 3 1 X S Fi r i r t s i ci c i d i F i d o d ci d d c i qi ri F ai ci d F" ' ' = ' - ' ' oE E C a - 9 rr 2 = cE - E IE E E EE ' oEo=?EEE oo o o o o o oo o o o o o o o o o o o a ! f ! ' 9 q ! s s t I 3 t t ! t 3 3 t ! 3 s L6 o F o o o F N O - O @ F O O O - N O 3 O _ o i+ a i Q 6 6 0 6 6 6 b 6 0 0 0 0 0 0 0 0 H E= ss s s t s E S t g g g g S ' s s s s s s g 6 F ) 0'2 d r = s r i ? n ! l i r a ! t ! ! 9 s s ! = o- { Q E q { e { c E e e s { { E et Q { E e 5T & E E F E F F F F F E & F E F F F E F Et s E E E E E E B B E E E E E E E B E t s B lOco)o$NoN E S9 ;- o. : g ge 3E O= E - a -= : !L a= e [# Er as E -- ) i + o s? 6' x. = <, - d c <: \^ - rv i; N o g to E G C) . = o- ii 'ooLEooE. -d(uoOJo(dL]o 25 3 of 28 8 (\TooqEo(,oouJJJFoIJ . I tr = 3o =t lc h :t t-ocEe . E= tt ?=( Eoo lt ll o> Fc o -g d6r E =6 r o =c r . d oi ; ll tt (J r o EE C, O (E ( J to() = xJ tl O c D ru E ul F t(\ I oE o9 Dei E ES E il l l 8 r. u E p OI O - F- rin i d d NN F o o o o N o o N N N O N O O O O O O O O 6 o N o 6 ?- FF € iN 5 5 5 6 b b b o b b o o o o o o o o o o o oo o N ;; E ; - E - - E - - 6 6 6 o o o o o o o oo o o oN @ O -F s+ s d NN o E I 3 B B 3 3 I I 3 3 3 3 g g B B g 3 3 3 sB S p &6 No o o o € o @ o o F N o o o s t s o q ! q \d ? q ' ! = = E p E N p p p F E F F p H i fl p E 3 p 3. 8 p. p . F . f r . ' - ' ;' ; ' ; ' ; ' ; - ; ' ; ' ; ' o ' o ' u i ri d ct d ut d rt d d d ri s t d o ' o@ o o o @ @ o o o c ? q q q q q q q o q o l qq q e x i = qq q q o l o l q q q o ? o o o o o o o o o o o oo o o ? ? .i 6i ^i .i . i 6i o i 6i * * * * il ; i ; j -. i ai c'i .' i ci . i . i t i g ** g E g g B g E g E E E E E E E E E T E g E gE T F IO -; - - ; - - 5 4 6 d 6 - o o d o o o o o ei c i e i c i No o o o o o o a a e q c e c ? d ? q a l c ? q 6 od o N f F :l X ;i ; : ; ' J ;i ; i ll l l i. i .. i "r .i . i .i ci ni N N N. i d. i " i e *' 6C C C 6- 6 EE E E EE ' oEotEE o o o 6 ! o 0 s = { o 9 I q c? q u? c I v? c? di ei d a t . i ai ., a i d o si o o o o o o o o o o @@ @ o o @ o o o o @ N O @ @ O O @ @ O @ =: ; ; ; = a = i s s q + s + s i s ! i q e N o s D@ \R R 8E $ 3 ; g I5 8 g g E S ^ o q !! t ! ! ! i l q! * !! gl cl I |? g? c? !l ! . E E= 88 8 e e 8 e a g 8 g s g 8 i i 8 i 3 8 s 8 8 5 0 f ., 6 {{ { { N { E { ( t E { i t { { i E [ { { $$ $ u g $ $ E g E E $ $ u $ E E $ $ E $ N-.nosNoN v =^ L \U ) o (o Y Av _9E Y' E O= E - -= O F 6 i- 0 i o ' = ur 6l Q) t. . (l ) d) ' = :E S 3 ? a : i r c\ l c e# R= 5- >o ;- ; {o c (o t r (E o: ! E u- .Eoo_ooc) t (U(6oo(, ) (I loIi G=€ x!O= 2 25 4 of 2 8 8 dENbo8-6U)oUJJJFoll l EE !o =EZo tt 6 EIoEE L E3 €Eoo Il lo)O1 9 E; E =o f t =E ! 6 Eo > oi ; ll nO. o EE (E ( ) to9E UI O o , rr t t E lI J F N og E :6 :Et r X bE E =6 C ) s= o l[ I lL = & Nso)or( 'NoN -c SI 6' o (o x = o: , !Q o YE 5- - O L o- - =F ;= & I s u- N q) = .. it i d; ' E st i g o o -- ) i s o E 6' X. E v- =: = = s6 L; No c (o g (o () , = o- ii 'oLoo-Loo.ot Ig(t ldo,o) (Go cq q q q q q c q q o @ o o o o o o o o g 33 3 3 e F s = ! 3 ? s s q s r s i { l s i + s r 3 ! ;; ; - 3; ; ; ; 3 3 s; ; ; 3 3 3 3 ; : 3 3 3; ;3 3 i F K 9E E E . 9 o P gE E T f EF rE s E EEsEo!6e,-EE . b N& & & R N R R E E $ 8 B B 8 E A g ? 5 $ E E= EE H H H s e s s B s s s s s s B s B E e 6 F = ., 6 iE { N { t { N i r n { N { I E { { { I I $E E $ $ $ H $ $ s $ $ 8 s E $i $ $ U s 25 5 of 28 8 Noooo-d)U)o[!JJFoUJ tr 3 3o .= ! ia ;i l-aEoEE L #=or i =a E U' O Il lo) -9 < o Et E EB E oa i ll I (J . o EE EO cO8o9E UI O N rr r S II I F tN og E 5€ E =G O ) 5= P !r l l 8 uE & O O O O O O O O O O O O O O O O f f O O O O O N O ! ! -- rr F NN o o o o o o o o o o o o o o o o o o o o o o o o N dc i c t c i o c r c t o c i o o o o o o o d c j o o o oc i o o @o o o F- *s = g NN O@ O S -? 6ic i G i c i NN o OO O O FF 6i 6 i 6 i c i NN @ g E g T E E g E E E E E 8 T 8 E T E E T T EE E q OO ci d c t c i o c i o o ci c i o o o o o o o o o o o oo o o o6 6 O t O O { S 3 1 3 ! 3 = ! ! e l 3 i qt ai ri d ci r , c i c i r t c i ci a i d a i r i d d s i d d ri St O N r- dir i d i s i Nq N qc q q q q q q q q 9 9 q q q q c q q q q rs ! 3 s ! S s s s s s s s s 3s t g3 s o 6 o o 6 o 6 6 o o o o o o lo r , a tt t A lo o a o D ( ) i- ct . , i - c' o o o o o a a o o o o o o o o o o oo o o N N € 0q o q q q 9. q e q q q q q q . q oq e e e q. q NN N N N N N N N N q N N N N NN N N N N ol q q q q c q o? 6 q ol o! o t o? cq q q q q q q q c.N N N N N N N N N N N N N N N N ( N N N N N N N N 6! ( N O c? e ? c ? c al c? . ! q. ! G l q a N G o F -- I l i ; , i ;i ; . l I ;l ;. i ** * - N N N N NN N N . i ci s i o i r N N 3 A O O O i ? O @ s - O F O @ @ O N I 6 F @ -S @ @ i- ; ; a ; ; - i d cj s - uj N aj c i 6i a , €i o j d ^i oe l o i ; o* a t E r N @ o lL Q ! s s @ 3 ! I t F o oN @ Q Ii T i N N N F N t s l T i F t s F t s F F N t s N N ts t s N t s F dd ds i r i d d r;d r t d d d dd d d dd d rt r i r i r j q - N No f D O F @ O O F N O 9 6 O N @ O O F - 6 bd i 5 d 6 6 ' o 6 e r - - ; - - - ? F F F N N P 6 - E S 6 S i i S o t i S o o o o 6 d c i o o o d o E E E - -; . i P ? ? 6 t r f o' E i{ N r N { E { { t I { { { E { { { i { E $u gE $ $ $ Eg $ t H H H U $ $ U g$ E oE a c q- 6 6 / l = E d.= EE E E E9 E <= E E € g 6 0EoEo: !El-;6E5 IIlqIFioIIIIIIIIIIIII Fe teE3 i=x= z- - *=xaO=E3 =Ee ovoo^=oqEBE ()=^ o- F o- 6- ogoE; F=EDs&o=o 25 6 of 28 8 C\ IcitGTo(\ IEi t 8E -c . 2 -- 5) . = H 3E c- E - <E F ir i r- L o( l ) .. (I ) 6' = 69 - - c ) Rt r N P - iI E : FVNo (o t r o. = .. t - Eoo)LoCLoE LIIEtr t (E E +r I l ) (E = o8ob " C, r f r (o > o, 8>e <L lc(EE $toN(DLtoooU'outJJFU>uJ E3 Bo ro !l 7 .t , ;i l-o !toEo - ;E .l i 6 C" O lt ll o) ao o, ;Er _ 6 =o r t =o . i D o ii ll l lOt O@ O @ -? ci * d s NN Il- tg ! lot; INlok su o E -c - ! -, I( I ) d i : 4 '= AL B E _ E: pE ; s = * o lE - 0 ' 8. s >E C SF <E N; lE @t r 1( 6 c) . = r i i ' lol' = lolo - l-ILloto _ l0 )I' IIIIII P EE coo( J Es8o9E ul O N nu S ul F aN og E =a ! : E= H 6€ E =' E 5 5= P nl l I qE & oo o o o o o 9 0 0 0 0 0 0 0 0 0 0 0 0 0 + 6 G 6 6 d d r , d 6 d ui d ui ci ui g d 6 ui ui ; ; 3 ; ; ; ; :3 ; ;; ; ;1 ; ; : 3 ; ; ; i j3 i rr EE E E 9s ! EE E E EE - gEEg No < 6 G N o o O F N O 9 O O F O @ 0 r -@ o o o O 6 O O O O * F F F F F N R P 6 - 5 6 6 a 6 6 6 o d 6 6 t i 6 d a i o 6 o 6 i i i i = EE 6 t u , ., 6 {N s s N N { { E N { { N N { { { { { { { N d I N N . 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NP N o F o F F o @ O F o o < N o N r @ s Ej F = i + N N 6 < 6 6 G € 6 = E = ? r < q s { s s @ I @ !o o = N F F t s F t s F N F N F F F N ts t s N F F F F t s t s F N ri st c i (t rt d !o ' d r t d rt r t ci d d c t v t ri d d ri u. i r i < i - o ' N s s s s g s B E E E E g r t B E s B E E E EE E E . . c, o o o o €i o c i o c i c, o o ci o o o o o o c, c i c i c i c i lo o o g O s o l O O o D 6 6 36 O o 6 o c! ! 9 G ! = = ci d o c i d i ci d r i d r i .i r t c i d c i a i d d c i r i o cio r i c i NN qq q q q q q q q q q q q q q c 9 q q 9 q rs q t i t t S s S s s s 3 s 9 s ? s ? 9 3 3 B B E B 3 3 3 3 ts 3 3 B 3 3 3 3I E B 33 3 p &e q cq e oq o q c oq q I q c. q q I e 0q q q e e e AN N N N N N NN N N N N N d N N N N N N 6@ € @ @ € @ OO O O O O O O @ 6 @ @ @ @ NN 6 i N N N N NN N N N N N N N N N N N A q n n n q . t q .\ . t q q . t f! c! .l 1 1 M . ! .! q c c =s 6i 6i d . i 6 i F i 6i N N N $ i 6i A i 6i N N N N N N N NN N @ !!r ! q)a8.oooUJ))Foul E==o :i i== io;t r -o ItoZo - ==@? ao lt ll o= .E ; Et E =o t t =c L d to a; ll tt O. 6 EE EO (, (J Eo 9E tU O o nn I tu F tN o& o9 b hs E ;S P '= ( ! o := o rI g u= & @@ e € -F ., i . , i . i * N N @A O O -F .i c i 6 i o i NN a oE E C 6- O EE E g E E * pEotpcES r6-F - b 8 8 5 3 3 ? 5 g g € 9 S 5 9 E 8 6 3 8 3 3 R 6 - E E 6 3 6 3 6 o o o o o o o o o o o d o o = EE ;; . . 6 !0 1 f, E + < s t { s t < s s s s g s g S s s s s s o- rs t { { { E e * { s s { s s s s s t s E NN N N d N N NN N N N N N N N N N N N N ii EE BB BE BE B EE E Bt s E B BB B B IIIIIII!il=ibIIIIIIII =^ IEos=3 *ax=>2 E,t<x5O= z29o==EedI avoHeBE=^ c- E gdogoEg==o= o 25 8 of 28 8 lO,J )5rtNoNQ6 ' 96 r2 d) 4 : - != cc- E- =o F k i : ff ro ' c (v ) o 6 & P 5 E, = X .g - (\ J E : \A-VN. . 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N O ? l O -o o o 6 0 0 a ! r Q ! t q l s - 0 4 o 9 0 0 tl 6 - i i i i o et o ii 5 ct 6 c, o i i o d 6 ' ai o 6 o o o = EE 6 F 3 @- F = i < ? e { ? q 9 t ! ! s ! < ! - = s s 9 L dd N N d N N N d N N N N N N N N N N N N N d N d N , N N N N N N N N N N N N N f l N N BE E E B E E B B B B E B B B E E E B E E 25 9 of 2 8 8 (\ lo0,o3€oCLIt)@oIIJJJF@u, E3 3o EE lo;r-ogEc L EE €ioc n It ll o) -9 . o Et . E 53 8 tJ i; ll u () . 6 o=E6 E( ) OAOv9E UJ O rt r B UJ F $N oE o2 b bE E EE 6 [! l e uE &. o6 o 6 @ 6 o n o o D 0 t o U l q D c 2 c l q D ot o o r r ;i i ; ; ; ; ; ; ii J ; a d j s j ct d d aj d r j di o . j o i p ** oo o o o o o o o o O O N o o o @ O ! ! ! ? o oN O ! ! I r rF N N N 5 6 6 b b b o o o b o o o o o o o o o o q q q q * ci c i c i c i c i c i o o c i o d o o o o oo o o o o oo o o @o O O -F +< s c i Nf l 6 3 3 E I I 3 I g I E B g 3 I B 3I 3 B 3 3 BB S S FE F -F o s @ F e N s o q i q q q q - . : q a e r: l ' 9 1 5 = $p p s E EF p p pF p E pp pF EE E p . EE p . B . ' - " ;- ; ' ; ' ;' rr ' o- o- ri d cj i D ' d d d d d d d d d s t dr t d R @o @ @ @ o o ! q q q q q c q q o l q q e q q qq 9 9 - E E ci . i 6, i ci . i . i ci . ' i . i oi 6i c i N N N N N N N N N N* t g ' - ' - OO @ 6 FF .i . i ci ci a N @ E EE gT TE E Tg E E E E B Eg EE EE TE E E F s -- d 6 - 6 - c i o o < r c i o o o o o o o c i o oo o o oN o l F- 6i 6 i c i F NN BE E E 9g 9 sE S E E i ' EE E<Eoq6 qg g C q q g q q q q 9 q q q q q 9 q 9 q +! q - r 3 t 3 ? r a a s { e r i s s q s 6O O O . ! O @ OO OO O O @ Q O! q C q q q ci a i . i . , i . n ^i d . i s i .i c i c . i . i ci d Gi N N N N N N N N N N N O 0 O O O O A a c2 a2 d! . ? q q ' 1 Ai . i . i . i c i ., i . ( <i . \ i 6 i 6i a i Gi i l N N N N N N N e o o r N o. c p 9: p pE il S S * E fr f fr f i e * 3 = = : E l : . , r r i j r i : ; j i . , i ; ; - (D 6 IS I S I I $ g g I E E I I $ I s s s $ s s$ $ $ s $ $ $ $ s $ E $ $ $ $ $ B $ $ $ o,f{-rtNoNF E Sl a O c6 : a ;- o. : g 9e 3= O= ! - r< E l- k; a: tr 8' 6 4.. U - L > (E !+ r ( , ? Er X e r{ 7 i( E 5= =o N. . c (o t r (E c) , = (L ii 'ooo-o&t I 26 0 of 28 8 NoN@6:oCLoU)otllJJFct )ul E3 =o =EZo :t r ,r o EoEo . EE =6q) ct , ll Io)O, AEt - E EB B oa i ll rt (J r E EE r! ( )8o9E uJ o nr r $ TJ J F N o& 9E B =G -EE E Eg E rl l I u. E & OO O O F- ri c u i l Nd OI O N -- dd c i r i NN N gE E E E E E EcE6 s. o o o o o o o Q o eq a r q c q q qq q c q e d r j d + ! ! r i s 3 * + a d o a 6 6 q r o o =- - + F i , F o o o o o o o 6 t I D q ! q u? c? q q I u? q di dj si c i c i c i o ri Fi o a i o o o o o o o o o o ts O O F fl O: E ET T ? E fi f i * fi RR Ff r 8 e * 3 = = = f i - - E EE ;: : : ; ; - - - 6 F l (D Ei {E E I E E _ { S ! ! I I I S S S S S S * S g E $ E U s $ U $ $ $ E $ $ $ E E E E ii E a9!tNoN E S9 6 vf Qo Y. E 5- - O L O= ! - *< E F ki F- Oi o r ' - - ue o q) fr . . g F L SE A - O -- Pi s o> a 6' x. = .! g E xE 5= =o Lt Sl o E @ t r (5 O. = (L ii 'ooLoo-0)E, s(uod(I ) 26 1 of 2 8 8 Noo6oo) <t )oulJJFotr . , l c3 =o .: : i == io'' oEoEc L !=O* t cn o ul l cD = .9 6 H; 5 =c ) o =o . 6 to i; ll uO* 6 o=Eb rE (J c, ,- r o= t( J IX O ( o lu u f t [t F €N o9 E hs E co '= G q 5E : Il l E rr - E & 66 O O ?- ds i r i = NN F O O o o O O O O O O O O O O O o O O I I a 6 o 0 0 F e -- ; ; - i F F M i F - t s N N 5 b b b b b b b 6 o o o o o o o o o o o o oo o N ;E ; a - - ; o'6 ; A6 6 d c t ci o o o d o €i c ' o o oO @ @ F? e< { G i NN o 6 6 o O O 6 6 6 6 A 6 O Q O 6 o A A I I 6 66 6 0 FF Ai t i t i t ci c i c t t ct o A i i i A 5 i5 ( i o( i - -o o oo o o N N \c t - q q \ q q r . ! r : q q 9 c f c: : 9 e 1: \ u ? s E F P S P E F P PF $ E E E F E EE P PE E E. E . E . S ' - ' ;- ; - ; - ; ' ; ' ; - ; ; ' o ' i o ' o - o- 6 - d ri d s t d d r t d d d d R @ o € 6 @ € @ o Q @ q q q q q q q q e q e 99 1 e : I c, i . i . i ^i . , , i 6i oi 6i . i . i d d N N N N N N N N N N* * B ' - ' - cc q q q e e q q o1 q a q q C 'c oq q q e q 6 6 6 6 N FF N N N N N N N N c o oi d . i . , i ci .' i . i . i d. ' i 'i 6i " i t i d ** Bg E E E g E E E E E T E g T E g E E E E ET $ E T F oo o o o o o o o o E E 6 ; - - 6 o c i o e oo c i o NN O O -? <. i s i o i o NN ! EE t E E E E o:pcez -F o 6 o o o o 6 6 o o q @ u! 6 u2 c ? q q I q ul d d i c, r i c i di o d d a i d d o o o o o o o o o qq q q q c q I 9q q c q c e 9 9 - e q ee +r + + i = < i 3 3 9 3 s s < q l s 3 € < N N N N N N o o o o o N a' ! ' ! n 6! 6 l ' ! ' ! c! cn ei ., , i ci c i ci 6i c i ^i .i a i ai N N N N N N N N d -. E es s E s E s i ? E E E - f i EI E E . E E S E tt 6 - : : j .; j :j ; ; ; ; ;; - - 6 F : ) U, d a< q ? s ! o. { s { s s {I IS *S IS S S SS * E S * tE E $ E $ $ gs u $ $ $ E $ g$ $ E E $ oIN-s(\ IoGI\ z. Na , (E (r ' Y o-g -e i' E O= h F a= p ; H d. . 9 F L i6 q - < ) ? Er X e v€ =: = = s6 .i - j Q or c (o t r G, O'= I ii 'oo) o_ooot" o(EoIoo) (EL]o 26 2 of 2 8 8 otEAIoo=Eo6- (l,oou. lJJFoTU3aodE.9oo(o(DN$c!NBEEoEo(,EIoE, 3o ET E ZO ;i l-a lloE3 o{ j€E oo lt ll o= IEtETE2 oi : , ll n (J r o EE EOG( ) toP= lu O [[ut F o o9 :69E =65Eul l tl . E q q q q q q q q c q9 9 9 9 9 -c ? 9 ? -c -q 33 ; 3 F& ri d u i 6 1 ( i o o o o 6 o o 6 6 o D o 6 o o o ;; ; ; ;-F r F O 3 ;q 3 3 ;; 3 3. ' ? 3 3 3: : 3 3 3 3 3: 3 3; 3 = FF EE E E E E f r ?EEEF ^ E 9 i S 9 * q 9 i 3 g f 8f t 8 f i f r 8 f r f r f i q X E - . : - ; : ; ; ; + F -F e F N H E = i- e - e 6 l E f ., ' ) E N{ { { i { N { { { { { E { i l _ E { E ! { { ug $ E $ $ E E E $ E E H $ $ $ $ $ E $ $ oINt6IoNs6 ' 8E ED . = oEE- 6F k i E 3. 8 O -E 4- O Fe s 6t c$o (o t r .. F Eoo(Loo,ou IIIIlclodE t ge o ts . = ci a3 o) f r - - (U > g 68 5 >e c 4i lcI( El. III 26 3 of 28 8 Noo6oo_@U>oLr. lJJFaul e= Bo .: .i i io ;i l-oo=Ao - !=o€=( Eao Il lo)o6Et . E =o t , =o . 6 od ; ll tt O. o o= c) LCO (E ( ) OAovi=UJ O N ni l I II J F sol o& o9 E ts = o o: $ '= G O i= o fi i l 8 '! E & so o { ?? dc i d r NN ts O O O O O O N - F N O O 3 S + O O e O O O O - S e -F f F t s NN q q q q q q q q q q q q q q q q q q q c q qq g . ! o o o o o o o o o o o o o o o o o o o o o oo o o oo o s f F <d s d NN o O@ N S -- dN F i e i NN o 6 @ 6 @ O 6 @ N F F N F F F t s N F F ts F F NO F Q F- 8 8I 8 8 8I 8 8 I 8 8 8 8I 8 8 8 8 8 8 8 8 8 : ** oo o o oc i o c i oo c r d c i o ci o o o o o o o o c i c i tN A F -F 6i6 i 6 i o NN qlq r q r : q !e ! a t : c ! u ? q o l \q q A -o oo o @ F F N N o N - 6 6 o o o o Q I Q o N F F @ o @ e C i F N sN @C i @ O O T - l - O A I N N F N F F N N N N N O- O @ i F F F t s N F F t s F F N F ts F F F F F F F FF N g dd d < t d d d d d d d d s i d d d d s t r i d d ds t d o N q q q q q q q q ro ! q F: qq q \ q q q 9 q oo o o o o o o o o o o o a o o o o o o o I q I cq q q c? ol q. ! q q q ol q q q q . c q q t9 3 t 9 9 S O O ( S 3 S 3 f ?q 3 ? < S 66 6 6 6 6 6 6 6 6 0 6 S 9 4 4 6 0 0 0 6 66 - 6 - 4 6 d 6 6 0 0 0 0 0 0 0 0 0 0 0 66 O 6 -- l) o o P N N 6O @ O @ O O O - N N N N F - ? NN N N N N N O O O O O O O O OO O O O O @€ A O A O O O . N N N N N N G? F N N N ni .( 6i .i n i 6i $i ri . i e i d c i a i r t ci r i e i e i r t c i d Oo N O rF .i6 i o < NN 6 NN N N N O O S q 6 0 0 0 0 f S t S S q s NN N N N N N N N N N N N N N N f l N N N N @c E c 6 - a EE E E EX E gE E E L= O <= 5 5 g: .n 6EoEolErEE o< 6 o t s 6 O O F N O S 6@ F @ O O r ? N O ; : - - ; - ; ({ l N N N s r N N N N No oo o 6i N N N N N N N N N N N N N N N N N N N N NF N F N & S F F F F F S F S S N F N F N $u H $ E H $ U $ H H $ $ $ $ g $ E $ $ E a E= 6 F = o6 IIiIIIIiIIlI Ilb IIIII E. BE=e t=5E d,E<xoo= z2t o>=B^ OEdEo- (,o^=9o- LBE o=^ 6_ F raogo=9 =! DEEG, ^== () 26 4 of 2 8 8 (? )s?Nrtc!oe - Na 6 b9 Av *9e :' E V - =- -. = o F id h: d <- r ' - - UF - @ E: . q oi E : s5 ; ? 6 7 ' (\ I E e: R= 5, = =o -. c\ t .. c (o t r (U 0. = (L ii 'ooo-toooE, (s i (U l oiolo) (6 l !- lol>t IIIi GIoN IIIIg$qoCD (sLi ,o ogo.LoooLt IJJFU) l! r==o =EZo ;n"c I E(DZa - EE tr =OU ' [[o= -9 <, Et . E =O r t =c L E od i ll n (J . 6 o=EE o( JEo 9E Ul O t s nu R ru F ?a oE og b eE E =( ! o := o ul l e u- E & (o(f)o, i \iNo6l 7 & o (E 6i = ' A v- Qo Y. E 5- - O L O= !r *= 6 F id a: tr 3' E = .. 0) N ' = <6 0t s c ) -- Pi . r o tD 7. t (\ I E d) . ! , o= = c s5 $l a . c (o t r (E 0F (L ii 'ootoot o o o o q q c c q q q q q q q q q ot q q c 33 3 : FF rt r i o r i o o 6 o o o Y l ! s t s t s 3 9 ;iF F 3; 3 : 3 ; S 3; i 3 i 3 3 i 3 3 3 3 3 3 33 s 3 FF $s E f 5e ; oEgE6g c_ o F b 9 : 9 P= E P R TN R F RR N R & E E $ 8 g 5 - .f li ;. i o, i .i d, i Ai ii i i 6i 6i ai N i . i t! ct d, i N ii il .,i E E = - ; . - - - F F BF 5 ., 6 sr E I I s I s s s I I E s s s s s s s I $$ $ E $ $ E $ H H $ 5 $ $ $ $ t $ $ E $ 26 5 of 2 8 8 AIo{)oooEoouJJFU)uJ e3 3o .: Eio ;r r -oEgEc L 6EEg oo il 1 1 o) .E ; FE . E =o t t t =o . b oi ; ll tt O. e 8= io€:Eo 9E u. r O tt [ ; UJ F N og * 9E E =( ! a ) i= o rr l l E sE p { S 6 A O O O 6 O O S S O F O N F F F N ts O{ O F FF ci c i d c i fi d d . t ri d o r t r i r i d c i d c i . i . i d ;; ; d N N N N! { o ! ? o O O o O O N o O o s o o o o O O ON 9 F F - q q q c i i b E b 6 c b 5 6 5 5 5 5 5 5 E 55 5 F ** oo O 6 c r o c i d o o o o c i c i € j oc , oo c i d o' - - d oN o o -- s9 d r i NN 6 66 6 6 ? - oo o o N N F t. : \ : \ . ! q r y q q F { 2 o \ o o 6 ? o o 6 oN o o F F F @N = - q ; cj a j - o g ) o s G i Fa j i s s i o t ra j e j < i N q $ g! $ O l $ S s - @ O I N N I o o o o. i a ' i 6 i (n ; i d ; r t T F F ts F F F F ts ts F N N N N N N N N NF F s 66 o o o a a e o o o o o o o a 0 o ( t 6 - d dd d d FO N O -? di c i a i r i NN € N-O F Fr .i r i d i l aN o F F N t s F t s F N ts N N N F F N F N t s N N N NN N N F F 8 8 E 8 8I 8 I 8 I 8 I 8 8 8 I I 8 8 I 8 88 8 = . . n o o c i c , o o o ci o ci o c i oo o o d o - d -c i 0' d 6 0 SS O O FF .i 6 i c i - NN o @c c c 6 - 6 EE E 6 E X S gE E E q= O "= s E EEEEEeE8 .! n q q q 9 q c qq o @ @ @ o oo o @@ @ st s r i i 3 s r s s s s r d ir + < ? + aa a o o o l o o o o 6 o 6 o o o 6 6 o 6 6 oo o o o o o oo o o o g o o o ( , o o o - NN N { N N N N N N N q N - - O O O O O O o r , a i ci a i r i Fi ci r, d ri ri a, d r, ; ; ; a ; ; NO O O O O O N N N N N N N F - ci d a i ai c i c i d e i r, d c t f i c i d ci d d d ai ai ct na o o o 6 0 6 e o o o o ! 9 ! s s 3 9 i NN N N N N N N N N S f l N N N N N N N N N !O O O F N O ! O O N 6 O O F N o ? O 6 t s 6 o I F: : q C Y ? g? ' l ? Y ? YI Y ? 9 Y? r a ? 9 9 9 o 6 o o o o 6 aD - N N N N N N . i .i si i l c i c i a. i o .j fj i t c i c i ci d., = E' E 6 F l o F ss g q ? s 3 s r v s t s { { ! s l r i r qN N N N N N N N N N N N N N N N N N d N N dN N N N N N N N N N N N N N N N d N N N BB E B B B B B E B E S B B g E E E E B B OI(t )sNoNQ6 ' Xo ) -c . 7 ol 9' = = 6t r L- C ' EE r i6 -t r co E F .( f o ) : (D ot ' = n O - a \ Hr x E e qE -\ JN^ (o t r o. = L po'=oo-Eoo) t L- rc $EEHol a o6 (E > t- L. of f i EE EhIrIII 26 6 of 28 8 NoNo,6coIo)oLr lJJFoUJB IIIIIIIooodo,s@1IIIIi.I €C,co6a) 'o =E2a1" t,@gg of€;oo It ll cL 2 oEr =oEEoa i ll nOr o o=Eb g( , toPE UI O nI UJ F aisqeI8(qoco)(,toooE o o9 EE3g '= 65= Il lq- E oc3$ilo(\ l ? N - 6 D- ? ii o l 9 rge xE o= ! - ^ L- ! r€ 6 F d a= t r s E t: . E &E >( o ! + - ( J u Er X e ;E SE ij S o c (o c (E o, = cL ii 'ooLEoCLo)d oO O O r? <= t 6 i NN oo o o o o ( D o o o o o o o Q e a q q q o =+ + + f r + + + + . { < + + i i i i + i 3 3 E : ; : E ;; ; ; 3 : I3 3 3 3: :3 33 : 3 Ee tE E E *s I EE E E Ei ' oEo, ECiE-F - b 3g 8 6 S 8 3 E E h E f i E E H B E 8 E E E g 6 - di * ., i ,, , i d . i 6' i 6i a: ai 6i 6. i ti o a d i i, f i ri r i ai d't E E E ;: ; - - i - ? ? 6 F = ., E TT T E T T T S g T T E $ S S S S S * S S $ $ $ $ u $ $ $ u s, $ E E $ $ $ E $ il i s 26 7 of 2 8 8 268 of 288 Calibration Detail Plant WestValleY Porcr Plant Report Period: Wfi nO24 fi):00 Through 06117 12024 23:59 Source:cT5 0d17/2024 05:33 NOXHI wfl2o244533 NOXHt60 0fl17/2o24 05:33 NOXLO O6l17l'i2t2406;38 NOXLO60 0d'17I2024 05:38 02 6117Dt24s;33 o2_60 06t17112t24A533 0.0 0.0 4.4 o.2 0.1 0.1 0.1 1.0 0.0 0.0 't11.3 181.5 181.5 9.1 9.1 21.1 21.1 110.2 179.6 179.6 9.5 9.5 21.2 21.2 0.6 1.0 1.0 0.4 4.0 0.1 0.1 20.0 STD Passed Yes 0.0 0.1 0.1 0.1 0.1 0.0 0.0 5.0 STD Passed 10.0 STD Passed 5.0 DIFF Passcd 10.0 STD Passed Yes 0.0 0.0 Yes 0.0 1,0 DIFF Passed Yes 0.0 2.O DIFF Passed Yes No Quarterly Type Calibration Records Found Cdbrdion Enoc @rEEilimffiI WESTVALTEYDAS\rrxr.trrer 269 of288 Zero Lanel Span Lwd Results End Date / Time Refierence Value Adual Response Cal Enor Reference Value Actual Response Cal Error Cal Umlt Error M€thod Pass/Fail On- Une COPPM Repod Generahd:, 61 17 124 16:6 ReporlVe6bn4.0 l of 1 slo qo s t s o o o o o o o N @ o o o N ( o F @ O d c i d d c i c i ! i c i d c i r t d o a i r i r , d c t c i ; ai o€ E o o o 6 €@ @ 6 N N N N N N A N O A ! s s ? s s s r s i + o ri d d r i o s ci + < @ o @ Q @ @ o o o @ € @ o o o o @ 6 @ o € o o 6 6 FF o o o o o o o d 6 6 o o o o 6 (l o o o 6 6 66 A d N N q. q e q a l ol o l o : q q o o @ a o F ts r N @ @ @@ o o F? _ _ ; _ - - ; _ ; _ ; - _ ;: ; r ( NN a c! o ! o! o l q q q q q q ol q ol q c9 F t s t s t s F N -- ; ; ; ; _ ; _ ; ; _ _ c? c ? u? cl u l g c? q q q? a u? o o 6 s s s s s 3 -- ; - ; - ; ; _ ; ; _ ; o) ioocotl lJJFU c=3o =3 ioTt r ,' o o.E o. 6z =6ou ) lt ll cr , = Co .E ; EE H =c L d Eo > oi i ll rr (J r E 8E cogoEo gE ll J O o rr u S II J F sN o: - oo A 5E f i '= ( ! O i= o i " E u- E & OO q r O F- ri r i d d (N F 3 P P 9 P 3 P P 3 P 9: :: : : : P: 9 P 99 : R 55 o o o o o o o o o o o o o o o o o o o o o bb b & "" oc i o o oo c i c i o o6 a c , c i o ' -o c , - - ; 6E ; J OO N @ -F is d r i NN o ON O O -* .; ; d NN E EE dE E E EE E EE E g g EE E E E E EE E E EF o o'c j o o cj c i o d ci c i c i o o e; ci -; 6 ; ; E; E ; oiO O F? -F - C j NN c! s? \ q 6! o - - O O O N g o @ F O o € O a Fo - F F F qj ri d @ ri ; + o 9 ci F + a i d <j ut ej c t c i d ; d d j ; . j ; NN 5_ 5- 5 - 5 E_ _6 5 5 I I 5 5 E 5 I I E E I 5 I =5 S 5 dd d d dd d @'d d d d d @ ' t i i o- o ' o o @ - o - @- ; ' 6 ' ; ' N hO F N O ! O O F O 6 O - N o ? r o I =i i I i i : : i i E a i r u d f i f r E f r 8 E o e - o 6 6 6 6 ! 9 9 6, b , i i r i i , i i , h lb t- 6 nj, i i , i j , b = tr ? F F P ; - - - - Ei 5 (D F s q s ? < ! .. d Sl s E s X S S * s s s s s s N s s s s s gB B E B E B E g E B B E B E E E E E E E EE E E €g P g E EE E A E iE E E EE " gEEE IllliiIIIiIiIII!liIIIII]-1Fi' iiiIIIIiIIIIII Fa t6=e==x=93=- =<xoO=?t o=E3^OEdB ovo3s8e o=^&EogO=9 ie 6s=o< oa l ==O 27 0 of 28 8 Or oC) r+6toaN\( / ) 8E -c I o Y. " = E- E- =E F Ki - 0a o' = aG ) : Q to ' = o! + - ( ) tF s e o x ! -6 , 1 c = Fo Io(o E o. = .. Foo0-Eoo. (!)tr L-C loldlot=tolo - l>lol( E l>I att lol=lcl( s lo - (ooooo(Eo AIb(\ too5EoCLou)(]uJJFoll l tr = 3o ia ;r-o t,oI=l L !r 5Oa . €E q, cD Il lo) 6@c-96or')6arbtNN6o8Eoco(9oo.oE. EoEE =E r E9on i J, l E cEEOo( JEa9E uI o ul t ru F o og :EEC6E g! :G5= gIuE qq o l o l o r o o o o o s i i i i! i i E E E E E E E E E Er . E E Eg E i Ee 3; e 3 3 3 3; e ; q ; q g B: f S; BS g: B B :B B f i s r .g Es sl s s E E E E r s E E r E E E E E E B E S€ E g E g F "' e *s S S ; * E E s H H $ s * * s s H r t r EE oe(oF$NoN\N = i. ( , ) # 8E b , -E E 23 5t r ^v c- =F l= F f .r ' -r g U E L- __ v o ti : !D ri ' j ' E >c r ! + F ( J eE . x e 3 c s5 !\ o ) c (O c o o . = ^ .- F BE ooLoo.otr (U(Eooo$o 27 1 of 2 8 8 No oJo=ood)oeLUIJFa/)UJ s3 3o =o :r r -oo=c L 6E@o lt I q)st Zv ExE e =c . b tJ ai ll n() . E @r (r = coG( )Ex ovc) e x=uJ o s ru : UJ F Y $ o! o9 6 :. 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E ) @o 9' = 5^ = 5t r ^- c- ; - ;= E T E =- . , - . : . 9 (E r !P @' E > o ! + - ( ) a Rt r x p o. : g o= 3 c s5 ii I o L CO E o o . = E ii Fo(l )o-Eoo.ot Id(uooio(u r (t )>l 27 3 of 28 8 (\ loo6Eoo.EoouJJJFoIJ J tr = Bo EEZo ;l t-oEgEE L 6E€;oo !l ll o) -9 . o Et E =o , D =c l i 5 oi l i ll l (J r o EE cO6( )EoPE Lu O € o nu S UJ F r{ .N oE o9 D 6g E =( E O 5= P Il l 8 s- E &. 9O O F 7- ri o r i - NN F N O O O N O O O O O N O O O O O O O O O O @ N o O FF FF F NN qq q q q g g 9 q q q q c q q q q q q q q q9 q . ! o o o o e o o o o o o o o o o o o o o o o o o o o o6 a O ?F {i i d NN 6 6 o 6 6 o 6 @ o o o @ o @ O € @ O @ O A A @ @ Q F- d 6 6 0 6 0 6 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 NN g g I N 6 q S O O S O O N O O r N O N S F O N S N ri oi a i d o i r i d F - aid - d c i F ; d d d c i a i o i a t o i F G i N N F N N N O F F F O FO N t o. o. o . o_ o _ o _ o- o_ o _ o- o - o. o- o- o - o- o- o - o. o - o- o- o . o . o " €o o a o @ o o 6 . o ( 0 0 0 0 0 0 @ o o ( o o o o@ e o N @@ F @ F- ;; ; J NN \\ \ t \ \ C C q C q F : \ \ q . c \ t r : \ F ts o F o - r _ _ i ; d NN o <!< t FF 66 6 0 N N oo o o ci c i o c i lo i F -- -? ; 8 i NN oB E C 6 - a if P t : ! ce g EE E ; EE ' oEo!EE c? q rq ' { q I a 9 q =. ? a I a . q a q a' q a q oo o o o o o o o o o o o o o o o o o o o v? q q c s? q I cq c q c? oq q q q q q q q q q {3 { 9 { i 9 t t 9 t s f ss s 3 t i 3 s FF N t s F F @ @ @ @ @ @ @ O O @ @ F F F N ES E E E E E S E E g E g g g E g E g g B o c , d o c i o c i d c i c t e t c t o e , c i c i o d c i c i ci =l t t t { ! o 9 0 3 9 3 ! 3 3 ! t 3 t s EO O t s @ O O F N O S O @ t s 6 O O F N O A O -9 r ! a 1 i 6 6 6 0 0 6 6 0 6 6 0 0 6 0 0 0 X E - d i d i d i A i i , i i d o ' 6 , D - d i iii ,id 6 d A , F F N F F F = EE 5 F = 0) F q i ? ? r . a =.r ! ? i I q ! ! r n - i 3 = qN N N N N N N N N N N N N N N N N N N d N N t s T S t s F t s t s N ts t s F N t s '\ ' \ ts F N , t s N N B E E E E I E E E E EE B E E E E E E E E E lr )It\tNoNN 6 E9 - o. : g ge xE O= E r ;= E ; g vF A O) E; 8 P s -- P i + o o) ; i , (\ l c = c s5 \9 c (o t r (E 0F o_ ii 'ooo-Eoo- (Dtr "EGTqoq)goII 27 4 of 28 8 (\ loGI6oEo.IooUJJJF(r ,UJ tr = ;o =gZo ;I-oE'oEc t EE o. t Il lo) co OdFt . E =O e =c t 6 a0 i It nO. E gE€9 to9E lt l O c c nr I ul F N oE 9E B =E rTE E =( E O *= o T, u I uE &. OO O O -F dd d r i NN nO 6 O -- ri r i r i - NN BE E E 9g P EE E ; Ei u EEgEEE oo o o o o o o o o o o o o o o o o o o o A, ; ; 6 G 6 6 d d o d ui d o u t @ d d u i ri d a c! i Q c? c? . q ! q q o a ! ! ! 1 u! a c? 1 6 ct ct r i o d c i a i r i r i o ci o d o t i t i <i ri a i ci . i ^ E E9 i ? q E E S S E E E E f r f i E E S E E E X E - dd 6 'i i ' i i cr , ! i 6 ri i , i i @- rb dd d d i, i , F F N F t s ts c -= -- ; - - - a - B F5 ,, E EE { { E F N N F F F F F F F F F F N F F N i\ F N r. - r: t N N F F F F F N F F F F F N E E E E E I E E E E B E E B E E E E E B E B lr JIFNos!N E E9 = o: i Qo Y' a 5- - O L O= ! - *< E F k; a: 0 . e' E Et u &e E ; T] 3 N P e# R= 5= Fo ij So c (o t r (U 0F o- ii 'oo)o-Eoo-oE, o(qqocr )soI 27 5 of 2 8 8 (\ Iooooo0)U)ouJJ)FoUJ tr 3 Bo =gZo ;l t-oEoEc L +r = aO ! =( Eoc t il l lo) -g . o Et . E =o v t =. r . 6 od ; ll IOr o EE eosoEo9E UJ O r rr u X IJ J F N oL og D o: $ 5= o 1! l I u- E p Oi@ N FF do r i G ' i NN ts o O O O O o O O O O O O O o O o O O O O O O O O o -? FF F NN qq q g 9 g q c q c g q c q q q q c q q q gq q . ! o o o e I o o o o o 0 0 e o o o o o o o o o o 0 0 oo O O ?- de g ; NN o @@ F F rF J. J . + NN E E E E E B $ d E E E g g E E E E E E E E EE E E OO o o o o o o o o o o o o o o o o o o o o o oo o o !O ! O F- J. j ; o i NN N qq 1 ! q s9 q9 9 6 3 o o 6 36 6 rQ o 6 o d nt . i d d . i r i di ti d c t r i c i di o d € i a i a i ai oo € o o @ o a 6 0 c @ @ @ o o o o o o o +r < = g = = + + n * d + = t r i < t s s 6 6 6 6 @ o @ 6 o @ @ O @ Q e to Q C c9 'a @ @ @ 6 6 =F 66 - - 6 6 6 o o 6 6 O . . 6 d l c 5 6 d o o o oo o o N N 60 0 0 F F t s ts N 0 6 0 @ @ @ @0 @ o @ @ 9 't a aa rq a q! a! a c c ? q qa 1 1 a 1 ? N o 6 F F F o o F O O O O O O F O 6 O O -? A N ?- :; ; ; r , ' d ; d l . - ; a i ; d 6 i . i ; d F o N d' j F d N N tu - - ; - - - ? ? F + N N F N 6 O N s ? N NF t o ai o c i o o o o o o o o o o o o o o o o o o oo o = a6 ' 6 o - A ; ' , D - d@ - d d d d d d d d d d d o dd d R L6 6 N 6 o o F N o { O @ F @ O O F N O f O _@ . - - . - N N N N N N N N N N O O O O O O X O - N N t s N F F F N - F t s N ts F N t s N N t s F N E EE 6 FD q) E r ? < + - { - i € t = s t g s t i t s = = IN N N N N N N N N N N N N N N N N N N N N NF N N t s F T - F F N t s FF N N t s t s t s t s t s N EB E B E E B B B B E E E E E E B E B B E 9. E E E ! o 9 g3 5y e = c EE E E E X 6 E= E ; EE " pEo=E: E€ E. ^EtezEE *=93 tex. oo=zEg3^OEhs o3E ' GEo- a o- q o=^HE . 8e -3=6s=8E=5o=o 27 6 of 28 8 tJ )q?t\$N<>N\N e =6 ' (u (o X = o. : 3 . E l G) ar Y ' ' = 3< 6 E o= ! - ^ L- L ;> p ; E s- - q) d. . U N L iE 9 - o - Pf t o rr ; r s\ c o. l 3 0= = - s5 c @t r o o, = o- ij 'o.Eoo-Eooo)t gGqoo)go GIoNoooo.cU)oUJJJsFU)UI E= ;o =EZ- o ;l t1o EIo=C L f; E€Eou ) !t ll o)o. . , Er s E3 8 oa i ll tt () . e EE=o E( , to9E Iu O s ru I UJ F E oI o9 B =6 : E t r H ts E tr o =6 ( D 5= I rt l E rr - E &. e q q q q q q q q s q q q q g c c e a q c 3E ? 3 ns o o 6 o o o 0 D o 0 o o o o o o o D 0 D o == = = -o qq a a q a r c aq u ? o r @ D u i it q a a q q 3: : : E F o o o o o o o o o o r i c i a i d r i c i ti ci ct r i oE q c 6 - t g= =v c! c EE E E Ei ' pEo: ECEE ^ E PP I ? E R E N E E R E N E & f i E f i f i T H :( 6 - F F F t s t { t s F t s i F t s F t ( F N t s ' F t s t s F F F =F s 6 E- r a + a ? - < i n t ? l - l ! r i r 3 t ! (L s, e { { N N r! s a N t! N N N e N{ S E S { r. '. ]. N , N N IS , < ' ' { F , N F N N 's , ] s FiN F N N , E E EI E i E ' E I E E. E EI E E I E I E EI E E E 5 E E lr )s?NtNo(\ t\F- E ;9 - E= 9e 3= 9 - = F iE F i s o- * = 6 8. . ii rE :E S ; ? (, ) xr c\ l E o) . ! Y O = =E N5 ii So c (o E (! o, = (L ii 'oo.Lf8.ot (E(t ,q(uo) (Ut- lC 27 7 of 2 8 8 No AO t s O FF di d i d ; . i N N F c? 1 G1 !l C : a ! q q 1 a q a t: q q \ t e ul oo o o o o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ON t F FF ?F F t s NN qq c c Y oo o o 60 6 @ O A 6 0 6 0 @ O O O O O O N N O O ?= < i = < < < < ? n t t s t t s a 6 ! t 6 @ 6 6 o @ o @ O O @ O O 6 6 O 6 @ O o 6 @@ O O F! o d o o o o o o o o o o o o o o o o o o o o o o o NN N Ft s t s F TF ;- ; d NN <3 3 S S S l S 3 9 r 9 ! S = l r S - 9 ! oo N o N o o o N o o o N o o o o S s 6 0 oo o o o o o o o o o o o o o o o o o o o ci c i o o c i o o c i o o c i o o o o o o o o c i o 0)6oo-oU)6LUJ)F(/ ) tr J E3 3o =O ;i l-oEIoEc L EE cD o nl l ul = co _o ; Ea . E =( D . a =c L 6 oi i ll lt () . e EE EOsoBoPE UJ O r o il i l 8 II J F tN OE o9 D TE E =G o i= o il l l 8 !l = p @A N l FF -+ d c i NN 6 r? c ? qc . q . : r : sY u ? q e q\ o l \q q I o? N o 6 o s i i @ o F @ o N @ o o o @ @ F { F s @ s F @ + O d { d NN F F N O O N N F F F N N N N O F F O N . F NO O O o o o o o o o o o o o o o o o o a o o o o o 6 0 s d d d d d d o- d d d d d d d d d d d d d d d d d { d N NF t s t s F ts N N N F F F t s N N F \ \ \ t \ \ r \ \ \ \ \ \ i \ t \ \ \ -- - - J ; ; ;; rir r i Ni l o FFE E E E E E E E E E E g E E E E E E E d E EE E E FF d c i c i c i c i c , c i c i c i d c i d c i c i d c i d d c i d c i c i c i c i c i 9!3 S P? -- J q i qN N @q g a n - 6 EE E E E i ' pEo=ESEg -F EO O F N 9 S A O t s @ O O F N O S T O O F O O - .9 9 - : : - - : : : : a : : q ! 9 ! 9 ! q ! q ! { ! f ! q l n ! ! .- ' (l) - o @ @ @ @ 6 @ @ @ @ o @ o @ @ o o € a a @ = EE 6 F l @ -6 <r { r * ! s s s t r r r r ! ! ! { r = s GN N N N N N N N S N N N N N N N N N N N N NN t s N N N N N N t s N N t s N N N t s t s N N N 66 6 6 6 6 6 6 6 6 6 0 6 6 6 6 6 6 6 6 6 oo 6 0 0 0 6 6 0 0 0 0 0 0 0 0 0 0 0 0 0 6Fo rc=P +-x>9g *tx0o= z?eo==Ea dEur - (99E o- t s Ioog o=^ o- E (L oog o=3==UE d. ^*t () 27 8 of 2 8 8 6)c!cortc{oN\F. E 59 ;i o: 9 0) a r =' '= == E r o= =- *< 6 F k; h- 0( o' = l9 - . . Q o) ii '. O c6 ' = :E S ; 3 a 6' x. E {= xE 5= No E (O E O o, ! (L ii 'o'=oLooc)tr fiqoC, )g0,1I (\ toGIoooooU)oUJJJF@1L l c= io EEZA ;t l loEgEE L EE =( !o ct ) Il lo) 9t c iE6 E EB E Eo > tJ t; ll tt O. E E= EOE( ) EsEo 9E II J O o nr B ut F N o: g E B 5€ E =6 4 ) i= o i rr I tr - E & I9 9 c q q q q q q q q q q c q q q q c o gq 9 e Es ri 6 r i ui d d u j s i u j s i o o o 6 a !o o o o o 9= 9 = " * IO F S FF .i d i c i . \ i d N F B€ E t *q P cE E E EE U sEo!EE a a q u? q a a. q a? a a q d? . c q c q q \ q c? oo o o o o o o o o o o o ( , o o o o o o o h O O - N ( t { o O t s O O O - N O t O @ F o o .9 9 F F F F F F N f l N N N N N N N N 6 E- &i At di dd i, 6 ii &i dd ai dd dd ii ii d 6 6 1 6 a, at ii o F -t t - s r s s t s i t n r s ! r r r r < B N N N N N N N N N N N N N N N N N d A N N F N F F t s N t s t s N F t s t s F F F ts t s I ' t s F , F E E E E E] E tI E E E E E E B 5 3 E E B E E O)Ncd!cNo(\ IN E ;9 ;- o .: ! - -c . = Eo E' = FE _ E: ;= p 5 E .l ! r -. Q (r ) E. . o c( ' ' = = sE ; ? E. g ' 8. = = tr s5 Lj =o c (c t E (E C) . = o- ii 'ooo_goo-otr (E(Eooo(6o 27 9 of 2 8 8 $looooo"EooulJJF-oI.I J tr E 3o =E io ;I-oEoEa . E=aD * oc ) Il lo3-E ; Ft . 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C P P9 9 9 C e 6 e l - o @ o o a Q o o @ o o € € € 6 o. o o o o o E tr . : i d F5 (D 6 rr r s i r r r ! ! ! s l r s r i l s s s qN N N N N N N N N N N N N N N d N N N N N ts t s F T\ N '\ F F F '\ N t s N N , t s t s F, N N N 'S B E E B E B B B B B E B EI B Ei E B B B B E 28 I of 28 8 (U(Eooo(6o (\ loo0fEo&ooIJ JJJFal, l J tr 3 3o .= E io;r l -ooEo . EE oo Il lo) co .E ; Fr . E =o o =c t d oi ; ll tt O* E 8E io*3BoHE U! O < ' ) ru n E II J F N oI 9E B E= X b€ E =6 4 ) i= o ls l l e uE & { O O O 3 3 O O 9 S o O i I O O O O O S O O O t - e- F_ O Nd o o o o o o o o o o o o o o o o o o o o o oo o N o o o o o o o o o o o o o o o o o o o o o dd o o OO N O FF ri + c i r NN o @6 6 6 -- ;; . j 6 i NN c O { = o o o O O o O O o =O < ! - F I 8 I 8 8 8I 8 8 8I I I 8 I I I 8 I 8 8 88 8 5 -* ct o o o o c i d d o o o o o o o o o o c i c i c i od o o OO O o -- -- - N NN N F O @ 6 F F O @ O F O @ O F o O O O O N O .o o o N -F ri d d r i o r i o c i o c i o o cid d r i d r i a i Fi a ?; d d € N N N q q al q . ! c ! . c q c ! . ! o l cc q c ! o! q q q o! t q o? s t o o 3 s 9 0 t 9 6 0 s { t $ s o s 6 6 6 6 o 6 6 6 6 6 6 o @ @ o @ @ @ A A @ @A o A FF 6 6 6 0 0 d 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 N N qq 9 q e q q q q c 9 9 9 c ? c ? q u ? q 9 q c l qq q \ = : oo @ € o o @ o @ @ o o @ o a a a 6 a o 6 oo o o o o o o o o o a o o o o o o o o o q n q c c| q a c .q - q q \ q q \ - q q - a G o o ? -F oN d < N 6 o o ? 6 o o @ ! o +@ o o t s @ <i c i d @ N N 6 6 * d O O O = = O q O O ! r s O O O O O O O S O o. o_ o- o - o. o. o_ o. o. o. o - o_ o _ o_ o- o_ o- o - o_ o- o_ o_ o - o . @ - € @ @ @ @ o o @ o @ o @ @ o o @ o @ o o @ o 0 6 0 N 9N o @ O F N O 3 6 O F 6 O O - N o 3 o @ F -O F ? F N N N N N N N N N N O O O O O O O O X 5 - o, @ qt @ @ o ot @ o @ o, o ot oi ot qi ot tt t 6, o o = tr F 6 F5 (D F o < € a ? < r { = r € ? ! = = t { s ! = = qN N N N N N N N N N N N N N N N N q N N N N N ts N N N F N , \ F N F . N t s N N , \ F , \ F N BB t s A t s B t s A t s B B B B B B A B B A B A oo o o o o o o o o o o o o o o o o o o o aa c c 6 - 6 6 r l = s 6 s EE E E 83 8 <= E E g: a dEEt s o> !EEE IIIIIIIIII1IIIIl-lr - I( J IiIIiIIIiIiI.IIiIiirl FaBS=3 *ax=9EEteXDO=zE3=3^OEdE ovoo^ =9o- E (L A ()=^ o- F LAAOo=9 =c<==s9<o€=; o= c) 28 2 of 28 8 IIIIIIIIIIIIl* l( , lo ) l-ls16 1 loINl- t\ 16 ;9 cu l t € = fl l * E E i; o) ? . - q 6E $l ; E F s E al : = E? lc (o E lo ot ! t( L i i ' lol' clolo - lgtolot0 ) l0 a IIIIIIIIIII GIomo6oIooIUJ-)Fu)uJ s3 Bo 7o ;u-aeEg of =Eoo Ino) -9 . o EU E =6 e =o . 6 E6 > oi i InO. E 8E c, o G( ,Eo iEuO o rr B UJ F sN o= or c , b .= 6Et R6€ E =G O i= o i rr I rr - E B NeO)$NostF- E i U ' # 8E - E2 9E 3E o = E- ;= p I s v- - o : - .- . .. - :E g 3 : E g' 8. = 3 c s5 u =o c (o E (E C) : L tL ii 'o@LLoo.ot o o o o o o o o o o o o o o o o o o o o o ?q q q == d r i si ri s i ri ut d 6 o d d o ri r t d 6 6r i d si 66 6 o rr i r -i D ts <o o o F o o o F F o o o F a o o o o F o 9u ? q q == o= E c o - 6 E i t = .8 r 5 - E EE € E EO E "= j 5 EEsEo,ocEi hF O O O F N O ! 6 @ N 6 O O F N o ? 6 6 N o & Ia - q ! q ! c - { N N N N N N N . t o o e ( t l o - o 5 e : o o o o d di a i dl t o 6 , c i o 6 ' a i ai o i a ; 6 ' 6 d oj E E ' - ? r F i i d F5 U) !B ! r $ s r l = s i s s s s r $ t = l r i l qN N N N N N N N N N N N N N N d d N d N R N F, N F 'S ' \ '\ F T - F N F F \ N '\ N F N N N_ EB E E E B E E E B B E E B B E B B B E E 28 3 of 2 8 8 (\ loo)qfo0aoUJJJF@UJ s3 3o .: EZ. o :l r-ooEo - .{ =@?ut o il l l th = @ .9 <, Ea . 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J NN @c c c 6- o 6l t = 5 d : EE E E EE ' 6d & EEgE6€ro -F o@ o o F F o @ F t s o @ F o o @ F F o o F oo o o o o o o o o o o o o o o o o o o o oo o o N N o o N N o o N o o o N N o o N + + < s d d s i d c i q s d + ! + ri d e 3 d 66 6 6 6 6 @ @O O @ Q O O O @ @ O @ O @ 6d o o o o o oo o o o o o o o o o o o o oo o o o o @ @ o o € @@ @ a @ o e a o o EE E E E g E E E E E E E E g E E gg E E o c i d c i c i c i d c i o o o o o o o o o ci o o ci q? c? q q c? c ? g? !l u? u ? s? c ? I q q u? 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I q q r: q q q \ t q q \ I q q ' : c I ct \ oo o o o o 0 0 0 0 0 0 0 0 0 a o o o o o . E EE $ S S q E E E f i E E H B E H E E E E ? E E- o c i at d o i oi a; 6 o d; ii o o 6 at o t i c i c i o i i = EE F F N N N N N N N N N N N 6 F = (D E t = T ! ! s t i ? < { ! { f t r ! t ! + i TN N N N N N N N N N N N N N N N N N N N d ts ts F N t s F ts t s t s N t s t s t s N F t s N N F N F . B B E E B B E E B E E B E E . B B B E E B E oo(\ l INoNN 6 59 e- ol : g€ t= o= ! - .l . = = 5 ;> & : s : - .- - . {? .9 g# &P 5 ? aF x e (l ) - V o= =' s5 L; Io E (O E (5 0. = (L ii 'o.EoLEoo.ot r!Eooo([o 28 5 of 28 8 <\loq)6fooooulJ.JFaIU tr = Bo .: Ji '= o ;I-o S s o 3 9 g o I 3 I O O n O O O s 3 O N O ON i O =F ?F O NN o o o o o o o o o o o o o o o o o o o o o a o 9 N oo o o o o o o o o o o o o o o o c r o c i o oo o o OO N @ F- ri+ d r i NN o G< x5o=z q': q q ! : s l c l q Y q q q q 9 u ? q q C 9 o o* @ F - F N N o N o F F o 6 F F ci F i 6 i d r i ; o i a i ; N 6 i N a i a ; NN = = < s = < q s r o { ? ! = o e ! o o s o qo q o o o o o o o o o o o o o o o o o o o o o o oo o @ @d a d d d q t d d d e a d d @ 6 - o d 6 d d dd d d N \ t q t t \ c \ t \ 0q q \ c q q q t rq . ? a oo o o o o o o o o o o o o o o o o o o o @O O - F? do d c i Na F {N O N N N O N N N @ O N O O O N N O O O d d { r , si r i r d o d d s ai + + s o o s + + 66 0 6 6 0 0 0 0 6 0 6 € 6 @ 6 6 0 € @ € oo o o o o o oo o o o o o o oo o o o o 6@ O o F- oo o 6 N N N o@ o 6 @ o o @ 6 0 @ € 6 @ @ 60 0 6 0 6 OO A O F- -; ; N NN @o @ 6 @ o € @ @ @ o @ @ o @ @o @ o € o c? !2 q? v? 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I g s ! s 3 g s s l q s F- o o o o o o o 6 0 6 0 0 0 0 0 0 6 6 0 6 0 0 0 0 6 N N o o o o o o o o o o o o o o o o o o o o o o o o o d o o c i o c i o o o c i o o c i o o oo e o d c i o c r c i o s:Nr+NN@o;'EE0,c(,oEoCLoE o oPe€ 7( g5= Il l I! = oE t c o - 6 6- = = . = 6 : 5E € E 8O T <i € E eF oo Z EEof9cEg -F IoNINo6l t\ 5 E9 d , , g' ' ' = =< d h O= E - *- = P I. G O- * 4. ! 6 : t--. :: - EE ER 5 - )C s o 8. 0 ' 8. s = c s5 \v c (o t r O O, ! o- ii 'ooLEoot (U(soo (\o$to6o0!>oulJJFoul E= io rs : E l Zo ;r r "o !,oEc L EE€E cr t o lt ll o) @ -g <c t ET E ={ , r h =o . 6 Eo > (J d i l! uOt E EE tr o 6( ) tl rBo 9E UJ O r ut r l TU F N sN oI o9 D EE X6E E vE E =l E O5E 9 rt l l e u. 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Er x e ;E SE ij Io c (o E (E C) . = o- ;j 'o(t ) o_oo.otr fiqjoGo, 28 7 of 2 8 8 ffi JUL 1 5 2024 DIVISION OF AIR OUALITY 288 of 288 W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name West Valley Power Company Contact:Jerame Blevins Contact Phone No.801-967-1200 Stack Designation:Unit 1 Test & Review Dates Test Date:6/18/2024 Review Date: 11/25/2024 Observer:Not Observed Reviewer:Rob Leishman Emission Limits Emission Rates SO2 NOX CO SO2 NOX CO lbs./MMBtu lbs./hr. 37.0 43.8 3.862 2.099 ppm 100.0 10.00 2.852 2.542 %O2 Correction as a whole #15.00 15.00 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) Ps Stack Pressure 144.00 113.097 0 Contractor Information Contact:Austin Keough Contracting Company: Alliance Source Testing Address: 2855S 500 W Sutie A, Salt Lake City, Utah 84115 Phone No.: (385) 722-6712 Project No.: 8710 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc dscf/MMBtu wscf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthracite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Correct For O2 CO2 Interference w/CO Yes Yes Yes W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Company West Valley Power Point Source Unit 1 Test Date 6/18/24 Start Time End Time Run CO lb/hr CO lb/MMBtu CO ppm CO ppmc Gas Flow scfm Load MW NOx lb/hr NOx lb/MMBtu NOx ppm NOx ppmc O2 % Headers Here 10:30 10:51 1 1.5 0.004 1.9 1.9 5841 36 4.7 0.013 3.5 3.5 15 11:16 11:37 2 1.5 0.004 1.9 1.9 5825.9 36 4.7 0.013 3.5 3.5 15 11:53 12:14 3 1.5 0.004 1.9 1.9 5796.3 36 4.6 0.013 3.5 3.5 15 12:28 12:49 4 1.5 0.004 1.9 1.9 5767.8 36 4.8 0.013 3.5 3.5 15 13:03 13:24 5 1.5 0.004 1.8 1.8 5736.7 35 4.6 0.013 3.6 3.6 15 13:45 14:06 6 1.4 0.004 1.8 1.8 5722.9 35 4.6 0.013 3.5 3.5 15 14:25 14:46 7 1.4 0.004 1.8 1.8 5712.6 35 4.4 0.013 3.4 3.4 15 14:57 15:18 8 1.4 0.004 1.8 1.8 5712.2 35 4.6 0.013 3.5 3.5 15 15:29 15:50 9 1.4 0.004 1.8 1.8 5687.9 35 1.5 0.013 3.4 3.4 15.1 16:04 16:25 10 1.4 0.004 1.8 1.8 5678.9 35 4.4 0.013 3.4 3.4 15.1 11 12 13 14 15 16 W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 1 SO2 Analyzer:Serial No.: CO2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit: Test Date SO2 Dry SO2 Dry SO2 Test Date % CO2 Dry 6/18/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 6/18/2024 RM CEMS Diff Run#Start Time End Time ppm lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 10:30 10:51 1 10:30 10:51 2 11:16 11:37 2 11:16 11:37 3 11:53 12:14 3 11:53 12:14 4 12:28 12:49 4 12:28 12:49 5 13:03 13:24 5 13:03 13:24 6 13:45 14:06 6 13:45 14:06 7 14:25 14:46 7 14:25 14:46 8 14:57 15:18 8 14:57 15:18 9 15:29 15:50 9 15:29 15:50 10 16:04 16:25 10 16:04 16:25 11 11 12 12 13 13 14 14 15 15 16 16 Average = Average = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = RA - Relative Accuracy = RA RA RA - Relative Accuracy = n = 0 0 0 n = 0 or RA of 1% t0.975 = t0.975 = E.L. Relative Accuracy = a For steam generators;b Average of three samples;0 c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 13.2 Relative accuracy Performance Specification. The RA of the CEMSS must be not greater than 20 percent when RM is used in the denominator of Eq. 2-6 (average emissions during test are greater than 50 percent of the emission standard)or 10 percent when the applicable emission standard is used in the denominator of Eq. 2-6 (average emissions during test are less than 50 percent of the emission standard). Up dated January 17, 2006 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 13.2 CEMS Relative Accuracy Perfromance Specification. The RA of the CEMS must be no grater than 20 percent of the mean value of the reference method (RM) data. 1 percent O2 or CO2. The results are also acceptable if the absolute value of the difference between the mean RM value and the mean CEMS value is less than or equal to 1.0 percent O2 (or CO2). Up dated September 14, 2016 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 1 NOX Analyzer:Serial No.: O2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit:100.00 37.00 Date NOx Dry NOx Dry NOx Test Date % O2 Dry 6/18/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 9/30/2014 RM CEMS Diff Run#Start Time End Time ppm lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 10:30 10:51 -1.0 3.5 -0.004 0.013 -1.36 4.7 1 10:30 10:51 15.1 15 2 11:16 11:37 Y 3.1 3.5 -0.4 Y 0.012 0.013 -0.001 Y 4.26 4.7 -0.45 2 11:16 11:37 Y 15.1 15 0.086 3 11:53 12:14 Y 3.3 3.5 -0.2 Y 0.012 0.013 -0.001 Y 4.54 4.6 -0.06 3 11:53 12:14 Y 15.1 15 0.079 4 12:28 12:49 Y 3.4 3.5 -0.1 Y 0.013 0.013 0.000 Y 4.65 4.8 -0.15 4 12:28 12:49 Y 15.1 15 0.085 5 13:03 13:24 Y 3.3 3.6 -0.3 Y 0.012 0.013 -0.001 Y 4.49 4.6 -0.12 5 13:03 13:24 Y 15.1 15 0.101 6 13:45 14:06 Y 3.3 3.5 -0.2 Y 0.012 0.013 -0.001 Y 4.50 4.6 -0.10 6 13:45 14:06 Y 15.1 15 0.103 7 14:25 14:46 Y 3.3 3.4 -0.1 Y 0.012 0.013 -0.001 Y 4.43 4.4 0.03 7 14:25 14:46 Y 15.1 15 0.103 8 14:57 15:18 Y 3.3 3.5 -0.2 Y 0.012 0.013 -0.001 Y 4.48 4.6 -0.12 8 14:57 15:18 Y 15.1 15 0.100 9 15:29 15:50 Y 3.2 3.4 -0.2 Y 0.012 0.013 -0.001 Y 4.34 4.5 -0.16 9 15:29 15:50 Y 15.1 15.1 0.014 10 16:04 16:25 Y 3.2 3.4 -0.2 Y 0.012 0.013 -0.001 Y 4.30 4.4 -0.10 10 16:04 16:25 Y 15.1 15.1 0.011 11 11 12 12 13 13 14 14 15 15 16 16 Average = 3.3 3.5 0.199 0.01 0.013 0.001 4.44 4.58 0.14 Average = 15.090 15.020 0.075 Sd Standard Deviation = 0.09 Sd Standard Deviation = 0.000 Sd Standard Deviation = 0.130 Sd Standard Deviation = 0.04 Confidence Coefficient = 0.073 Confidence Coefficient = 0.000 Confidence Coefficient = 0.100 Confidence Coefficient = 0.028 RA - Relative Accuracy = Relative Accuracy =8.30%Relative Accuracy = RA - Relative Accuracy =0.68% n = 9 9 9 n = 9 or RA of 1%0.07% t0.975 = 2.306 t0.975 = 2.306 t0.975 = 2.306 t0.975 = 2.306 E.L. Relative Accuracy = 3% 0.27% EMRA EMRA 12% 0.64% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 4. Performance and Equipment Specifications 4.3 Relative accuracy. The RA of the CEMSS shall be no grater than 20 percent of the mean value of the RM test data in terms of the units of the emission standard or 10 percent of the applicable standard, whichever is greater For SO2 emission standards between 0.30 and 0.20 lbs./MMBtu use 15 Percent of the applicable standard; For SO2 emission standards below 0.20 lbs./MMBtu use 20 Percent of the emission standard; 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 12. Calculate the arithmetic difference between the RM and the CEMSS output for each run. The average of the nine (of more) data sets constitute the RA. 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 1 percent O2 or CO2. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? PassedPassedPassedPassed 1200696549Thermo 42iQLS Thermo 48iQ 1200696554 W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 1 CO Analyzer:Serial No.: Acquisition System: Acquisition System: Serial No.: Equivalent Emission Limit:10.00 43.75 Date CO Dry CO Dry CO 6/18/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff Run#Start Time End Time ppm lbs./MMBtu lbs./hr. 1 10:30 10:51 2.83 1.9 0.006 0.004 2.36 1.5 2 11:16 11:37 Y 2.82 1.9 -0.92 0.006 0.004 2.36 1.5 3 11:53 12:14 Y 2.77 1.9 -0.87 0.006 0.004 2.30 1.5 4 12:28 12:49 Y 2.62 1.9 -0.72 0.006 0.004 2.16 1.5 5 13:03 13:24 Y 2.43 1.8 -0.63 0.006 0.004 2.00 1.5 6 13:45 14:06 Y 2.38 1.8 -0.58 0.005 0.004 1.96 1.4 7 14:25 14:46 Y 2.37 1.8 -0.57 0.005 0.004 1.95 1.4 8 14:57 15:18 Y 2.40 1.8 -0.60 0.005 0.004 1.97 1.4 9 15:29 15:50 Y 2.41 1.8 -0.61 0.006 0.004 1.98 1.4 10 16:04 16:25 Y 2.39 1.8 -0.59 0.005 0.004 1.96 1.4 11 12 13 14 15 16 Average = 2.51 1.83 0.68 Sd Standard Deviation = 0.13 Confidence Coefficient = 0.101 RA - Relative Accuracy = n = 9 0 0 t0.975 = 2.306 E.L. Relative Accuracy = 25%7.78% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 4 For Carbon Monoxide (CO) Continuous Emission Monitoring Systems applicable emission standard is used to calculate RA. 40 CFR 60 Performance Specification 4A For Carbon Monoxide (CO) Continuous Emission Monitoring Systems 13.2 Relative accuracy. The RA of the CEMSS must be no greater than 10 percent when the average RM value is used to calculate RA, 5 percent when the applicable emission standard is used to calculate RA, or within 5 ppmv when the RA is calculated as the absolute average difference between the RM and CEMSS plus the 2.5 percent confidence coefficient. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 10 percent when the average of the RM value is used to calculate RA or 5 percent when the Passed Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Thermo 48iQ 1200696554 W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 1 Average Emission Dry SO2 NOX CO lbs./MMBtu 0.011 0.006 Average % concentration lbs./hr.3.86 2.10 CO2 O2 ppm or % 2.85 2.54 15.09 Run 1 Enter O2 or CO2 Dry SO2 NOX CO CO2 O2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)-3.70E-03 6.42E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft -1.186E-07 2.057E-07 lbs./hr.-1.36 2.36 15.07 ppm or %-0.99 2.83 14.91 Run 2 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.16E-02 6.42E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.703E-07 2.052E-07 lbs./hr.4.26 2.36 15.09 ppm or %3.10 2.82 14.94 Raw Value Run 3 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.24E-02 6.30E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.979E-07 2.014E-07 lbs./hr.4.54 2.30 15.08 ppm or %3.33 2.77 14.95 Raw Value Run 4 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.28E-02 5.96E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.086E-07 1.902E-07 lbs./hr.4.65 2.16 15.09 ppm or %3.42 2.62 14.94 Raw Value Run 5 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.24E-02 5.54E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.953E-07 1.766E-07 lbs./hr.4.4854 2.00 15.10 ppm or %3.31 2.43 14.93 Raw Value Corrected For Cal. Drift Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift O2 CO2 Clear lbs./MMBTU W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 1 O2 CO2 Clear lbs./MMBTU Run 6 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.25E-02 5.44E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.972E-07 1.732E-07 lbs./hr.4.4967 1.96 15.10 ppm or %3.33 2.38 14.92 Raw Value Run 7 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.23E-02 5.40E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.922E-07 1.721E-07 lbs./hr.4.43 1.95 15.10 ppm or %3.28 2.37 14.92 Raw Value Run 8 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.25E-02 5.47E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.967E-07 1.742E-07 lbs./hr.4.48 1.97 15.10 ppm or %3.32 2.40 14.92 Raw Value Run 9 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.21E-02 5.51E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.849E-07 1.752E-07 lbs./hr.4.34 1.98 15.11 ppm or %3.22 2.41 14.92 Raw Value Run 10 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.20E-02 5.47E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.825E-07 1.739E-07 lbs./hr.4.30 1.96 15.11 ppm or %3.20 2.39 14.91 Raw Value Run 11 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm or %Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift W Valley Pwr Unit 1 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-18-2024) Calibration Error Test Test Date June 18, 2024 O2 CS - Cal. Span 24.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.00% Passed Cal. Mid-level 10.99 10.97 0.02 0.08% Passed Cal. High-level 24.00 23.99 0.01 0.04% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.79% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date June 18, 2024 NOx CS - Cal. Span 24.48 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.10 0.10 0.408% Passed Cal. Mid-level 9.80 9.84 0.04 0.163% Passed Cal. High-level 24.48 21.67 2.81 11.479% Failed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 40.03% 100% of Cal. Span High-level 100.00% Test Date June 18, 2024 CO 43.75 CS - Cal. Span 21.68 10 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.01 0.01 0.046% Passed Cal. Mid-level 9.99 9.56 0.43 1.983% Passed Cal. High-level 21.68 21.45 0.23 1.061% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 46.08% 100% of Cal. Span High-level 100.00% W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name West Valley Power Company Contact:Jerame Blevins Contact Phone No.801-967-1200 Stack Designation:Unit 2 Test & Review Dates Test Date:6/19/2024 Review Date: 11/26/2024 Observer:Not Observed Reviewer:Rob Leishman Emission Limits Emission Rates SO2 NOX CO SO2 NOX CO lbs./MMBtu 0.2000 0.011 lbs./hr. 37.0 43.8 4.106 2.625 ppm 100.0 10.00 3.009 3.161 %O2 Correction as a whole #15.00 15.00 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) Ps Stack Pressure 144.00 113.097 0 Contractor Information Contact:Austin Keough Contracting Company: Alliance Source Testing Address: 2855S 500 W Sutie A, Salt Lake City, Utah 84115 Phone No.: (385) 722-6712 Project No.: 8710 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc dscf/MMBtu wscf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthracite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Correct For O2 CO2 Interference w/CO Yes Yes Yes W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Company West Valley Power Point Source Unit 2 Test Date 6/19/24 Start Time End Time Run CO lb/hr CO lb/MMBtu CO ppm CO ppmc Gas Flow scfm Load MW NOx lb/hr NOx lb/MMBtu NOx ppm NOx ppmc O2 % Headers Here 13:33 13:54 1 1.5 0.004 1.9 1.9 5861.1 35 4.7 0.013 3.4 3.5 15.1 14:02 14:23 2 1.5 0.004 1.8 1.8 5860.9 35 4.7 0.013 3.5 3.5 15 14:40 15:01 3 1.5 0.004 1.8 1.8 5662.1 35 4.8 0.013 3.6 3.6 15 15:17 15:38 4 1.4 0.004 1.8 1.8 5864 0.5 4.8 0.013 3.6 3.6 15 15:48 16:09 5 1.5 0.004 1.8 1.8 5860 35 4.7 0.013 3.5 3.5 15 7:12 7:33 6 2.5 0.007 3.1 3 5888.4 35 4.7 0.013 3.5 3.5 15 7:43 8:04 7 2.4 0.007 2.9 2.9 5891 35 4.7 0.013 3.5 3.5 15 8:14 8:35 8 2.3 0.006 2.6 2.6 5595.5 35 4.7 0.013 3.6 3.6 15 8:47 9:08 9 2.3 0.006 2.8 2.8 5890.4 35 4.7 0.013 3.6 3.6 15 9:20 9:41 10 2.2 0.006 2.7 2.7 5890 35 4.7 0.013 3.6 3.6 15 11 12 13 14 15 16 W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 2 SO2 Analyzer:Serial No.: CO2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit: Test Date SO2 Dry SO2 Dry SO2 Test Date % CO2 Dry 6/19/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 6/19/2024 RM CEMS Diff Run#Start Time End Time ppm @ % O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 13:33 13:54 1 13:33 13:54 2 14:02 14:23 2 14:02 14:23 3 14:40 15:01 3 14:40 15:01 4 15:17 15:38 4 15:17 15:38 5 15:48 16:09 5 15:48 16:09 6 7:12 7:33 6 7:12 7:33 7 7:43 8:04 7 7:43 8:04 8 8:14 8:35 8 8:14 8:35 9 8:47 9:08 9 8:47 9:08 10 9:20 9:41 10 9:20 9:41 11 11 12 12 13 13 14 14 15 15 16 16 Average = Average = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = RA - Relative Accuracy = RA RA RA - Relative Accuracy = n = 0 0 0 n = 0 or RA of 1% t0.975 = t0.975 = E.L. Relative Accuracy = a For steam generators;b Average of three samples;0 c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 13.2 Relative accuracy Performance Specification. The RA of the CEMSS must be not greater than 20 percent when RM is used in the denominator of Eq. 2-6 (average emissions during test are greater than 50 percent of the emission standard)or 10 percent when the applicable emission standard is used in the denominator of Eq. 2-6 (average emissions during test are less than 50 percent of the emission standard). Up dated January 17, 2006 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 13.2 CEMS Relative Accuracy Perfromance Specification. The RA of the CEMS must be no grater than 20 percent of the mean value of the reference method (RM) data. 1 percent O2 or CO2. The results are also acceptable if the absolute value of the difference between the mean RM value and the mean CEMS value is less than or equal to 1.0 percent O2 (or CO2). Up dated September 14, 2016 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 2 NOX Analyzer:Serial No.: O2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit:100.00 0.2 37.00 Date NOx Dry NOx Dry NOx Test Date % O2 Dry 6/19/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 9/30/2014 RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 13:33 13:54 Y 2.8 3.4 -0.6 Y 0.010 0.013 -0.003 Y 3.81 4.7 -0.90 1 13:33 13:54 Y 15.0 15.1 -0.064 2 14:02 14:23 Y 2.7 3.5 -0.8 Y 0.010 0.013 -0.003 Y 3.70 4.7 -1.00 2 14:02 14:23 Y 15.0 15 0.015 3 14:40 15:01 Y 2.9 3.6 -0.7 Y 0.011 0.013 -0.002 Y 3.99 4.8 -0.81 3 14:40 15:01 Y 15.0 15 -0.017 4 15:17 15:38 Y 3.1 3.6 -0.5 Y 0.011 0.013 -0.002 Y 4.20 4.8 -0.61 4 15:17 15:38 Y 15.0 15 -0.004 5 15:48 16:09 Y 3.0 3.5 -0.5 Y 0.011 0.013 -0.002 Y 4.12 4.7 -0.58 5 15:48 16:09 Y 15.0 15 0.021 6 7:12 7:33 Y 3.1 3.5 -0.4 Y 0.012 0.013 -0.001 Y 4.27 4.7 -0.43 6 7:12 7:33 Y 15.0 15 -0.027 7 7:43 8:04 Y 2.8 3.5 -0.7 Y 0.010 0.013 -0.003 Y 3.82 4.7 -0.88 7 7:43 8:04 Y 15.0 15 -0.026 8 8:14 8:35 Y 3.0 3.6 -0.6 Y 0.011 0.013 -0.002 Y 4.15 4.7 -0.55 8 8:14 8:35 Y 15.0 15 -0.027 9 8:47 9:08 Y 3.3 3.6 -0.3 Y 0.012 0.013 -0.001 Y 4.48 4.7 -0.23 9 8:47 9:08 Y 15.0 15 -0.010 10 9:20 9:41 Y 3.3 3.6 -0.3 Y 0.012 0.013 -0.001 Y 4.53 4.7 -0.18 10 9:20 9:41 Y 15.0 15 0.008 11 11 12 12 13 13 14 14 15 15 16 16 Average = 3.0 3.5 0.531 0.011 0.013 0.002 4.11 4.72 0.61 Average = 14.990 15.010 0.013 Sd Standard Deviation = 0.16 Sd Standard Deviation = 0.001 Sd Standard Deviation = 0.282 Sd Standard Deviation = 0.03 Confidence Coefficient = 0.117 Confidence Coefficient = 0.001 Confidence Coefficient = 0.202 Confidence Coefficient = 0.017 RA - Relative Accuracy = Relative Accuracy = Relative Accuracy = RA - Relative Accuracy =0.20% n = 10 10 10 n = 10 or RA of 1%0.02% t0.975 = 2.262 t0.975 = 2.262 t0.975 = 2.262 t0.975 = 2.262 E.L. Relative Accuracy = 3% 0.65% EMRA 6% 1.50% EMRA 11% 2.21% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 4. Performance and Equipment Specifications 4.3 Relative accuracy. The RA of the CEMSS shall be no grater than 20 percent of the mean value of the RM test data in terms of the units of the emission standard or 10 percent of the applicable standard, whichever is greater For SO2 emission standards between 0.30 and 0.20 lbs./MMBtu use 15 Percent of the applicable standard; For SO2 emission standards below 0.20 lbs./MMBtu use 20 Percent of the emission standard; 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 12. Calculate the arithmetic difference between the RM and the CEMSS output for each run. The average of the nine (of more) data sets constitute the RA. 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 1 percent O2 or CO2. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 1200696550Thermo 42iQLS thermo 48iQ 1200696555 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? PassedPassedPassedPassed W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 2 CO Analyzer:Serial No.: Acquisition System: Acquisition System: Serial No.: Equivalent Emission Limit:10.00 43.75 Date CO Dry CO Dry CO 6/19/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. 1 13:33 13:54 Y 2.72 1.5 -1.22 0.006 0.004 2.25 1.9 2 14:02 14:23 Y 2.61 1.5 -1.11 0.006 0.004 2.16 1.8 3 14:40 15:01 Y 2.40 1.5 -0.90 0.005 0.004 1.99 1.8 4 15:17 15:38 Y 2.52 1.4 -1.12 0.006 0.004 2.09 1.8 5 15:48 16:09 Y 2.58 1.5 -1.08 0.006 0.004 2.14 1.8 6 7:12 7:33 Y 3.94 2.5 -1.44 0.009 0.007 3.28 3.1 7 7:43 8:04 Y 3.78 2.4 -1.38 0.008 0.007 3.15 2.9 8 8:14 8:35 Y 3.68 2.3 -1.38 0.008 0.006 3.06 2.6 9 8:47 9:08 Y 3.68 2.3 -1.38 0.008 0.006 3.06 2.8 10 9:20 9:41 3.70 2.2 0.008 0.006 3.08 2.7 11 12 13 14 15 16 Average = 3.10 1.88 1.22 Sd Standard Deviation = 0.18 Confidence Coefficient = 0.141 RA - Relative Accuracy = n = 9 0 0 t0.975 = 2.306 E.L. Relative Accuracy = 31%13.64% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 4 For Carbon Monoxide (CO) Continuous Emission Monitoring Systems applicable emission standard is used to calculate RA. 40 CFR 60 Performance Specification 4A For Carbon Monoxide (CO) Continuous Emission Monitoring Systems 13.2 Relative accuracy. The RA of the CEMSS must be no greater than 10 percent when the average RM value is used to calculate RA, 5 percent when the applicable emission standard is used to calculate RA, or within 5 ppmv when the RA is calculated as the absolute average difference between the RM and CEMSS plus the 2.5 percent confidence coefficient. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 1200696555 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 10 percent when the average of the RM value is used to calculate RA or 5 percent when the Passed Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Thermo 48iQ W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 2 Average Emission Dry SO2 NOX CO lbs./MMBtu 0.011 0.007 Average % concentration lbs./hr.4.11 2.62 CO2 O2 ppm corrected for %O2 3.01 3.16 15.00 Run 1 Enter O2 or CO2 Dry SO2 NOX CO CO2 O2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.03E-02 6.10E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.320E-07 1.967E-07 lbs./hr.3.81 2.25 15.04 ppm corrected for %O2 2.80 2.72 14.87 Run 2 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.00E-02 5.86E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.242E-07 1.895E-07 lbs./hr.3.70 2.16 15.01 ppm corrected for %O2 2.72 2.61 14.86 Raw Value Run 3 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.08E-02 5.38E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.512E-07 1.749E-07 lbs./hr.3.99 1.99 14.98 ppm corrected for %O2 2.93 2.40 14.83 Raw Value Run 4 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.14E-02 5.65E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.683E-07 1.831E-07 lbs./hr.4.20 2.09 15.00 ppm corrected for %O2 3.08 2.52 14.83 Raw Value Run 5 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.12E-02 5.79E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.607E-07 1.869E-07 lbs./hr.4.1234 2.14 15.02 ppm corrected for %O2 3.03 2.58 14.84 Raw Value Corrected For Cal. Drift Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift O2 CO2 Clear lbs./MMBTU W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 2 O2 CO2 Clear lbs./MMBTU Run 6 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.15E-02 8.83E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.748E-07 2.874E-07 lbs./hr.4.2707 3.27 14.97 ppm corrected for %O2 3.12 3.94 14.80 Raw Value Run 7 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.03E-02 8.47E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.353E-07 2.759E-07 lbs./hr.3.82 3.15 14.97 ppm corrected for %O2 2.80 3.78 14.82 Raw Value Run 8 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.12E-02 8.25E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.635E-07 2.685E-07 lbs./hr.4.15 3.06 14.97 ppm corrected for %O2 3.03 3.68 14.83 Raw Value Run 9 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.21E-02 8.25E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.916E-07 2.679E-07 lbs./hr.4.48 3.06 14.99 ppm corrected for %O2 3.27 3.68 14.84 Raw Value Run 10 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.22E-02 8.29E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.947E-07 2.682E-07 lbs./hr.4.53 3.08 15.01 ppm corrected for %O2 3.31 3.70 14.85 Raw Value Run 11 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift W Valley Pwr Unit 2 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-19-2024) Calibration Error Test Test Date June 19, 2024 O2 CS - Cal. Span 24.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.00% Passed Cal. Mid-level 10.99 10.96 0.03 0.12% Passed Cal. High-level 24.00 23.98 0.02 0.08% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.79% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date June 19, 2024 NOx CS - Cal. Span 21.48 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.02 0.02 0.093% Passed Cal. Mid-level 9.80 9.98 0.18 0.838% Passed Cal. High-level 21.48 21.39 0.09 0.419% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.62% 100% of Cal. Span High-level 100.00% Test Date June 19, 2024 CO 43.75 CS - Cal. Span 21.68 10 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.04 0.04 0.185% Passed Cal. Mid-level 9.99 9.61 0.38 1.753% Passed Cal. High-level 21.68 21.56 0.12 0.554% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 46.08% 100% of Cal. Span High-level 100.00% W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name West Valley Power Company Contact:Jerame Blevins Contact Phone No.801-967-1200 Stack Designation:Unit 3 Test & Review Dates Test Date:6/20/2024 Review Date: 11/27/2024 Observer:Not Observed Reviewer:Rob Leishman Emission Limits Emission Rates SO2 NOX CO SO2 NOX CO lbs./MMBtu lbs./hr. 37.0 43.8 4.808 2.082 ppm 100.0 10.00 3.501 2.488 %O2 Correction as a whole #15.00 15.00 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) Ps Stack Pressure 144.00 113.097 0 Contractor Information Contact:Austin Keough Contracting Company: Alliance Source Testing Address: 2855S 500 W Sutie A, Salt Lake City, Utah 84115 Phone No.: (385) 722-6712 Project No.: 8710 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc dscf/MMBtu wscf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthracite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Correct For O2 CO2 Interference w/CO Yes Yes Yes W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Company West Valley Power Point Source Unit 3 Test Date 6/20/24 Start Time End Time Run CO lb/hr CO lb/MMBtu CO ppm CO ppmc Gas Flow scfm Load MW NOx lb/hr NOx lb/MMBtu NOx ppm NOx ppmc O2 % Headers Here 12:43 13:04 1 1.6 0.004 2 2 5942.5 35 4.8 0.013 3.5 3.5 14.9 13:15 13:36 2 1.7 0.005 2 2 5942.2 35 4.8 0.013 3.5 3.5 15 13:50 14:11 3 1.6 0.004 1.9 1.9 5935.9 35 4.9 0.013 3.7 3.6 15 14:25 14:46 4 1.5 0.004 1.9 1.9 5929.4 35 4.8 0.013 3.5 3.5 14.9 14:56 15:17 5 1.5 0.004 1.8 1.8 5928.1 35 4.9 0.013 3.7 3.6 14.9 15:28 15:49 6 1.4 4 1.8 1.8 5930.6 35 4.8 0.013 3.6 3.6 14.9 16:00 16:21 7 1.5 0.004 1.8 1.8 5942.4 35 4.8 0.013 3.6 3.5 14.9 16:32 16:53 8 1.4 0.004 1.8 1.8 5894.1 35 5 0.014 3.7 3.7 14.9 17:05 17:26 9 1.3 0.004 1.6 1.6 5921.7 35 1.5 0.012 3.4 3.3 14.9 17:37 17:58 10 1 0.003 1.3 1.3 5786 35 4.6 0.013 3.5 3.5 14.9 11 12 13 14 15 16 W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 3 SO2 Analyzer:Serial No.: CO2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit: Test Date SO2 Dry SO2 Dry SO2 Test Date % CO2 Dry 6/20/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 6/20/2024 RM CEMS Diff Run#Start Time End Time ppm @ % O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 12:43 13:04 1 12:43 13:04 2 13:15 13:36 2 13:15 13:36 3 13:50 14:11 3 13:50 14:11 4 14:25 14:46 4 14:25 14:46 5 14:56 15:17 5 14:56 15:17 6 15:28 15:49 6 15:28 15:49 7 16:00 16:21 7 16:00 16:21 8 16:32 16:53 8 16:32 16:53 9 17:05 17:26 9 17:05 17:26 10 17:37 17:58 10 17:37 17:58 11 11 12 12 13 13 14 14 15 15 16 16 Average = Average = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = RA - Relative Accuracy = RA RA RA - Relative Accuracy = n = 0 0 0 n = 0 or RA of 1% t0.975 = t0.975 = E.L. Relative Accuracy = a For steam generators;b Average of three samples;0 c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 13.2 Relative accuracy Performance Specification. The RA of the CEMSS must be not greater than 20 percent when RM is used in the denominator of Eq. 2-6 (average emissions during test are greater than 50 percent of the emission standard)or 10 percent when the applicable emission standard is used in the denominator of Eq. 2-6 (average emissions during test are less than 50 percent of the emission standard). Up dated January 17, 2006 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 13.2 CEMS Relative Accuracy Perfromance Specification. The RA of the CEMS must be no grater than 20 percent of the mean value of the reference method (RM) data. 1 percent O2 or CO2. The results are also acceptable if the absolute value of the difference between the mean RM value and the mean CEMS value is less than or equal to 1.0 percent O2 (or CO2). Up dated September 14, 2016 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 3 NOX Analyzer:Serial No.: O2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit:100.00 37.00 Date NOx Dry NOx Dry NOx Test Date % O2 Dry 6/20/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 9/30/2014 RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 12:43 13:04 Y 3.6 3.5 0.1 Y 0.013 0.013 0.000 4.97 4.8 1 12:43 13:04 Y 14.9 14.9 0.024 2 13:15 13:36 Y 3.5 3.5 0.0 Y 0.013 0.013 0.000 Y 4.85 4.8 0.05 2 13:15 13:36 Y 14.9 15 -0.076 3 13:50 14:11 Y 3.7 3.6 0.1 Y 0.013 0.013 0.000 Y 5.03 4.9 0.13 3 13:50 14:11 14.9 15 4 14:25 14:46 Y 3.5 3.5 0.0 Y 0.013 0.013 0.000 Y 4.81 4.8 0.01 4 14:25 14:46 Y 14.9 14.9 0.026 5 14:56 15:17 Y 3.5 3.6 -0.1 Y 0.013 0.013 0.000 Y 4.85 4.9 -0.05 5 14:56 15:17 Y 14.9 14.9 0.020 6 15:28 15:49 Y 3.5 3.6 -0.1 Y 0.013 0.013 0.000 Y 4.84 4.8 0.04 6 15:28 15:49 Y 14.9 14.9 0.011 7 16:00 16:21 Y 3.5 3.5 0.0 Y 0.013 0.013 0.000 Y 4.79 4.8 -0.01 7 16:00 16:21 Y 14.9 14.9 0.001 8 16:32 16:53 Y 3.6 3.7 -0.1 0.013 0.014 Y 4.90 5 -0.10 8 16:32 16:53 Y 14.9 14.9 0.008 9 17:05 17:26 Y 3.3 3.3 -0.1 Y 0.012 0.012 0.000 Y 4.47 4.5 -0.03 9 17:05 17:26 Y 14.9 14.9 0.006 10 17:37 17:58 Y 3.4 3.5 -0.1 Y 0.013 0.013 0.000 Y 4.58 4.6 -0.02 10 17:37 17:58 Y 14.9 14.9 0.016 11 11 12 12 13 13 14 14 15 15 16 16 Average = 3.5 3.5 0.029 0.01 0.013 0.000 4.79 4.79 0.00 Average = 14.910 14.910 0.004 Sd Standard Deviation = 0.07 Sd Standard Deviation = 0.000 Sd Standard Deviation = 0.065 Sd Standard Deviation = 0.03 Confidence Coefficient = 0.050 Confidence Coefficient = 0.000 Confidence Coefficient = 0.050 Confidence Coefficient = 0.023 RA - Relative Accuracy = Relative Accuracy =0.00%Relative Accuracy = RA - Relative Accuracy =0.18% n = 10 9 9 n = 9 or RA of 1%0.00% t0.975 = 2.262 t0.975 = 2.306 t0.975 = 2.306 t0.975 = 2.306 E.L. Relative Accuracy = 4% 0.08% EMRA EMRA 13% 0.14% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 4. Performance and Equipment Specifications 4.3 Relative accuracy. The RA of the CEMSS shall be no grater than 20 percent of the mean value of the RM test data in terms of the units of the emission standard or 10 percent of the applicable standard, whichever is greater For SO2 emission standards between 0.30 and 0.20 lbs./MMBtu use 15 Percent of the applicable standard; For SO2 emission standards below 0.20 lbs./MMBtu use 20 Percent of the emission standard; 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 12. Calculate the arithmetic difference between the RM and the CEMSS output for each run. The average of the nine (of more) data sets constitute the RA. 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 1 percent O2 or CO2. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 1200696551Thermo 42iQLS Thermo 48iQ 1200696556 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? PassedPassedPassedPassed W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 3 CO Analyzer:Serial No.: Acquisition System: Acquisition System: Serial No.: Equivalent Emission Limit:10.00 43.75 Date CO Dry CO Dry CO 6/20/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. 1 12:43 13:04 Y 2.71 2 -0.71 0.006 0.004 2.27 1.6 2 13:15 13:36 Y 2.77 2 -0.77 0.006 0.005 2.33 1.7 3 13:50 14:11 Y 2.67 1.9 -0.77 0.006 0.004 2.24 1.6 4 14:25 14:46 Y 2.65 1.9 -0.75 0.006 0.004 2.22 1.5 5 14:56 15:17 Y 2.53 1.8 -0.73 0.006 0.004 2.12 1.5 6 15:28 15:49 Y 2.48 1.8 -0.68 0.006 4 2.08 1.4 7 16:00 16:21 Y 2.47 1.8 -0.67 0.006 0.004 2.08 1.5 8 16:32 16:53 Y 2.34 1.8 -0.54 0.005 0.004 1.95 1.4 9 17:05 17:26 Y 2.29 1.6 -0.69 0.005 0.004 1.92 1.3 10 17:37 17:58 Y 1.97 1.3 -0.67 0.004 0.003 1.61 1 11 12 13 14 15 16 Average = 2.49 1.79 0.70 Sd Standard Deviation = 0.07 Confidence Coefficient = 0.048 RA - Relative Accuracy = n = 10 0 0 t0.975 = 2.262 E.L. Relative Accuracy = 25%7.46% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 4 For Carbon Monoxide (CO) Continuous Emission Monitoring Systems applicable emission standard is used to calculate RA. 40 CFR 60 Performance Specification 4A For Carbon Monoxide (CO) Continuous Emission Monitoring Systems 13.2 Relative accuracy. The RA of the CEMSS must be no greater than 10 percent when the average RM value is used to calculate RA, 5 percent when the applicable emission standard is used to calculate RA, or within 5 ppmv when the RA is calculated as the absolute average difference between the RM and CEMSS plus the 2.5 percent confidence coefficient. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 1200696556 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 10 percent when the average of the RM value is used to calculate RA or 5 percent when the Passed Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Thermo 48iQ W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 3 Average Emission Dry SO2 NOX CO lbs./MMBtu 0.013 0.006 Average % concentration lbs./hr.4.81 2.08 CO2 O2 ppm corrected for %O2 3.50 2.49 14.92 Run 1 Enter O2 or CO2 Dry SO2 NOX CO CO2 O2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.33E-02 6.08E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.354E-07 1.995E-07 lbs./hr.4.97 2.27 14.92 ppm corrected for %O2 3.60 2.71 14.68 Run 2 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.30E-02 6.21E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.252E-07 2.039E-07 lbs./hr.4.85 2.33 14.92 ppm corrected for %O2 3.52 2.77 14.68 Raw Value Run 3 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.34E-02 6.00E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.417E-07 1.971E-07 lbs./hr.5.03 2.24 14.92 ppm corrected for %O2 3.65 2.67 14.68 Raw Value Run 4 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.29E-02 5.95E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.226E-07 1.954E-07 lbs./hr.4.81 2.22 14.93 ppm corrected for %O2 3.49 2.65 14.68 Raw Value Run 5 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.30E-02 5.67E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.266E-07 1.864E-07 lbs./hr.4.8492 2.12 14.92 ppm corrected for %O2 3.52 2.53 14.66 Raw Value Corrected For Cal. Drift Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift O2 CO2 Clear lbs./MMBTU W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 3 O2 CO2 Clear lbs./MMBTU Run 6 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.30E-02 5.57E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.262E-07 1.833E-07 lbs./hr.4.8404 2.08 14.91 ppm corrected for %O2 3.52 2.48 14.65 Raw Value Run 7 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.28E-02 5.54E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.213E-07 1.827E-07 lbs./hr.4.79 2.08 14.90 ppm corrected for %O2 3.47 2.47 14.64 Raw Value Run 8 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.32E-02 5.26E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.347E-07 1.730E-07 lbs./hr.4.90 1.95 14.91 ppm corrected for %O2 3.58 2.34 14.65 Raw Value Run 9 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.20E-02 5.14E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.943E-07 1.692E-07 lbs./hr.4.47 1.92 14.91 ppm corrected for %O2 3.25 2.29 14.64 Raw Value Run 10 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.26E-02 4.41E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.129E-07 1.449E-07 lbs./hr.4.58 1.61 14.92 ppm corrected for %O2 3.41 1.97 14.65 Raw Value Run 11 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift W Valley Pwr Unit 3 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-20-2024) Calibration Error Test Test Date June 20, 2024 O2 CS - Cal. Span 24.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.00% Passed Cal. Mid-level 10.99 10.88 0.11 0.46% Passed Cal. High-level 24.00 23.91 0.09 0.37% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.79% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date June 20, 2024 NOx CS - Cal. Span 21.48 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.05 0.05 0.233% Passed Cal. Mid-level 9.80 10.00 0.20 0.931% Passed Cal. High-level 21.48 21.66 0.18 0.838% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.62% 100% of Cal. Span High-level 100.00% Test Date June 20, 2024 CO 43.75 CS - Cal. Span 21.68 10 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.13 0.13 0.600% Passed Cal. Mid-level 9.99 9.61 0.38 1.753% Passed Cal. High-level 21.68 21.83 0.15 0.692% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 46.08% 100% of Cal. Span High-level 100.00% W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name West Valley Power Company Contact:Craig A. Bock Contact Phone No.970-817-4211 Stack Designation:Unit 4 Test & Review Dates Test Date:6/24/2024 Review Date: 11/27/2024 Observer:Not Observed Reviewer:Rob Leishman Emission Limits Emission Rates SO2 NOX CO SO2 NOX CO lbs./MMBtu lbs./hr. 37.0 43.8 4.927 1.608 ppm 100.0 10.00 3.693 1.981 %O2 Correction as a whole #15.00 15.00 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) Ps Stack Pressure 144.00 113.097 0 Contractor Information Contact:Austin Keough Contracting Company: Alliance Source Testing Address: 2855S 500 W Sutie A, Salt Lake City, Utah 84115 Phone No.: (385) 722-6712 Project No.: 8710 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc dscf/MMBtu wscf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthracite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Correct For O2 CO2 Interference w/CO Yes Yes Yes W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Company West Valley Power Point Source Unit 4 Test Date 6/24/24 Start Time End Time Run CO lb/hr CO lb/MMBtu CO ppm CO ppmc Gas Flow scfm Load MW NOx lb/hr NOx lb/MMBtu NOx ppm NOx ppmc O2 % Headers Here 7:40 8:01 1 2.3 0.006 2.9 2.9 5737.5 35 4.6 0.013 3.5 3.5 14.9 8:13 8:34 2 2.3 0.006 2.9 2.9 5742.3 35 4.5 1.3 3.5 3.5 14.9 8:45 9:06 3 2.3 0.006 2.9 2.9 5741.7 35 4.4 0.012 3.4 3.4 14.9 9:22 9:43 4 2.3 0.006 2.9 2.9 5739.7 35 4.5 0.013 3.5 3.4 14.9 10:01 10:22 5 2.2 0.006 2.9 2.8 5750.1 35 4.6 0.013 3.4 3.4 15 10:35 10:56 6 2.2 0.006 2.8 2.8 5746.3 35 4.6 0.013 3.4 3.5 15 11:09 11:30 7 2.3 0.006 2.9 2.9 5758.7 35 4.6 0.013 3.5 3.5 15 11:40 12:01 8 2.2 0.006 2.8 2.8 5758.2 35 4.6 0.013 3.5 3.5 15 12:13 12:34 9 2.4 0.007 3 3 5736.6 35 4.5 0.013 3.5 3.5 14.9 12:48 13:09 10 2.5 0.007 3.2 3.1 5734 35 4.6 0.013 3.6 3.5 14.9 11 12 13 14 15 16 W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 4 SO2 Analyzer:Serial No.: CO2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit: Test Date SO2 Dry SO2 Dry SO2 Test Date % CO2 Dry 6/24/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 6/24/2024 RM CEMS Diff Run#Start Time End Time ppm @ % O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 7:40 8:01 1 7:40 8:01 2 8:13 8:34 2 8:13 8:34 3 8:45 9:06 3 8:45 9:06 4 9:22 9:43 4 9:22 9:43 5 10:01 10:22 5 10:01 10:22 6 10:35 10:56 6 10:35 10:56 7 11:09 11:30 7 11:09 11:30 8 11:40 12:01 8 11:40 12:01 9 12:13 12:34 9 12:13 12:34 10 12:48 13:09 10 12:48 13:09 11 11 12 12 13 13 14 14 15 15 16 16 Average = Average = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = RA - Relative Accuracy = RA RA RA - Relative Accuracy = n = 0 0 0 n = 0 or RA of 1% t0.975 = t0.975 = E.L. Relative Accuracy = a For steam generators;b Average of three samples;0 c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 13.2 Relative accuracy Performance Specification. The RA of the CEMSS must be not greater than 20 percent when RM is used in the denominator of Eq. 2-6 (average emissions during test are greater than 50 percent of the emission standard)or 10 percent when the applicable emission standard is used in the denominator of Eq. 2-6 (average emissions during test are less than 50 percent of the emission standard). Up dated January 17, 2006 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 13.2 CEMS Relative Accuracy Perfromance Specification. The RA of the CEMS must be no grater than 20 percent of the mean value of the reference method (RM) data. 1 percent O2 or CO2. The results are also acceptable if the absolute value of the difference between the mean RM value and the mean CEMS value is less than or equal to 1.0 percent O2 (or CO2). Up dated September 14, 2016 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 4 NOX Analyzer:Serial No.: O2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit:100.00 37.00 Date NOx Dry NOx Dry NOx Test Date % O2 Dry 6/24/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 9/30/2014 RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 7:40 8:01 Y 3.6 3.5 0.1 Y 0.013 0.013 0.000 Y 4.75 4.6 0.15 1 7:40 8:01 Y 15.0 14.9 0.084 2 8:13 8:34 Y 3.7 3.5 0.2 Y 0.014 0.013 0.001 Y 4.91 4.5 0.41 2 8:13 8:34 Y 15.0 14.9 0.097 3 8:45 9:06 Y 3.7 3.4 0.3 Y 0.014 0.012 0.002 Y 4.88 4.4 0.49 3 8:45 9:06 Y 15.0 14.9 0.091 4 9:22 9:43 Y 3.7 3.4 0.3 Y 0.013 0.013 0.000 Y 4.88 4.5 0.38 4 9:22 9:43 Y 15.0 14.9 0.076 5 10:01 10:22 Y 3.5 3.4 0.1 Y 0.013 0.013 0.000 Y 4.71 4.6 0.11 5 10:01 10:22 Y 15.0 15 -0.006 6 10:35 10:56 Y 3.8 3.5 0.3 Y 0.014 0.013 0.001 Y 5.08 4.6 0.48 6 10:35 10:56 Y 15.0 15 0.012 7 11:09 11:30 Y 3.9 3.5 0.4 Y 0.014 0.013 0.001 Y 5.17 4.6 0.57 7 11:09 11:30 Y 15.0 15 0.012 8 11:40 12:01 Y 3.8 3.5 0.3 Y 0.014 0.013 0.001 Y 5.04 4.6 0.45 8 11:40 12:01 Y 15.0 15 0.024 9 12:13 12:34 Y 3.7 3.5 0.2 Y 0.014 0.013 0.001 Y 4.89 4.5 0.39 9 12:13 12:34 Y 15.0 14.9 0.061 10 12:48 13:09 Y 3.7 3.5 0.2 Y 0.014 0.013 0.001 Y 4.95 4.6 0.35 10 12:48 13:09 Y 14.9 14.9 0.019 11 11 12 12 13 13 14 14 15 15 16 16 Average = 3.7 3.5 0.223 0.01 0.013 0.001 4.93 4.55 0.38 Average = 14.980 14.940 0.046 Sd Standard Deviation = 0.09 Sd Standard Deviation = 0.001 Sd Standard Deviation = 0.146 Sd Standard Deviation = 0.04 Confidence Coefficient = 0.065 Confidence Coefficient = 0.000 Confidence Coefficient = 0.104 Confidence Coefficient = 0.027 RA - Relative Accuracy = Relative Accuracy =7.10%Relative Accuracy = RA - Relative Accuracy =0.48% n = 10 10 10 n = 10 or RA of 1%0.04% t0.975 = 2.262 t0.975 = 2.262 t0.975 = 2.262 t0.975 = 2.262 E.L. Relative Accuracy = 4% 0.29% EMRA EMRA 13% 1.30% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 4. Performance and Equipment Specifications 4.3 Relative accuracy. The RA of the CEMSS shall be no grater than 20 percent of the mean value of the RM test data in terms of the units of the emission standard or 10 percent of the applicable standard, whichever is greater For SO2 emission standards between 0.30 and 0.20 lbs./MMBtu use 15 Percent of the applicable standard; For SO2 emission standards below 0.20 lbs./MMBtu use 20 Percent of the emission standard; 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 12. Calculate the arithmetic difference between the RM and the CEMSS output for each run. The average of the nine (of more) data sets constitute the RA. 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 1 percent O2 or CO2. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 1200696552Thermo 42iQLS Thermo 48iQ 1200696557 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? PassedPassedPassedPassed W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 4 CO Analyzer:Serial No.: Acquisition System: Acquisition System: Serial No.: Equivalent Emission Limit:10.00 43.75 Date CO Dry CO Dry CO 6/24/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. 1 7:40 8:01 Y 1.93 2.9 0.97 0.004 1.57 2 8:13 8:34 Y 1.98 2.9 0.92 0.004 1.60 3 8:45 9:06 Y 1.97 2.9 0.93 0.004 1.60 4 9:22 9:43 Y 1.95 2.9 0.95 0.004 1.58 5 10:01 10:22 Y 1.93 2.8 0.87 0.004 1.57 6 10:35 10:56 Y 1.95 2.8 0.85 0.004 1.58 7 11:09 11:30 Y 1.94 2.9 0.96 0.004 1.58 8 11:40 12:01 Y 1.87 2.8 0.93 0.004 1.52 9 12:13 12:34 Y 2.16 3 0.84 0.005 1.75 10 12:48 13:09 Y 2.13 3.1 0.97 0.005 1.73 11 12 13 14 15 16 Average = 1.98 2.90 0.92 Sd Standard Deviation = 0.05 Confidence Coefficient = 0.035 RA - Relative Accuracy = n = 10 0 0 t0.975 = 2.262 E.L. Relative Accuracy = 20%9.54% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 4 For Carbon Monoxide (CO) Continuous Emission Monitoring Systems applicable emission standard is used to calculate RA. 40 CFR 60 Performance Specification 4A For Carbon Monoxide (CO) Continuous Emission Monitoring Systems 13.2 Relative accuracy. The RA of the CEMSS must be no greater than 10 percent when the average RM value is used to calculate RA, 5 percent when the applicable emission standard is used to calculate RA, or within 5 ppmv when the RA is calculated as the absolute average difference between the RM and CEMSS plus the 2.5 percent confidence coefficient. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 1200696557 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 10 percent when the average of the RM value is used to calculate RA or 5 percent when the Passed Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Thermo 48iQ W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 4 Average Emission Dry SO2 NOX CO lbs./MMBtu 0.014 0.004 Average % concentration lbs./hr.4.93 1.61 CO2 O2 ppm corrected for %O2 3.69 1.98 14.99 Run 1 Enter O2 or CO2 Dry SO2 NOX CO CO2 O2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.31E-02 4.34E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.268E-07 1.409E-07 lbs./hr.4.75 1.57 14.98 ppm corrected for %O2 3.56 1.93 14.82 Run 2 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.36E-02 4.43E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.401E-07 1.437E-07 lbs./hr.4.91 1.60 15.00 ppm corrected for %O2 3.68 1.98 14.82 Raw Value Run 3 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.35E-02 4.42E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.384E-07 1.436E-07 lbs./hr.4.88 1.60 14.99 ppm corrected for %O2 3.66 1.97 14.82 Raw Value Run 4 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.35E-02 4.37E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.393E-07 1.423E-07 lbs./hr.4.88 1.58 14.98 ppm corrected for %O2 3.66 1.95 14.86 Raw Value Run 5 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.30E-02 4.33E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.217E-07 1.404E-07 lbs./hr.4.7082 1.57 14.99 ppm corrected for %O2 3.53 1.93 14.90 Raw Value Corrected For Cal. Drift Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift O2 CO2 Clear lbs./MMBTU W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 4 O2 CO2 Clear lbs./MMBTU Run 6 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.40E-02 4.37E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.541E-07 1.412E-07 lbs./hr.5.0844 1.58 15.01 ppm corrected for %O2 3.81 1.95 14.90 Raw Value Run 7 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.43E-02 4.36E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.610E-07 1.409E-07 lbs./hr.5.17 1.58 15.01 ppm corrected for %O2 3.87 1.94 14.88 Raw Value Run 8 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.39E-02 4.19E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.489E-07 1.351E-07 lbs./hr.5.04 1.52 15.02 ppm corrected for %O2 3.77 1.87 14.88 Raw Value Run 9 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.35E-02 4.85E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.412E-07 1.583E-07 lbs./hr.4.89 1.75 14.96 ppm corrected for %O2 3.67 2.16 14.83 Raw Value Run 10 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.37E-02 4.78E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.506E-07 1.570E-07 lbs./hr.4.95 1.73 14.92 ppm corrected for %O2 3.72 2.13 14.79 Raw Value Run 11 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift W Valley Pwr Unit 4 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-21-2024) Calibration Error Test Test Date June 24, 2024 O2 CS - Cal. Span 24.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.00% Passed Cal. Mid-level 10.99 10.92 0.07 0.29% Passed Cal. High-level 24.00 24.00 0.00 0.00% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.79% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date June 24, 2024 NOx CS - Cal. Span 21.48 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.05 0.05 0.233% Passed Cal. Mid-level 9.80 9.91 0.11 0.512% Passed Cal. High-level 21.48 21.38 0.10 0.466% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.62% 100% of Cal. Span High-level 100.00% Test Date June 24, 2024 CO 43.75 CS - Cal. Span 21.68 10 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.22 0.22 1.015% Passed Cal. Mid-level 9.99 9.61 0.38 1.753% Passed Cal. High-level 21.68 21.68 0.00 0.000% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 46.08% 100% of Cal. Span High-level 100.00% W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name West Valley Power Company Contact:Craig A. Bock Contact Phone No.970-817-4211 Stack Designation:Unit 5 Test & Review Dates Test Date:6/17/2024 Review Date: 11/27/2024 Observer:Not Observed Reviewer:Rob Leishman Emission Limits Emission Rates SO2 NOX CO SO2 NOX CO lbs./MMBtu lbs./hr. 37.0 43.8 5.000 2.244 ppm 100.0 10.00 3.572 2.636 %O2 Correction as a whole #15.00 15.00 Test Information Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) Ps Stack Pressure 144.00 113.097 0 Contractor Information Contact:Austin Keough Contracting Company: Alliance Source Testing Address: 2855S 500 W Sutie A, Salt Lake City, Utah 84115 Phone No.: (385) 722-6712 Project No.: 8710 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc dscf/MMBtu wscf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthracite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Correct For O2 CO2 Interference w/CO Yes Yes Yes W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Company West Valley Power Point Source Unit 5 Test Date 6/17/24 Start Time End Time Run CO lb/hr CO lb/MMBtu CO ppm CO ppmc Gas Flow scfm Load MW NOx lb/hr NOx lb/MMBtu NOx ppm NOx ppmc O2 % Headers Here 15:40 16:01 1 1.5 0.004 1.8 1.8 6018.1 38 4.6 0.013 3.6 3.6 15 16:12 16:33 2 1.4 0.004 1.6 1.6 6017.8 38 4.9 0.013 3.6 3.6 15 16:45 17:06 3 1.4 0.004 1.7 1.6 6016.3 38 4.8 0.013 3.4 3.4 15 15:15 15:36 4 1.4 0.004 1.6 1.6 6023.1 38 4.8 0.013 3.5 3.5 15 18:09 18:30 5 1.4 0.004 1.7 1.7 6020.9 38 4.8 0.013 3.5 3.4 15 18:44 19:05 6 1.4 0.004 1.7 1.7 6049.9 38 5 0.013 3.6 3.6 15 19:17 19:38 7 1.3 0.004 1.6 1.6 6038.4 38 5 0.013 3.6 3.6 15 19:50 20:11 8 1.5 0.004 1.8 1.8 6044.2 38 5 0.013 3.6 3.6 15 20:21 20:42 9 1.5 0.004 1.8 1.8 6042.3 38 5 0.013 3.6 3.6 15 10 11 12 13 14 15 16 W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 5 SO2 Analyzer:Serial No.: CO2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit: Test Date SO2 Dry SO2 Dry SO2 Test Date % CO2 Dry 6/17/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 6/17/2024 RM CEMS Diff Run#Start Time End Time ppm @ % O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 15:40 16:01 1 15:40 16:01 2 16:12 16:33 2 16:12 16:33 3 16:45 17:06 3 16:45 17:06 4 15:15 15:36 4 15:15 15:36 5 18:09 18:30 5 18:09 18:30 6 18:44 19:05 6 18:44 19:05 7 19:17 19:38 7 19:17 19:38 8 19:50 20:11 8 19:50 20:11 9 20:21 20:42 9 20:21 20:42 10 10 11 11 12 12 13 13 14 14 15 15 16 16 Average = Average = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Sd Standard Deviation = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = Confidence Coefficient = RA - Relative Accuracy = RA RA RA - Relative Accuracy = n = 0 0 0 n = 0 or RA of 1% t0.975 = t0.975 = E.L. Relative Accuracy = a For steam generators;b Average of three samples;0 c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 13.2 Relative accuracy Performance Specification. The RA of the CEMSS must be not greater than 20 percent when RM is used in the denominator of Eq. 2-6 (average emissions during test are greater than 50 percent of the emission standard)or 10 percent when the applicable emission standard is used in the denominator of Eq. 2-6 (average emissions during test are less than 50 percent of the emission standard). Up dated January 17, 2006 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 13.2 CEMS Relative Accuracy Perfromance Specification. The RA of the CEMS must be no grater than 20 percent of the mean value of the reference method (RM) data. 1 percent O2 or CO2. The results are also acceptable if the absolute value of the difference between the mean RM value and the mean CEMS value is less than or equal to 1.0 percent O2 (or CO2). Up dated September 14, 2016 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 5 NOX Analyzer:Serial No.: O2 Analyzer:Serial No.: Acquisition System:Serial No.: Acquisition System: Serial No.: Equivalent Emission Limit:100.00 37.00 Date NOx Dry NOx Dry NOx Test Date % O2 Dry 6/17/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff 9/30/2014 RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. Run# Start Time End Time %c %c 1 15:40 16:01 Y 4.5 3.6 0.9 Y 0.017 0.013 0.004 Y 6.34 4.6 1.74 1 15:40 16:01 Y 15.2 15 0.162 2 16:12 16:33 Y 3.6 3.6 0.0 Y 0.013 0.013 0.000 Y 5.02 4.9 0.12 2 16:12 16:33 Y 15.0 15 -0.046 3 16:45 17:06 Y 3.4 3.4 0.0 Y 0.013 0.013 0.000 Y 4.78 4.8 -0.02 3 16:45 17:06 Y 15.0 15 0.017 4 15:15 15:36 Y 3.4 3.5 -0.1 Y 0.013 0.013 0.000 Y 4.78 4.8 -0.02 4 15:15 15:36 Y 15.1 15 0.057 5 18:09 18:30 Y 3.3 3.4 -0.1 Y 0.012 0.013 -0.001 Y 4.58 4.8 -0.22 5 18:09 18:30 Y 15.0 15 0.020 6 18:44 19:05 Y 3.3 3.6 -0.4 Y 0.012 0.013 -0.001 Y 4.57 5 -0.43 6 18:44 19:05 Y 15.0 15 -0.001 7 19:17 19:38 Y 3.7 3.6 0.1 Y 0.013 0.013 0.000 Y 5.13 5 0.13 7 19:17 19:38 Y 15.0 15 0.031 8 19:50 20:11 Y 3.5 3.6 -0.1 Y 0.013 0.013 0.000 Y 4.92 5 -0.08 8 19:50 20:11 Y 15.0 15 0.022 9 20:21 20:42 Y 3.5 3.6 -0.1 Y 0.013 0.013 0.000 Y 4.89 5 -0.11 9 20:21 20:42 Y 15.0 15 0.005 10 10 11 11 12 12 13 13 14 14 15 15 16 16 Average = 3.6 3.5 0.028 0.01 0.013 0.000 5.00 4.88 0.12 Average = 15.030 15.000 0.029 Sd Standard Deviation = 0.36 Sd Standard Deviation = 0.001 Sd Standard Deviation = 0.631 Sd Standard Deviation = 0.06 Confidence Coefficient = 0.278 Confidence Coefficient = 0.001 Confidence Coefficient = 0.485 Confidence Coefficient = 0.043 RA - Relative Accuracy = Relative Accuracy =7.70%Relative Accuracy = RA - Relative Accuracy =0.47% n = 9 9 9 n = 9 or RA of 1%0.03% t0.975 = 2.306 t0.975 = 2.306 t0.975 = 2.306 t0.975 = 2.306 E.L. Relative Accuracy = 4% 0.31% EMRA EMRA 14% 1.64% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 2 For SO2 and NOx Continuous Emission Monitoring Systems 4. Performance and Equipment Specifications 4.3 Relative accuracy. The RA of the CEMSS shall be no grater than 20 percent of the mean value of the RM test data in terms of the units of the emission standard or 10 percent of the applicable standard, whichever is greater For SO2 emission standards between 0.30 and 0.20 lbs./MMBtu use 15 Percent of the applicable standard; For SO2 emission standards below 0.20 lbs./MMBtu use 20 Percent of the emission standard; 40 CFR 60 Performance Specification 3 For O2 and CO2 Continuous Emission Monitoring Systems 12. Calculate the arithmetic difference between the RM and the CEMSS output for each run. The average of the nine (of more) data sets constitute the RA. 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 1 percent O2 or CO2. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? PassedPassedPassedPassed 1200696553Thermo 42iQLS Thermo 48iQ 1200696558 W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Division of Air Quality Relative Accuracy Test Audit of West Valley Power Unit 5 CO Analyzer:Serial No.: Acquisition System: Acquisition System: Serial No.: Equivalent Emission Limit:10.00 43.75 Date CO Dry CO Dry CO 6/17/2024 RM CEMS Diff RM CEMS Diff RM CEMS Diff Run#Start Time End Time ppm @ 15% O2 lbs./MMBtu lbs./hr. 1 15:40 16:01 Y 4.18 1.8 -2.38 0.009 3.55 2 16:12 16:33 Y 3.28 1.6 -1.68 0.007 2.79 3 16:45 17:06 Y 2.82 1.6 -1.22 0.006 2.40 4 15:15 15:36 Y 2.65 1.6 -1.05 0.006 2.25 5 18:09 18:30 Y 2.59 1.7 -0.89 0.006 2.20 6 18:44 19:05 Y 2.54 1.7 -0.84 0.006 2.17 7 19:17 19:38 Y 1.62 1.6 -0.02 0.004 1.39 8 19:50 20:11 Y 1.70 1.8 0.10 0.004 1.45 9 20:21 20:42 Y 2.34 1.8 -0.54 0.005 2.00 10 11 12 13 14 15 16 Average = 2.64 1.69 0.95 Sd Standard Deviation = 0.78 Confidence Coefficient = 0.596 RA - Relative Accuracy = n = 9 0 0 t0.975 = 2.306 E.L. Relative Accuracy = 26%15.43% a For steam generators;b Average of three samples; c Make sure that RM and M data are on a consistent basis either wet or dry. 40 CFR 60 Performance Specification 4 For Carbon Monoxide (CO) Continuous Emission Monitoring Systems applicable emission standard is used to calculate RA. 40 CFR 60 Performance Specification 4A For Carbon Monoxide (CO) Continuous Emission Monitoring Systems 13.2 Relative accuracy. The RA of the CEMSS must be no greater than 10 percent when the average RM value is used to calculate RA, 5 percent when the applicable emission standard is used to calculate RA, or within 5 ppmv when the RA is calculated as the absolute average difference between the RM and CEMSS plus the 2.5 percent confidence coefficient. 40 CFR 60 Performance Specification 6 For Continuous Emission Rate Monitoring Systems (CERMS) 13.2 CERMS Relative Accuracy. The RA of the CERMS shall be no greater than 20 percent of the mean value of the RM's test data in terms of the nits of the emission standard, or 10 percent of the applicable standard, which err is greater. Up dated January 17, 2006 13.2 Relative accuracy. The RA of the CEMSS must be no grater than 10 percent when the average of the RM value is used to calculate RA or 5 percent when the Passed Ac t i v a t e R u n ? Ac t i v a t e R u n ? Ac t i v a t e R u n ? Thermo 48iQ 1200696558 W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 5 Average Emission Dry SO2 NOX CO lbs./MMBtu 0.013 0.006 Average % concentration lbs./hr.5.00 2.24 CO2 O2 ppm corrected for %O2 3.57 2.64 15.03 Run 1 Enter O2 or CO2 Dry SO2 NOX CO CO2 O2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.67E-02 9.37E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 5.273E-07 2.955E-07 lbs./hr.6.34 3.55 15.16 ppm corrected for %O2 4.54 4.18 14.75 Run 2 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.32E-02 7.36E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.320E-07 2.405E-07 lbs./hr.5.02 2.79 14.95 ppm corrected for %O2 3.59 3.28 14.88 Raw Value Run 3 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.26E-02 6.32E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.078E-07 2.043E-07 lbs./hr.4.78 2.40 15.02 ppm corrected for %O2 3.42 2.82 15.01 Raw Value Run 4 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.26E-02 5.94E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.041E-07 1.906E-07 lbs./hr.4.78 2.25 15.06 ppm corrected for %O2 3.42 2.65 15.07 Raw Value Run 5 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.21E-02 5.81E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.900E-07 1.876E-07 lbs./hr.4.5800 2.20 15.02 ppm corrected for %O2 3.28 2.59 15.08 Raw Value Corrected For Cal. Drift Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift O2 CO2 Clear lbs./MMBTU W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification West Valley Power Unit 5 O2 CO2 Clear lbs./MMBTU Run 6 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.20E-02 5.69E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.883E-07 1.846E-07 lbs./hr.4.5660 2.17 15.00 ppm corrected for %O2 3.25 2.54 15.09 Raw Value Run 7 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.35E-02 3.64E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.346E-07 1.174E-07 lbs./hr.5.13 1.39 15.03 ppm corrected for %O2 3.66 1.62 15.13 Raw Value Run 8 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.29E-02 3.81E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.171E-07 1.229E-07 lbs./hr.4.92 1.45 15.02 ppm corrected for %O2 3.51 1.70 15.12 Raw Value Run 9 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)1.28E-02 5.24E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 4.158E-07 1.698E-07 lbs./hr.4.89 2.00 15.01 ppm corrected for %O2 3.48 2.34 15.11 Raw Value Run 10 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value Run 11 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift Corrected For Cal. Drift W Valley Pwr Unit 5 RATA RM 1, 3A, 7E, 10, & 19 (Tested 6-17-2024) Calibration Error Test Test Date June 17, 2024 O2 CS - Cal. Span 24.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.00% Passed Cal. Mid-level 10.99 10.98 0.01 0.04% Passed Cal. High-level 24.00 24.03 0.03 0.13% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.79% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date June 17, 2024 NOx CS - Cal. Span 21.48 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.02 0.02 0.093% Passed Cal. Mid-level 9.80 9.60 0.20 0.931% Passed Cal. High-level 21.48 21.41 0.07 0.326% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 45.62% 100% of Cal. Span High-level 100.00% Test Date June 17, 2024 CO 43.75 CS - Cal. Span 21.68 10 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 -0.13 0.13 0.600% Passed Cal. Mid-level 9.99 9.66 0.33 1.522% Passed Cal. High-level 21.68 21.62 0.06 0.277% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 46.08% 100% of Cal. Span High-level 100.00%