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Home My WebLink AboutDAQ-2025-0002101 DAQC-032-25 Site ID 10005 (B4) MEMORANDUM TO: STACK TEST FILE – KINDER MORGAN ALTAMONT, LLC – Main Compressor Station THROUGH: Harold Burge, Major Source Compliance Section Manager FROM: Robert Sirrine, Environmental Scientist DATE: January 13, 2025 SUBJECT: Location: Main Compressor Station near Altamont, Duchesne County, UT Contact: Erin Dunman – 303-914-7605 Tester: Engineering and Technical Services – Emissions Testing Group Source: Engine Unit ICE-9 FSR ID#: UT0000004901300006 Permit# 1300006003 dated September 27, 2022 Action Code: TR Subject: Review of Stack Test Report dated December 23, 2024 On December 31, 2024, the DAQ received a stack test report for the Kinder Morgan Altamont – Main Compressor Station, engine unit ICE-9, a natural gas compressor engine, located near Altamont, UT. Testing was performed on November 6, 2024, to demonstrate compliance with CO and NOx emission limits found in permit Conditions II.B.2.a, II.B.2.b, and Subpart JJJJ. The DAQ results are: Source Test Date RM/Pollutant DAQ Result Tester Result Limit ICE-9 11/6/24 7/NOx 0.03 lb/hr 0.03 lb/hr 1.59 lb/hr 1 ppmvd* 1 ppmvd* 60 ppmvd* 0.0 g/hp-hr 0.0 g/hp-hr 0.7 g/hp-hr 10/CO 0.03 lb/hr 0.03 lb/hr 1.14 lb/hr 2 ppmvd* 2 ppmvd* 60 ppmvd* 0.0 g/hp-hr 0.0 g/hp-hr 0.5 g/hp-hr 6348**/VOC 0.08 lb/hr^ 0.08 lb/hr^ 0.16 lb/hr^ 3 ppmvd* 3 ppmvd* 60 ppmvd* 0.0 g/hp-hr 0.0 g/hp-hr 0.7 g/hp-hr **ASTM D6348-03, *@15% Oxygen ^Proposed new Permit required VOC as propane + CH2O, Subpart JJJJ requires that CH2O not be included as a VOC for the limits of ppmdv and g/hp-hr * - / $ - - $ ) 2 DEVIATIONS: None noted. CONCLUSION: This was an initial compliance test on a newly installed replacement engine which began operation September 29, 2024. The VOC lb/hr limit of 0.16 lb/hr is said to be a proposed limit for a future updated TV Permit. VOC as propane and total VOC +CH2O was determined using method ASTM D6348-03. All stipulated QA/QC requirements appear to have been met as determined by a review of the report and entering the VOC data into the Excel spreadsheet minus calibration bias check. The CO and NOx lb/hr and grams /hp-hr limits are specified in their Title V Permit and the ppmdv @15% O2 and VOC g/hp-hr limits are contained in 40 CFR 60 Subpart JJJJ. The Kinder Morgan Altamont Main gas plant compressor engine ICE-9 emissions test report appears to be acceptable. RECOMMENDATION: The source should be considered to have been in compliance with the CO, VOC, and NOx emission limits at the time of the test for unit ICE-9. HPV: No. ATTACHMENTS: Stack test report received December 31, 2024 DAQ generated Excel spreadsheets KTNDEn#;noncAn 7 AlrAroxr LLc FedEx 2835 2945 4777 December 23,2024 Harold Burge, Manager Major Source Compliance Section Utah Department of Environmental Quality 195 North 1950 West Salt Lake City, UT 8411.5 Re: Kinder Morgan Altamont LLC Altamont Main Gas Processing Plant, Title V OP #1300005003 Emission Test Report, Engine ICE-91 (K-3C) Dear Mr. Burge, I,TAH DEPARTMENT OF E}URONMENTAL OUAUTY nIn ? 1 '-,itllULU ,-l I t-\.'Ll D;IIIS|ON OF AIR OUALTT. Attached for your review is the emission test report from the initial compliance testing conducted on Engine ICE-9 (company lD: K-3C) at Altamont Main Gas Processing Plant located in Duchesne County, Utah. The testing was conducted to fulfill the requirements of Title V Operating Permit #1300005003 issued by the Utah Division of Air Quality on September 27 ,2022 and NSPS JJJJ. Kinder Morgan is required to conduct initial compliance emission testing on a newly installed engine within one year of beginning operation. The unit began operating on September 29,2024 and the test was performed November 6,2024. As demonstrated in the attached report, the subject engines tested below the applicable permit limits specified in referenced Title V Permit. For the engine, testing was conducted at the highest achievable load under normal operations and while the source was operating at the rate and/or conditions specified in the applicable approval order, operating permit, or federal regulation. During testing, the source combusted fuels, used raw materials, and maintained process conditions representative of normal operations, and operated under such other relevant conditions specified by the Director. Based on information and belief formed after reasonable inquiry, the statements and information contained in the report are true, accurate, and complete. Please contact David De Cesari at (713) 42G5311 or via email at David_DeCesari@kindermorgan.com if you have any technical questions related to the attached emission test report. Please contact Erin Dunman at (303) 914-7605 or via email at erin_dunman@kindermorgan.com with any other questions related to air compliance for the Altamont Main Gas Processing Plant. Mechanical Testing File # 74-222 KINDEFr*/lfiIORGAN 7 ALrAtoNr LLc Emissions Testing Group 1001 Louisiana SL. Suite 1000 Houston. TX77oo2 Emissions Test Report One (1 ) \Ahukesla LT C/;1C,SI 54 Nat rral Gas Flred Engine UnitK€C Title V Operating Permit Numben '1300006003 Emissions Testing Group File #24-222 Test Date: November6, 2024 Knder Morgan Altamont LLC Main Gas Proessing Plant Altamont Duchqsne County, UT Prepared by: Date: December 61 2o24 Prepared State of Utah Department of Environmental Quality (UDEO) for: Division of Air Quality lOea) Reviewed by: David De Cesari Emissions Testing Group (7{3) 42O-s311 Johndunn Johnston Emissions Testing Group (7{3) 42O-33s0 S*"l I I i:il;lrl)ilr Table of Gontents TABLE OF'CONTENTS INTRODUCTION ........................... I TESTSUMMARY EMISSIONS SAMPLING PROCESS CALCULATIONS CONCENTRATION CORRECTION......,.... ......... 13 15% oxYGEN CORRECTION ............................. 14 MASS EMISSION CALCULATIONS, METHOD 19.................... ..................... 15 ASTM D6348 EQUAIONS .......... 16 M[\[MLT\4 DE-TECTABLE CoNCENrRAnoN.................. ................ 16 Rrrsnaqcs CELL ABSoRprroN PATH LENGTH ......................:.... 17 Sevple Ceu- ABsoRprroN PATH LhrGTH.. ............................... l8 WET_DRY PoLLt,'TANrr CoNCENTRAIoN CoRRECTIoN ..........20 VOC CALCL'I-ATIoNS By RESPoNSE FActoRs... .........,...............20 l3 List of Figures Llst of Tables Table l: Engine Detail Table 2: Emission Units and Requirements Table 3: f,mission Unit & Srrmmary Results for Unit K-3C ......... List of Equations Equation 1: Bias Correction Calculation Equation 2: EPA Fuel Specific Fd factor Equation 3: Emissions Corrected to lSYo Oxygen ,.14 Equation 4: Mass Emission Rate Qb/hr) Equation 6: Noise Limited Minimum Detectable Concentration #l Equation 7: Analytical Minimum Detectable Coucentration #2................ .......... 16 Equation 8: Analytical Minimum Detectable Concentration #3 Equation 9: Reference Cell Path Length ................-..-..... I Equation ll: Dilution Factor Equation 12: Expected Spike Concentration Equation 13: Spike Recovery, Percent Equation 14: Moisture Corrected Concentration ..................... .............................20 Equation 15: VOC as Methane by Response Factors.......... ..........20 Equation 17: Total VOC for Approval Order Permit Limits........... ...................20 l3 l4 1E t9 19 l5 l5 l6 l6 t7 L7 18 Infoductbn The Company's Emissions Testing Group (ETG) conducted source emissions testing at the Kinder Morgan Altamont LLC Main Gas Processing Plant in fulfillment of the State of Utah Department of Environmental Quality (UDEO) Title V Operating Permit Number 1300006003. Thepurposeofthistestistodemonstratecompliancewlthpermittedemission limits and 40CFR60 Subpart JJJJ forthe unit listed belor. Table 1 and Table 2 present the emission units and species that were measurcd during the testing along with applicable permit limits. Alltesting was conduc'ted in accordance with Environmental Protection Agency (EPA) test methods as described in 40CFR60, Appendix A, and the test protocol dated September 26,2024. Concentrations of Volatile Organic Compounds (VOC) and Formaldehyde (CHzo) were determined using an FTIR folloring ASTM D6348 as allored by 40CFR60 Subpart JJJJ. Non+nethane non-ethane VOC is reported on a propane basis. Formaldehyde emissions are excluded for the purpose of compliance demonstration with 40CFR60 Subpart JJJJ standards (VOC) but are included for the purpose of compliance with VOC permit limits frotalVOC). Unit K-3C was tested on November 6,2024. David De Cesari and John \Afllis conducted the test. Table 1: Engine Detail R3141 0412C24 Table 2: Emission Units and Requirements K-3C (rcE-s) EPA Method 7E Title V Operating Permit No.1300006003 Tltle V Operating Permit No. 1300006003 Title V Operating Permit No.1300006003 EPA Method 10 Title V Operating Permit No.1300006003 270 ppmvd @ 15o/o Oz Title V Operating Permit No.1300006003 FACILITY INFORMATION Facility: Kinder Morgan Altamont LLC Contact: Main Gas Processing Plant 17790 West 3750 North Altamont, UT 84001 GPS Coordinates: LAT 40.3558813517332 LONG -1 10.3272331 91 535 EMISSIONS GROUP INFORMATION Facility:Emissions Testing Group Contact: 1001 Louisiana St., Suite 1000 Houston, fx77002 Erin Dunman Air Compliance 1667 Cole Blvd., Suite 300 Lakeurood, CO 80401 Erin_Dunman@kindermorgan.com (303) 91+7605 David De Cesari Emissions Testing Grcup David_Decesari@kindermorgan.com (713) 420-531 1 R8,l 41 Ut202a TestSummary The exhaust gases from the unit were sampled continuously for three (3) runs at the highest achievable operating load. There were no starts, stops, upsets or malfunctions that occurred of process, control equipment, or monitoring equipment during testing. Summaries of results from the unit are presented in Table 3. The three run average below shows that the unit tested below the emission limits. Detailed summaries of the test results are included in the APPENDIX. RESULTS Table 3: Emission Unit & Summary Results for Unit K-3G Date tu06t24 AverageParameterRun 1 Run 2 Run 3 Time 10:04 ll:23 12:42 Speed (RPM)902 902 902 902 Horsepower 799 790 781 790 Load (oh)77.5 76.7 75.8 76.7 Fuel Flow (SCFH)6.s29 6-477 6.410 6.472 NO, (opmvd (A.lsYoO.\I I I 1 NO- (LB/HR)0.02 0.03 0.03 0.03 8*l NO- (g/BHP-HR)0.0 0.0 0.0 0.0 ffiHffiW} 1,fi**:,tr,.iiiiffi amkp.ffi ier,*ffi ffi CO (oomvd @.15Yo O"\I 2 2 2 co (LB/HR) | o.o2 | o.o3 I o.o3 |0.03 ffi CO (s/Btf-HR)0.0 0.0 0.0 0.0 VOC (onmvd (d.l5o/o O"\3 3 3 J voc (s/BHP-HR) | 0.0 | 0.0 | 0.0 | ,il.ffiffi 0.0 MUtUffi;ffi#ffisffiH*tr voc + cHro (LB/HR)| 0.0e I o.os 0.08 0.09 O" (Yo Bias Corrected)0.00 0.00 0.00 0.00 F.i:a'./410.,1f024 Emissions Sampling Process PROCESS DESCRIPTION The Waukesha L7042GSl (1,030 hp) reciprocating compressor engine is a four stroke, rich burn, natural gas fired internal combustion engine, equipped with an NSCR catalyst, driving gas compressors. The energy released during the combustion process drives gas compressors, raising the pressure of the incoming gas from an initial "suction'state to a more compressed 'discharge" state. EMISSIONS TESTVEHICLE The ETG has conducted emission tests on reciprocating engines and turbines for many years. This testing experience has enabled the ETG to design and assemble an accurate and versatile emissions test vehicle (ETV). The ETV is one of three environmentally controlled box trailers housing all analyzers, computers and auxiliary equipment. A Data Acquisition Control System (DACS) scans instrument outputs and the data is transferred to a computer for analysis and storage. The computer monitors the readings in real-time and outputs the datia averages to a video monitor and the hard drive. The readings are recorded and represented in Central Strandard Time (CST) due to our headquarters located in Houston, Texas. SAMPLING SYSTEM Continuous analyzers were used to determine the oxides of nitrogen (NOx), carbon monoxide (CO), non-methane, non-ethane, excluding formaldehyde volatile organic compounds (VOC) and formaldehyde (CHzO) and orygen (Oz) emission concentrations. Available instrumentation and analyzers are listed in Table 4. Brand names and specific models are for refercnce only and instruments of equal nominal performance may be substituted from time to time. Exhaust gas enters the system through a stainless steel probe and a 3-way sample valve assembly. The sample is transported via a heat-traced Tellon sample line through a stainless steel sample pump and into a minimum contact condenser specially designed to dry the sample. The sample is then passed through 3/8" Teflon tubing to a Balston Microfiber coalescing filter and then to the sample manifold. The sample manibld is maintiained at a constant pressure by means of a pressure bypass regulator. Stainless steel needle valves control the sample flory to each analyzer. See Figure 1 for the flow schematic. For the FTIR analyzer, the exhaust gas is brought into the trailer through the same stainless steel probe and 3-way sample valve, hovrrever, it is next directed through a heated sample line to the FTIR hotboxwhere the temperature, pressure and flory rate are kept constant by way of a pressure regulator, temperature controller and needle-valve flont meter until the sample enters the anaper. Afterthe sample has passed through the analyzer, it is purged outside of the trailer. See Figure I for the flow schematic. 4 i! IF E;:6 s!:i Figure l: Sample System Schematic Table 4: Available lnstrumentation g -&- --@- LEG END Pump E- l,*""rln"',j A 5'w.Y valrs t P I Pr.$umOru!.sn.p Fillrng -+<F He nd v.ue \--,'ll;;;o'' 5fl- [li;ilil: {@ F,"wrrersr soi.nold -qf- 3.wry vstv! -EF ort8iFrn'r q? !::l;fl.,"" NOx Thermo Fisher Scientific 42i Thermal reduction of NOz to NO. Chemiluminescent rcaction of NO with Os Variable to 10.000 oom co Teledyne T3OOM ND|Rwith Gas Filter Conelation Variable to 10.000 oom VOC/CHrO t\rD(iR Fourier Transficrm lnfrared Spectroscoov Oz Servomex 4900 Paramaonetic 0lo25o/o Barometric Pressure Rosemount 3051 20 - 31 "Hg WeUDry Temperature Humiditv Vaisala Model HMP 233 -40'F to 140 "F Oo/o - 100o/o Creneral Testing Procedune EPA Reference methods as described in 40CFR60, Appendix A, and ASTM D6348 designations were followed in the conduct of this testing. Calibration and test procedures were detailed under their respective sections of the emissions test protocol dated 09/26/2024. All emission species were measured post-catalyst. Concentrations of NOx were determined by the procedure described in 40CFR60, Appendix A, Method 7E. Concentrations of CO were determined by the procedure described in 40CFR60, Appendix A, Method 10. Dilution concentration of exhaust orygen was determined by the procedure described in 40CFR60, Appendix A, Method 3A. Determination of exhaust effluent flow and mass emission rates were determined by the procedure in 40CFR60, Appendix A, Method 19. Compliance with VOC and CHzO were determined using an FTIR following ASTM D6348 as allowed by 40CFR60 Subpart JJJJ. EPA REFERENCE AND ASTM METHODS Menpo I "Sample and Velocity Iraverses for Stationary Soulces" The objective of Method 1 is to determine the selection of sampling ports and traverse points for a representative velocity measurement. Method 1 entails selecting sampling ports at least two stack diameters downstream and a half diameter upstream from any flow disturbance. Based on the upstream and downstream measurements of a flow disturbance, a selection of minimum traverse points was selected. Method 1 was performed on the engine. A diagram is found in theAPPENDIX Memoo3A "Determination of Oxygen and Carbon Dioxide Concenttations rn Emrcsions from Stationary Sources (lnstrumental Analyzer Prccedure)" The objective of Method 34 is to determine the Oz concentrations from the source. Method 3A entails extraction of a gas sample from a stationary source and routing the sample through a conditioning system to an analyzer for the measurement of Oz in percent. Method 3A testing was perbrmed on the engine for the determination of Oz. The calibration enor, system bias and system drifl datia were within the tolerances of the method. The previously mentioned data and the testing data were recorded on a DACS. Calibrations and test results are found in the APPENDIX. MEmoD4 "Determination of Moisture Content in Sfa,ck Gases" The objective of Method 4 is to determine the moisture content of stack gas. Section 16.3 of this method allovrrs the use of an FTIR as an acceptable altematlve to determine stack gas moisture. i:.i;. :ii?.)..):" MertrooTE "Determination of Nitrogen OxrUes Emiss ions from Stationary Sources (lnstrumental Analyzer Procedure)" The objective of Method 7E testing is to determine the NOx concentration from the source. Method 7E entails extraction of a gas sample ftom a stationary source and routing the sample through a conditioning system to an analyzer for the measurement of NOx (NO and NOz) in ppmvd. Method 7E testing was performed on the engine forthe determination of NOx. The calibration error, system bias and system drift data were within the tolerances of the method. The previously mentioned data and the testing data were recorded on a DACS. This data and test results are found in the APPENDIX along with NOx converter check results and calibration gas certificates. MSIHoD 1O "Determination of Carbon Monoxide Emrbsions from Stationary Sources (lnstumentalAnalVer Procedure)" The objective of Method 10 is to determine the CO concentrations from the source. Method 10 entails extraction of a gas sample from a stationary source and routing the sample through a conditioning system to an anatyzer for the measurement of CO in ppmvd. Method '10 testing was performed on the engine for the determination of CO. The calibration eror, system bias and system drift data were within the tolerances of the method. The previously mentioned data and the testing data were recorded on a DACS. Calibrations and test results are found in the APPENDIX. MErxoo 19 "Determination of Sulfur Dioxide Removal Efficiency and Pafticulate Matter, Sulfur Dioxide, and Nitrogen Oxide Emission Rafes" The objective of Method 19 testing is to determine the emissions exhaust flow. Method '19 entails a NOx emission rate determined by an Orygen-Based F-Factor on a dry basis. An F-Factor is the ratio of gas volume of the products of combustion to the heat content of the fuel. Method 19 testing was performed on the engine for the determination of NOx emission rates. The NOx pollutant concentration, dry F-Factor and percent of dry Orygen concentration were collected and calculated for the method. Test results are found in the APPENDIX along with the emission rate formulas found in Equation 4 and Equation 5.1 ASTM I'6348 "Determination of Gassus Compounds by Extractive Dircct lntefiace Fourier Transform lnfrared (FTIR) Spectroscopy" The objective of ASTM D6348 is to determine the VOC and CHzO concentrations from the source. ASTM D6348 entails extraction of a gas sample from a stationary source and routing the sample through a heated system to an FTIR for measurement. ASTM D6348 testing was performed on the engine for the determination of VOC and CHzO in ppmvd. The acetaldehyde/tracer spike, recovery analysis and minimum detectible concentration for VOC and CHzO were within the tolerances of the method. The previously mentioned data and the testing data were recorded on FTIR softr,rrare. Calibrations and test results are found in the APPENDIX. t The sarne exhaust flor/ calqJlation was used for CO and Total Voc. 7 I NSTRU M ENT CHECKS AND CALI BMTIONS The folloruing instrument checks and calibrations guarantee the integrity of our sampling system and the accurilcy of our datra. EPA Pnorocor- Gases (aOCFR6O, A'pE{Drx A - M7E.7.11 Calibration sheets for EPA Protocol 1 calibration gases arc included in the APPENDIX. INTERFERENcE RESFoMiE (4{ICFR6O, AppgirpD( a - MflegJLn Vendor instrument data conceming interference response in the NOx, CO and Oz ana[pers are included in the APPENDIX. Axar-vzn GauBR rrrn{ Ennon Tesir (4OCFR6O, Apps[rD(^- M7E823) The measurement system was first prepared for use. Each analyzer was set to the correct response and that response was recorded by the data acquisition system. A calibration curve was established to convert each analyze/s response to equivalent gas concentrations as introduced to each analyzer. Then zero, mid and high calibration gases were introduced without adjustment to the analyzers and their responses was recorded. These linearity checks were performed daily, and these responses were considered acceptable within +l- 2 percent of the span. This curve remained unchanged throughout the test. The analyzer calibration checks (linearity) sheets are included in the APPENDIX. An NOz to NO conversion efiiciency test was perbrmed on the day of testing folloring the procedure described in 40CFR60, Appendix A, Method 7E Section 8.2.4.1. The results of the conversion efiiciency test are included in the APPENDIX. Smlnr UNE I.EAKGHECx The sample line was leak checked before and after the test by closing the calibration valve assembly while the sample pump is operating. Once the maximum vacuum is reached (approximatety 12 - 15 inches of mercury) the valve on the pressure side of the pump is closed (See Figure 1) thus sealing off the vacuum section of the sampling system. The leak tests for each unit were considered acceptable if the vacuum gauge reading drops by an amount less than 1 inch of mercury over a penod of I minute. The results of the sample line leak checks are included in the APPENDIX. flesporrsE TIME TEsr (4(rcFR6O, ArpE{DD( A- M7E&26) Before sampling began, it was determined the midJevd calibration gas best approximated the emissions and was the more appropriate gas to be used as the upscale gas. A response time testwas perhrmed by first introducing the zero gas into the sample system at the outlet of the probe until all readings are stable. The calibration vafue was then switched to sample the upscale gas at the outlet of the probe until a stable reading is obtained, within 95% of the certified value of the upscale gas. The upscale response time was then recorded. Next, the lovtr-level gas was introduced in the same manner as the upscale gas. Once a stable reading is noted, within 5% of the certified value of the upscale gas, the downscale response time was recorded. This process was completed once per anatyzer to determine upscale and downscale responses. The greater of the upscale or doarnscale response was classified as the response time and all test points were monitored for a period of time at least twice the response time. The results of the response time tests are included in the APPENDIX. SysilEvr Btas GHEcK (4(rcFR6O, ArpE\Dx A- M7E8JL5 & M7E85) Before sampling began, the upscale gas was determined as mentioned in the Response Ilme Iesf section. The system bias check was conducted once prior to and once follort/ng the test runs of the series and consists of first introducing the NOx analyze/s upscale gas directly at the analyzer. The analyzer was allowed to stabilize and the reading noted. The same gas was then introduced at the probe, passing through the entire sample train to the analyzer and the reading noted. The resufting readings indicate any bias attributed to the sample train. This process was repeated with the NOx analyze/s low gas. The bias check was acceptiable if the direct gas reading of the anatyzer is within +l- 5o/o of the complete sample train reading of the anatyzer [per 7E.13.21. This same procedure was repeated for CO and Oz anatyzers. Sample system bias check forms are included in the APPENDIX. Bias checks before and after each test run of the series are used to determine a zero and span drift for the NOx, CO and 02 analyzers. The zero and span dffi for the test run period was less than +/- 3 percent of the span value for each of the analyzers [per 7E.1 3.3]. The system bias (drift) checks sheet for each test are included in the APPENDIX. 9 VOG ard ClhO Iletermination VOC and CHzO were determined using ASTM D6348. The instrumentation for this test program was an wIAX-iR FTIR analyzer. To determine compliance with the emission standard the, FTIR was used to measure the pollutant concentration on a wet basis then convert the concentration to a dry basis using the FTIR moisture determined during the run. Target Analytes include but are not limited to: Data Quality Objectives Accuracv: The accuracy of the measurements were ensured by performing analyte spiking, priorto the test series, in which spike recoveries met +l-30o/o of prcdic'ted value (see ASIM D6348 EQUATIONS sectrbn below). Precision: The precision of the measurements were ensured by consecutive Calibration Transfer Standard (CTS) analysis, performed prior to and following the test series, in which measured values met +/- 5% of certified value. Test Runs: Three test runs, each 60 minutes in duration were collected The QA/QC checks outlined beloar were performed on the analyzer. 2 Acetaldelryde was used as a sunogate fur VOC and CHzO during spike and Ecoveries. 3 CFa was used as a tracer gas for acetialdehyde spiking. a Etlry4ene was ulilized as a Calibration Transfur Strandard (CTS). R.?; t1 :.!t?{;?4 to Pre-test Analysis the parameters outlined in Annex A-2 of Method ASTM D6348. D6348. was determined. sampling and analytical system for transporting and quantifying the target analytes. This technique followed procedures outlined in Annex A-5 of Method ASTM D6348. outlined in Annex A6 of Method ASTM D6348. collected sample spectra. As such, the resolution, line position and apodization function used for the reference spectra were the same for field spectraldata. Field Sampling & Analysis Post-test Analysis Folloring data collection, the folloaring checks was performed again ficr verification against pre-test values: identified in Annex A-8 of Method ASTM D6348 11 EMISSIONS TESTING Samg Loca,nor aro Ser+rp A Single point probe consisting of 3i8 inch stainless tubing open at one end was used to collect the sample. The sampling point was placed at least two stack diameters downstream and a half diameter upstream from any flow disturbance (40CFR60, Appendix A, Mtd 1 , 1 1 .1 .1) to ensure a high integrity sample from the engine's exhaust. IlerrrouruanoN oF S:rRAnFrcAnoN (4{!GFR6O, ArpE{Dx A - M788.1 2l A stratification check was performed on unit K-3C using the sample probe. Three points on a line passing through the centroidal area were used, spaced at 16.70/o, 50.0% and 83.3% of the measurement line. The sampling time was at least twice the system response time at each traverse point. Reciprocating lntemal Gombustion Engines with Gircular Stacks For exhaust stacks larger than four inches in diameter, a stratification check was performed before the first run of each test. In order to ascertain the presence or absence of stratification on engines with circularstacks, exhaust concentrations of Oz were measured at three points on a line passing through the centroidal area of the exhaust stack. The mean concentrations were used to determine the amount of stratification. The concentration at each traverse point differs from the mean concentration foralltraverse points by no more than t 0.3% difierence of mean concentration, the gas stream was considered unstratified and samples were collected from a single point that most closely matches the mean. Fuel GasAxer-vsrs A fuel gas sample was taken during the testing. The sample was analyzed by a pipeline gas chromatograph. This analysis gives the actual specific gravity and BTU so that fuel flow and mass emissions are accurately calculated. The test summary for the analysis is included in the APPENDIX. @rupr-ruceTEsf, RuNs The exhaust gas from the engine was sampled continuously to determine NOx, CO, VOC, CHzO and Ozconcentrations forthree (3) individualsixty (60) minute test runs @ highest achievable load of 76.7%. The load developed was dependent on the pipeline conditions available during the day of the test. Other important parameters such as compressor suction and discharge pressures, engine speed and ambient conditions were monitored during the test. The data acquisition system scanned the analyzers every second during the test run, and computer averaged the outputs every ten seconds. A summary of the data, with each test run averaged is given in the APPENDIX. 12 Galculations CONCENTMTION CORRECTION Emission concentration corrections required in 40CFR60, Appendix A, Method 7E were calculated by using the bias check zero and span values from before and afterthe test. The equation is as follorrrs: csas= G -c")Hum vo Equation 1: Bias Corrcction Calculation Nomenclature: csas'. Effluent gas concentration (ppmvd) e '. Average gas concentration indicated by analyzer (ppmvd) Col Average of initial & final system calibration bias check responses for the zero gas (ppmv) C^t Average of initial & final system calibration bias check responses for the span gas (ppmv) C^o'. Actual concentration of the upscale calibration gas (ppmv) Rn/d: C6i2tl4 {3 EPA F-EACTOR A fuel specific Fd fac'tor was calculated as described in EPA Method 19, "Determination of Sulfur Dioxide Removal Efiiciency and Particulate, Sulfur Dioxide and Nitrogen Oxides Emission Rates from Electric Utility Steam Generators" for natural gas. Equation 2 was used to determine the EPA fuel specific Fd factor. Fd-l(3.64. H*tvo) + (1.53 . Cw*n) + (0.14 . Nz*tvo) - @.46. Oz*ton)f GCV PFuelcas Equation 2: EPA Fuel Specific Fd factor Nomenclatule: Fa'.Fuel specifi c F-factor (dsc'f/MMBTU) Hwt%t Hydrogen weight percent CwtNt Carbon weight percent Nzntvot Nitrogen weight percent Oz*t%t Orygen weight percent GCV: Heating value of the fuel (BTU/dscf) pruetcast Density of the fuel gas (lb/scf) 15% OTTGEN CORRECTION The measured concentration of NOx was conected lo 15% Oz as set forth in 40CFR60, Appendix A, Method 7E. Noy = Noxoo,"(rrL, _"ra) Equation 3: Emissions Gorrected to 15% Orygen Nomenclafure: Nor: Nov66s'. o/oo2: Conected emission concentration (ppmvd) 5 Observed emission concentration (ppmvd) Observed 02 concentration (%) H":JCiHrlul4 3 The same formula is used for CO and VOC. 14 MASS EMISSION CALCUIAI'IONS, METHOD 19 The F-factor Method and guidance from Part 75 was used to calculate mass emission rates (lb/hr) and (g/bhphr)for NOx, CO, CHzO and VOC. Equation 4 and Equation 5 were used to determine the mass emission rates. 20.9 GCVE^=CaxFdx@x0nx 1ge Equation 4: Mass Emission Rate (lb/hr) 20.9 GCV 453,6Etn - cox Fo" 1z,o,o - olrgSx Qr, x 10u * BHp Equation 5: Mass Emission Rate (g/bhp-hr) Nomenclature: Em: Pollutant emission rates (lb/hr and g/bhp-hr) Ca, Pollutant concentration (lb/scf) Fa, Fuel specific F-factor for dry Cd measurement (dscf/MMBTU) o/oo2'. Orygen concentration in percent, measured on a dry basis Qn: Fuel rate from calibrated AGA compliant meter (scfh) GCV: Heating value of the fuel (BTU/scf) BHP'. Brake horseporer The conversion factors in Table 5 were used to conect the pollutant concentration in ppm to lb/sct Table 5: Unit Convesion Factos i:: .9Rp,!.e,$i .lli ppm NOx lb/scf 1.194 x 1t7 oom CO lb/scf 7.268 x 10{ oom CsHa lb/scf 1.1444 x 1o.7 pom CHzO lb/sc-f 7.7895 x 10{ t5 ASTM D6348 EQUATIONS MINIMUM DerecraaLE Gorcarrnanon MDC#7: NEA: REF: Cr"fl Lr"fl Lcettl MDC#2 P: Cav": cp: MDC#I =ffi.# Equation 6: Noise Limited Minimum Detectable Concentration #1 Nomenclaturc: MDC#Z = 3 * Equation 7: Analytical Minimum Detectable Concentration #2 Nomenclature: Noise limited minimum detectable concentration for analyte m (ppm) RMS noise for analyte m Root mean square absorbance value obtained on the refurence spectrum Concentration used in generating the reference spectna for analyte m (ppm) Path length used in generating the reference spectra for analyte m (ppm) Path length of the cell used to perform the measurements (m) Analytical algorithm enor minimum detectable concentration for analyte m (ppm) Number of sample spectra used Average concentration for analyte m representing the anatytical bias (ppm) Concentration resulls produced by the analytical algorithm for the analyte m on spectra P of the set (ppm) lZrr*"-ctr)' Rr'/l!: *il2c24 t6 MDC#3:ffi.# Equation 8: Analytical Minimum Detectable Concentration ll3 Nomenclafure: MDC#3 REA: REF: Cr"fl Lr"fl Lcettl TIEFERET{GE Ggr AaSoRPTIoN PATTI I.E{Srrt Lr= Analytical algorithm enor minimum detectable concentration for analyte m (ppm) Residual equivalent absorbance for analyte m Root mean square absorbance value obtiained on the reference spectrum Concentration used in generating the reference spectra for analyte m (ppm) Path length used in generating the reference spectra for analyte m (ppm) Path length of the cell used to perform the measurements (m) "(+)(?)HW) Equation 9: Reference Cell Path Length Nomenclature: Lr, Lf, Tr, Tf, Pr, Pf, Cr, cf, (t), Refurence cellabsorption path length (m) Fundamental CTS absorption path length (m) Absolute temperature of reference CTS gas (R) Absolute temperature of fundamental CTS gas (R) Absolute pressure of reference CTS gas (ton) Absolute pressure of fundamental CTS gas (ton) Concentration of reference CTS gas (ton) Concentration of fundamentalCTS gas (torr) Ratio of reference CTS absorbance to the fundamental CTS absorbance, determined by classical least squares i:v l: Dir2024 17 Sempu GsrAasoRp'noil PATH l.B{crH Lr=,"G)G)e)C) Equation 10: Sample Cell Path Length Axar-vrrSPltst{c Nom.enclature: Nomenclafure: DF: Tracer-sp1ys: Tracer-p1ps67: Lst Lr, Tr, Tr, P", Pr, C", Crt (f) Sample cell absorption path length (m) Reference CTS absorption path length (m) Absolute temperature of sample CTS gas (R) Absolute temperature of reference CTS gas (R) Absolute pressure of sample CTS gas (ton) Absolute pressure of reference CTS gas (ton) Concentration of sample CTS gas (ton) Concentration of reference CTS gas (ton) Ratio of sample CTS absorbance to the reference determined by classical least squares CTS absorbance, DF=Tracer-sp1y6 Tracer-p1p667 Equation 11: Dilution Factor Dilution factor of the spike gas Diluted tracer concentration measured in a spiked sample (ppm) Tracer concentration measured direclly in undiluted spike gas (ppm) 4.-V L: l$l/L/4 Cexp=Udil+CS Equation 12: Expected Spike Concentration Nomerrclafure: Ceq: Erpected spike concentration of the analyte (ppm) Ua: Concentration of the ana$es in the unspiked samples (ppm) Uau, Concentration of analytes in spiked sample emuent accounting for dilution (ppm); Uor = U" x (1 - DF) Cs: Certified concentration of the calibration standard for the ana$e (ppm) C.S CS=C.xDF DF : Dilution factor of the spike gas ^ CotsH--x100,a-^ uexp Equation l3: Spike Recovery, Percent Nomenclature: R: Percent spike rccovery (%) Cobs: Observed spike mncentration of the ana$e (ppm) Cerp: Expected spike concentration of the ana$e (ppm) REV4i 04X2024 19 UUET - I,RY Po[I,TANr COilCEtITRANOil CORREGNON Equation Nomenclafure: 14: Moisture Corrected Concentration Ca, C^"or, o/oH2O: VOC Cal.cu!-ATrot{s By R=spolts= FlcroRs VOC = ethylene (ethene) 1,9 x acetylene (ethyne) propane propylene (propene) butane Conected pollutant concentration on a dry basis (ppmvd) Measured pollutant concentration on a wet basis (ppmvw) Measured effluent moisture concentration (%) c12 * 2.4 x c13 * 3xc14* 2.85 x c15 * 4xc76 Equation 15: VOC as Methane by Response Factorso Nomenclature: c12 ethylene (ethene) (ppmw,r) c13 acetylene (ethyne) (ppmvw) c14 propane (ppmvw) c15 propylene (propene) (ppmwv) c16 butane (ppmvw) VOC as propane = VOC as methanef 3 Equation 16: VOC as Propane TotalVOC = VOC as propane + CHIO Equation 17: Total VOC for Apprcval Order Permit LimitsT 6 Using FID response factors, wih etllylene, acetylene, prorylene \/eighEd do^,n u,hen belo^,0 ppm, and sbaight readings for propane and butane. 7 Used for: lMrr. i.- i 1'\)4,/t"?l 20 APPENDIX RW 41 Ut2A24 Knder Morgan Altamont LLG ttllain Gas Processing Plant UnitKAC SECTION 1 : DETAtr,ED EN,ISSTOXS SUVUNNY SECTION 2: GrXrNer, IMORM,{,TION SECTION 3: Irrsrnurmxr CrmCxS axu CALIBRATION NO, TO NO Corrvsnrrn CrmcK FoRM ........ ..........64 INTERFERENCE REspoNsE CERTFTCATES ............ ............................68 Lnmaxrrv CrmcK (CALBRAIoN ERRoR) FoRMs................ .........77 SysrEM INrEGRrry (BrAS CrECK) FoRMS ..............81 FTIR-VArrDanoN TEsr Srima.cRy eNo QA/QC A8..................... .....................93 SECTION 4: RAwDATA K-3C FTIR VOC axo CH2O......... 2J2 SECTION 1: DETAILED EMISSIONS SUMMARY Tesr Suumnnv 24 lun 3 AVNN,AGEliel0r(N ll:23 12t42 te rnmelen ioed (RPIO m2 902 902 902 traal EonaDorar 199 790 7t1 190 ,ord l'A\77.5 16.7 75.8 76.7 :d.uht.d Torotr. (Y.)71.4 16.6 75.1 16.5 lctud Torcu. (9/o)72.0 71.0 70.0 71.0 nitioo TiEinr rBTDCI 26.O 26.0 26.0 25-0 lir Muifold PEtur PSIG) LEft -1.5 -1.6 -1.7 -1-6 lir Muifold Prcttur PSIG) RIGIIT -1.2 -13 -1.4 -1.3 tir lluifold Prcr.ur fiHr) LIifT -3..1 -3.3 -3.5 -3J Iir ikailold Prorun (rrHr) IIGHT -2-4 -2.6 -2.4 -L6 tir Meilold T.dD.ilhr. (-F)101 103 104 r03 h.ltt Wrl.r Oud.t T.Ep.ntuG ('T)112 172 172 172 ,ub. Oil Outl.t T.ED.nturu CFI 111 177 171 t77 ,ubc O0 Prorurc {PSIGI 52.r 52.1 541 s2.l )mDrsor loEorg.or Suctio! Prc$ure (PSIG)ta1 3t6 3tt It7 lo8ostor Dirchrnc PHturc (PSIG)t59 t49 t36 t4t !'low Metturcmentt Iud Gu St.lic Pr6.urc (PSIG'137.3 137,4 137.3 1373 fu.l Gs Diff.rcltid Prcrurc ("H'O)53.3 43.0 51.t 493 rud Gr T.np.nturc fF)2'12 t5 32 khuat T.mD.ilturr ('T)t4t t4t t4t t4t 'ucl Fu.l trlow (SCFm 6J29 6,471 5.410 6,472 llbrtr.r FLor (L8/HR) - }l*bod 19 1,691 4,659 4,510 4.655 hheurt Fl,ow (DSCFH) - Ycthod 19 63,07t 62,512 6193r 62,527 It-b.url Flow (WACFM) - M.lhod 19 3,969 3,939 -],901 3.935 \ir Flow (WSCFM) - M.tbod 19 61,6t4 61.120 60.494 6t,v16 I.!r Rrtc (B[-^fP-Iff.)tJ22 t,242 t,254 4,2:9 IPA Fu.l F-Frcion O. Brri! IDSCN/MMBTIn t,702 t,102 ,,702 ,,702 \mbietrt (tioil Ten (-F)43 l9 36 40 lrruEctric PrruE ("Er)23.7E 23.71 23.75 2t.11 hbi.nt Rcl.tivG Ifuoiditv (%)29.t 2t.4 27.4 2t.5 \btolut. Euoidity (Gdiny'LB)15.3 t2.s I 1.6 l3.t ionr Concdtrrtioil & Crlcuhtcd M$!)tr3 mYd R.r M..rur.d Dry)3.09 3.62 3,45 3.39 r (Dpdd Bi.! Corftt.d)3.10 4.03 4.03 3.72 ior (tDffid @ 157. O')I I I TLBIER)0.02 0.03 0.03 0.03 x (EiBHP-En)0,0 0.0 0.0 0.0 lO (DDdvd R.i Maturcd Dryl 4.15 5.29 6.17 3.31 lO (DDffid Bi.. Coct.d)4,9t 5.&l 6.V'5.El lO (ppwd @ 15% O,)2 lorl.l/m)0.02 0.03 0.03 0.03 lO IEIBEP-IIR)0.0 0.0 0.0 0.0 ) ('a)l7.lt t7.12 t6.93 17.0r lH'O (pDmw)1.54 1.54 l.s4 1.54 lH,O (Drmvd|l.E6 l.t6 l.t6 1.t6 ]H,O (LB/HR)0.01 0.01 0.01 0.01 /uq I uE (DD6wt 29,49 26.26 25.65 27.13 /OC r! CJl. (pem)9.&3 t.75 r.55 9-O1 /OC (noddl 11.67 10.56 10.29 10.91 /OC (Dpryd rd 15% O')3 3 3 3 /OC &BiIIR)0.09 0.0t 0.07 0.0r /OC IqlBI{P-HRl 0.0 0.0 0.0 0.0 13.7J 12,42 12.15 12.77 tart:(:H.I' TI,E/HRI 0.09 0.0t 0.0t 0.09 lO' (9/. Rrr Mdurd W"l)9.96 9Jt 10.01 99t O,lY6 Dql 12.03 l2.tx 12.05 l2.(X l. (?6 RN M.surcd Dry)-0.07 -0.07 -0.0,-0.07 ), ('u( Bi[ Correttd)0.00 0.00 0.00 0,00 ..qDlfltmqtr4l!€EE@r06.lSF hh: CXhZ tury A@l hd6: tuGrPld qdIlTF: Nn udr re m&LMMth"'------alg- Sr wArlTlnli hidpm &rdlp: ua@w: AGA DW: PM 'ELlr0 25 Openarrxc DRra UJotrUJ NoCD otot q(oN qN (, tGl' e?(tro 66t (r ,Nlo - (o c, (9 (Dtoo roI oa o Nro $t @tG' zltr soCJ Noct oo6 o(oN oNt- roF(o q(r ) r. ( ) o,N oNrJ ) - (o (oo(t) @l{ )@ lo I qI o t*F c\ i rr ) Nt- @$6 Noo, 1()o,N q(om oNt\ l. l ) t- (f, roc.j rr ) o)N c\ ls|.r r _ (o t-@(f, @r( )@ rl )I q o F* t\ c\ i to Nt* C\Ioo, oo@ oCJAI cNF* F- (o dro @N L( ) (f,lo - (o @@(9 o(o@ qI qI o r-F c\ i lr ) NF- Noo) o)CDF* o@N qNF- c?F- (f) a(f )ro FN o) |r ) (o @@(o o(o@ roI olI o Ft- c. i r.( ) NF (Lt TL :Em ooFco s oU) o_ oNr L.l . o IL!oo @(L U)o- aL o(L tro lJ - o 6o- lro LL o og, IJ J II J=to.uJ2(92lr l FaoI.I J=t- o[!UJLauJzozuJ JIJ Jzo_ o==Ftl JzozLU uJf,atoF-JlFo4 IJ JtlaU) u. Jtro-oFFU)U)o-Jtuf,lr tux. faaI, I Jt(LIIlroct ) (,9JIU=LL o-=Lr JF@(,JI, UfLL =oJlra(,-JtUlrJuJzo_ lUtfaU)uJto-zoF_o=otzf tr JtfU)aI.J Jto- LUotr-oooFzf FlJ . II JJl,. r Jtf,aU) uJtr ,o-o-JoLL==t? F-ItuJtfoalr Jto-oJoLLz=trd (LIUFoJol!z=tr? (L=I,UFFI.I JJFloJoLUtr t fJ UJEfaU' uJtGJ6uJco=)J rL=tr JFFUIJFfoo-FLUYo o-uJFYoFU)FU) f-xlr l tNIozt (o i E E ea # + * EH J o t oo Ed = EE o = fl & os)o- ooo, (ooctIf= to6oNrtoJ(Eoo--flE= o(" ) IY trso-o(Eotr.E= troE(E= 27 Lr Jotr lr l 6to(D oo, q(oN q a(t q(9t $l ra $- (o (o@(t cD{GO (oI G'I (t ,o Nra l N @to (\ tzftr (t )N Noo) @@t- o@N oF- t-F* (Y ' o\t (r ) ri l (f) (f)@s- (o @@(Y ) @s@ (oI (t, I tto r-r- qNlo (f,F- @s6 Noo) o)Fr o(oN qf- qt- (f) od(f, (,(o @@$- (o @@(, @$@ (oI NI $o t-t- oNtr ) Nt* Noo) o,F* o(oN qN (f)Ir - (f, qNlJ ) (t , ol' -$- (o l.( )@(o olr )@ qI c?I No F- Ir oi ro Nt- Noo) o,N o@N qN aF- (r ) nNl{ ) o(o @@.t : (o v@(f) o|r )@ qI c?I No r-F* NNto Nt- =(Lt (LIdl ooFd) s oao_ oN- lro -lroU) ao_ U)o_ ao_ ao_ lro LL o ao- lro lt - o otr IUFuJ=to-uJz6ztr l FU)oI. J J=L o[!tu&U) I. Uzozrt )I. I Jz (,z=FtUz6zIr t uJfatoFJfFo LUtlaU) I,J J t(LotrFo@oJt.l J=lr uJt=U)aUJt0. trlroU)oJtu:) (L=IUFU)oJI, Uflr 3oJtLa(,-JI,UflJ -JtuzI tUtr)U)aI,UE. (LzoF_olatzf t. r . ld:)U)U)uJtro-ulotIo@otzl Fl!LUJt!trfaU)UJu. (Lo-Jolr=.=t4 FICIE[!trlaauJtrTLoJolrz=tr7 (L=tuFoJolrz=tI TL]UFFLrJJFfoJ6tudl f,J tl JtfU)U) [JtILJoLIJ tr l f I (L=I,J JFFUJJF)ooIt-utYo (L=tuFvoFU)F@f-xill tNIozI(o ooo) (o@ctIf,= i E E EA E g# - f I o= f l to6oNtoJGoo.Y:,IE= o(,IY trso-oootr.E= coEo= oaoo-o-o!,oGtr lr . lotr ll l $to(D @ q(oN qo G' (, , @|r ) loct ot@ @@fi, (otr l@ I tI to Nlo N 6tto e,zft (\ lsC\ l NoCD CDFt* o(oN oof. * c!F* (o r( ) ro t(t) o)@(f)(o @@(4 , (f,(t,@ qI aI $o t-t- o6i lr ) NF @t@ NoO) FF- t- odN ocit- aF- (f) @tr , $(r ) @@(f,@ t*@(f) (f)(f)@ qI aI !to r-t- c. i lr ) (')t- Noo) s@F- o(o(\ l ooF* aF(o o, r. ( ) rr ) (o (Y )N$- (o @@(f) CD(o@ \I c?I $o t-t- cr ju) Nt- Noo) t@t- q(oN oot- Nt-(e Nlo rJ ) (t, $$- (o t-@(f) o, (r ,6 \I c? \to t\t-F oN1r , Nf-F =(Lt (LIdl ooFtr ] s Ia(L oN- lJ - o rlr -oa U)TL U) IL U)0- U)o- Lr o lro a(L LLo LLo ot!!ul=to- ll lz6zlr l FU)o[r J=L oLu lr JTLoTUzozil t JuJzn (,z=trnJz6zul IJ JfatoFJfFo4 I, I Jt=@otutr(LotrFav)(,Jul f11 ul tfooIJ JtILlJ - tLoU)oJul ffi (L=uJFaoJtul BoJIL@CIJLuJlrJLUz IUtrlU)otutr(LzoFofU)tz-t Lr Jt.f,U)U)UJ tr . (LUJ(,tIoU)otz-t FlJ - tuJIUtr:)U)@UIuo-oJolrz=tr FrottUtfoU) LI Jtro.oJogz=tr (L=TUFoJogz=i (L=t. r JFFUJJF. foJ6tud) l I L!t:)aoI,I Jtro-JoLUtr ] f, I (L=IJ JFFu.J -JFfooIFuJYo 0-=uJFYoFaFafIXIl tNIozI(o ? E Ee a # + * Et - g tr oo E6 E EE o = fl # occo- ooo) (ooF' I\t:)= rto(r ,oNttoFJ(EooJ3G= ofi , IY tr(Eo-o(E(,tr.E= troEo= 29 SECTION 2: GENERAL INFORMATION 30 Rrurranr Go nnesPoN DEN cE 'ai6 E8E9 iHEr i 8- !f3= EUo E8n9 iH EE :4 td453' n .i\ o d -*L1 { r! oE io o@ {.D; 6a 5z o tta! !Eco ll u eUz Es FE , E -1 3 9a e ! i: E E 5a e o F- A 9Ea qIo -L c > ! O { O gi E E €; ?E E ;E I o i E: 8 r El F H ii r € e= € ! i$ E E ti E; E Ei t i ci - $I i e€ E - ii : Ii l i Ei f i i Et t I H i i e * f t i :: s : i; * " E E E ts ti i 5 Et i q E ; i F; $r ; ; EE E ?E E ,g :F s is s F i Eg . E g € i l g E t t * s g g i E I r Fg f , E E gE E E !E E g g Ei I i! EI $ $ EE e E # , I g* X E 5 EI E :g IE -3<Esi ts ro=*NElt lozII NgtxE Lt 'E i l = EU _c EE 3 EE E xo .E t o-g.9EcEc.9,d d s l- t l gt J EtgEqcE9oE{!Q,cEadIE'EEo'5o3rfoEEx!t0E x3 OE:ERd :* 6geHi rt a -8 9E8Be z, :oT s# ac qq- E t E3 ! ti ! Q iE T b: d iE E * r- a eE b €8 u TE E 2p , E5 3 ! !$ H E Ct I E4 T E I Ee l EH € .gts.E!T 8.nJ3= &Ua eoA. g EC3i 8.e tI)si GUo :!.9EtnEE.sIoIo5.9E==*z 6x -o a, * rr E cE oF !@d d -x+o -, e, {. 6l o NFdB I Eg Uo .) 32 E C t c: a l a o o E6 3 . o N i c! t rE ^E to r OF !F t s ir - zE EgEu,t !t , - ! Ct s il \ 9 = 3 N o -( =o € 1 ; e =6 1 F ;g €E $ E !E i? A E E5 Pi o E: l- E : < E o o ! o o Io i >g a ur E Eul 6>E6 o OE JT J4u!EF ; E) f .g x <- E EE r J (0 _O , q L' J A L , ' O, ^ ( l ) >- U H x( ? d J I E EE E r E* E- v> 6 d E 8 d5 ' lg c .9 , r .! : i i? r I i' €d I !oio?r E! I.8 , fi8tiE ,$ I E* i N EI E X E# r I =4 9 N E 6 J Ed e lg L- gA $E EE E 19 iE E =\ , F tE (, Ei EIEI#oPoEo,6o.EuJ 2\ <Eg3E<o=-\ \ - trluo-II no h O F t s € 6 a o - --- - N d 66 € r t s r r @ € € o € € o 6 6 0 d d d d 6 6 i: i i i: l i i. . i , ! : i. . . ii ; ir : i: : l l: l!, : , i ' : i ,:!i: i i i i i l i. . . li i ! ::t : 4ii lE: i : 4 :) | L 29 : o 9t l z ke > t r, a a a; ; ! > < C - a 6 =z Y z l i o 7 ; ! ! ? q s &2 4 E rr 4 ! IIiIiIiIiiiIIIIiIiIIIIIIIII!ILcLQEJE? gEof5otg.oE r: : i i r : 3 : o: :h : I :o : : :t h ,Q * te tz Z E : 1 1 rz r ! f , 9 : E l r9 rS E g ir t tq : E f E: E Z z\ :2 f r 1 :2 i l Fi 2 q E F iP f Es E E E B . I E 8= 3 ! l t E i i ,Y O ! U ; = d ! fr 3 € e r i F? . q TE E = H i I ? I SS E s E ; i l ! dIE'i.fr zordd8z*iUzU , , , h - ! ! ! ! , ^ ! , : . ' ! , i : : : : , . 1 : : : r I : i ;' : .; , . ' : :f E : H : . .> , i ' ,= I X i : a * ' I . ,I E I a Ig , e , jl l * , + + . .: EE * 1 9 , 4 i " .t r :E E g = 9s E , * i :: lE Y - n B r r i E B E2 : gl f r l l = i E E r ii ' - fr f i E l s . E 3 8 ! 3 3 E E 3 E 33 al: : l l : lE; : ' . : : : 2: r ; l 2t t : t : : l tsq: : : t : : (:i i , : o :" 'l z: t : t : l <: ; : i 'l !l : : : : : : ; fr < g. i o a X d- a ! r - - 9 t8 6 3 8 8 E 3 EE E E E : ; C E!! b ! ! ! ; - f: > > : : : < .t&rrzI{ ,<<:> ot s tr z t425d^o;aa>1 9E<a ZEBorz FF F f i lt i l tlt l lt ! t ll t r t! t l ii i i rl i l tt l l il ! ! t! l t lt t t lt i t lt l , i I li r I t E I ri : tt iF !- E ix ;: !! r t I ? g I i6 ,q x ii ir i E i; i. 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W. $ 0.46183 100.00m upp.r ory H.( v.lu._______L]]Lbru/d.cl Low ory H!!t V.lu.________lJlllbru/drcrSrmcGr.vlty mDln.lty 0.0486 lb/.cl Tot6l cadona uoh wGr0ht___-_lgl!q1_ EPA Ff rcbr lc.kl_______UL9Ldrdfl Mbtu BHV n.l 1110.25 Compoi.rbillty 0 997367535 Condtu.nt LHv( ) d..l LBv(i) rll HHV(l) a..t HHv(l) nr oo0 ooo oo0 000 s11 5 /93 I /s 01 155 {155 44 2420 3 3007 3 3X 327 3017 A 5S 534 oaa 044 oaa 0aa 005 s?aa a o 46 Sracx Dnenaru 47 Stack Diamcters Upsfoarl: 2.83 Stack Diameters Downsteam: 6.25 123 o,CE:ftrt ooU'6' CL Eoo Waukesha L7042GS|54 Unit K-3C GaLreRArroN Grc GeRrrrrcATEs 49 DocNumber: 514216 'v\,liirnC Clr tfr,ld T:o, o i-.r ()1ir rcl i\,:, Effi#E . A:{.rErltr.l ETF.:ffi Linde Gas & Equlpment lnc. 5700 S. Alameda Street Los Angeles CA 90058 Tel: 323-585-2154 Fax: 714-542{689 PGVP lD: F22O22 CERTIFICATE OF ANALYSTS / EPA PROTOCOL GAS Customer & Ordet Information LGEPKG BOUSTON TX HP 10205 SWEETWATER LN HOUSTON fX77037-1240 Ceftiicate Issuance Date 0912U2O22 Lnde Otder Number' 721 85535 Pad Number: EV NICDOXE4o-AS Customer PO Number 80l 90355 Fiil Date:09h212O22 Lot Number' 70086225503 Cylinder Style & Outlet: AS CGA 580 Cylinder Pressure and Volume: 2O0O psig 140 fr3 ProSpec EZ Cert C ertitic atio n Info rmatio n :Ceftification Date.0912612022 Term: 96 Months E x p i rati o n D ate : 09 I 26 12030 This cylinder was @rtified a@rding to the 2012 EPA TG@ability Prot@ol, Document #EPA$oo/R-12531, using Procedure G'1. Un@rtainty above is sxpr€ssed as ab$luto expanded un@rtainty at a level of @nfiden@ of approximat€ly 95% wilh a @veEge faclor k = 2. Do Not Use this Standard if Presure is less than 100 PSIG. CO2 responses have been corected for Oxygen lR Brcadening effecl. Analvtical Data: 1- Component:C.rbon dloxido (R=Refeence Standad, Z=Zerc Gas, C=Gas Candidate) R€quested Con@ntEtion: 5 % CertiliedConcontration: 5-04'/o lnstrument Us€d: Horiba VIA-510 S/N 20C194WK Analyti@l Method: NDIR Last Multipoint Calibftliot OU2912022 riEt Analylir Data: Dato 09/2612022 Zt O R: 7.O1 C: 5.034 Conc: 5.03 R: 7.o2 Zt o c:5.09 conc:5.05 Z: o C: 5.054 R: 7.03 Conc: 5.05 UOM: % MoanTostAssay: 5.(x % Componenl: Oxygon Requesl€d ConcantEtion: 5 % Certifled Con@ntration: 5.06 % lnsuument Usod: Siemens Oxymat 6E S/N 7M82021 1AA000CA1 Analyticl Method: Pammagnetic Last Multipoint CalibEtion: 08/30/2022 09t26t2022 Zi O R: 9.875 C: 5.056 Conc: 5.05 R: 9.884 Zi o C; 5.06 Conc: 5.06 Zi 0 C: 5.059 R: 9.881 Conc: 5.06 UOil: % Moan TosiAssay; 5.06 % Rsforonco Standard: Typ€ / Cylinder #: NTRM / DT00303'10 Con@ntralion / Uncerlainty: 7.011 % 10.058 % Expiration Date: 012712027 Tn@able to: SRM # / Sample # / Cylinder #: NTRM#DT0030296 / 190702 / DT0030296 SRM Concentsation / Un@rtainty: 7.011 / 10.058 SRM ExpiEtion Oat6i 0112il2027 ZiOR;0C:0Conc:o R:OZi0C:0conc:o ZiOC:0R:0Conc:o UOil: % l{oan Tcll Aslay: Y. Reloronco Standard; Type / Cylinder #: Con@ntratjon / Uncertainty: ExpiEtion Dale: Tra@abl6 to: SRM # / Sample # / Cylinder #: SRM Concentration / Un@rtainty: SRM ExpiEtion Date: Socond Analysia Data: Dato Z:OR:0C:0Conc:o R:OZ:0C;0Conc:o Zt0C:0R:0Conc:o oy'' Csrtified By NTRM / DTOO,I 0262 9.875 % 10.040 % 11t1U2022 NTRM / 170701 / DT0010262 9.875% I xO.O4OYo 11h8,2022 ";t,tll' Analyzed By of the use of the infomation @ntained herein €x@d tho fs established br prcviding such infodlUlion. C ertiJie d C o nc entration 09t26t2030 Cylinder Number: CC14S597 Expanded Uncertainty 5.01 o/o Carbon dioxide t 0.05 % 5.06 % Oxygen t 0.03 % Balance Nitrogen [iii]nc cir ]rrlC Trcta i)tr){l[(li!a DocNumber: 571 !47 Linde Gas & Equlpment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (419) 729-241'l PGVP lD: F12O24 CERTIFICATE OF ANALYSIS / EPA PROTOCOL GAS Cuslomer & Order Inlormation LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 Ceniicale tssuance DaIe 0412512024 Ltnde Otder Number 72789172 Pad Number. Nl CD11O3E-AS Customer PO Number 80802184 Filt Date. 0/.t1612024 Lot Number: 7000141 07FA CyllnderStyle&Outlel AS CGA590 CylinderPressure and Volume 2OO0psig 140ft3 Concentration C e rt iJi c at io n I nfo rm atio n :Ceftification Date:O412512024 Term: 96 Months Expintion Date: 0412512O32 This cy'inder was @rtifiod a@rding to the 2012 EPA TE@bility Prol@|, Document #EPA6O0/R-1253'1. using Pocedure G'1. Un@rtainty abov€ is sxpresEed as abelute expanded un@rtainty at a level of @nlld€n@ ot app.oximately 95% wth a @verage faclor k = 2. Do Not Uss this Standard if Pre$ure is less than 100 PSIG. 02 responses have been @rected for C02 interference. Analytical Data: (R=Reterence standad. z=zea Gas c=Gas candidate) 'l . Component: Carbon dlorid. Roforonco Standard: Type / Cylinder # Requested ConcentEtion: 1 1.0 % Csrtified Concentration: 10.9 % lnstrum€nt Used: Horiba VA-5000 Analyti@l Msthod: NDIR Last Multipoint Calibalion: o4lo8l2o24 FiEt Analysit Data: Dato 04125/2024 Zi O R: 19.34 C; 10.89 Conc: 10-9 R: 19.34 Zi 0 c: 10.89 Conc; 10-9 zi o C: 10.89 R: 19.34 conc: 10.9 UOil: % Moan To!tA!!ay: 10.9 % Componenl: Orygcn Requested Con@ntGtion: 11 .0 % Certilled Con@ntration: '1 1.00 % lnsuum€nt Used: Seruomex 575 Analyti€l Method: Paramagnsiic Last Muliipoint Calibalior. O4lOgl2O24 fiii,^ Analfz€d By Con@ntration / Uncertainty: ExpiEtion Date: TE@abl. lo: SRM # / Sample # / Cyiinder #: NTRM / 19o7o1 I cC725962 SRM Concentration / Un@rtainty: 19.34% l!0.160/o SRM ExpiEtion Date: 01h212027 NTRM / CC72s962 1 9.34 7o t0.03 % 0111212027 Socond Analysi! Data: Dato ZioR:0C:0Conc:o R:0Zi0c:0conc:o Zi0C:0R;0Conc:o [JOM: % Moan Tct Alray: % 2.Roloronca Standard: Type / Cylind€r #; Con@ntration / tJncertainty: Expi€tion Date: TE6ablo to: SRM # / Samplo # / Cylinder #: SRM Corent-ation / Un@rtainty: SRM ExpiElion Date: GMtS / E80022483 22.U%rO.O5% 03t222029 2659a I 7 1 -O-04 I CAL01 5785 20.72% lr.O43% 0u23t2021 ZiOR:0C:0Conc:o R:0ZiOC:0Conc:o Zi0C;0R:0Conc:o UOMI % MoanTlslArsay: % // {'1;- Certified By Lloyd Knapp of th€ use of th€ infomation @ntained hersin ex@ed th€ fm established Ior prcvidinq such inbiailion. 1 of 1 Expirataon Date: Cylinder Number: 04t25t2032 E80001266 NIST Traceable Expanded Uncertainty 10.9 % 11.OO % Balance Carbon dioxide Orygen Nltrogen to.1 % r 0.03 % FiEt Analylir Dala: D.lo 04125t2024 Rt 22.54Z: O Rt 22.54 C: 11 Conc: 1'l Ri 22.54 2: 0 C; 11 Conc: 'll Z: o C: 11 Ri 22.U Conc: 11 UOM: % ll.an Tost Asay: 1'l 'k DocNumber: 571 523 Making our world more productive EreftffiEIffi Linde Gas & Equipment lnc. 5700 S. Alameda Street Los Angeles CA 90058 Tel: 323-585-21 54 Fax: 71 4-542-6689 PGVP lD: F22024 PROTOCOL GAS Cusloucr & Order Information LGEPKG HCUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 Analvtical Data: 1. conponent: Nltrlc oxido Cedilicato lssuance Date: 0510312024 Linde Otder Nuntber 727891E7 Part NumOer Nl NO195Z3E-AS Cusloner PO Nunbo. 80602'198 Hil Oate:0412012024 Lot Number: 700864'1 1 '105 Cyttndor Style & Outletj AS CGA 660 Cylinder Pressure and Volune: 2000 Wig i42 ft3 C ertifie d C o n ce ntr atio n 05/03/2032 NIST Cylinder Number: CC244446 Expanded Uncertainty 194 ppm Nitric oxide t'l ppm 195 ppm Nitric oxide (as NOx) t 't ppm Balance Nitrogen C ertifi c atio n I nfo r m ati o n :Ce dificati o n D ate : OSI 0312024 ferm: 96 Months Expiration D ate: 0510312032 This cylinder was certifed a@rdlng to the 2012 EPA Tracsability Protocol, Oo@mst #EPA-600/R-12]531, using Procedure c1. Uncartainty above is 6xprsss6d as absoluto expandoduncertainty at a l6vel of @nlid€nce ot approximatoly 95% wlh a covorage factor k = 2. Do Not Use thrs Standard il Pressur€ is less than 100 PSIG. (R=Refercnce Standard, Z=Zerc 6€s, C=Gas Cardidalej Requesled Concentration: 195 ppm Cerulled Concentrauon: 194 ppm lnstrument Used: Thomo Electron 421-HL S/N 1030545087 Analytical l\.4ethod: Cheoiluminescence Lasl lllultipoint Callbration: 04/05/2024 I Flrst Analysis Oals: Refo.rnc.Standard: Type/Cylindor#: GMIS/DT0010509 Cohcsntration / Uncorlainty: 256 ppm 11 ppm Eipiratlon Date: O5lO7l2O28 Trace.ble lo: SRM#/Sample#/Cyllndor#: 1685b/43-L.11 /CAL017304 SRM Concentration / Uncertainty: 243.9 ppm / 11.1 ppm SRM Exoiration Oate: 05/09/2020 lleferenc. Standa.di Typ6 / Cylind€r#: GMIS / 0T0010509 Con@ntration / Uncertainty: 256 ppm t1 ppm E(Drration Date: 05i09/202E lr.c.abl! tor SRM #/Sample4/Cylinder#: 1685b/43-L-11 /CAL017304 SRN,I Con€nkatton / Unc€rtalnty: 243.9 ppm / i t .1 ppm sRM Expiraiion Dale: 05/09/2020 R: UOM: U 256 0 ppm 256 0 194.3 ,s-.2 1 94.3 256 Zi c: c; R: Oale 0412512024 Conc: 15a Conc: 194 Conc: 194 Oatc Z: 0 R: 256 C 194.7 Conc: 195 R: 256 Z: 0 C: 194.4 Conc: 194 Z: 0 C: 194.5 R: 256 Conc: 195 UOM: ppm Mean T.st Assay: 195 pomMoan Test Assay: 194 ppm Componant:Nltric oxldo (a6 NOx) Requested Concentration: Cortified Cm@nkation: lnsmment Used: Analyti@l Method: Last Muhipoint Callbratlon Fi6t Analysls Data: Oatc O4l: Z: 0 R: 256 C: 't94.5 Conc: '195 R: 256 Z: 0 C: 194.6 Conc: 195 Z: 0 C: 194.6 R: 255 Corc: 195 UOM: ppm Mcan T€st Assay: 195 ppm Second Analygis Dala: Oate Zi 0 R: 256 C: 195 Conq 195 R: 256 Zt O Ct 194.7 Conc: 1gs Zi 0 C: 194.8 R: 256 Conc: 195 UOM: ppm Moan Test Assay: 195 ppm 195 ppm 195 ppm Thermo El€ctron 42i-HL S/N 1030545087 Ch6mlluminescence 04t05t2024 Analyz€d By of the use of he information contained herein exceed th6 lee establlshed for providing such infomation. fthnttZ, C€rtified By ProSpec EZ Cert 52 ('rstara .! t)rdn lafonation LGEr'(c H(XTSTON n HP.c?05 s\\€EnvATER Ltr;<)usro\ 1\ ;:0:l;.r r.o L-.,t,r.itp rrsr.r'Cc D!'t! t?n0rZO2t t nrro rF.. l*horr. 7 I gga 7M rrrn rrimb'r Nl NO{mZ2E-AS Curro@ f{) &mtff 79g6a!60 Llndr Gm & Equlpm.nt lnc3700 S. Alamcda btrecrLor Angclm CA 90058Tel: 323-58i-21!4 Far: 71rt-542.6689 PGVP lD: F22021 FttDd. llDltV)21 Lit thhlr. ,(n*1327 clld1€ SVo I AnH ^S CaAa,/.' CyflMot Pe$ua &vl Vtttffi zun peq l(0 t3 DocNumber: 1143235 $.:tFq \x wlil Rr$6rdCqstrla,. C!6fsd C{tEfi.to.r kHnn6tUH 4tr4&qa leLnld Lrd Mst9o.{ Caaatoi ffi TtEqt{'r*so'lttd'orydftihthi-m!2tPATmtx}tyProtocd Doc@mttEP-A{00rR.1253r.u!r{poc€due Gl un@rrrhtyaboy!6c4xrydrtrtr&auracroandcdu6rt&tYa a hEl.lotoro-cf ry.omttly g5lt sth r ew{r f.dq t. ? Oo NotUsthr Sranded rl pmrup rs log lhan IOO pStG. .4nahtiCal DaA: I*.ar,bom srNrd..d, z:z@ Gar. c"6rs crrd,(br.Jf . CmpdDt t{ffc odd. C enifi cati on I nformati o n :Cerhfi cation D ate : 121O9 t2021 Ierm; 96 Months E xp inlian D ate : 1 2 l 091 2029 RtLnnasb.drrd: Typ6/Cylndra GMISt0T00Z2869 Co@nbadon , UMrlanty 5()S p9m 12 ppm €rpratPnCltt! 0.l21nO2Srftebt. roi sRM * I samCe t / cylrtds I 1686b1,r2Jr.57 / cALor?E55 SRM Cr,@nir.too / U@fir.rty 4*l 1 ppo / t2 1 ppm SRM E0r.tm D.li. 0a318023 Rrt '.no st.nd.rd: Typ. / C/mdd f GM|S / DTOO22869 Con6traton / U@iafly ir06 Opm 12 pgm ErprartrDd. O4Z4aO2A .l5O p{rn a&{ pFr nsrn Ehcton aZ $N 0?2002,(3A6Chamihftffis t1t12tx2l &cffd An.lytlr O.t : Oaa 1 a 0 R: 5O5 C: 465 Conc: a65 Ri 5OS Z: O Cl 454 Cohc: 4€4 Z O C: 465 tu 505 Cooc: a65 t OU: ppa Uun T..t ArEyr 465 ppm wffi rw*ffi s *ffiffi ffi ffi['mmp#Hs*roffi ffi*fh! rirqndrd I dt d wrtr Uf, und..rtltdeg ,ld ry u d tt n 6rU;ot &. e oa ,! rro.6.{,m 6t*{d lfu.r.r.d ,[ t-.llrdiafud lor pfr a 0 R: sos C: 46i conc; 464R: 50d Z O C: 464 CsE: 404z:, 0 c: ,16,a Ri 5O5 cee 4e4UOta: m X{n T.ot Aqtr tU m2- Ce,Etrot fllnic orid. (B NOr) Req,srd Cqmtfft. aso pgnC-t t d C6o.tr.0on a65 DpmliarEn,Jd Thcm €]&n {a gN CI2602.a326Ardytcd i.rr+Ed. Chdalrmleatrt LrJ&pohl CdheBo. 11t12ft02fantrLo.t: -------fu-1firi6ri e 0 R: 56 Cr 464 Co&:464R- 5OO L O C: 461 Conc: 404e 0 C: 4&1 R: iO6 Cffc: 46r irOI: pcrn I-n T.d A..ry: 1q Dpm An fy.rd By T@t{o tc: sRM r , Sa8lo r / Crlnd.r {:. . 1G86b / .2-r+:,. CAl-otIoSsSRU Cmc{nrdon / umri|nv .a9: .7 pprn / t2.3 pgnsnfi Erphdbn orn: 0(06a2023 C.rtdhd By 12l&r/2029 NIST Traceabla cytinder Numb'er: DT0o367gr Expanded Uncerlainty aS4 ppm illtrlc oxldo t 3 ppm 465 ppfir Nttrtc oxtd. (sr NOr) t 3 ppmBrlanco l{ltrogen Zl 0 t: 506 Ci ,|{r0 C6c; a66R: 5O5 Z: O C: {65 Com: ,t6SZ: 0 C: a66 R: 106 C6q ,a66UOt: pg.n t)6 ,rulitA$y: 4@ Dgm 53 P.o.ldr c0rllncrllon Orte ErPlrrtlon Drtol MFG Ftclllty: Lol Nttmtler: ..'?ii,ji:#*Tif PcvPiiniot to t Gr7o2x Cylhd.r Numb.n Product lD Nurnbar: Cllnrter Pntuinc: coAr Cu.tom.r PO. tto.: Cuttomcr:I::iix lll?l'.,,".,,,,'' GncJro nas uten ce per t re to IT.EFAT Gm E-b rtrty P rD tocol'b-ocument Reference Standard(s) lnstrumentation SMART.CERT :ttoc5 8.6 1;56t 1 EOQ frslc S9os8c!gj!-ir{,t-!- r--"ConcontGertified Pnnciplq IUrle Mf,S Sori.l MPC Dats iltR VKS 2O3IDJC2ErySI3T o171tffi7 12115nO23 Thrs rs to crrt,fy the gases relerenced have been calibrated ested. and ventled to meet the deflned specilications. This catrbratroMest wa s g:rlormed usrng Gases or Scales that are traceable lhrough Natlonal lnstituto ol Standards and Technology (Nl9T, l: lhe lnternatonal System of Unris (Sl). The basrs of compliance stated ls a comparison of the measurement paranrpirr,g to the sp€artied or requlred calibrahoMesthg process. The expanded unc€riainties use a coverago lador ol Y"=2 to apy.:t:trt1e the 95olo confidence level of the measurement. unl€ss otherwse noted. This calibraton certificato applres only Ir lr-'. r(:'n descrb€d and shall not be reproduced otier than ln futl. wthout wntten approval from Red Ball Technrcfl Gas Se.r.:i,:- It not included, the uncerlarnty of caibratlons are avarlable upon reqr€4 and were taken into accountyrhen determtnlng pass or farl ,/arrd* tk*Ap Aaron Varola3 Analytlcal Chomlit As$ay Laboratory: Red Bail TGS Vlrs 02-J. Rovrtod ff 2Or &O$ I 7 f,1,)i]nC,l,tr *iir lr1 T'orr i)r{)rJlr(11i,1' DocNumber: 563154 Linde Gas & Equipment lnc. 6055 Br€nt Drive Toledo OH 4361 1 Tel: +1 (419) 729-7732 Fax: +1 (419) 729-2411 PGVF lD: F12024 CERTIFICATE OF ANALYSN / EPA PROTOCOL GAS Cuslomer & Order Inlormation LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 Cedificate I ssuance Date : 01 lO2l2O24 Lnde Odet N umber 72653272 Pad Number Nl CO1gsZE-AS Customer PO Numbel 80664654 Fill Date: 1ZOG|2O23 Lot Number: 700013340F4 cyhnder style & outlelr AS cGA 350 Cylinder PEssuE and Volune: 20OO psig 145 fr:] ircond Analycla Data: Dato Zi0R:0C:0Conc:0 R:OZ:0C:0Conc:o Zi0C:0R:0Conc:o UoM: ppm Moan Tost Assay: ppm fl/ r //** ProSpec EZ Cerl C ertiftc ation Informatio n :Ceftification Date:O1lO2l2O24 Term: 96 Months Expintion Date : O1 |OZ2O32 This cylinder was @rtifi€d a@rding to the 2012 EPA TE@bility Prot@|, Oocum6nt #EPA-600/R-r2y531. using P@eduro G1. Un@rtainty abov€ is expressed a ab$lute expandod uncartainty at a l€vel of @nfds@ of appoximately 95% with a @veEge factor k = 2. Do Not Us€ this Standard il Pre$ure is less than 100 PSIG. Anolytical Data: (R=Rererence standard z=zen Gas, c=Gas candtdate) 1. Componant: Carbonmonoxidc Rsfcrenclstandard; Typ€/Cylindsrrt GMIS/CC18O72O Requesled Con€ntEtion: 195 ppm Con@ntration / Un@rtainty: 248.9 ppm i0.4 ppm Certified Con€ntratjon: 197 ppm ExpiEtion Date: OAf22l2O31 lnslrument U$d: H6iba VIA 510 Tnaabl. to: SRM # / Sample # / Cylinds #: 2636a / 57-F-15 I FF3O792 Analytl€l Method: NOIR SRMcon@ntration/Un@rlainty: 247.1 ppmllo.27ppm Last Multipoint Calibalion: 12JOEI2O23 SRM ErpiEtion Date: 0411312024 Dai6 O1lO2t2O24 Z: o R: 249 C: 197 conc: 197 R: 249 Zi o C: 191 Conc: 197 Z: o C: 197 R: 249 Conc: '197 UOtl: ppm llsan TqtAsray: 197 ppm /r)L tr,*"^^}$ Analyzed 8y Certified By Lloyd Knapp of the uss of the infomation @ntained h€rein ex@d ths f@ established br ppviding such rnfotilion 1 Of 1 Certified Concentrafion Expiration Date: Cylinder Number: 01t02i2032 oT0016564 Expanded Uncertainty tlppm197 ppm Carbon monoxide Balance Nitrogen uir,rnc !:..,t t{iriJ ticla i'rr)ll[(ll!" DocNumber: 503698 Llnde Gas & Equlpment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 725-7732 Fax: +'l (419) 729-2411 PGVP lD: F12O22 CERTIFICATE OT ANALT,S/^S / EPA PROTOCOL GAS Customer & Order Inlormation LGEPKG HOUSTON IX HP 10205 SWEETWATER LN HOUSTON TX 77037-1240 z: o R: 1000 C: 447 Conc: 447 R: '1000 Z: 0 C: 448 Conc: 448 Zi 0 c: 44a R: 1000 Conc: 448 UOH: ppm il6an TsstAlray: 448 ppm Analyzed By Fill Date: ON31l2O22 Lot Nu m ber: 7O0012243F 4 Cyhnder Style & Ouilet: AS CGA 350 Cylinder Pressure andVolume 2000psig 145n3 Z:oR:0C:0Conc:o R:02:0C:0conc:o Z:OC;0R:0Conc:o UOM: ppm ltloan Tsst Assay: ppm Cenificate lssuance Date 09121 12022 Lnde Oder Number 72185538 Pan Number Nl CO450E-AS Customet PO Number 80190362 Concentration Expiration Date: Cylinder Number: 09t21t2030 sA11711 NIST Traceable Expanded Uncertainty 448 ppm Balanca Carbon monoxide Nitrogen t2ppm C ertiJication Info rmation :Ceftification Date:Ogl21l2122 Term: 96 Months E x p i rati on D ate : 09121 1203O This cylinder was @rtifed a@rding to the 2012 EPA Traceability Prtocol, Oocument #EPA{oo/R-12J531, using Procedur€ G1. lJncertainty above is expressed as absolut€ expanded uncertainty at a level ol confiden@ of approximately 95% with a @v€Ege faclor k = 2. Do Not Us€ this Standard if Pr€ssure is l€ss than 100 PSIG. Analytical Data: (R=Reference Standad, z=zerc Gas. c=Gas candidate) 1. Component: Carbonmonoxido Rsf€rsncrstandard: Type/Cylind€r#: GMIS/ND24313 Requested Con@ntEtion: 450 ppm Conentration / Uncertainty: 1 000 ppm t3 ppm Cerlified Con@ntration: 448 ppm Expiration Date: O2lO1l2O29 lnstrumentUsed: HoribaVA-3000 Tm@ableto: SRM#/Sample#/Cylind€r#:'1681b/1-K-42lCAL015913 Analyti€l Method: NDIR SRM Concentration / Uncerlainty: 983.5 / i3.0 PPM Last Multipoint Calibalion: OBl25l2O22 SRM ExpiEtion Oale: 0912612021 Certilied By // / / ,!*a4t 1*,^ Edwaro E Zucal of the use o, the infomation @ntained herein ex@d the f@ ostablished for providing such inronrllllon. Page 1 of 1 ProSpec EZ Cert 1,13(in! CLr P0{id rrnt F{oilurlrvi" Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72642748 Customer PO Number: 80653928 Cylinder Style: Cylinder Pressure @70 F: Cylinder Volume: Valve Outlet Connection: Cylinder Number(s): fnfli1|m Llnde Gas & Eouloment lnc.:ffi i?9#fl1,1;'J:1*lHIi[Hl Geismar, rr 7b73nLEffi6ffi ret:22s-677-77o0EJll.Aitril Fax:225-673-3531 Certificate lssuance Date: 12JG12023 Certifi cation Dale: 121 612023 Lot Number:70340 3339 5't Part Number: N! AYI 00H1ZP-AS DocNumber:722188 Expiration Date: 1 21 512024 CERTIFICATE OF ANALYSIS Primary Standard AS 2000 psig 135 ft3 cGA 350 cc245503 Fiil Analysis Dale:121512023 Date:121512O23 Filling Method: Gravimetric /-'' ,fl2", Analyst:Craig Billiot QA Reviewer: Mark Hebing Requested Certified Concentration Concentration Analytical Analytical(Molar) (Molar) Reference Uncertainty Acetaldehyde 100 ppm 104 ppm 1 !1% Tetrafluoromethane 10 ppm 10.8 ppm 2 t 1 % Nitrogen 99.989% 99.98852% 3 N/A Key to Analytical Techniques: Reference Analytlcal lnstrumont - Analytlcal Prlnclple 1 Agilent 78908 - Gas Chromatography with FID 2 Agilent 78908 - Gas Chromatography with TCD 3 N/A - By Difference of Other Components National lnstituto of Standards and Tschnology (NIST) or MeaEurement Canada, or thrcugh NIST Standard RafoEn6 Matorials or equivalent wheE available. Note: All expre$ions for @n@ntralion (€.9., % or ppm) aE br gas pha$, by mola unlas oihoilis notad. Amlytiel un@rtanity is expBsd as e Ralalive % unle$ oth€Mis noled. IMPORTANT Ths intomtion @ntain€d hmin h* been prepa@d at y@r Gquost by p6Bonnel within Lindo Gas & Equipmonl lnc. While we believe the infomation b a@Et€ within the limits of the anaMi€l uso of tho inbmalim conlaingd hoGin ox@6d tho feo Gtablished fd poviding such infomation. Pasd{ of 1 lvla{in{ crr )rurld mr)re p,i)drr(lrve Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72778822 Customer PO Number: 80791694 Llnde Gas & Eouioment lnc. 6055 Brent Drive Toledo, OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (4191729-2111 Requested Certified Concentration Concentration Analytical Analytical(Molar) (Molar) Reference Uncertainty Ethylene 100 ppm 100 ppm 1 t2% r Balance Balance Cylinder Style: AS Cylinder Pressure @7OF:2000 psig Cylinder Volume: 145 ft3 Valve Outlet Connection: CGA 590 Cylinder Number(s): CC49943Y Certificate lssuance Date: 41 17 12024 Revision Number:0 Certifi cation Date: 4l'17 12024 Lot Number: 700014101 UA Part Number: Al EY100C-AS DocNumber:751342 Expiration Dale: 41 1 512029 CERTIFICATE OF ANALYSIS Certified Standard Fill Date:411012024 An alysis D ale: 41 1 512024 Filling Method: Gravimetric /./ r 1*- QA Reviewer: 61i'-- Yr$"*^S Approved Signer: Mike Monnette Key to Analytical Techniques: Reference Analytlcal lnstrument - Analytical Prlnciple MKS-2010. FTIR Naiional lnstituto of Standards and Technology (NIST) or Measuom6nt Canada, or thrcugh NIST Standard Rafuran@ Matsrials or oquivalont who6 available. Note; All 6xpresioN for @n@ntration (o.9.. % or ppm) aE br gas phase. by mole unl6$ oth€ruise noted. Amlyti€l un@rtanity is oxpcs€d as a Rolative % unle$ othemis€ notod. IMPORTANT Th6 inbmation @ntained herein ha been propaBd at yer cquest by p€Bonnel wilhin Lind6 Gas & Equipment lnc. While we believe the intomEtbn is a@Ete wilhin th€ limits of th6 anaMiel use of the inbmation contained hersin ex@ed the be 6tablish€d for prcviding such infomation. 1 ofof SECTION 3: INSTRUMENT CHECKSAND CALIBRATION Leax Gnecr SAMPLE LINE LEAK CHECK Main Gas Plant Time of Day Duration !nitialVacuum Final Vacuum 8:20:00 1 minute-18 " Hg Time of Day Duration !nitialVacuum FinalVacuum 14:18:00 1 minute -18 " Hg 6l SrrurnFrcATror Gnecx STRATTFTCAT|ON CHECK (7E.8.1.2) Station: Unit: Date: Main Gas Plant K-3C 6-Nov-24 Location Time oz(%l Diff of Mean (%) Port 1 Point 1 9:32:33 -0.06 0.01 Port 1 Point 2 9:36:26 -0.07 0.00 Port 1 Point 3 9:40:39 -0.07 0.00 Mean:{.07 0.00 Highest Stratification: 0.01% Difference of mean is less than 0.3%: Single sampling point Point Used: 2 63 NOz TO NO GOMrcRTERGHEGK FONM NOz - NO CONVERTER GHECK (7E.8.2.41 Thermo 42i 1 21 3651 51 02 Percent Conversion = (Response / Cylinder Value) . 100 Time NOx (ppm) 8:46:10 42.05 8:46:20 42.34 8:46:30 42.61 8:46:40 42.67 8:46:50 42.72 8:47:00 42.79 42.53 Average 65 RrspoNsE Trrue Tesr Response Time Check Station: Unit: Date: Main Gas Plant K-sc 6-Nov-24 Slowest Average Time 76 seconds 02 Analyzer: Servomex 4900 S/N:200150 Mid Gas Concentration: Analyzer Span Setting: 5.06 11.00 Upscale Response Low Response seconds seconds NOx Analyzer: S/N: Thermo 42i 12136515102 Mid Gas Concentration: Analyzer Span Setting: 195 465 Upscale Response Low Response seconds seconds GO Analyzer: S/N: Teledyne T300M 777 Mid Gas Concentration: Analyzer Span Setting: 197 M8 Upscale Response Low Response seconds seconds I xI=nTERENGE REsPoNse G=nIFTATES 68 THE EFFECT OF VARIATIONS IN SAMPLE COMPOSITIONS ON SERVOMEX M,AGNETO- DYNAMIC OXYGEN ANALYSERS Servornex t5 tfl Gr5 lNlLYSlS Figure 1 ShaPed Pclz Pielc=s Ournb-bell on torque suspension UghtI Source O:ofgen is very s:iong::/ parama.gnetic' ie anracted i-nto a megt:ic iieid' Vinually all other ;;;;;4" weakty dla:-'egnerc. i'e' repetled from a magnetic field.- ln the Servorn=-< rnagnetodynamic measuring cell(F'gu= l). orygen molecule:are anracted into a ,jry sirong rnagnetic lield' This causes the deflectio: of a Curnbbelt. mounted on " toiqr" "uip.nsr'on .'rom its null (i.e' zerol posiubn- fnii aeRec-on is Cetected optically and a current is applied to: coil rcuod the dumbtell whictr restores it to =e null posiubn. The curen( required to do this is CirecW proportional to the oxfgen concentratio: (see Hgure 2- .'- Servomex ox6€n analyseis are calibrated oo a scale which is noratiseC for nirogen at O and orygen at 10O. For the highes: irccuracY it is necessary to corect for the iuro ..-. of the background gas in the sample. The paramagn::t eiiect varies with ternperature- TheJolowing tabl es list measuring cell temperarures oi ZO'C (ioi analYsers with unheared cellsl. 50.C (54O range). 60'C (l l00Al and I l0'C (l IOOHI- O<trer values can be found by inrerpolation. Assuming the following composidon. and Ote analysis at sO'C: I0% COz -{.29 x l0-r x '10 = -0'029 5%CO +0-O7xlO-tx5 =+0.O04 Syo n4ctane 4TOxldxg = -0.135 78% Nr +0.00 x l0tx 78 = 0'000 . Eifectof background gas = {-l60Yo O: This effect can be corrected by zeroing and spanning the anatfser in the usual way and then offiem:ng the zero by -{{-161 = - +0.16% Or. For gises not listed in ttre table. sundand . tables of ioltime magnetic susceptibility can be "o"iufcea and the relati'e magoetic susceptibility obained from:Kr-K" lq -K". Where: tQ = Volume magnedc suscepobility of gas (" = Volume magneoic suscepntilty of nirogen Ko - Volume rnagnetic susceptibiliry of o57gen N8: Nitrogen dioxide is significantly paramagnedc- Rs it exists in Orirmal dquilibrium *iO AnitrWen teroxide. which is weaklY diamagnetii its effect varies markedly with ternpeclGrre tg l: Volqma Magnotic Su:coptibilio/ of G"to" (not-"lit"d f Formula Molar m3g.5U3C x 101 ; ./,5 I3;:i Zero Erroczo'c so'c 6o'c llo'c x 0.01% x 0.01% x 0.01% x 0'!l% .aldehYde ic acid (oce rylene lonirile 'l alcohol rnonia jon rzene rcn chloride ron trifluoride rrnine : Eutadiene I Sutadiene 3utane )€uCane Jutene Eutyl acetate :-Sutylene Eutyne (EthYlacerylene) irbon dioxide arbon disulPhide arbon monoxide arbon tetrachloride .arbcn tetrafluoride .hlorine irloro ethanol hloroform lumene lydohexane llrcIopentane llrctopropane Oiacetfene Oiclrloroethylene Oicdrl ether 2., Oifluoro 1 chloroethane 1.2 Oifluoro 1,2 dichloroethYlene Oifluoro dichloro me(hane (Freon I2) Oimedro:q7 methane Oimethylaminq Oimetrylether Oimethylethylarnine Enflurane (Ethrane) Ethane Edtanol Edryl acetate. Ethyl amine Ethyl bentcne €thyl bromide Edryl chloride Edrylcnc cHrcHO CHTCOTH CHTCOCHT HCCH CHr=CHCN cHrcHcHroH NH, Ar CnH. 8Cl: 8Fr 8rr C.Hr C.He C.Hto (CHTLCHCHT CHlCHlCH=CH1 cH:cooc.Hr (CHrhCH=CHr cHrCtHl COr CS: CO ccl. t-c Clr CICHTCHTOH cHctl (CHI}TCHQH: f,1Hrr (1Hro crFlr C.Hr (CHO)r (CrHrhO CCtHTCHFT CFCI=CFCI COrFr CHr(OCH:)r (cHJrNH CHOCHT (CHrlrNCtH: crHlFrclO CrH. crHroH CHTCOOCtHT CrHrNHr QHrCrHr CrHrBr CrHrCl -22.70 -3r.50 -33.70 -20.80 -24.10 -36.70 -1a.00 -19.60 -51-84 -59.90 -19.00 -73.50 -35.60 -30.60 -5030 -5 r.70 -41.10 J7.50 -44-40 -{3.50 -21.00 -42.20 -9.80 <o-bu -31.20 -40-50 -51-40 -59-30 {9-53 -5E.13 -59.18 -39.90 -37.50 -4920 -55.10 -3L10 -€0.00 --sLZO -4730 -39.90 -26.30 -63.60 -80.10 -26.80 -33.60 _51.2O -39.90 -7720 -5..70 -t6.00 -l8so?E -{.31 -0-56 4.63 4-25 -{.35 4.7r 4.17 4-2.2 -1.24 -1.38 4.20 -1-78 4.64 4-54 -1.11 -r.154.84 -r.89 -o.94 {-91 -c.26 -o-87 0.06 -1.58 4.55 4.82 -1.14 -r.37 -L24 -1.62 0J5 4.81 4.7+ . -1.07 -1.25 -1.17 -1J9 -1.{6 -1.02 -4-81 -o.41 -1.49 -1.97-{.{l 4.62 -1.22 -o.81 -r.88 -1.23 4.98 4.20 4.31 4.62 4-69 4.28 -{.39 4.79 4.i9 4.24 -I.36 -1.53 4.2?. -1-S6 4.73 -{.59 -1.22 -r.26 --o q? -2.09 -r.03 -1-00 4.29 -4.S6 0.07 -1.7 { -4.61 -o.s1 -1.25 -r.5 1 -L47 -r.79 0J8 4.89 -{.81 -1.18 -1.37 -1.29 -r.53 -1.28 -1.r2 4.89 -o.46 -r.64 -L17 -o-47 {.59 -1.3.1 -0.89 -208 -IJ6 -1.0s 4-?'' -o.35 {.64 -o.71 -o.29 -{.4{) -0.81 4.20 -{.25 -1.41 -r-57 -0.23 -2-024-n -{.61 -1.23 -1.39. {-95 -2.1 5 -1.05 -1.03 4-21 -Jl ca 0.c7 -r.i3 -o.63 {.94 -1 ?o -1-:5 -1-84 059 . -os2 4.84 -122 -l-tl -13 -158 -1J2 -l-16 -{s2 -{-47 -'r-69 -221 -o-d3 -{.7r -r-3s{uz -?-14 -1..0 -r-t24n -4..J -0.;{ 4-=7 -o3 4.(5 4!3 -{-z3 4:9 -1-i2 -1.3I{:6 -l-:/ -oi9 {-70 -1-r5 -i.10 a a,-L- I -i 17 -:-I 9 !-c8 -:Ub -:-l /. -:-04- .O -.-, 6 -1 q1 -ilz .3-45 -i-05 -as6'-r-4{) -r-63 -r-52 -1.81 -152 -IJ3 -1-05 -?54 -1.95 -L57 -0.56 -c.82 -r.59 -1.05 -2.46 -1.61 -1.28{:6 ., t CrHr Formula Molar rntg.3u3C x 10{ Zeco Etroc2O.C SO.C '60'C I10'C x 0.01% x 0.01% x 0-01% x 0.01% EthYlene glYcol Ethylene oxide €thyl mercaPtan Fluorochlorobromom elane Fluorodichlorornethans (Freon 2 1 ) Fluroxene Freon 114 Furan Gerrnanium tetrachlorile Halothane Helium n-Heptane n-Hexane Hydrogen Hydrogen bromide Hydrogen chloride Hydrogen cYanide Hydrogen iodide Hydrogen selenide Hydrogen sulPhide lsoflurane (Forane) lsoprene Ketenetil;;. I Methane -38.80 -30.70r7.00 -54.00 -48.80 -56.70 -77.10 J3.09 :tL00 -78.80 -1.88 -85-24 -73-60 -3.98 -35.30 -22.60 -14-50 -48.20 -39.20 -25.50 -€0.10 -44.80 -15.70 -28.80 -17.40 -21.40 -€7.10 -42.60 -70.20 -46-60 -45.50 -25.50 -32.00 -57-20 -6930 -35.30 -26.00 -70.00 -6.70 1461.00 -€1.80 -12.00 150.00 -72-30 -76.90 -t8-90 -108.13 -96.63 3449.00 6J0 44./t0 "tt6.16 4.77 -o.54 -r.0 r -1.33 -1.06 -1.29 -1.89 -{.90 -1.73 -1.93 0.29 -2.12 -1.78 0.23 -0.67 -c.31 4.07 -1-05 -o.79 -o.39 -1.97 -o.95 -o.11 -o.49 4.16 4.27 -L17 -{.88 -1.68 -r.00 4.97 -{.39 -{.58 -131 -1.66 -{.6-/ 4.40 -1.68 0.15 42.56 -1.44 0.00 5.00 -1.74 -1.88 -{.20 -2.78 -L15 100.00 0.5t1 -l5l -t-4{l -1.01 4.71 -1-32 -1.74 -1.39 -1.69 -2.17 -1.17 -2.26 -2-52 0.38 -?-76 -2.32 0.30 {.88 -{.:0 -0.09 -t.37 -1.03 {.51 -2.57 -1.24 -{.l l -{.63 -o.20 +.3s -2.83 -r.r5 -2.20 -r.31 -1.26 -o.51 4.75 -'r.7 I -2.16 {.88 -0.53 -2.19 0.20 41.62 -r.88 0.00 35.00 -2.28 -2. r5 -.0.26 -3.63 -3.1 9 100.00 0.71 Methanol MethoxYfluorane fulethyl acetate Methyl cYcloPentrne Methylene chlon,-e Methylethlyketone Methyl fluoride Methyl formate Methyl iodide Methyl iso'butyl keto':e iMrerc Methyl mercaptan Molybdenum hexafl u'oride Monochlorobenzene Neon Nitric oxide Nitrobenzene Nitrogen Nitrogen dioxide ortho-Nitrotoluene para-Nitrotoluene Nitrous oxide n-[rlonane n€ctane Orygen Ozone iso-Pentane n-Pen(aoe (CHTOH)r (CHrlzO CTHTOSO:H CFClEr cHchF CF:CHTOCHCHT CrClrF. C.H.O b€Llr CTHBTCIF: He CrH,r CrHr. Hr HBr HCI HCN Ht HrSe HrS CrHrFsClO CrHc CHrCO Kr CH. CHOH CHCIzCFTOCHT CH:COCHI CeH,z CHrClr CHTCOCHTCHT CHrF HCOOCHT CHrl C.HTCOCHT CHISH MoFc.. C<HsCl Ne NO C.H:NOr Nz NOr 6.11.efl1NOr CcH.CH:NOr i'rO GHrc CrHrr Or Or eHrr eHrr -o.85 {.88 -{.60 4.61 -1.1 I -l-15 -r.46 -1.51 -1.17 -1.21 -1.12 -1.47 -2.08 -2.15 4.99 -1.02 -131 -1.97 -2.13 -2-19 0.32 0.33 -2-33 -2.40 -1.96 -2.O2 0.26 0.28 -o.74 -0-76 -{-34 -o.35 -o.08 4.0e -1.15 -1.19 -{-87 4.89 -{'43 43! -2-17 -2-2! -1-04 -1.0e4.12 {.12 4.54 -0.5: -o.17 -0-1: -o-30 -o-3'. -2.39. -2.!; -0.97 -1.0: -1.85 -1-s- -1'10 -1''l r -1.07 -1.i;{'€ 4/, -{.64 -0.65 -1.,t4 -1.45 -182 -1-Bs4.74 -o.7s -O.45 {-45 -1.85 -1-o3 0-17 0.'17 42.s6 42--q -1.59 -1-30.00 o.io 16.00 20.i€ -1-92 -1-:8 -2.07 -zi34.22 4:3 -3.06 -3.i6 -L70 -zi8 100.00 100-00 0.60 051 -l-6:I -1J2 -l.6it -r-6tl -1.98. -r.93 Formula Molar mrg.sutc x lO{ Zero Err.ocso'c 60'c x O.O1% x 0.01% z0'c x 0.01% I 10'C x 0.01% ?her':al Phos:hine ?hos:horou s o:cTchloride ?:optae iso-FroPanol Propene n-Propyl acetate ?cogyl arnine Progyl chloride Protrrdene Prorylene oxide isoJropylether Proryl fluoride Pyriiine Sila::e Silican (etrachloride Scy-ne Sulphur dioxide Sul:hur hexafuoride TeuzchoroethYlene Tet-hydroiuran Tol:::ne 1.1.2 Trichtoroethane (Freon 113) Tric'lloroethylene Triir:orochloroethYlene Tri;ethylarnine Tu.-3sten fluoride Ur:i\ane Vac.rum Vii.fl bromide Vir.fi chloride Vinl fluoride Water Xenon Xytene CTHTOH PHr POCI, CrH. (cHrhcHoH CHrCH=CHr CHlCOOCTHT CrHrNHr CrHrCl Crl-lr OCHzCHCHT (CH:).CHOCH CrHrF N(CH)r siH. SiCI. CTHTCH=CHz 9o. SFr chc{clz C.HrO g.fl3CHr cHchcHrcl CHCI=CClz CrFrCl (CH:)rN WFr co(NHr)OCrH: CHI=CHBr cHr=CHCI cHl{HF HrO Xe (CHJrqH. -€0.21 -26.00 J9.00 -38.60 -47.60 -31-50 -€5.90 -5?..10 -56.10 -31:50 -1.2-50 -79.40 -52.20 19.21 -20.50 -88.30 -68.20 -18-20 -44.00 -81-60 -32-OO -66.11 46.20 -65.80 -49.10 -5r.70 -40-00 -57.00 0.00 -44-80 -35.60 -28.80 -13.00 -43.90 -Tl-78 -t.39 - t.54 4-40 4.45 -1.65 -1.82 4.77 {.85 -l .03 -1 . 13 4.56 4.62 -1.56 -1.72 -1.17 -1.29 -1.27 -1.40 -0.56 4.62 -o.88 -0.97 -1.95 -?.15 -1.16 -1.28 -1.08 -1.194.25 4.27 -2.20 -2.43 -r.62 -1.79-o.r8 4-ZO 4.92 -1.02.-2.01 -2.22 -1.16 -1.27 -1.56 -1.7? -1.57 -1-73 -1.55 -1.71 -1.07 -1.18 -1-15 -r.264.81 -0-89 -1.30 -I.430-35 0.38 -{.95 -'1.044.68 -0.75 -o.49 -{.54 -o.03 -{.03 -0s2 -1.02 -1.90 -2-09 -1.58 -1.82 4.46 -0.53 -l-87 -L15 4.A7 -1.00 -r.17 -1.34 4.64 4.74 -1.77 -2.43 -r.33 -1.52 -1.45 -1.66 -0.64 4.74 -1.00 -1.15 -2.21 'z.:aL -1.32 -1.52 -1.2? -'1.404.28 4.32 -2.50 -2.88 -1.85 -2-12 4.20 _.,1.23 -r .05 -1 .21 -2-28 -2.63 -1.31 -l-51 -1.78 -2.O4 -1.78 -2-O5 -1.77 -2.O3 -1.22 -1.40 -1.30 -1.50 -{-92 -1.06 -1.48 -1.700.39 0.45 -1.08 -1.244-77 -o.89 4.55 -{.63 -{.03 -0.04 -1.05 -1.20 -2.16 -L48 so.ranar tt! a oor.cy o( coafi.n( p.o<tirc i.rpffi66( rnd ot.nrod -tt-tt t' eierr = cfrrogr to-i6<.o'N Eidroln no(k - Cai ClraaGtcll (r9an Servcmcx A::N cAs l'\l'-Ygls tar /cJrr.rir Srcot. Crorrtcor+r. llr Srrrlr. mf IXI 6lrqf''r' tar Ca,r7.t c.t (lrrf A.<(Xqraoa.U (trOlLUg 3cr u.LL t &rr rtu.c!c+ 3t I. ttlttu A.L. l,oe&frrrcr ta aV-fc ta A(Dqt fttrrcar. g|ctqrssrx2(lI2! Of &rl.rn"''tl'6"1&" tar &iertrcitrt< ttll ${ f.. E! Osf C.. L.{ f.;ri fr:-r+ R 0t'ffim*r**:.**mrc B F{ t&n$llll.r lltalr.rat-rrlqf cul l-.t-!llltl.:r llll nrt rt rLT trlall.rltctrL la Un lril.all.ltoL = lt{ lgl rll.ql frt lr{t![9CJl fr< lllStl'ltt-l0r fr< tt! lrr-:lcl:lfrc O|lr:tsl0lltft< lt!{t'ttl@f.( lagrrt'I} Fr< r|Il tcqrl:Sl Andvzer lnterference and Menufacturer Stabilitv Tesls In an effort to assist our customers with meeting the requirements of the lrrstnrmental Methods for testing 3A, 6C,7E,, 10, and 20, we are providing a summary of interferences for certain Thermo Fisher Scientific analyzers- The requirement for conducting analyzer interference checks for potential interfering gases is the responsibility of the testing organizations. The Methods do, however, allow for the manufacturer of instrumcnts to provide this data. Tests are required to be conducted on the same "make and model" as those being usod for method testing The information contained in the accompanylng tables pertains to the "make" of anallzers under the name of: Thermo Electron Corporation, Thermo Environmental lnstruments, and Thermo Scientific. Thc "model" of anallzcrs are: Model 42for NO, NO2, NO*, Modcl 43 for SOz, Model43 tbr CO, and Model 410 for Co:. The specific pollutant detection and analytical technology foreach of the above listed specific models have remained the same for various series of analpers manufactured over the past years. Therefore the interfsencc test results shown for the iQ series analyzers in this doc.ument would produce essentially lhe same results for iSeries and earlier series of these models- The potential interferencc g,rs test results shown in the following tables indicate that none of the Thermo Scientific anallzers tested have a collective analytical detection interference that would sum more than 0-5% of the analyzer span value. The acceptance criterion based on Section 13.4 of Method 7E, stetes lhat the sum of the responses must not be greater than 2.5% of the analyza calibration value, If you have any questions regarding the informatiorr contained herein, please do not hesitatc to contact us. Line Manager. Environrnental Anal yzcrs Environmental & Process Monitoring Thermo Fisher Scientific 27 Forge Parkway Franklirt, MA 02038 Phone +l (508) 553-1651 | Mobile +l (508) ffi1*4629 rn rc hael. lo nca r @lhcrmo0shelsom I rrvwv. t herm ofi s hq r, com ThermoFisher 73 SCIENTIFIC thermoscientlfic illanufacturer! s Stsbility Test Therrno Fjsher Scientific certifies that the 42iQ Series of anailzers and the 48iQ analper have becn tested in accordance with the USEPA procedurcs outlined in 40 CFR Part 52.23. as u,ell as lvlethods 7E and I 0. and har.e the results shou'n belorv: Test Description Acceplance Criterir Results:42iQ Fsmilv Results: 4EiQ Thermal Stability Drift < 3Yo of Range @ 80o/, of Range Drift < ZVo of Range @ 80% of Range between [tand 40 C Drift < 29'o of Range @ 8?o/o of Range bstween 5 and a5 C Fault Conditions Alann if conditions result in performance outside of comnliance Visibte and electronic alarms are a standard feature Insensitivity to Suppty Voltage Variations * I0% varietion fronr nominal voltage produces drift S 29,'o of span (A 80% of Ranse '< I9i deviation from span for voltage change from 90 VAC to 130 VAC Analyzer Calibration Error (Response-Span Value) a2%of Span Value for high, mediurn and low calibration sas < 2% of Caiibration Span ThermoFisherSClENTIFIC 74 thermoscientlflc ThgJ.mo Scientific Model 42IOLS/IIL NO-NO1-NOx Analvzer Potential InterfeTent Gss Responses Potential lnterferent Model42iqLS Test 6as Concentration As psm NO As norm NO2 As ppm NOx COz 5%-0.01 -0.01 -0.02 C0r L5%-0.02 0.01 -0,03 HrO 3%-0.04 0.02 -0-02 Nro 47 pprn 0.03 -0.01 0.02 c0 50 pprn 0.03 0.00 0.03 soe 27 ppm 0.00 -0 01 -0.01 CHo 50 ppm 0.01 0.01 0.00 HCt 20 ppm 0.02 0.00 0.02 NHE 9 oorn 0.00 0.00 -0.01 Sum of Responses 0.1 7 0.07 0.1_6 Span Value 160 128 160 % of Calibration Soan 0.11%0_06%0.10% Potential lnterferent Model42iqHL Test Gas Concentratlon As pom r,lO As ppm NOZ As ppm NOx COr S9t"0.00 0.00 0.00 Coz t3%0.00 0.00 0.00 Hro 3%0,03 -0.01 0.01 N:O 47 opm 0.03 0,00 0,03 CO 50 opm 0.u0 0.02 0.02 Soz 27 ppm 0.00 0.00 0,00 CHo 50 oom 0.00 0.00 0,00 HCI 20 oom -0.01 0.09 0.08 uHr'9 nnm 0.01 5.5 t 6.68 Surn of Responses 0.08 0.12 0.15 Span Value 160 t28 160 % of Calibration Span 0.0s96 0.09% 0.09% Note: Acceptance criterion based on Section 13.4 of Method 7E, states that the sum of the ,"rponre, must not be greater than 2.5% of the analyzer calibration value. ThgfmO FiShgfSCIENTIFiC 75 Teledyne T200H and T300M lnterference Check Below is the factory interference check for the Teledyne T200H and T3O0M as well as other Teledyne analyzers as allowed in EPA Method 7E, Section 8.2.7...You moy also meetthe interference check requirement if the instrument manufacturer performs this or a similor check on an onalyzer of the same make ond model of the analyzer thot yau use ond provides you with documented results. lnsEufr€fr PmemiBl lntedsretr GE PoEntial lnEr{Rnt GE. ConenlEtion M:coEH M2mEHcc2 5a@r .r.157 -A. 14 n,T1 -&t?.s4.rs6 -a.€6 -o.*il -co43{rst -oE8 4.&8 Mf?oE MElEc2 5ffi lrt&IECC2 Sans so: AID itct ru20 cc cFt CG: NH3 I.lct ?OppmY 15ppmv 15pgrru lS.ppmv 50ppw sppfr 9Oppm 1l;$ lo.ppmv lOppmv 196 o.ffa o.ilB -a$8 -4o84 -aasr -o."n O.3EI o.& o.012 "0..!83 4.O41 {.885 -:.39? 4(SB .o015 .acEg o-1lJ aL€25 {.c1 o4x) -A.GL 4.Er r?.(IF 4.G .).go 4.128 c.313 {.106 4035 o041 -4518 {068 ocG'i.w om c.o10 -9ffis o€7 -Lgft {.061 -a.fis -1951 -OO(5 €.o51 -&@7.L541 -OO#l +164 -AC+racoo -ooIsnols -ccc8 4.O25 {.xB -gtl -o.g/o0 oD@r,\bslueSm ol RerpoEs o7E 10_685 A.4i O1?5:CElibratimsBEn $ppm goppm goppm 15!6 lBppm $Ftrm sppm Sppm g-gs36 ljt{ JiP?rentotGtbrationsp3n 1-318 3-glr i442 1!r3 7046 OE: OECO 11&2 213!l llB i The prefix "M" and the suffix "E' are no longer used in the Teledyne lexicon to designate their analyzers. The "M" stood for model and the "E" saw for the "E" series which has been upgrade to the "T" series. 76 [srARrrv CHEcx (Ger-rBRATIox Ennon) Fonrus e +r 9 oq ) (J L L0 ) ^o t s r. ooo -oo\o\q o\€ E. I 6) E LlEE E Nq N q)arlEqcno) iLq)NCqtr6l =lTI l^IO z?, _l3l :l-l = ,r ; zH _l :l6l l- _J q z9 L. . o Oo \ tvtr 6 ) ,+ ? v> \o,r ; L()zLq)U \oo\sooso. lN r-o\ (n(n.f , (JU \o\oc. lorr l aacl oL<C)N tz o0 ts T i r- fx a)GBtr (/ ) ilqJQqJLq)as q)Qq.)Lq.) \aa)sot4 q) br " Na > *E : Ho ) A <a a $a0oC\$Or- .J(nU)oJ1(€Bq) !r2trz (nc- . 1Oc. lIv sq a= o\+xooL0,)aso]IozI \oo)6l 6dtn(tz L! () !,1 N: -r f l I .: r .r t r o5 78 q) r. 9c) ( ) q) L tr o) 6) H o\ rg6\o\aa o\No cJ = c) E Ll i; . s /l A $ c. l oq 0) !a ) .ac) tl.,rc)Ncl6ltr "t olTI l*IO z!l =l il l-l- - ca )I zO =l il l-l- J( \o+ eo tr t r q) g lr AE. v >. = vc t \no\ (n\os LozLa)U l,<(!!0)oL.oHoN (o$$s$NoC) f-@F- (oCOooo oGI f: l t- <(. )N 2 co a)tJB.v ' ) il0)U:q)t-oEs aOx qJQLq. )LqJaq)+)ot4 rn\otU b9 " Nr > ?E : ts o t r l . <a a +0V)Oc- l$F.CEct)0)Jie) ts2L=2 c. . l !n(n\ocaNUc. tIv r. Ecl E a) c- l$LC)F6)GIaIACdz t$t -. .l : t r \ cl \J tr bx4 ) ,- \ E \J .i zi q) -9tr t r o) o (, ) L L0 ) -e t s o\ \oo\Nc. l \oc- t c) = cr = a .- = CJ l r r LlEE At r $ \o 6)ah.a6) ilLq)Ncl6lE -l3l il-l = O z2 =l ;= l l-lq Jt o I ze .l;l-l - l$ -r s $* ze L. H () A EAEv>' t L/ 6t t- -o\ co+t L0)ztroU L{o(€li0)C) lrtr0)N +\o(n\oF t- -a ah6l ot<0)N e bo q)BBq ila)()OJl-qJas oo!- fx q)ut\q)SqJ\aq) !aVia €tsU .- b9 t It k ) iE . r .L!o A <a a $oCNric. t .+r-dU' ()*(!q)-zET2 c-rr(- - (Jcn IV fi Ea) cnF(. )()ot-sc. lIzI \oq)clotr(dch(t=z Lv() E Nq ) >. F ?YE6 c. H (J r 80 Sysrertr lurecnrrv (Bns Guecr) Fonrus 81 Sample Line lntegrity Check Mein Gas Plant unlt: K-3C NOx Anrlyzor: Th€rmo 42i ssrlrl Numbar: ---17136616162- Sprn: 465 D.t.: 6-Nov-U CO Anrlyzor: S.d.l Numb.r: Sprn: Tel€dynB T300[402 Anrlyzor: S.rlrl Numbor: 1y.".'___:ryI19!f99_ mbor: ______3991!9_sprn: _______1L99_ 777 LorR..eqt..UFr.b Ra.Dofi.Eof,iaaDolr 'Lhal a i o aa G sttrDnlton ga! mrcugn complrtr crllbntlon 3vil.m lll! Scrn Tlm. | 8:28:00 4.O2 ppm Scrn Tlm. | 8:42:00 5.05 ppm a I o o aon Scrn Tlm. | 8:28:00 {.02 ppm Scln nm. I a:a2:oo 505 ppm Crllbntlon gr. thrcugh :mpl.te 3lmpllng tylism ,l.l Scrn Tlmr | 8:51:00 0.03 ppm Sc.n Tlmr | 8:58:00 5.'10 ppm Sc.n Tlm. | 13:46:00 4.01 ppm Scrn Tlma I 13:50:00 5.07 ppm Sy3t€m Crllbrrtlon Blrl 0.rt6 *0r5 %0,0e *o.1t x E a oz a oc uaflon(on glr nrcugn completa callbntlonrvri.m ,ll! Scrn Tlm! | 8:28:00 4.04 PPm Sc.n Tlm. | 8:42:00 193.18 ppm ozi !" tEG Scrn Tlm. | 8:28:00 {.04 ppm Scln Tlmo I g;lZ:OO 193.18 ppm Crllbr.tlon 9.. thrcugh :mplst! !.mpllng lystrm ,lcl Sc.n Tlmr | 8:59:00 0.36 ppm Sc.n Tlm. | 8:51:00 '189.57 pprn Sc.n Tlm. | 13:58:00 4.54 ppm Sc.n TlmE | '13:46:00 188.41 ppm Syst m Crllbntlon Blr.0.09 Y.0.78 0.11 *1,03 1t o i 5oo ao o G callbTrflon gat thrcugh complat c.llbntlon svilam lltl Scrn Tlmo t 0.04 8:28:00 Ppm Sc.n Tlms t 196.00 8:42:OO ppm o iE oo aoc Scrn Tlm. | 8:28:00 0.04 PPM Scrn Tlmo I 8:42:00 '196.00 ppm Crllbntlon 9.r thrcugh :ompl.t {mpllng ryltrmllcl Sc.n Tlm. | 8:51:00 {.06 ppm Scrn Tlmc | 8:59:00 '194.58 ppm Scrn Tlm. I ts:+a:oo 4.21 ppm san Tlm. I tg:sg:oo '194.40 ppm Syrt m C.llbrrllon Blrs 0.02 %0.32 *0.0G x 0.3e * UTAH DEPARruENT OF EIWIRONMENTAL OUATITY r,f^ i 1 '.r''I L: -U ,jt L I Di\,':SION OF AIR QUALIT' a2 Anru-rzeR Dnrrr Fonrus 83 x sBF.q q)q)Lq)as a)Ua)l.a)aa)aa IBl<ila)Ua)Sa)a0)o.a o .. ' : 3 i: s €F = Ea a <a a $rna(\$oF-F.ldC) .Yd()o2 t- tUc. tIv 'E .= Gt - a=oo\sxoELG)U)+NI1\ooCEo0<CB(,z 6l! Lt r c) o N5>a F cr € Ed<U At r \J 6rooN o€J ,E3. b <i i Oo \ EvEq ) ,h 3 \J > tUza)U t- -o\$OU r-o\sUU o\s€.+Nc{ o\$€tal a. l \o+€+c.l(\ r-o\+O(J a4 x q)€(3*U) ila)Ua)I$as sUq)LoaU& sLIa! .lta)Ua)La)aso€ \ot .. ' : g Fr s 3E e E' E T <a a +U)ac.lsF-Fl6() JU6(ua N\oc. lUc7 )Iv a=N$c)F$NIoz\oq)COo.s,C6 clt6 q) t r N. g }Etr = <( 5 OEzx oN a)o0.o3 :c )3. b <x (. )o\€ n€€ LEoOEV>, ' odLo{JoEC)N Lo()oo()N q)zq)U \o$$$sNOU o(!oorioL()N C)doq3 85 x atr (a a)aoLa)as a)oarLqaq) -a (JIt\ilqlUAJLUaqJoa oo$s .. ' : 3 Ir s ?E = Ea a <q Q saU)at+c. -Jd()JCB(l)a2 >lololtl s El t ' - ,EI f; l QIV E. : 0=vc. l,zI\o6r -cla(do.dCB a!6ll q) :N. = r- r c! Gl -o <8 A! \J EU: oN "33. b<x (l )N>r iU c! E tr o<o . -?ei rEaJ A !a=o> r = !o(,(. )()o.!oOJN ()zq)AL) t\o\oFo (,()c)(,ooN LodroC)oN $\o\oF Bns GonnecrrcN GruculATloNs a7 Bias Correction Calculations Station Mfr/IIodel Main Gas Plant Waukesha L7042GSI S4 Unit: Date: K.3C 6-Nov-24 Run 1 2 3 AVERAGE C2 Measured PPll,l (Cbar)-0.07 -0.07 -0.07 -0.07 C2 Average Low Gas Bias (Co)0.01 -0.01 -0.01 0.00 C2 Average Upscale Gas Bias (Cr)5.09 5.06 5.06 5.07 C, Calibration Gas Concentration (C.,")5.06 5.06 5.06 5.06 )2 Corrected PPM (Gg"")0.00 0.00 0.00 0.00 \lOy Measured PPM (Co"r)3.09 3.62 3.45 3.39 NOy Average Low Gas Bias (Co)0.09 -0.29 -0.47 -0.22 NOy Average Upscale Gas Bias (Cr)188.92 188,81 188.88 188.87 trlOy Calibration Gas Concentration (Cr,,")195 195 195 19s {O, Corrected PPM (Cs"")3.10 4.03 4.03 3.72 30 Measured PPM (G6"r)4.75 5.29 6.47 5.50 30 Average Low Gas Bias (Co)-0.17 -0.29 -0.25 -0.24 30 Average Upscale Gas Bias (Cr)194.29 194.44 194.64 194.45 30 Calibration Gas Concentration (C',")197 197 197 197 30 Corrected PPM (Cg"")4.98 5.64 6.79 5.81 * 02 LOWER DETECTION UMIT REACHED: 02 = O olo 88 FTIR VOC SuuruanY 89 obr> -oo5 G, s'ata i .E"e I,I, OE oa o. IN, E Ct cLCL a,c! iE E :r o s n,y: -o a JoEb ?E =E i5 r! ((C o:^CL F t, - a ic l l! Yo ,, (,o^ LEEA iC L o oo€ci E fa L CL @(oao Eg o o . ' i !. g . i t o = uJ t Gt!t POE* - =O - E 9= !d lr ,1o oE6zglt e: oo I (J I a I I @(? )c; na-.1 c |I )Nci oo .eci $t (? ,ci a a I r, I(. , E I I I I (r , rr ,o{ No r.)Nci IE s',,) ocu, j tI I I I :c E(, I rt: I I I I @@ci n!tr, )j nn (o(\, tci ,I I!ta; I I I ( -o I n I I I I rt t. aI Irt: t!t+ I!:; I I I I:n; !(.t I nj I I I I gl rf )No 6(r ): E, !r)tI $r , t I !o I , oD: I nI)q I nan |nN rt !!it EE !o nnnr DitD- I EN oo I (,oo; I I I I o NrtIo {o: rt,Dri c,) laoo: I I I , of I I I (DqN t\qlc I (l rtqF COFF- lnNF rNq@ I I I ( lro ooci 6 oo o tt (oF.Fc; !\ ot,: tN: oN !4oci o\o o (CC ofC' i\I InFo)rio t6u?(r )o t-(.)c; It!; to)Io o.{ :o N!od Nro!o !to1o cot. *Nci fi €Eg fr c tr l = oF- No iN troEIoooo ocooYo6! U.Jz oo5n oo=fotrtr(,,I(!oo o4n2J Eoqnooc(UI(!(uo( oEuJo=o)o(!ooIL o^loooE(E oo\Eoqn coEr.lo=ru6IEDooL trt trv !lv Eo!f2J Eoq'totrEoE6oo( Eoq'n2J oo\EooA o(,Eo!'ot-Ftt F?F? .qr, lou?q rl te!c!c? 1() (?; I( :q- (o (:ra. o){ o,"i o).i !: .9 ,o->Gtraooootr!,tr(uoJCLo$ILoo!,Fo=G+,oo a(EEE=o*. ,ooF(E l ', : I oiol cL l alol -o . lEI (E l ol iD t o* ^6-o oEtt tr F =l! coE(E o(7 )Y 90 FTIR MDG/CTS Suurnnv O.l. Coop.ny St llon 6.NoF2it------7[a monr Mein Gs Plenl Unll K-3C----Post- FTIR An.lyr.r 00aal Minimum Detectible Concentration & Calibration Transfer Standard MOC crH.ol cFr I H"o I co" I c cH,o R.aldql(ppnw)2.9t7111_0A2910.550t 1.5321 1.0852 I 0.56S! I 0.4!( I 3.2074 103 4390 I 11 0500 I a 35t2 I 97 TaOt Mlnlnum (hbdibl. Conc.Ftnllon 15 130D 90-9570 I 11.08a4 t,4.3363 r5.08t0t,sMo L, Minimum Detectible Concentration for NM NE VOC Constitutes t{oc c.H.c"H,tc.H.tc,H.tc.H." R.!idurl (PPmw) 25201 I nAaOl KUnZA 14.60t2t 5.5403 I 2.5174 I 0.8436 I U tC5UMlnimum D.l.ctibl. Coilcantilllon 97 la90 LE60 MUC'J tTtotz_sJ7f,lD-45f,4 NM NE VOC Equation summad Nt NE voc 2S a9 R - A6mOa capons6 oflha Ew data RF - Rosponsc muhlpll6d ih. FIO Respons. Frdo6 c t':t cadffiad {ppm} taarund {p9m) EM' 06) aa taftat anllw c-H, c"H.c.H. c.H. c.H.- cH-o Run 1 XF 1 19 '6 u( Rln 2 ias Run 3 K otsu -0.J6 UI u.13 MXS FID R..ponr. F.cloE t.t 2.1 z.tc I 4 0.r6 92 FTIR-Vru;oerpx Tesr Surumew AND QAIQG A8 93 Date Company Station 6-Nov-24 Unit FTIR Analyzer K-3C Altamont Post 00441Main Gas Plant Validation Summary Table FTIR Instrument Make Model Serial MAX iR 00441 Instrument Checks Readino Soecification Pass or Fail Siqnal lntensity 0.0733 > 0.04 Absorbance PASS Detector Linearity o.0220 < 0.1 o/o PASS lnstrument Resolution 1.022 1OA+l-OOdnm PASS I nstrument Frequencv Precision 3133.065 3133.058 +/- 0.020 cm PASS Orioinal Laser Fequencv 15799.123 Calculated Laser Feouencv 1 5799.1 38 lnstrument Laser Feouencv Shift -0.02 rO Ofl nm-1 PASS Direct Calibrations Readinq Specification Pass or Fail Ethvlene(L;H,)-UlS 1.7E"/o i 57o Certified Value PASS Acetaldehvde (C,H,O)O.O2o/o * l1o/o Certified Value PASS Svstem Resoonse Times Readino Soecification Pass or Fail CTS > 95% of Full Scale 1.17 < 5 minutes PASS Svstem CTS -0.15%t5% Direct CTS PASS Minimum Detectable Concentrations Calculated MDC #3 Units trtnvlene (Uclil l 3.2910 D0m Acetylene (CzHz)15.7631 oom Propylene (QH.)5.6780 ppm Propane (CrHs)2.5376 DDM Butane (C.H,n)0.8534 ppm Formaldehvde (CH,O)1.5420 oDm Soike Comoound % Soike Recoverv Soecification Pass or Fail Acetaldehvd€ (C,H,O)106.62"/0 70 - 13Oo/o PASS Flrrn Vrli.lrta^n' ArrtrlmrtEd vs i,rnlral Taroet Analvte Soecification Pass or Fail Test Run #1 Average Spectrum Ethylene (CrH *20%PASS Test Run #1 Outlier Soectrum Ethvlene (GH l2Oo/o PASS Test Run #2 Averaqe Spectrum Ethylene (CrH.)t2lo/o PASS Test Run #2 Outlier Spectrum Ethylene (C:H")r20%PASS Test Run #3 Averaqe Soectrum Ethvlene (CrH,)r20%PASS Test Run #3 Outlier Soectrum Ethylene (CrHo)*2Oo/o PASS Test Run #1 Averaqe Spectrum Formaldehyde (CHrO)t20%PASS Test Run #1 Outlier Spectrum Formaldehvde (CH,O)tzoo/'PASS Test Run #2 Averaoe Soectrum Formaldehyde (CHzO)xZlo/o PASS Test Run #2 Outlier Spectrum Formaldehyde (CHrO)l20o/o PASS Test Run #3 Averaqe Soectrum Formaldehyde (CH,O)t2oo/o PASS Test Run #3 Outlier Soectrum Formaldehvde (CH,O)t2lo/o PASS 94 Date Company Station 5-Nov-24 Unit FTIR Analyzer Altamont Post 00441Main Gas Plant Appendix A8: QA/QC Procedures A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent Pre-Test Post-Test Analvsis Reqion 3131 to 3135 3'13'1 to 3135 cm-' Sample Spectra Line Position (Freq)3133.065 3'133.050 cm-1 Reference Spectra Line Position (Freq)3133.068 3133.068 -lcm Sample Spectral Resolution (FWHM)1.022 1.008 cm'' Pretest Soectral Resolution (FWHM)1.046 1.046 cm-' Line Position Shift -0.29%-1.79% Resolution Shift -2.29o/.-3.63% HrO EthYlene CHrO Run 1 oo)(! o Manual (oom)16.914 o.647 o.102 Auto (ppm)16.950 0.635 0.100 Error P/o)-0.21%1.84%2.33Yo .0, Jo Manual (oom)16.339 0.s82 0.175 Auto (ppm)16.358 0.588 0.168 Error P/ol -0.1'l%-1.07%4.1sYo Run 2 o,o)(o c, Manual (oom)'16.940 0.634 0.1 15 Auto (ppm)16.984 0.623 0.1 13 Error (%)-0.260/.1.80o/.1.50o/o .o o Manual (oom)15.260 0.585 0.205 Auto (ppm)16.291 0.572 0.203 Error P/o\-0.19%2.27olo 1.15o/o Run 3 oolo Q) Manual (ppm)15.683 0.523 0.134 Auto (opm)'15.708 0.510 0.132 Error (o/o\4.160/.2.48o/"1.510h .0, o Manual(ppm)15.909 0.556 0.206 Auto (oom)15.936 0.542 0.203 Error (%)-o.17yo 2.so%1.4',1% 95 Unit K-SC Vatidation 96 s ul/ kre*{h r. .E . &{al.i, q, Unit K-3C Pre QA/QC 97 Unit K-3C Post QA/QC 98 , -; - l ld l 'l I nl I +I al : !: l tls sl *o l ff i{dslqodoi iDS, TIBII2 s tit: -.: a d Z o o o Z o d a: d - Se r 3 o e f * q E $ ^i I = g o; xr P tr r o ! r I: r . r Ee * s . I ii i1 0 1 3 3 * 9 0 I t dd a o ; - i r Z A d nF n i l a - r l i r s 6a - t u : - d a ; o a E+ t E ' e " E : a r l a !J b - 9 3 Y i : u . l ii i ; 3 : ? i + * E $; 8 ? $ $ i r g i ; fz z Z Z r = d ; ; i d c. E c . E E . F- i B ' * E . o - i u & * ar ; i e d ! a X q 9^ i 6 = - a Q a Y E: p i l " - : E ? ? Yib ^ . d 6 - - o P e= . - = 9 : 3 9 5 : ,; y ; o ! A l € 5 +* ; i ? P . i I I i s * { i ! ! 5 6 E 3 s ni e - . : € € e e t <dI3 3 P=gE ;!EdE{3g 3B E *, - ' 3 a s EE E I ls i s 99 E; il t ll I .' l .l el dl I ll i +lei :t6: I =lSI tl!, I E ei *_ _ _ 1 ;d d d 2 6 ; - . Z d d 6Y o - od - F a o J d o 6 d t* t t. [ r [ ai t_ [ n* 3B : l = 4 3 R : 6 3 i+ F a f E l a ; l ; .f b - 9 ! Y i = . ; t !! = : -. 6 : - 9 r il * ? E ; s i ? i E $! i : s s i i l i r E-i E s e . ; r s 3 s R o 9 s fr E€8ev5IT li !r E e E - e E " E ! J o o d s- d- ij t s o S t r 2 3 I o S oo Z o ; = i i Z ; 55 g 5 r u 5* i :i l : e : : e : E + et i i ; ; E s i E= 3 : P 3 + s : {5 g E s : E E l + r * ! = d l i I ii i E E ; ; ; ; UJ E E 5 h I i T !:!d 1\I j!Ej| t *eet Pi 5*:5t{Er!5E ff i ;+i6.$, iqqi6rnB, l u, tr ; pEEtss, r* : 2a t &_ l. E s Ig j , Id IY :i iE- {o o 9l*i=! I ErTI -. , I l: i S Ei :H A S o i S S o t H -.d d o z o d 6 z d d -f , - : - e - o: r, . . oE n a e 6 n d q o G t.i ! r ; : o : c : ; i d g l ir r : . Es * s . E s. E r J d d d a- d6 tl G d * : P * 3 o S * oF . 2 a - = a i z 6 d si s S i s s i * 5 r 6* E : * 6 : : : a 3 E; $ B q " E : r i ; l r3 b - 9 3 Y + a . n 9! : Y . . ! s 1 - ! a lG v d ! 9 = * Y l E a= = = A 4 o Y A i : ?? : : I i E ? ? i E t€ € l g $ t * F l * t> > z i 2 2 i n , r a g i* 3 - 'r si i $ l * ; E f if ?i i 6 = - 1 9 i Y EI p s i , - I t ? ? 4 - il : = E 3 t + l : 3 3 { 5 E E H : E € f gE €t : ! - 6 > : F Y : . ; Ii i ; : s j i s i S 5* ts o €EEi rt;l:B I H.E i ;E i lt E ; 3 to l q. i c: lI =l9idt !ti e ] a 61 ff i , ,J IdiglQtqldi9: ts lE,&r 9S E E o i 3 3 o F l 9 ^i ! s s . 3 x r : R a o r ?alf E t L e * L * L !, d d r $^ , di :a -o ? 3 3 # ; .o $ E -i_ a -F - ox d ^ . SS i S e s l i e B t - l- e ' .. . - c - [* ' e - a ; i E ^ & 1 ] [ r ad r y ; ^ . - i 1 : o d -= F a aR 6 - J -- E+ $ = $ i = ; I E ! !r b - 9 3 Y + 1 . { != = Y -.6 L - 9 I I9 ; i l l i g X i E i! ; : t * i ? ? ! i i. t !; 9 ! ! iF i i is - S l s r $ 5 i * 5 nq ^ r Q d 6 6 = 9 ?il ' - = - a q i Y El p i E e l E ? ? E: 9 L s 9 ; ; ? : r it = O = ; g ! E L j !. ? i + 5 ; i i l r i i- $ E !: t s eE sil -iEi i 1o 2 sri;taI ff i i4;d:giq!o; -i i 6,o>, | nrHi Eaa 33 it _- 'E E P: . te , ,it : 1.;T I i, 6 :- : ! 3. , t ", * t l,'.Ei I 8H ; I o i l & ! o 8 9 oo d - - z o o o z - d dH d - BB i I e B I $ q 6 * ^E ! s s . $ : P . B s o t n d != e e E - e i E ! I a d d q- c_ lO o o Pt a 9 R i s l a R o€ z . o = n Y z 6 c 7 6t+t tt:tUI{tEI - E- - t. - z - E - Ii E $ - x E - e [ - t I I 3c & : 1 i : . 1 8 : 5 : i+ F E $ X : a ; E r on b - q 3 : + 1 ! d o: = Y - !o L - 9 a i+ * ? l i s i : t F g; € : s t s i 6 i P fa a r i T r i t r t i iF I E r t t [ [ t +r E e , t H a i l i l; ; e ; : P i 9 i ; 3; [ ; s l Q E a q -q J E q : d : sr ;= e = E s s * i I r+ E + s i g i i i !i 5 E i : . E i i T -o {0 3 PI5 5: I =l*l i: I !i I r El :_ _ _ =_ l ff i i {ldtg, le,o; di ;o|. , LJpj do d , . Z - o o Z - d -E - E .E . dH d a Es E ! * I i 5 e : E .- E r E E r I e I r* aS n d - q i o ; o G i+ f E $ E = ; ; a r .S b - q g : i = r n != = Y - ro L - 9 I i: ? i E { i + ? i i ti € ; $ g g s E i # l'a > r r : t d j i ; 6{ i It E E* i- [ - E -r :i i 3 : 9 ! s + : 3$ 3 1 = l Q E i q E: = I E . t . - g S $+ E i E ; ! ! E E 3 ** e ; i. E ; i H I^i I e = o I t E I € o 9 3 EE != e r € - e 5" ii -' - ' -^ &* -'a 33 o H t : 3 ! o o. . z o 6 F 6 ; i z r{ } IIIiI $i vta{ dl:tBI ?! I f" s l sH E E I $: i $ l : :l l 7 < d i- r ! 5. . ' fT ? i; I si 10 4 FTIR Png.TesT QA/QG Appendix A1: Test Plan Requirements - MAX-iR SN 00441ZnSe DTGS Test Run No. 1 Test Run Duration 766- hrs Background Scans 100 Sample Scans 50 Spectral Averaging Time 1.00 min ComDound Formola lnterferants MDC#1 MDtrz MDGHI Accuracv I Precision Acetaldehyde c2H4o HrO 0 to 50 oom CH2O 0.1 61 5 0.4909 0.6454 +l- 3Oo/o Carbon Dioxide COz 5 to 15%0.0021 0.0187 0.0648 Ethane c2H6 COr 0.0172 0.1407 0.5269 Ethylene CzHo CO:0.1 557 +l- 5o/o Formaldehvde cH20 HzO 0 to 100 ppm o 0213 0.0000 0.0000 +l- 3Oo/o Propane C:Ha Hzo 0 to '10 ppm 0.0717 0 8159 0.492 +h 30o/o Water Fteu 5 to2OYo 0.0012 2.7758 0.0639 {06 dfl3i ar l EI6[?l Appendix A3: FTIR Reference Spectra Relerunco Oate Conc Path Longth Conc Rc3olution lcm-11 Tomp lcl PE" lalml sp€dEl Reoion Appodaation 11t18t21 tII t)/:l IU 987.1 10 to 1,21E.434 Cosin€q t 10 193 20A 1 012 109 01 1 1S3 120 1 010 Elhano 1t5t2021 5 700 986 66.062 1.0 1 92.1 94 Cosine 8 300 986 81 834 1.0 191.919 or 16 000 s86 r57 760 1 91.862 1.006 502 850 10 192 124 1 003 10 192 915 0 9s6 2 001 J 10 192 672 0 99.{ 50u 10 192 395 0.994 411t2021 9.860.000 9.66 97.21 9.600 1,088.303 to 1,156.747 ml Cosin€ 1 952 000 986 19.246.120 24 2AO OO0 s86 239 400 800 1.0 189.894 0.999 30 170 000 985 297 476.200 1.0 189.326 0.999 35 9S0 000 986 354 861 400 '1.0 189.130 0.999 t1 740 000 s85 41 1 556 400 10 189 374 0.999 s86 467 561 200 10 188 699 0 999 5f,o30.0u0 JU 10 189 448 0 989 1as 230 0 9a9 74.840 000 E5.370 000 9.ffi u1,t4E 95.660.000 9.86 943.207.600 100 720 000 9.86 993.09S.200 '1.0 189. 1 10 670.000 9.86 1.09'1.206.200 '1.0 189 329 0.990 120 410 000 986 1 147 212ffi 1.0 1A9.3l I 0.989 1?S S30 000 986 I 281 109 800 10 149 140 0 989 1 39,ZJU.UUU 148,370.000 157.300.000G'oso-ooo 10 149 607 0 989 0 sag 1 72.920.000 9.66 1,704,9{i1 2m 192.850.000 9.86 1.901.501.000 9.66 2.042,693.400 o tu9.1g 0.990 co2 7t7t2021 874.700 to 1.134.600 m-1 Cosine 10 rsl s52 1 006 i92 046 10m 160.773.403 7'1.449.690 9.E6 /04,495.915 80.409.088 9.86 /92.833.608 192.126 90 545 834 985 893 767 923 1.0 192.Ost 1.006 r00 657 1 56 986 9S2 ,{79 558 1.0 192.O20 I 006 I O89 041 15 10 192 001 1 005 120.O32 130 7U 1 ,1b3,522 .2 I q 'r.2E9,038.078 1 392 01A 137 192 144 006 161 150.1 13.244 9.46 5 11 IU 1 80,560.289 190 993.926 ,oo oa1 e70 IU 006 ).€r,E83,200.11 1.972.471.99 21 1.063.81 5 9.86 220.759.131 986 2.1 76.685.091 230.199.998 9.86 2.269.171.94O 240.425.O52 9. E6 2.370.591.01 3 o 192.165 L002v 292.012 9. E6 2,507.319.830 tt 191.952 t.0s Elhylene 6t2212021 1U 0 999 Cosine 10 191 779 1 000 10 191 760 0 996 191 o 1 494.279 9. E6 14.1t3_O31 1.994_913 9.45 9E6 24 901 212 o 1 001 mn 9.46 29.549.ffiO o 191 /55 uw2 Propan6 11u2021 tu 6u 1.0 1 009 2.751.5'11 lo 3.074.960 m1 Cosin6 085 305 S87 10 1 93 192 1 003 5tl 261 tum 244_5 t3 49/.3UU 9,U 5U9.9/6 114t2022 9. E6 41.412 o 1s.1ffi 1.040 2723.64 to 2935.39 cm-1 Cosino 1o.500 9. E6 1 03.530 o 190.052 oao 13 800 9.86 136.068 1.0 190.266 14 700 986 144.942 1.0 190.204 1 .040 9.86 207 060 1.0 190.'141 1.041 34.500 9.86 340.170 1.0 190 242 1.{N'1 48 300 986 476 234 1.0 190.281 1 .04'1 9. E6 680.340 1.0 190.026 1 .041 Appendix A4.4: Determination of sample cell absornfion neth lendth CzHr Quality Control Checks Absolute Temperature (K)464.929 0.85 </ (Ts/Tr) >/ 1.15 YEST"464"234 Absolute Pressure (torr)P,760.000 0.85 </ (PrlPs) >/ 1.'15 YESP"739.515 Concentration (ppm)c,96 499 l(Ls-Cs)-(LfCr)l </ Factor of 2 YES c"102.210 Absorbance Ratio &/A 1.013 Path Length (m)L.9.860 Ls 9.672 Appendix A4: Pretest Procedures - MAX-iR SN 00441 Ueasurement System Capabilities Gas Concentration Path Length i(esponse Time lmin.cacl Dilution Factor Recovery (o/"1 System Zero - Moisture Analysis (A4.3)N2 0.62 Path Length (A4.4 CzHo 102.21 9.67 Mechanical Response Time (A4.5)CrHo 101.73 0:53 Equilibration Response Time (A4.6)c2H4o 101.33 1.46 Analyte Spike Recovery (A5)c2H40 8.29 0.08 98.74o/o Svstem Zero (,q4.8)Air 3.Zt {09 aoo0oG. $aao s,, s)'l) sqoo $(Eu so4o sFo! I ?, OEsa tr t a oc?o oco Nci o: Fo mo @o oa "e Nooi ET a JT E E No, or o a !o ood ,E F@@ ,T Iln I, I "E or q a 3o ao , NT, t mo Ta , .S E E d6 € orio oqo oc2o oopc @oo ,!) so , -a-- a Jd co a , I! ELoo=6 =6EL oqo , , t oqo oco o ,; o=^ qF (/ , - d rq rvo @qo Et= DDj , 2f t 0o^ LCOero (. ) r I F\o o@o o =e o qo E4 a l oao , @ao a :l Ee t=EOfi s ooo- @ci oo l @q'lo E\ oc?o \ oo !lts o ,E o- Nci ac o1o ! C a booC!oAE (, l oqZEO>= ILo!Go r( m I x(;\io! q cc 61oo8oi(o !5NI33o6 a\{:c @Nooo8o!o tc:c eooooG sqao !I,, soIo@ s'!E IaEu sEI s!r?o oc6aoo @o c 9l ,i Nc, NN; oE () 8 @cl@ ry@ \I !D I aaE I@ "E (J e N\@ \E E\E qE E ,E .t@ c (J q o\@ E I fD I EE a:6 ?' E : da € ooo oqo I oc?o E qo o9o -E a Jd qo af Fao a m \ ! clo oo=E =65L €qo E ( ! trc I ,a @co o!E ^ EF alt -d rOEv (, , qo o)o oC od olo o qo oo^ LCOarqo tso @o FFo N\o I E oj "E le o 6ao { a oao rI o j -i:) :vEe EOhs ooo- ro E{ aa qo \ l oo ttEro- € c l oqo E! -o3oIoAE (n E EO>=<EoId@o !1o\ff3o !5oN33oIon ;l3l"l c05@Noo8.lol 9dilNlolol8l"ld cIcoocCIo=o @I88oi! I{!o!c ++za&tXE{zIoooUoxvaorr ' )XC) Appendix A6: System Parameters - MAX-iR SN 00447 A6.1: NEA See Appendix A2 calculations. A6.2 & A6.3: Line Position and Resolution - Zero Air A6.4: Detector Linearity Sional Avo. Below Cut-off (averaoe from 1OO-5OO cm1) ,Ho Direct to Cell -0.0009 qllowed Performance Ranqe -0.1 to +0.1 srs Reqron 31 30-31 37 cm iample Spectra Line Position (Freq)31 33.0670 cm leference Spectra Line Position (Freq)31 33.0680 cm lpectral Resolution (FWHM)1.046 cm -ine Position Shift 0.10% 111 Appendix A7: Verification of Quantification Algorithm Refomnco SpoctE Date Temp lcl Prclr C€rtfled Conc M€asuEd Dllleenco E mr(%) A@taldehyde 1118D1 192. /66 1 t))10 073 10 073 00 000 193 204 54 995 54. / tO 0.3 o52 193 120 0t tos 01 1 1 04.204 0.4 o.t4 Elhane 1t5no21 192 't 94 6. /OO 6. E'14 0.1 1. t{) 19'1.919 005 I 300 8 d08 01 130 1 91 862 16.OOO o.2 r 3t, 1C) AzA 003 51 rno 51 d79 05 094 192 9'15 0 996 127 000 127 1 t9 o.2 0.14 0 ccn 203 000 203 000 00 00{) 1 92.395 0 994 5UU,OUU 5U0.149 U U,U3 4t1 DO21 ]UU 45 u 999 lr U U txt t88 76 0 ssg '19 502 000 1 I 505 754 38 o02 1 U9.69 24.280 WU 24.tU4 tA1 75)031 t89 33 o 999 30 1 70.000 30.106 906 63.1 o.21 35 CCO 000 a5 9)3 ))7 668 019 1 69.3/41.634 U5tt o.25 r8a 70 o 999 47 420 000 47 343 454 36 1 004 t89.56 0.969 /4,64U,UUIJ /4.609.U/9 U, J] t89 76 0 gso 85 370 000 85 oal 256 2AA I o34 1 U9.63 u.9w 95,6U UUU 95.Jl 5 56 036 t89 59 0 sag 100.398 952 321.0 o.32 o q00 1 0 670 000 11r) 414 467 256 6 o)3 149 3A 0.98S 120.O/E.ti36 o.2a tac 1a 0 gag 29 930 000 1)9 645 2 244 7 o22 149.61 0.989 39.250.00rJ 138. t 43 294 5(xt /0.36 r8c ?8 0 c89 1a7 911 157 424 A o29 1aa. t2 0.9E9 /.300.ooo 15 t .064.542 o.15 r90 03 0 98C 65 050 000 165 341 7tX)708 3 o43 lag 3a 0 990 192.3 t2.545 o.25 149 13 0 990 207 1 90.OOO 206.439.522 350.5 o.1l 7nQO21 1S2 053 I 006 1 1 263.430 1 1 263 430 0.o o.00 191 952 006 2) )74 71A ?2 )41 553 d8 oo) 192 046 33.046.946 33.04l 340 o.4 o.00 19) O79 006 43 542 457 43 580 01 I 24 001 1 92.023 55.54/ 335 55.590 913 3.6 o.u1 192 01 1 006 65 639 8S5 65 545 707 58 o 0't 192 UU ,/,U6U,5U3 u.u2 192 12€'ffi 702 163 86 701 450 09 000 US 9/.b55.bil 9/.S2.$U b9 0.01 192 020 108 336 922 120 0.01 lq? ool 1 006 1A 791 673 11AaO4011 1)A 001 192 144 128.96/ 331 o.o2 006 do 365 476 1a0 371 768 63 000 192 ',t 04 1 .006 151.424.420 20.ti 0.0'l 192 09d r 005 60 907 970 160 493 563 144 001 192.O9 t o6 / L46/ 551 t1,451 2t5 r b.3 0.01 192 018 I 006 183.033 /94 143.047.31 1 0.01 006 193 047 091 193 053 447 64 000 r 92.03ri 204_O22.604 2u4.u29.u30 T2 U,UU 192 073 o06 13 530 936 213 521 703 92 000 132.200 zz5. r ut w zz5,u3u.45J U, U3 190 090 235 227 A06 235 204 S5'l t8I 0.o1 oth 0 01 I 92 165 1.006 255. /59 539 255.694 aa2 60. /o.o2 191 952 I 006 270 163 349 2/O 245 511 /6.2 0.03 Ethylene 6nt2021 191 820 o 999 4S.03E 49.036 0.0 0.00 191 7'79 000 96 4C9 c6 594 01 010 191./60 o.9gti 24U /36 239 C/5 UU u.J2 191 777 o 992 498 823 494 855 00 001 tc1./66 0.992 t t6.206 I t 1.069 5.1 u.6b ls1 850 o 992 998 24S 9S1 585 6.7 067 t9t./tu u.993 1.496_l/9 1.469 9/5 U.J u.55 1 91 693 0.993 1 994 913 1.94/ 661 1.3 0.56 19',1 7 17 0 992 ? 525 444 2 508 6SS 16 8 066 tvt /b5 u.99t J,UU],UUU 2Ub u.b9 Prooane 1/at2021 192.U1 I ],UUg ru6u tu.5u U,U U. UU 193 192 1 003 23 664 23 50S o2 067 r 92.t 36 Innl 50 ztt1 49.U34 0.4 u.65 r93 309 0 ss7 s9411 9A 1))13 130 193.132 0.996 244 5 t3 245.300 93 344 o 996 4S7 300 490 560 6.1 136 Fomaldehyd€u1aDo22 4.2o0 4.200 0.0 0.oo co o52 04O to 5m 10 507 00 0.02 3 AUU 1 3.E02 0.o 0.01 t4 700 14 702 00 001 9U. 14 g1 2 ].WU 21 u]3 UU 0.6 34 500 34 505 00 001 I 9U.2Ul u4l 45,JUU 46,JUJ U.U U, U1 19U Ozti 6C,UUO 69 0/4 II 0 112 oo N N . - . - l o N6 F @ - . * * l - N N @ N - o - - l - N o o o . - - - * - * l NN @ o - o - - l - @o r - s $ o o l F @o N $ o N + 6 l N @r o N o @ N N I O o6 6 { o o F N 6 6 N l oo + @ 6 6 < @ l @ o N@ @ @ @ @ @ N l € O@ @ O F N O N i 6 O@ F O O @ O N I N OF i { t @ @ F O - O l NN N t l t O O l o oA q o O O o A l 9 -F F - t F OO O O O O O O I o Oo @ @ 6 { { o N N N l F- - F l - -" . ^ ^ ^ _ ^ l _ "" _ _ _ _ . _ 1 " ." " - : _ : . 1 - ". _ _ " _ _ _ . _ " 1 "_ _ " . 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I c? t s : r J : : a I : I a s : I : r r : : : I a : s s r 9 I s 9 : FF F N t s t s N F F N F t s F t s F N t s t s N F F N T F F t s N t s N N F t s N N F F N F t s ao o o a o a o o o o o o o o o o o o o o o o o o o o o o Q o o o o o o o o o 6 c0 O m C0 c0 O c0 c 0 c o (D O m @ m m @ O OO O O O O m m 6 O 6 6 O O O O 6 O O 6 O O 9J J J ) ) ) ) J J ] ] ) ) ) ) ) ) ) ) ) ) ) )J J J J J J J J J J J J J J J _ N s ri o x d oj o F N o s o d r od o o ; 6i o s rj o N d ai cj - oi o + o @ F @ o o F N ' @@ @ @ @ @ F F F F F t s F t s F t s @ @ @ 6 @ @ @ @ 6 @ O O O O O O O O O O O O O oo 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 { $t tr o o o o o o o o o o o o o o a o o o o o o o o o o o o o o o o o a 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 o o o o o o o o o o Fo o a o o o o Q o o o a o o o o o o o o o o o o o o o o o o o o a o o a o o o 9 ot o , o t o t o t o , o , o, o , o , o, o t ot o, o t o t o , o t o, o , ot o t o, o t ot o, o t o t o , ot o , o , o , o t t , o, o, o ' o, 9F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F t s F 6 E t d d d t t d d t r t d g. s. E. G u E t G tr t t d t t t t d. t e. t t x. tr i . t t t *E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E ;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 o o o o -6 6 6 0 6 0 0 0 0 6 6 0 6 6 6 6 6 6 6 60 0 0 6 6 0 0 0 0 6 d O O O O 6) A A A A A A A A A A A A A A A O O A O O O O OO O OO O A A A A A A A A A A A ;9 e e e e 9 e e e e e 9 9 e 9 9 9P e 9 9 9 e e e e e 9 e 9 9 e e 9 e e e e e >o a 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 u) N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Nr o o - o * - l - NO O N F O N F I 6 o @ 6 N N O @ OIO Fr - : - - N N I I -- - - t - o 6 6 N - - o o l - @ o r o o @ o 6 l € i 6 6 6 6 N 6 0 l O : :: : : : :: l : @ @ F o. - -. 1 - 6 + @ o @ 6 @ O1 6 @ 6 6 0 @ 6 0 N l 6 o o o o o o o o l o s 5 P s s: ss l e N O O N N N FO I N 66 6 6 1 6 .i . i 6 i 6 i . i 6 i N 6 i l . i I N N o 6 - - * o l * *N N O O F O @ l { 60 @ o o o o o l o N N o l . ! N . l o c) 1 . . 1 o o o o o o o 0 1 6 I oN N N - - * - l - 60 @ o 6 0 F @ | t s 66 N 6 N 6 6 6 1 6 ot o o @ @ t o l a oo o o o o o o l o I o- 6 o o = * - l - r6 0 6 F 6 0 N l N do 6 i @ o r 0 1 6 q o u l q o q @ qlc ? oo o o o o o 0 1 6 @N F _ _ _ * = l _ OF O O 6 O F N I 6 66 6 6 6 6 6 N | N :: : : : : - - l l 6o o o o o o o 1 6 i o F 6 - - " -l - n s @ O O @ = OIF O O O F F O -r 6lF Fo o F 6 o r : 6 l N Ft s F d o o ! o l r I ON N O T O F O l O ts O N 6 N O N N I O ot6 - l + ao @ 9 6 ( 0 o o l q - - N -lF I -- _ - t - 6o o N o t s N N l o -O F O O t @ O l { qq o l q q q ? q q l q oo o o 6 0 6 0 1 6 {o r 6 - - * - l - OO 6 @ l @ O N I F + o N o 1 6 -* O O N N O N I O e 9 I I 9 I 9 9l i 66 6 o - - - - l - N N N N O O O O I O o o o o o o o o l o o o o o o o o o l o ! - " " - - - " "1 " Ni+ F t @ O N l n @ 6 @ @ F @ O O l t s :: : : : : : : 1 3 oo o o o o o o l o -- - - t - $o o - - - . - 1 3 N I Q F N { 6 F1 6 r; r ; 6 6 a i d . i i N l : 6 O 6 6 O Y? O O l ; F t s N t s F F t s F I < := " " " - = : l NN N N N N N N I oo o o o o o o l NN N N N N N N I 66 6 6 6 0 6 6 1 e - - - I oo o o o o o o l IIIII 6m o o . . . . l JJ ) ) J J J J I do - N l 6@ 6 6 @ O O O I { ! t t t i s i l 88 8 8 8 8 8 8 1 do o o o o o o l o, o , o , o , o , o , o , o , l o o o d o o o o l 6 a 6 6 l G 6 G G G G G d I o6 0 6 6 6 0 0 1 - - - - t a 6 6 6 l o o o o o o o o l 0- 0 - 0 - c c 0- e a l l{ s l r { ! r 9 ! r r i t s 9 9 r s t r ! s $ 9 s t $ 9 n ! 9 r l r r 9 l $ NN N N N N N N N N N N N N N N N N N 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 o o o o o o o o o o a o o Q o a o o o o o o o o o o o o o N N N N N N N N N N N N. : q e! q e Q q q q q q q q q q q q a qq q s q q q q q ;6 6 ; b d d d ; ; 6 b b 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 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 !tcJUo=oG!too- 11 6 OF O @ O O t s N 6@ @ O F t @ + ON N F @ O F d qo 9 e ? . ! . ! 9 . ! oN t o o o @ o @a t s o o @ o @ oo o @ @ o t F :r r ' : ' : ' : q q QN - - @ A @ O @@ o o o o 6 N 66 F O O O O O NN N N N N N N oo o o o o a a @@ o o $ o o o NO O @ @ O N O oN N O O O O N 9q ? u ? q q q a q NN N N N N N N 9O S @ @ - O O @o r a @ o o o NN 6 r 6 + @ 6 oo o d o d o o oo o d a o o o @N @ 9 0 6 @ t -F t s o @ N o o @O N F O N F 9 \\ q \ \ q q o q oo o o o a o a <iF O @ @ F o +F o o O O N - 6N N N t 6 N @ q9 q q q q 9 q oo o o o o o o @6 @ N t F @ F 66 @ O O O O < oS @ t s O O F O ci c i c i c i c i c i c i c i ot @ o i { F o oO O F t s O O O oo N o o o @ 6 O@ o N o O o F Ft s F o i d N C i @ tN < O F { N @ 6t 6 o F 6 o o NF i - O @ F n ts @ o o t @ o 6 ;; - G i - ; ; ; OF @ - @ @ @ @ ts N @ @ O - 6 0 -O N O O t s O N qo q o l o l q o ? o ? -O O O O a o A QN @ - N F O b oo o o @ N N @ @F O O t s @ @ O o? q 1 c ! : : 9 . 1 @@ @ @ @ @ o @ on < + + 6 0 {{ + + { r r 6@ @ @ 6 6 @ olq q o t o q q oo o a a o o oa o o N @ o @F F r @ 6 - oo o o o o o rq r r - " : q oo o o o 6 6 OO @ F N N @ :n - 1 9 : q ? : l @@ @ o @ o o *n | ! 9 ! n t c . 1 NN E N E N N oo o o o o o tn n s v s i NN N N N N N oo o a o o o NN N N N N N oo o o o o o o6 0 0 0 6 0 mo c 0 c E ) c o c 0 c l )) ) ) ) ) ) ri o s d o i o i NN N N N O O oo o o o o o oo o o o o o 88 8 8 8 8 8 60 0 0 0 0 0 lr t t r t t oo o o o o o v!! t ! J J 'a a 6 - a a a a aa a a @ a a N:oaooNqoN6qoc;tscoNNqootsIoo.qot:oNeoqo -l o@ 6 o 6 6 o o l - t s N o o + r N o l ol o o o N o i @ o l o 60 0 6 6 F o o l @l t s t Q O O + F N l { O@ O $ N F - O l 6l NN N N T N 0 0 0 6 0 0 6 6 | I _" " " " _ . _ l _ =- - " - = - " 1 Nl t s - F o t N o < 1 6 -6 6 o o O @ 6 1 Ol @ @ - 6 O - N d l 6 O@ s - F N N N I Nl V S T t S S S O I { OO r q q r V r l .il o o o d c i o c i o l d cic i o c i c i . i c i d l ,l BR B B x e r s l e ss s B s B s s l ol o6 6 6 o o + 6 1 6 6N t s N N @ N E l ol oo o o o o o o l o oo o o o o o o l .l ; ; , ; ; ; ; ; l ; = ; ; ; ; " ; ; l Nl o o o o o o o o l o o6 6 0 0 6 0 r 1 ol o o o o o o o o l o oo o o o o o o l _l .- " " " _ _ " 1 " "" " " _ . 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' i l e i c i c i o o c i c i o c i l Hl :I H E e ; e e l e gE e B E = $ E l :l :- : - : : : I :: : : : : : : l Ol @N F N F N O O I N OF O O @ t N O l Ol OtN 6 t s N O N l E +6 @ O O N @ - l ol oo o o o o o o l o Nt s N F F t s N N l :l ." - - : : " - 1 " :" : " " - * . 1 Nl NN o N i 6 F 0 1 6 ON N @ F N O O I Nl NF o 6 o 6 6 o l o NN F o 6 o N o l ol oo 6 i r < = n l i @@ @ @ @ o o 6 l ol d d c i d c i c i d d l d oo o d c ; d c i . i l nl EH E s r s r r l e EE E E E f l : e l :l ,: : : " -. : 1 " ": : . - - - -l ol o < = o o o o o l o @@ o @ N o @ N l ol o 6 0 0 0 0 0 0 1 o @@ 6 0 N N N N l ol o 6 o o 6 o 6 6 1 0 oo o o o o o o l .l -. - ". -. -l - ". -. -. -: l ol N o o @ @ o @ o l @ @iN 6 N N @ o l -l - O O O F 6 @ @ 1 6 Oo - r o - F F l Fl QQ o o o o o o l o ! OO o o o o o o l -l FF o o o o o o 1 6 -- - - l :I - :; ; . :: : : l ; :: : : ; : :: I il E iE : : i i i i l i EE E E E E E E I il s ; ; ; ; ; ; ; ; l i * i i i i i i l sl f l ss s s s s s s l EH i i E E E i l 3l ' oo o o . , , , l I !l 1 t l 5 5 1 s 1 l I ts l 6 @ N @ o d - r u 1 S I ol @6 0 6 6 6 6 @ @ l - I :{ :g g g g E g g g l Ep p p p e p p p l ill F O O O O O O O O l q J J J J J J J J l il i: : : : : : : : { i. E E E E E p p E l ol -q o o o o o o o ol E o o o o o o o o l Bl Ef f h f i h # h h h l {g g E g g g , E E l ;l ; 6 i l 6 i l 6 8 d 8 1 uu u u u u u u u l Nl c o N N N N N N N N I ut r g . t r t E t r t r t l ciooIcoooo $tza&XaQcaFa(t )oPliO(. )nB IoC op ^o3= o!o(.) IccC @s -" .9 ', i o Ocoo oo -o lt EA cEcqllIc .sEE 'n .. 4EC sg r- ; Jo o- . <:@A EN>t -- o rE.t coco<<c e=? 6=3i L6e-gEoF 4Ei:Cc 11 7 & cooocoo6o6!dts\0aNog?ooqooNIc!o@@\€ts69ooaoo!ooc@NqoNoqo @o @ N @ @ o F oA F @ O o O F nF O F @ @ o A qq q ? q ? q ? q l s ] 9 oo o o o o a o OI O O F N - O oo o o o $ N @ ts N O t { t s S - oo o o o o o o od c i o c i c t o o @o @ n @ o 6 0 OF F 6 @ O O N o6 6 N @ 6 0 6 o@ @ @ o 6 a o oN o o - - - o ON Q N O F - N N< i O F 6 O O \q q q r 9 9 q OO a O { F O F @* 6 0 @ o @ 6 oo o o o o o o oo o o o o o o oc i c r o o c i o o 66 N @ = 6 0 0 60 { 6 + @ O @ O- - O O O F O cc c q q q c q oo o o a o o a O- F @ - F $ t @N N @ 6 O F O O@ O O O O o F o? 9 9 q c 2 q u ' l u ? tt n t l l i l OF 6 O F N ? O @N O N 6 0 0 0 @@ o N N @ o N OO F i O O F N *= t r d a + i FO N F N N N @ Fo o @ F - o t s F@ @ F F @ @ @ ts N t s F F F \ F NN N N N N N N s9 s o o t s o o NiN 6 N N @ @ N{ O O N N t O c? q 9 l a q q c oo o o o o 6 0 O@ N A O F F t O@ F O @ N 9 @ OO O N @ F { @ oq \ t o q r : e r : \ @@ @ @ @ @ @ @ O= @ F O 6 O N @6 @ @ 6 @ O N oo 6 e N O @ O @@ a @ @ @ a @ oo o a d c i o c , OF O O @ q t - @- O N t O @ F OO @ t @ N N r 60 N { N S 6 t -- ; - - ; ; - 90 @ N N @ @ l NN O O O O F O @o o o o @ $ @ \q q q \ o ? q q FN F N oo o o o o o o @o o @ o o F o ON O T N O N @ o@ o o o o @ 6 aO O I Q F o o ss * i s s + n ao o F F o N N NF F N O @ 6 O FO N O n t O @ o? q r r q r ' : q OF F - FF o 6 0 a @ o o@ @ @ @ o o o NN N N N N N N qq e q q q q 9 aa o o o o o o t@ o t s N o = t s NN F F O O ! O aa a o o o ! o oo o o o o e o ctd c j c i o c i 9 o N- o 9 o O O o O F N @o @ Q o o @ { 6 9 @ O@ @ @ N O ? o O O O .! ' : ' : . 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N 6 ! oo o o o o o o O@ N O F O @ t ON O @ + F < N oi t o * { o o oo o o o o o o cr o o c i c i o o o FE g s S S N E F E } 3t P E 3 5 i v 5 9 - q NF F F _ - 5 F 3 p E O- 6 + - L @ O 6 { r xp ; Q e e s B g R E -i. i @ 6 x i i j N $ @ @ q o^ o A d A o N o o o o@ N 6 6 0 0 @ @ - e OO F F r @ N @ t s O O OF F O @ @ O t s O @ O q\ q q q \ 6 ! q c ? 9 q oo - F N N N N6 6 @ O . 6 6 O O t s O oo o o o ; o N + { { @N @ 6 6 A O F n O O u? @ o @ o 6 F r r q q 99 9 9 9 o t 9 Y 1 9 O@ t s @ O N O F t N o NO F O @ O O $ ( O O OF @ @ O F F O O t s F *t s @ i 6 - 6 6 O O o si o i r u n i ; . ; ^i 6i ^i Ai - ts O @ F O N 6 O F O @ @- 6 F F O F @ 6 O O @@ t s @ a o @ @ @ @ o o? ! s ? a c ! n a o ? q 9 9 or F - e F - F o o o N@ @ O - O F r @ O $ FO O T N O N O @ l N O@ @ N @ N @ - @ O O qq q ' : e ? 9 q n c ? q c t 6@ @ 6 9 6 N 6 @ O F o@ @ o N @ N N t N + @6 0 @ o 6 ? @ + N @ o@ @ N i o N o @ o o o- 6 F N o o o @ N o 6d r v a i 6 i i o + r + ss o N N o o o N o o +@ N - O - N O O N N @F F ! O O @ O @ O F qq q r : r : 9 q r : q \ r oa o o o o N Q t s F @ t6 O O O N N N N T @ tF o N @ @ o o @ N o Oo @ O @ N O r N l @ c! q q l 9 q q o q q q q -F T O O O O NF F F O A O $O O - N F N @@ F O O S @ qq q o q q q q oo o o o o o NO O - O @ $ O @ F { 6N @ O N t s 6 @ $ @ 6 o@ F @ 6 o N F O @ o ':q q o q o q q o ! ' : q e l a eo o o o - F F - - - o- F @ o O o 6N 6 : 6 ; o @ { 9 o 6N d = N - ' O S l - F -- o i j : : q \ : o l o 99 9 0 q o ; 8 3 8 3 @O O 6 t s t s O F O F A OO O N O O N F Q @ O Fo O F O O N O { O O oq \ \ @ 1 1 c 2 \ q ( 9 r : OO O O O O - N o o o o tt s N O F - O @ t s O N NO O @ F F t s @ O l N €N O t N 6 6 0 0 N O NO F O N O @ O 6 0 N *c i c i . i 6 i ; ; d c i c t c i o@ i t F @ N @ i t @ @@ { @ F t s o o O O o OO @ < F F F 6 O N i 99 9 t . : q 0 9 a c l r n NN N . . F F O O O O O FO O - @ n @ - O6 - - N 6 O @ OO A F t s O i F oq q t q \ t t q NoNocN OO ^ N @ F n oF = @ t @ o FN X = N O o oa C j 6 - O N oo ^ o o o o O@ @ 6 F @ o OO o S o F @ o@ N o o t s o qc c q q q q NN N N N N N oN @ o o N o ts @ N @ O N @ FS @ 6 N N O tQ q q ? q @ q oo o o o o o @t s F q O O O N6 6 6 0 N + ts o r o o r d oo o 6 0 6 0 oo o o o c i o FO @ O O @ O OF O @ @ n F Ft@ { O 6 O qq o o 9 q q +o o o n o { OO @ F N - @ @t s F O O O o O@ O N @ F O r: 9 q \ 9 n r : oo o o o o o FO N O @ @ @ F @ N - ON @ - F O O F @ F o @6 F 6 0 0 N @ O @ O NN N F F N O N 6 O O oo o c i o o o o o c i ; @o o o qq - q O6 t s O - O O FF O @ - F t s OO O F @ N @ oo o o o o 6 ci; c i ; ci d ci NO N 6 0 t s n @o @ @ @ o Q o@ l o 6 N 6 NO N O N N O oa o o o o o oo t s o F o @ o -O { t s l O N < *il o o a o o qq @ q q @ 6 q oo o o o o o o @o t t s 6 @ o o FF F N O N < O NO @ 9 @ @ t O q( l q q c ? q c ? c ? oo o o o o o o i@ N @ o v o @ 6N @ N F @ @ 6 o@ @ N @ F t s @ qq q q q 9 9 q =+ i i + ? i t OO O F 6 @ N o *O N N F @ N F 90 @ F N O O @ \@ \ \ r : r : \ \ oo o o o o o o ll 8 Nt Q O @ F r FO @ 6 O N F OO @ O t r F 9q q q q . q oo o o o o o oo o i N o N o t6 o 6 t o o @ O EE E E q E E S oo o o o o o o @o t s N t s i Q E8 E E 8 8 8 OY O O Y Y Y FO O O N O N o FO N O O F F O ^ OO N - O F t O - on < < o i + s ci d d c i d o o c i @lQ 6 - - @ n o@ ! ? N t s o o o ^ ts 6 ( - r a O n t N Fo o o o N o oc , g o c r o o c i O@ @ N F F @ - F6 O O @ @ @ N - oo o O o O O O OO O O O O F ci c i c i c i c i o o c i @o N o o \ - o ^ FN N t s O E N N - Oo o O F 9 o F oc j o o o g a c i QiO - O @ @ F oi@ i 6 t @ F o E5 5 5 5 E 5 E oo o o o o a o oO - - N o o o @q ! o - o @ o - - O9 F O T O O N - o9 0 0 0 0 0 0 o9 c i o c i o c i c ; o@ l g @ @ { @ t6 { F @ O O @ ^ @6 i N t O N N - NN N N N N N N od c i o o o c i o O6 O N 6 @ S - oN @ i o o @ t ^ {F @ N O @ @ O e oo o o o o o o ci c i c r o c i o o o NN r O @ N @ @ N- O @ O - O N ^ O@ F @ O O O O -FF F F N F dd c i c i d o o o N- 6 o o o n 6 o+ 6 ! ! 6 @ 6 s - NO N P t 6 O F - oo o 9 a o o o ci c i c j 9 o c i o o SO O O O @ - @ FO 6 @ - O O @ ^ NO O O N T t S - NN N N N N N N ci d c i c i c i o c i d N@ F 6 O N t s t q@ r O O @ F O ^ {o N o o N o N u oo o o o o o o oo o o d c i c t c i o@ t s o o N r o o@ N 6 0 0 F @ ^ N@ @ @ F t s @ @ - oo o o o o o o oo o c r c i c i c i c i oE o N v @ 6 F -! F o - o = o o 58 3 8 5 8 8 8 dq c j o c i o q c i Fo o o @ N @ o or o 6 { o * Q 6 O O O O O O O O - oo 6 0 0 0 0 0 oo o o o o o c ; q! r o N N ! ! a q 9o O o e P Y O ^ Po o o o 9 9 O Co o o a 9 9 c i NO F O O O O O <6 O O O F O O oo 6 0 0 0 0 0 Cq q C q ' : C q oo o o o o o o NO O o F - @ o 88 8 H 8 E 8 H OO O ; O ^ O ; NO N 6 @ { N O O$ O T O O O @ NN @ @ n - O F qq q q . ! q q q o* l t o t n Q oo o O @ O @ F NO N O € N O N V$ t * - O o @ qq @ q . : c q 9 {o o l t t o s O@ O F t N F N O6 o F 6 @ O O N6 @ @ O O O 6 \\ \ \ \ \ t \ NN N N N N N N @o o o n t o o NF @ O O O O O oo o F @ { N o aq q q s ? 1 4 ! eo o o a o o o @F F F @ O N l FO O t N O t N NN O N N N N N oo o o o o o o ci c i c i c i o o o c t SS E R E R 9 E 88 E 8 8 5 5 5 TH E E E F F B oo Y o s v o v oo P o j P : " , : ts O A O A O F F oo @ o o @ o o 6N F N O O O F !q 9 u ? q a a a oo o o o o o o @O N O F 6 O T @@ s o o N o @ FF O O O @ F O \\ t o q o q r : o q \ @@ @ @ @ @ @ @ oo o i o N t s t s O* * N O N F @ oN 6 @ O 6 0 6 qq q q q q 9 q oo o o o o o o {N O @ O O @ N @O O O i O F t FF - N O O r 6 qq a a 9 c ' ) . ? 9 oo 6 N $ o @ o oN o s o o 6 9 @@ @ @ @ O t F c? r . ! 6 ! u 2 n c , ! 9 TN N N N N N N o6 l @ 6 F N @ o6 t @ o o 6 0 @6 O O O r N o qq : : : r r : t9 9 t $ s s t FO @ @ @ i 6 N @o o o N 6 @ 6 NO N @ N N F N -O O O O O O F -- - ; - - - - Eo @N @ n @ F O ts F N E N N @ oo o o o o o oo o o o o o cic , c i o o d o 99 @ N N o o @ ?o o 9 0 0 0 90 0 Y o o o 9o o 9 o o o @o o F t s @ o o @ F F o + 6 N o O@ O F N t s N V O @ F t O @ O O @F O F @ N Q F O A @ N O N O O Ft s @ F O @ F @ O O O O O O O O 6i. j c i c i - ; - - ; ; - 6i 6 i 6 i 6 i . i F@ O I O t O O N t s O N O O O @ FO t s F t O O ? O n @ t s O F - O {@ O o O F o @ O O @ A @ o @ 6 oF o o @ @ 6 0 6 0 6 @ 6 0 t s o 99 9 9 q ' : ' i 9 9 9 C 9 9 9 9 9 oF O O O @ F - N O @ @ - N O @ ts O @ t s F @ O @ O O F O O t t @ OO O O F @ O O F O N O N O O O OF O O F F F N N N N N N N N N d o c i d ci ci c i ci ci c i o o c , c i c i c i oi a N o i o o F o o o F N t s Q 66 @ @ O O @ t s O O N O F @ O O OO F O N O O S O O T ? O i t t oo o o o o o o o o o 6 0 0 0 6 oo o o o o o o o o a o o o o o :; e 3 9 - ! q l a N @ F r @ F @ OF @ O X I X : F F @ O O N O N NF F O : { , : g ) ( N O - F O O N N ri * * * ' . : : ^- : f ': . : q q I o q q :: : : i ; t i n ' j @ 6 o N N N N F 6O - 6 n O F O O O F O i , ^ , ^ N O{ - @ 6 O @ O @ O { o 6 i l f o Ss E R B E g g R s : 8 3 S P 5 iq q i r y : Q e Q Q q q g c ; o 9 NF N F O N O @ @ O @ N @ N N O OF O F I @ F t s O i F @ @ O @ F a@ @ @ o @ @ F @ o @ € 6 @ @ o a. t a a a a a a a r : a l a a r : a oo o o o o o o o o o o o o o o ON N F O N N @ - ^ N F N , ^ 6 N Ots @ @ O t @ @ O = O N N : F O FN 6 O N b O F O - F F N i , N - qq q c q q q q q b q q q d q 9 99 9 C 9 9 ? 9 9 o 9 9 9 c j 9 9 9P E P o @ @ € @ o @ l 6 F o N !E I E X s s & s 8 3 3 & 3 e s Ni@ @ @ o o @ o o o o := : = d d d r j d d d r i 6 d d c j @@ @ t s F S @ 6 @ @ t @ @ O O O O@ O N 6 O N O N @ O @ 6 O N F OO t s F F O O O N O F O O O - O e. | q q q I a q a I u? I u? a 1 u'l I oo o F @ o 6 0 F a o o o ! 6 0 FO @ O O N @ N O i @ O N 6 0 t OT i O F O O F F O O O O F 6 @ 6+ @ t F F O i F O F F O O O O -- - - ; ; d - - - - ; - ; ; c i 33 P e 9 t r o t : o o o 6 F @ F o O @ o N l : . 4 -'^ Y' O F O 6 O * N 6 66 - E ! ! Y L - 6 N 6 6 6 + 6 < ^i ^ i ^ ; j vl Y Y r: A O S ts F O O ' + 3 I I n 3 S I P ci d 6i - - cj c i ci NF F @ O O @ O O F @ O O N F O Oo - t O O O O @ i N @ A F N O NP O O O @ 6 O O O S N O O @ @ FF F o @ n o @ @ @ @ @ @ @ @ @ * + r < c i - ; ci c i c i c i c i d c i c i c i OO F O * @ F O O @ O O ! F 6 O @N t 6 @ O @ O @ O O - O N { O o$ N t @ F o F @ o t N o { F ? FO F O @ 6 l t t N O o O i o O 55 5 5 q q q e 9 9 q q ? 9 q 9 o@ @ F O N F A { @ o t o o @ Q OO N 6 O l 3 6 { @ N O F O @ t NN N N @ O N o 6 @ t O O F N d oo o o o o o N o t a o @ @ @ @ ci ci c i c i - ei d i s * w s l + + r EE g E E $ g E E H $ E E E E P 99 c j c i + F c i o i 9 9 9 9 9 9 9 9 OO O - 6 @ N N O O t s { O F t O NO @ - O 6 O @ @ O F O @ N O N OO @ - @ O O O N O @ O t s t s @ l @N F F { N @ - O @ 6 6 @ @ O @ tr i d a i c i d 6 i ; ; ci c , d d o o c i c ; oo o a N @ o o @ @ @ o @ o o o FF @ @ N N t N F O O @ F @ F t F@ @ - F O F O @ o o N o O - O q q q q? q q ol q q. ' : 6 l ' : ' : r r OO O O O O O F 3g ,e Ed I- r a: ccuC oc aa -o Po. c co otptxo9eooo. .9Ezt )-c i .g o ooZo zl cq oo tr6toEr (cI( r' -E (J E lu ( C((:!! -9JdNEof io!EoFona(.) {1 9 6@ F O l O t O @- @ O O O t O OO N N O N N N q. ! c ! . ! c ! c ! q c . ! oo o o o o o o TIN 6 S N N N @o l F 6 N t s @ NN 6 6 N O N O ': . : q q q q 9 q @@ @ @ @ @ @ 6 o@ o N { t o o -N @ N 6 6 N + QN $ O @ O i O FN N N N 6 @ F .i d . i . i c i . i 6 i . i 64 \ 6 N O F F - 6X - - @ N t F oli @ 6 o n F N aij o N N o l N 9o 9 9 9 9 ? g Ft O O @ O N - 6@ N - @ t s O O N@ N @ F @ O S NO N t s N @ 9 N NO F @ @ - t @ FF F N @ O e - o@ F o @ @ @ o oa o a a o o o 9- < o + @ N - xN o o { o r o :o o F - q + 6 '1 t t { o O NN g ai ej aj c , o. i a i oN @ 6 0 6 n o @F F O @ N N O ts F O @ O F QN l- t : o l q q \ 9 @ o o N o o (N ON N @ O O O F F{O O r N @ O -d 6 6 6 6 6 O q c! q, : ol 1. : c q Ot N N - - F O 6F F F F F F @ 6O r @ O @ @ @ 6O n O { @ i t 6V O @ @ t s i @ e\ . ! q . : . : a c q o9 9 $ $ S 9 O @O O N O F $ O -N N F N O O N ON O N N - O @ r9 1 9 . t ! c ? 9 NN N N N N N N o tN @ @ N Q 6 F @Q N O F @ O F NO N O N O O F 6? q 1 a o? 1 e? q oo o o o o o o OF @ O F { O O FO O N F O F O -O O O O O O @ q\ \ r : q q q q FO O O { N O F Oo t s F @ O O @ s o t s o o @ No 't q q . . q . 9 oa a o o o Q o ot s @ o o o o N NO @ O O N O N s@ @ l 6 0 t n or r + { r i { dd c i c i c i c i d c i \o q - r N N @ !N F O @ O N O YF F F O - F F 90 0 0 0 0 0 0 9o o o d o o o {N @ { { O O OO @ t F F i 60 @ < @ @ o q ': .: ' : ': .: ': ao o o o o o @e @ F O O O -F o o t a o oN @ o N o @ 60 i o o 6 i NN F N O T F O NN + t F 6 O < oo o o o N N o .io ! . ! q c ! . ! q q oo o o o o o o Ni@ - N N O F @( 0 O - @ l t s O ri{ o $ t $ s oo o o o o o o ao c i o o c i c i c i N{O - o - a @ @O F { N O @ O N@ @ @ F @ O N 0q \ r : r : o ! \ r : < 9 oo o N t N @ t s @O N O ' F O t s @ O6 6 O N F @ @ rq c ? 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C q oo o o o o o o @o F @ @ F N { iN o o o N F o i{ s o o @ o * oo o o o o o o .i .i 6 i o i 6 i . i 6 i 6 i @N N O F O F N eF F F O I 9 O F< N O F 6 O o qa l a q e ? q a oo o o o o o o NO @ - t s t i O ON O O T - @ @ o@ @ @ F @ @ @ aa a a a . t a a NF o Q @ Q o F E= @ 9 0 q , N @ oo 6 q 6 o b b gq c i 9 o 9 o o @N @ @ O F O O $F { O t Q o N FO N O O F @ @ q9 q o q q q q q o6 0 6 0 6 6 0 @o @ o o o o @ ON F { O O O N oF N @ O @ O O s? a 1 1 e ? q l a Nts O @ N O A @ o6 @ 6 N a O i Ne O O O d O o oq q o q q q q q q oo o o o o o o OO T Q O F O N i@ F F F O O i @o i o o 9 N o Ft 9 O O N O O oo t s @ o o 9 0 OO O O - O O t s cq o q q q q q q OO O O - O O a ON O @ O O - O o@ @ N @ o N o FO N O @ @ O l r: a c 1 : q r . j e ? 99 C 9 e g 9 g NN @ t F O O r @N O @ O O t @ $+ + * i n t { qq o q q q @ 0 q q oo o o o o o o F@ @ N N @ @ OO O F @ F { OO t s O O - N NO O O O O O oo o o o o o {F @ @ @ N @ N6 N 6 @ @ O 60 t { t Q l @@ @ @ @ @ o ++ + r t n + NO 6 n i O 6 @ts @ d d o F @@ t s @ @ o o \\ \ \ \ \ \ oo 6 0 0 0 0 OO F O F oF @ o @ qo ! c ! . ! 6 1 oo o o o @F O F O cio o o o @+ o o + @N O 6 d oo 6 0 N di s i - - ; io i ; N o 88 9 F 9 99 o 9 9 @@ v o t { @{ O O - - tN o o o o oo a o o o oo o N 9 $ o6 0 0 @ 6 N@ F @ O O u? . ! q . ! q q oo o o o o E6 N 6 0 0 OF O S F - oF @ o o o ii t t s l oo c i c i o c i *5 s P E E 6+ 6 6 Q Q ci 9 o o 9 9 QN t s N 6 6 io t s o N N N@ O < @ 6 qq q q q q 66 0 @ O O ro o o o o N-F N F F @o @ - @ @ t6 t s @ 6 6 io 6 @ t s N NO O F F F NO t s @ A O oo @ 6 0 0 ci; d c i d d ON 6 F N N nt - 6 N N l6 @ F r F ': c q c 6 ! q oo N @ @ @ ot Q @ o o O- @ O + { FF o o o o - - ci ; cic i a- - * < < it d d r @ $ v @a N q ! q v FO F V : : oc j c , 9 9 9 oa a s o o oo Q F @ 6 +@ N O 6 6 qq q e q q oo o o o o O@ F F F F NO O O F F oo @ @ @ @ f! ! a ? c l c ? oo o o o o IN N @ N N O-n @ @ @ 6O O F O O 9q q @ q q lln { 9 t OO N O N N NO @ O F t s FF l t @ @ Nt s F N t s t s oc i o o o o 12 ( J N N@ F O O O @ O @ O Q O N N Q F O O N N O N T O O t s @ S O t s O l 3 F - @ 6 N O O N - @ O N - O @ t s F N O @ N t t O N O @ { 6 i N O @ @ 6 6 O N O q F O @ - @ 6 O ON t s N O @ + O i q O O N - 6 O O O O O N N N F N N F O O O O - O O O O O O O I .l n. 1 n. . ! . : - I r: . : ' : ' : ' : . : a. : , : , : r , : -: . : r r , : , : , : , : , : , : . : : I q q c q q I o Qo 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 a o o o a o o { O - O O O O Q O O S O A @ N O @ O O O t s @ @ O O Q O N F O O O * t s O @ t s O O F F Oi6 N O O @ - @ O O O N * N O O O O O F O O O O O O N @ O O F O @ - O N F O N @ O O @ @ @ - O N @ @ @ N F N Q 9 O O t s t O O 6 O O F 9 O O F I T I N t O O O .t \ a - @ i . : q q \ q I 1 a c? 6! N. - q q q q q oq oq \ \ q I s? r a s c ? q q r. r 6 O 6 O t + I + O O O O O O O O O O O O N N N N N N N N N N N N N N N N N N N N N t s N @ O O N O N N O { N O O O 6 O O O O O - N i O @ - F O O O F O t s O O O i n r N { O O Q t t s t s @ O @ O N @ O O @ F @ S O F t s O @ t s O O N @ @ O 6 @ O O O $ @ o rF t s - O o O N @ @ @ @ @ O i O @ @ o t @ N N @ N N @ o $ o t @ @ t s @ O N o F .! ct q a 1 r \ \ . { q a ! a I I q q q q o? q q q e \ q q 1 I q c? {. ? q c ' l n q r q q ON N N N F - F A* 6 i O c O O ^ F O F , ^ 6 L 6 O O < 6 L O a N 6 . ^ O , ^ ^ / ^ r m 6 6 , ^ 6 r ; - - o d r o X o r =:i d @ -: X1 : @ N o N @ ; @ X o o X N l l X =s = o o X @ N g 3 s 5 3 e 3 E 3 5 3 B R q S 5 N I R E e R 5 E s E S: 1 3 9 E e 3 8 5 hH 8 ? o 9 o 9 9 9 I d I I I o I I o o d o I I g ? I o 9 c, 9 ? o 9o o o g c j I go I N N @ N O N O O @ @ @ @ O N N O i O O N O - O 6 6 @ O O N - @ O O O O @ O @ @ - - I s @ F O F N F 6 t s t s o O @ o @ t s N O N F O O O - 6 F @ @ @ O o F @ N - N @ - Q O F O N O - O O N @ - O O t s F O - O @ @ t s O * O N N O @ O O F F N @ O @ @ N N @ i a u? \ I 9' : o q q q q q q q q q oq q q q q q oc q q oq \ r: \ \ \ t qr : 9 q q I q -F F O O A O A o A A O o O A O O o O o O O oO O O O O O O O O O O O lO @ @ $ O 6 O N I V N T O O N @ O O O O F O N F O N O O O 6 O O O O @ N @ N , 6 6 O N F @ O @ O O @ @ N N O F O N @ N N t s O O O N @ N N F 6 @ 9 S O N O O O ( OO N { O F O - O O - O F O @ O @ O @ @ F @ O F @ O O F N @ 9 @ @ O O O N N F \ c! : e'l q: \ I \ ! a q (l c? I o q A q q q \ q I a I v? q I q qr : q q q q q \ el rl c oo 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 o o { Fo s v @ 6 P X P } P o * 9 9 o o o o o s N F o F @ o t s o o @ F @ i @ N @ t s N F @ o A O I O . ; -: ' l i : : X X = n O O N @ @ F O I O F { O t F { oo O o F N s o ts B 5 R 5 5 I E d i. in 6E Y +; R S 3 5 $ S 3; P I I 5 P P 5 EE 8 3 3 5 b 3 3 6 i o 6i GiG i d: S: 9 9 9 I I I { s r s $ + + s e + r q oi o a i ; -; ; ; - ; ; -; OO 6 O o @ t s O F 6 @ t * L @ O r O @ O O r @ F O T N O - O N N @ F O i O O O -6 O @ 6 F O N O O N i ; Ig T g H E E ; E E E X g H P i l * S g H P E E E F H H S H g H E E H H E P E E S S I I g I I ' ; T Y q I o g ; - - - si Gi .i 6i o i si si o i ci - ; ; ; ; - - ci .i ; - - O- O O F FO F O @ @ @ l O O q A t t s - e O O t s O S t F O O @ @ O @ t s O t s 6 N @6 { N @ N O O O N @ l iF @ O @ @ O @ Fo N o N 6 @ O O Q o o @ @ o o o o o @O O @ O O O O @ A O F O @ F @ O O I O O O O O @ O F F O N O O @ - O { @ @ O a o. I q a \ I c cq \ : \ q oi c c a q q @ u? r I q q o1 c! q \ ! q q el q I q c ! q : OO F O N O F O O O N N O i N O O O F O F F F N F N N N N N N F N O N O O Q @ @t s @ t s @ @ @ @ @ @ @ @ @ @ o o o @ o o o o o o o o 9 9 { t l l i t s l l o o @@ N O O O @ N @ @ O @ @ - F O @ O O O - { O F N N i F Q O O N N N O i ; ^ ; = t s o o q @ @ $N N O - - F@ F O O O O N N O O O O N o O F o t F 6F O nX L A 6 6 O N @ N t t S V O N O O V O - N O @ t s O O O O O t FO O @ O O OO @ ;d 6 t U A q I cl .: cq C q .', t a q 9 q 9 q ! q .: q q I r: o! c' l : I q q I \ I \ q q I \ d o .i ; I T I $ ' i 5 5 1 $ r a ' ; ' ; : T : I : ' i q 5 1 9 g I 9 I 9 9 : 9 I I I g @@ @ t s 6 @ O N 6 O @ O O O N $ O O N @ S F O O O - @ - O O @ { S O S O F O @ o@ N O t o { ! o o @ o O l O t s O @ O @ O O @ 6 N N @ O N @ N F o l O - @ t O tO O O @ @ O O N i @ t @ @ - O O O - O O O t N @ @ t s {N N @ N O @ t F @ F - NF O O t s @ 6 @ @ F O @ O O @ @ O O @ t t q {O + O O O O O N N N N N N - N N 6i ^i 6i - - ; - - ; - - - - - - ; ; - ; - ; ; ; - - - ; ; - - ; - - - - - ; ; ; $H g q F E F E H X E H E E E : $ S E E E R ; E $ E E E ! H H E g $ : q F E E @t s o @ r N - o o - s o I - 9 9 I o F 9 v o o 9 9 9 - o v o F F o o - o F o o o a d a ci o d o o o I ci I q 9 I I o g ? I o o I I I o d I oo o o o o o o o o 6O N N O N t o @ N O O { t N o o @ o t @ F F o N N @ o @ O @ @ N F F F o o F OO 6 O @ - O O O T N S Q V N O @ O t O @ N @ N @ @ @ @ O O N @ O @ @ 9 O O @ N@ N O F O O O O O O i 9 t O O - t N N O @ @ N O A A F9 @ O N @ N l F F t s 9 q q q r q q q \ o? t oq cq q I r . r - r q r q q q .: q q q q r: q q q \ \ q q \ q -O O O O O O O o o F F -F o o O O O O O O O O O O o N @ Io + o N @ Q N r cy @ I@ -- \ N q6 - No @ \ o @ F Q o o o Q o @ o 6 o - o v I o { @ @ q) @ o q) o @ o { @ !2 @ E @ @ @ o t s f N N - Ll o 6 N S.l F N o F N o@ = t @ { t O - O O : s O F @ F 9 @ ! $ O @ { N ! O 6 O f FO o ! o @ s O o NO 9 @ N O O N I N O 9 N Q N O - 9 A 9 O O O - O 9 - - N e - F O v O O FO - ci d o o o d o d 9 ci o 9 o o o o o I o I o o o c i c i 9 o o o g o o ci g d ci c i o c i OO O O O @ @ @ O O @ O F F @ O F F @ N F - @ O O F @ - O O V O @ @ N O O O @ -O F 6 @ 6 N 6 O O F @ e F e A @ @ @ N O O O F N N N O F O I N O O N @ O O O O-Q N O N O O O O I S O O @ O O N @ @ O O N $ @ FO O @ O @ N @ N O N S O - o? o a I 9 .! N c? q : q Q r q r o o, l a r - a r q n r r r r q r o r o! q q q r q q oo o o o o o o o o o o o o o a o o o Q o o Q o o o Q o a o o o o o o o o Q o F-r O r F t @ N F F O F O t s O O O O O O @ N t N @ N O O S @ N q Q @ N I N F @9 O 6 O 6 O O O i O O F O O S @ r @ t S O N @ @ F @ O @ O @ O l O N t s @ @ O OO @ N @ O O V O - @ N N N 6 9 t i v n S i O t { 6 N N F O A O O O O O O O O + O I N O N F O O O N N N N N N N N N N N N ( N N N N N N N N N N N N N N N N No o O N F O O O O O O O O O O A A O O O A O A O O O O O O O O O O O O O O O -N N o F 6 O t o F N F N @ F O F F @ N F 6 O @ F @ a @ { O @ O o @ \ O N O O !O O O - O - @ N @ O O O T F O N O @ F S 9 F N t s O O O @ S t s @ O O Y N @ O t s Nit O @ @ l A F F O o @ @ o o o N e F - F e A o O F F O O O O - - y O O O O q oq e c? q I a q q I n .: q q q q c q c c c c I q o o o o o o a a o a Y o o o o o @ F F { N - O O O O O O O O O A O A O O O O O O O O O Ci C i d C i O Ci I O O C i O OO N O O O O @ N O @ O @ I O O O - Q N I O O OO @ N O O O N N @ @ O 6 O O @ O @ @ - @ @ O N@ @ O O - - O O N O (- @ 6 t s O i O N O O O c qq q q c q q q q q q o e @ o q q q o q q \q q FT F o F o o o O O O O O O O O O O o @N @ t s N F N O O O t r O O N O N- F F O 6 N O O F 6 6 O N @ i @@ @ @ N O N O O @ < N F - N O Ot$ 9 O N N N N F F F - F - O rnNioIonNc2,5icicN.,. !c,IsIico?cto=j 12 1 TO F N O - N < ON O O O O @ - ON @ N O { - O \q q q q q q \ oo o o o o o o OO F t @ 6 - @ oo a o @ { o o @N @ @ 6 @ 6 0 @o @ N @ o o @ @@ o o N $ o o @@ o o 6 N @ o l- I c . ! N c , l o r 66 6 6 6 0 0 0 N* @ Q O N O @ o6 N N O O 6 0 -O N N O T O O rr r r r n q q NN N N N N N N ts N + O O O O O oo O @ t F O - Oo O O O O O F 99 : : q r o : oo o o o o o o NO O @ O r t s @ 6- 6 d 6 6 6 6 @o F o o - o o OO O - O@ N @ N - @ F tO O @ N O F N O@ F N F 6 t s @ aa q l u ? q q q q NN N N N N N N @@ N N 6 o Q q 8t 8 3 E E l i D @@ o o o o l q t oc i c i o c i d g g N6 O O F N O @ 60 @ + b 6 6 0 OO F N $ N O O o6 6 0 6 6 i o qi6 i - N o o i ; c i @o F o @ @ @ @ o9 o o F o 5 9 ob : o i i P : , b ;o r U b q 6 r q o! c i o P @ : P NO O O @ N O O io n @ N i o 6 6@ q o o o - r OO O F O O F F ^. i ni .i 6i .i . i 6i .i NF @ 6 @ @ F O FO @ N F N N @ -- @ F F Q O O FF o o o e o o cic i o d o o o o Qo @ i O F t o N@ q N O - O @ F@ O F O @ @ 6 NN O t oo 6 F @ o @ o NO @ O - O $ O €@ O @ F I O O :: a : q . ' ! c 2 q oo o o o o o o oo N 6 6 N O O FN O F O i O O Ft N 6 ? 6 @ O stt t $ $ $ 9 OIN O O O t s F r@ o @ N N @ - FN O 6 @ @ F @ q. ! . ! r : q r r oo o a o o o o o6 6 @ O 6 0 0 oo @ o F N o o OO O F F N N T c'? e l q q q e , ] e ? 9 oo o a o o o a Oq N O F t s O N @o N i o @ t s o OO O O F O O O qq c q c q q q oo o o o o o o o@ 6 o . - - o l - @o 6 0 0 N ? ! I o os N o N o o o l o NN N N N N N N I N oo o o o o o o l o N o N o o * - ol- 6 6 N O O O - @l O O N $ O @ s @ @l r N o @ @ + I r qlq N o 6 o 6 6 E 6 1 6 I -_ - - t - @ @ i @ @ N @ o l @ @ F @ @ @ o @ O 1 6 6 6 6 6 C 6 6 @ 1 6 ;; ; ; ; ; ; ; l ; o N o - o :: ;: - 1 9 o o o o o A ; ; l o I -- ^ - l - F T O = F F N @ I F N N O F 6 O N N I O :: : : : : : : l : I oo r o * * - - l - OO N O O O O O I F 6 o N o < o @ -IF N6 6 N 1 6 do o d c i o o o l c i I xr o Q Q 9 o - l o - a 6 I Y: : @ nlo o r o : : . : F 6 1 6 o6 6 s l v 1 Y o r l N oo o ! 9 8 < , d l d ; P R P B s a e; l s 3S S : & E h $ 3 ai o o Q I \ 6 F l - - - _ -l * F F r O O - - 61 6 * N N r @ { < r l o d o @ 6 q q u ! c q h N 6 6 + o c E N I E : = : :: " .: l : @ 6 @ N r 9 O @ l N N o 6 o N r 6 N l 6 @ t s @ o N F @ @ l O o o i r u o o o Gi -lG i R R E B s e * s l s + O - t @ O @ OIF { O O N N N O N I O o a i c i a i d ^i ^ i ^ i l ^ i N N o N - . - -l - @@ N o O O @ F l o F 6 O 6 O O O O l n I r - : - : : ql . : o o o o o o o o l o @ o N { - * * -l - F O N N i O @ O I O N - 6 6 a N al l a e t a a l l a ": . : : : : : l : @ s o @ { o N o l o o * 6 N r N N O a 6 o N N N N c'. l N O l c ! o o o o o o o 0 1 6 o6 o o - - * * l = < = @ O N - F FIN N N d O F F N o l - :: : : : : : : l : I o- - - l - N 6 C O N O t @ l O o r 6 o N 6 N c l N N o o $ a r o ol a 2 99 9 9 9 9 9 9 1 9 I o* - - l - F @ @ 6 F O @ N I @ q i 6 N o o 6 N l @ 6@ @ @ @ F @ @ l @ o o o o o a ao l o 6o 6 @ - o - - l - F O i @ N 6 6 @ l o F F F O O O F O I F o o ol q q o o o l q o o o o o o o a l o ,aec o; fB cE sd LE vo o. E co=o 9t r _- eo9 Co c(.) otpnot r 6oo, . zt ) (0(C o3 oo Zo :z I{ oo oEoEr (cIa -' ! oc U( (c0( -9N!o6o!oaooF6o a 12 2 6@ O 6 0 0 6 @o N o o 6 @ t@ + { o o N do d d o o o oo d c i o o c i ON N S O 9 F @@ o o = 9 @ 6@ 6 0 s e @ O- O - r : ' : O oo o o Y Y o F$ @ O F N F @N O O @ N - -@ t o F F o e2 q c 2 q o i . ! n @o o N N o N l oi t s @ N 6 0 N t+ s q t t a t oo o o o o o o dc i c i d c i c i c i d n@ @ @ o o o o OV N S Q N - N NF O O O O O O oo o @ @ @ o o oo o o c i c i o c i O@ O F O F I @ Nn @ 6 t @ o N On O t t s O F - .q q q q q o q OO F r ON @ O @ F @ 6F O O T O O NO F - O @ @ eq : q . ! c ! c ' l oo o o o o o -6 O O N @ 6 FO Q t s O O @ $F @ N N N - oo o o F F @ ci- c i o c i d o QF N o a A A - o@ N + o @ N 6 @l o o o o o t qq q C r q q o NN N N NN N N N N N N @o 9 s @ a o o oo o @ o o o o @o O O F O @ F c? c ? c ' l e ? 1 a 1 u l oo o o o o o o @@ F V F N F Q QO @ N F N O O oo F F @ @ @ 6 @@ @ @ @ o @ @ do d d o d c i c i -O N 6 9 t O F St s O V t F F O oo o n o t s @ o @o N t s @ @ F @ 6i^ i d 6 i ^ i ^ i ^ i ^ i OF @ @ O N @ N o@ N 6 0 9 $ N !N O N O F N O qu ? q q 9 u l q 9 oo o o o o o o EE E i R g $ F eo o e o o e o YO O Y O O Y O @s o o j @ 6 o NC O O n N T N F6 @ t s 6 @ @ @ o9 o ' l c ? o ? a ? e c ? oo o o o o o o FO F F @ n , ^ ^ @N - @ F t ; X : iN @ o o t s - : Oa a : o o b 6 oo o o o o A ^ N6 l t ? ! o @ @o t { N ( o F @ oo o o oa o o o o o c i FO - 6 O 6 O O ON - - F O F - oo o o o o o o 9q q q q c c q oo a o o o o o ts Nt 6 - 6 O O O N( o F @ F @ O S !o o o o o o o cc q q q q q c oo o o o o o o OO @ N N N N O {@ @ - - O N @ oo o N o t s @ o F@ @ @ @ O 6 0 dd c i d d o d o 40 F @ + N O O NO O @ @ O - - OO @ N O t s t s - F@ @ O @ N @ @ dc i d d c i c , o o e3 3 e 3 3 P x :e & I 3 E 8 F ;o o ; o o o ^ O- i @ @ @ O ! O- O @ O F O @ NO @ t s @ @ @ @ ON N N N N N N oo o o a o o o -€ @ @ N o @ @ 60 0 i * @ @ N No o 6 6 0 N o to N o t t o t OO @ F q o @ @ @F - O O t O F oa o o F o o 6 qq q q q q q o oo F o @ @ { o @+ F O F @ @ O 6@ - N @ t O O ia 9 9 9 q 9 \ @o @ @ o o l - FO O @ O O i F nN F O @ @ 6 @ cq q q . ! q c ! q oo a o o Q o o OO N O O N O O NN O O O , ; O N N= N O O x O O aO o o a 6 F o Cg q g C o C C N- O 6 @ n F i O@ O N O 6 - F No $ o o @ t s t s oo c i o o o o o N@ @ O O F O @ FN 6 O @ @ @ t s 88 8 8 8 8 8 8 QQ O O O O O O oo + i @ @ o F@ d N O @ O 66 6 6 F 6 O \q r q q q r oo { t l o o NN N N N N N N{ O O t s @ N @O O N O O F F@ t s @ N O 9 q. e a \ q o ? OF F F F - F N@ N N O N N Fo o { { @ o @o F @ o { N qa a a a a ! ao o o o o o 6@ F N - @ O @F 9 F O @ @ @@ N @ o ! F qq c q q c c oo o o o o o OO 6 - @ @ O NN + O n O O oO N - { N F ar q 9 9 a c ? oo o o o o a tO O + O O F O$ - o O N o @N O 6 i @ N 99 q 9 q o c oo o a o o a o\o3g qaCc o r- >d3 0- 'n( oc o9 O. ( EcC ot9' ; .9 ( l ooo. . o:2c a' 9 .= d ooZo cc=o @r GoEc cc(.)od.coo o r- g (J E u 0( o9 I6(E oIoloFoo MAX.|R Basic Validation Report Validation Status: Unit Model: DTGS Spectrometer: Detector Model: StarBoost Filter: Attenuator Screen: Gas Cell Model: Pressure Transducer: Gas Cell Window Material 18253s2 N/A S/N:1426177 O-rings: Voltage:12OVAC Laser Frequency (water band@ 3133.068 cm-1): At water band 3133.068 cm-1 (+/- 0.02 cm-l) FWHM: 1.046 cm-1 (1.04+10.04cm-1) ". ,* ,* ,; T- &tq tf,r! &hF M tu rddM rsr*"6 u. fllkry- l.jblrceery irt[;;r ,Vrki.dM& llllm ls4 lBre t13@lm:Crydkfq ltnr6ia*ua gny ,ltFL-__,-lm.6'ft!!6'@lfl*uws6-iflraur*tf!-*ur* MAX Ana lytica I Tech nologies part of Thermo Fisher Scientific PASSED I 0 I -0343 DTGS None None t0t-0324 20 psia ZnSe Viton S/N: S/N: S/N: S/N: 00441 t841377 \/ \ \ \ \ \\ \ \\----\: CTS check at temperature (191"C): Ethylene certified cylinder # CC106195 exp: 08-19-2025 MAX-|R measured ethylene: 102.299 ppm \ \ \ \n \ /\ /.V \ ,ni ---\ /\\'l 'r/ v V conc: l!lp!m_(t 1%) t(02.299 / 101)-11* 100 = 1.29% difference Specification: < t 2% certified value 123 Page 1 of 2 Signal @ 191"C: 0.07 (0.04) Resolution = 1 cmi Scans = 10 Detector Gain = 27 Linearity: 0.01 1 3olo (<0. 1 %) tsr,.tur J lEr.,trr Johndunn Johnston Print Signature 09-0.s2024 Date :.l fr \ \^V'r ,tlrL.rh ff*ff -u rp E qr lural&&!4.U;ru1D rc oG, E* :lrillo@00mr.frla :l t tI I 1At Prye2ot 2 Specrner- RerenrNcE e$&tftrie6E-,oEf&, )6E$eiltIf,l+!r-fr!asrrI$ Ita,Tt0Is**ETEt,E} .i .. i . - t i - ;i - ; - i i -,{ ; } -; f ii. - ; i ;i - i ' ; } ; ;i- *- t- { - ie - - i nd - - o a o o o - - - q q - - o o o . ? q q o9 c o9 o 6. ) oo o cg ? o e r e J I 3 88 I f 3 * i l X 3 ; t * ; 3 ; L n d ^, u 6 ry ! r r . ; - a4 6 6 - d - i - i 83 g$ t s e s $ 8 s 8 t e 8 8 3 8 e $ S A 88 * tr as * 8 8 8 $ * 8 $ qS B g S *E o, o o d 3 ?: ? ? 31 1 L 1 7 1 1 . 4 1 1 1 1 L 7 7 1 11 ) 1 - 6'5 n , i 6 PX : : sP 2 e i' R t E P = 9 2 2 . " . 2 ' . . a f f fi ff fi s E, i, E, 6, E, 5, E,E , 6, 8, E, s E, E E, .'. ' . 1 ",8 € E E E E E E E E E E E € ' A aa r o * -r F . d i ^ l - 6 d - i :E I S E g n gH ; e A : H e E : h f r +I -r y d ;5J3 . !E !Jld Ii_,. I !i ,! * ,i o <E Eil$n l; i l ! .{ l 5 l 'L c i, i i EE l i , , : l o i 33 I,!l<ir t i{ - g -- - ; 9 8 -s $ $ ll l - EP S ; E. E E ! _e i s r __ _ I .- - - ET&!J 12 9 *{at_ r 4rE* { a qt.s*I$s1#tE{sw 7* :BJ3 7{ .x I !r .i= t ILIIIlrt& Et- rii j jr :il *$? l- - : t l! i l 1l l l { t f I -a e l. j l E q ls l $ ! lr i > > 16 l R* t g * g* * * * EB E E E EE A A : ' 5A 9 9 * ;IE - -: r ! 13 1 b':!di9*51 1 _b B {TtIIqIf;FaEItE} ssi|tI,iIterE}'E} ]:oTtsIEl&Itf, ,E!nTnEx SECTION 4: RAW DATA K-3G Ozr NOx AND GO 137 Company Station Unit TimeStamp 1110612024 0A:29:1O 1110612024 08:28:20 1110612024 O8:28:3O 11lOBl2O24 oa:za:4o 1 1r'06/2024 08:28:50 1 1^E/2024 08:29:00 Avoraq, 1'1106/2024 08:38:19 1110612024 08:38:29 1 1/08/2024 08:38:39 1 1/06r'2024 08:38:49 1 1/06/2024 08:38:59 '1 1/06/2024 08:39:09 Awrago 11lOBl2O24 08:42:25 11lOBl2O24 08:42:35 1110612O24 Oa:42:45 11lOGl2O24 Og:42:55 11lOBl2O24 Oa:43:O5 11rcA12O24 oa:43:15 Avengs 11lOBl2O24 o8:44:1o 11lOBl2O24 08:46:20 1 1/06/2024 08:46:30 11lOAt2O24 08:46:40 11lOBl2O24 O8:46:50 1 1/06/2024 08:47:00 AveEga 11106,12024 Oa:51:2o 1 1i06l2024 08:51:30 1110612024 08:51:4O 1 1/06/2024 08:51:50 11lOBl2O24 oa:sz:oo 11lOOl2O24 08:52:'lO AwEgo 'l1tmt2024 08:54:27 1110612024 08:58:37 1110612024 O8:56:47 '11106,12024 08:fi:57 1'l10612024 Og:57:07 1110612024 08:57:17 Average 1 1/06/2024 08:59:49 1 1/06r'2024 08:59:59 1 1/06/2024 09:00:09 11/06/2024 09:00:19 '1 1/0GU2024 09:00:29 1 1/00/2024 09:00:39 Avcrage 11lodl2o24 09:32:33 1110612024 09:32:43 11lOBl2O24 09:32:53 1 1/0d2024 09:33:03 1 1/06/2024 09:33:13 11lOBl2O24 09:33:23 1 1/0U2o24 09:33:33 11/06r'2024 09:il:l:43 1 1/06/2024 09:33:53 1110612024 O9:U:O3 11to612024 09:14:13 11t06t2024 09.34.23 11lOOl2O24 09:34:33 1 1/0€/2024 09:34:43 1 1/D6/2024 09:34:53 1 1/06/2024 09:35:03 1 1/06/2024 09:35:13 1 1/06,/2024 09:35:23 AveEga 1110612024 o93a:26 1 1/0€r'2024 09:36;38 1110612024 093A:4e 1 1/06/2024 09:36:56 A.ltamont Main Gas Planl K-3C o2 -0.01 -0.02 -0.03 -0.01 -0,o2 -o.o2 .0.02 '10.98 10.97 1 1.00 10.98 10.99 '10.97 10.98 5.06 5.05 5.05 5.05 5.05 5.04 5.05 20.75 20.79 20.77 20.80 20.79 20.75 20.78 0.04 0.03 0.04 0.04 0.03 0.01 0.03 5.12 5.11 5.11 5.08 5.08 5.08 5.10 0.02 0.02 o.o2 0.01 0.01 0.02 0.02 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.08 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.05 {t.06 -0.08 -0.06 -0.07 -0.07 PBam 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 2X.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.76 23.76 23.76 23.76 23.76 23.74 27.16 23.78 23.74 23.76 23.74 23.76 23.74 23.76 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.77 138 Group name Calibralion Check CalibEtion Check Calibration Check Calibration Check CalibEtim Check Calibralion Check Calibratim Check Calibration Check Calibration Check CalibEtion Check CalibEtim Ch6ck Calibration Check CalibraUon Check Calibration Check Calibratim Check CalibEtitr Check Calibralion Check Calibration Check Conwrter Ch€ck Converter Check Convorter Chsck Convertsr Check Converter Check Converter Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bi$ Check Pre Bias Check Pr€ Bias Check Pre Bias Check Pr€ Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check StEtifietion T€veBe Stratification TraveBe StratiliEtion TEverse StEtifiction TEveBe Stratifietion TEveBe StEtification TraveBe Stratilication Tlaver3e Stratifi€tion TEveBe Stmtifiction TmvsBe Stratilietion TEverce Stratification Trav€Be Stratification TEveBa Stratifi cation Traverse Stratifi€tion TcveBe Stratilication Traverse Stratifletion TraveEe Stratification T€veBe Stratiticauon TraveBe Stratifi€tion TEverce Stratification TraveBe Stratili€tion TmveBe Stratifi cation Traverse Run name Zerc Cal Check Zem Cal Check Zerc Cal Check Zero Cal Chsck Zero Cal Check Zerc Cal Check Span Cal Ch6ck Span Cal Check Span Csl Checl( Span Cal Check Span Cal Check Span Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Ched i/id Cal Check Mid Cal Check NO2-NOx Cal Check NO2-NOX Cal Check NO2-NOI Cal Ch6ck NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOX Cal Chock NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias 02 Bias 02 Biss 02 Bias 02 Bias 02 Bias 02 Bias CO Bias CO Bias CO Bias CO Bias CO Bias CO Bias *1 Strat Check #1 Strat Check #1 Strst Check #1 Strat Check #1 Strat Check #1 Strat Check *1 Strat Check #'l Sfat Check #1 Strat Check #1 Skat Check *1 Skat Check #1 Strat Check #1 Skat Check #'1 Strat Check #l Strat Check #1 Strat Check #1 StEt Check *1 Strat Check #2 StEt Check *2 StEt Check #2 Strat Check #2 Strat Check NOr 0.00 -0.02 -0.03 -0.05 -0.07 -0.08 {.04 465.18 465.34 465.23 465.09 464.94 444.82 /165.'10 1 93.52 1 93.35 193.1 I 193.0S 1 93.00 192.93 193. tE 42.O5 42.v 42.61 42.87 42.72 42.79 12.53 189.55 189.62 189.60 189.59 189.55 '189.s2 189.57 1.17 1.09 '1.01 0.95 0.89 0.85 0.99 0.43 0.40 0.37 0.34 0.32 0.30 0.36 19.18 17.23 14.68 1 2.99 '11.68 10.31 9.41 8.54 8.00 1 .14 0.63 8.1't 5.84 5.55 5.38 5.15 5.05 4.94 9.10 1.'t2 4.73 4.75 4.68 co 0.01 0.02 0.05 0.08 0.0€ 0.04 0.04 446.00 447.20 447.20 448.00 448.00 448.00 {/7.10 196.00 196.00 196.00 '196.00 196.00 '196.00 196.00 3.05 2.61 2.85 3.07 3.07 2.76 2.90 o.02 0.00 -0.04 -0.10 -o.'t2 -0. 13 {t.08 1 .15 0.83 0.56 o.42 0.31 0.25 0.59 1 .20 1*.20 194.10 1 95.00 '195.00 195.00 194.5E 9.44 7.71 7.12 6.57 6.13 5.80 5.57 5.46 5.44 5.42 5.38 5.28 5.24 5. 18 5.08 4.95 4.85 5.83 4.58 4.57 4.66 4.88 Humidity 38.8 38.9 38.8 38.7 38.6 38.5 3r.7 38.3 36.3 36.2 36.1 36.2 38.4 38.2 35.1 34.9 14.8 34.8 34.9 35.0 3/t.9 36.9 36.8 36.6 36.5 38.3 fi.2 36.5 35.3 35.2 35.2 35.2 35.3 36.2 35.5 35.6 35.7 35.8 35.9 36.0 35.7 33.7 33.9 34.0 34.0 33.8 33.6 33.8 34.1 x4.1 34.1 34.1 34.'1 34.0 34.1 34.1 33.9 33.6 33.3 33.2 33.1 33.0 32.9 32.8 32.7 32.6 33.5 32.1 32.O 31.9 31.8 Arnbient 33 33 33 33 33 33 33 36 38 36 36 36 36 36 39 39 39 39 39 39 40 40 40 40 40 40 40 37 37 37 37 37 37 38 38 38 38 38 38 38 39 39 39 39 39 SS 42 42 42 42 42 42 42 42 42 42 42 42 42 43 43 43 43 43 12 43 43 43 43 Company Station Unit TimeStamp 1 1/06/2024 09:37:06 11lMl2O24 09:37'.16 11nAl2O24 09:37 .28 11lOOl2O24 09:37.36 1'l106,12024 09:37:48 11nAl2O24 09:37 .58 1 1/08/2024 09:38:06 't 1/06/2024 09:38:16 1 1/06/2024 09:38.26 1 1/06/2024 09:38:36 1 1/08/2024 09:38:46 1 1/08/2024 09:38:56 1 1/06/2024 09:39:06 1 1/06/2024 09:39:10 Avemgs 1 1/06/2024 09:40:39 1 1/O6i/2024 09:40:49 1 1/06,/2024 09:40:59 1 1/0€/2024 09r41:09 'l1lOEl2O24 09:41:19 11106,12024 09:41:29 1 1/0€/2024 09:41:39 11lOOl2O24 09:41:49 'l1lOGl2O24 09:41:59 11lOAl2O24 09:42:@ 11106,i2O24 O9:42:'tg 11lOGl2O24 09:42:29 11106,i2O24 09:42:39 11lOBl2O24 09:42:49 11lOAl2O24 09:42'.59 11rcAl2024 O9:43:Og 1'llm,/2024 09:43:19 1110612024 09:43:29 AveBgo 11lOAl2O24'lO:04'.42 11rc412024 1O:O4:52 11nAl2O24 1O:O5:O2 11rc412024 1O:O5:12 1110612024 1O:O5.22 11lOOl2O24 1O:O5:32 1110612024 1O:O5:42 1 'l lOOl2O24 1O:OS .52 11lOOl2A24 10:06:02 1'll0gl2024 10:06:12 11rc412024 'lO:OB:22 1110612024 1O:06:32 11lOAl2O24 10:06:42 1110612024 1O:OA.52 11lOAl2O24 1O:O7 .O2 11rc412024 1O:07:12 11lOAl2O24 10:07:22 11nAl2O24 1O:O7 .32 11lOBl2O24 10:07.42 11nAl2O24 1O:O7 .52 11D6t2024 10.@.O2 'l1lOOl2O24 1O:0A:12 11nil2o24 1O:O8:22 11lOAl2O24 1O:OA:32 11lOAl2O24 1O:OA:42 11lOOl2O24 1O:O8:52 11lOAnO24 1OiO9:O2 11DA|2O24 10:@:12 1110,812024 1O:O9:22 11/06/2024 10:09:32 11DO/2O24 10:09.42 11lOAt2O24 1O:O9:52 11lOGl2O24 1O1O:O2 11lOOl2O24 1O:1O112 'l1lMl2O24 1O:1O:22 1110612024 1O:1O:32 11lOAl2O24 1O:1O:42 11l0€,t2024 1O'.1O:52 11106,12024 1O:11:O2 11lOAl2O24 1O:11:'12 11lOBl2O24 'lO:11:22 1'l106,12024 1O:11:32 1'llOBl2O24 1O:11:42 1110,612024 10.11:52 Altamont Main Gas Plant K-3C o2 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 {.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.06 -0.06 -0.06 -0.06 -0.06 -0.08 -0.08 -0.08 -0.06 -0.06 -0.07 -0.07 -0,07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 PBarc 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 21.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.75 23.78 23.7E 23.78 23.78 23.78 23.78 23.78 23.74 23.78 23.78 23.78 23.78 23.74 23.78 23.7A 23.74 23.78 23.7A 23.7A 23.76 23.74 23.7A 23.74 23.7A 23.78 23.78 23.7A 23.74 23.78 23.74 23.7A 23.74 23.78 23.74 23.74 23.74 23.78 23.74 23.74 23.78 23.78 {39 Group name Stratillcation Travers€ Stratifi€tion TEveae StEtifi6tion TEreBe Stratitication Traverse Stratifi€tion TEveBe StEtitietion TEveBe Stratifi cation Trav€rse Stratifi€tion Traverse StEtifi€tion TEwBe StEtification Traverse Stratitication TraveBe Stratifi€tion TEwBe Stratifi cation Traverse Stratifi c€tion Traverse Stratification Trav6Be Stratilietion Traverse Stratification Tlaverse Slratificaiion TraveBa Stratilication Traverse Stratifi€tion TEversa Stratifi6tion TEvsBs Stratilietion TmveBe Stratifl€tion Traverse Slratilication Traverss Stratilietion TEreBe Stratili@tion Traverso Stratili€tion TErerse Stratification Traverso Stratifi cation Traverse Stratifi€tion TEverse Stratification TravsBe StratiliEtion TEveRe #1 Test Run - 00 #1 Test Run - 60 #1 T6st Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #l Test Run - 60 #1 Test Run - 60 #1 Tast Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #'l Test Run - 00 #1 Test Run - 60 #l Test Run - 60 #1 Tesl Run - 00 #1 Test Run - 60 #1 Test Run - 60 #l Test Run - 60 f1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 #1 T$t Run - 80 #1 Test Run - 60 #1 Test Run - 80 #l Test Run - 60 #1 T$t Run - 60 #1 Test Run - 60 #1 T$t Run - 80 # l Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 TBt Run - 60 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 T*t Run - 60fl Tast Run - 60fl Test Run - 60 Run name #2 Strat Check *2 Strat Check #2 Stmt Check #2 Strat Chek *2 StEt Chsk #2 StEt Check #2 Strat Check #2 Strat Check #2 StEt Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check ,A3 Strat Check #3 StEt Check #3 Strat Check #3 Strst Check #3 Strat Check #3 Strat Check #3 Stmt Check #3 StEt Check #3 Strat Check #3 Strat Check #3 StEt Check #3 Strat Check #3 StEt Check #3 Strat Check #3 Strat Check #3 StEt Check #3 StEt Check *3 SiEt Check Test Run Test Run Tast Run Test Run Test Run Test Run TBst Run Tost Run Test Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run T63t Run Test Run Test Run Test Run T6st Run T$t Run Test Run Test Run Test Run Test Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run NOx 4.61 4.52 4.42 5.08 5.68 6.33 7.O7 6.81 6.e2 o.t/ s.72 5.35 4.97 4.72 5.39 4.18 4.14 4.11 4.09 4.12 4.15 4.24 4.34 4.27 4.25 4.15 4.06 3.99 3.92 3.83 3.74 3.67 3.58 /1.05 2.U 2.92 2.99 3.06 3.13 3.20 3.30 3.27 3.25 3.14 3.04 2.95 2.85 2.86 2.85 2.47 2.91 2.88 2.83 2.97 3.09 3.20 3.29 3.26 3.21 3.15 3.11 3.07 3.08 3.09 3.04 3.01 3.03 3.05 3.09 3.15 3.19 3.22 3.26 3.32 3.27 3.22 3.18 co 5.15 5.43 5.6'l 5.69 5.68 5.61 5.56 5.46 5.30 5.17 4.99 4.87 4.78 4.60 5.'15 4.A7 4.85 4.95 4.96 4.89 4.85 4.90 4.97 5.1t 5.22 5.25 5.23 5.14 5.03 4.97 4.91 4.92 4.94 /t.99 4.58 4.51 4.45 4.46 4.48 4.51 4.53 4.57 4.62 4.76 4.89 4.95 4.93 4.U 4.74 4.68 4.63 4.55 4.47 4.42 4.37 4.34 4.37 4.38 4.38 4.38 4.36 4.36 4.42 4.46 4.46 4.44 4.39 4.35 4,36 4.40 4.41 4.43 4.47 4.50 4.59 4.73 4.87 4.98 Ambient 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 44 43 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 44 44 44 44 44 44 44 44 44 Humidity 31.8 31.6 31.5 31.4 31.2 31.0 30.8 30.8 30.8 31.0 31.2 31.4 31.4 31.4 31./t 31.1 31.0 30.8 30.5 30.3 30.2 30.1 30.1 29.9 29.8 29.4 29.7 29.6 29.5 29.5 29.6 29.5 29.5 30.0 27.5 27.7 27.8 27.9 24.4 28.8 28.7 25.5 24.2 24.'l 28.0 27.9 27.8 27.3 27.2 27.s 27.8 28.2 28.5 28.A 29.1 29.4 29.8 29.9 30.0 30.0 29.9 29.8 29.5 29.2 29.0 29.0 28.9 29.0 29.1 29.1 29.2 29.3 29.4 29.5 29.4 29.3 29.2 Company Station Unit TimaStamp 1 1 tO612024 ',tO .12:02 11lOGl2O24 10:12:12 11lOBl2O24 10.12:22 11lOGl2O24 10:12:32 1'110612024 1O.12:42 1 1 rcAl2o24 10:12:52 1110612024 1O:13:O2 1'llOOl2O24'10:13:12 111c6,1202410:13:22 1 1 tO812024 ',tO .13 .32 11lOAl2O24 1O:13:42 11lOOl2O24 10:13:52 1110612024 1o:14:O2 11lOAl2O24 10.14:12 1110/612024 'lO:14:22 1',108,12024 ',|O.14.32 11lOAl2O24 1O:14:42 11rcA12O24 10114.52 11lOOl2O24 10:15.O2 11lOBl2O24 1O:15:12 11tO612024 10.15.22 11l0al2o24 10.15t32 111W2o24 10:15.42 11l0€,l2024 1O:15:52 'l1l06t2o24 10:16:02 11lOAl2O24 1O:1A.12 11loal2o24 10:16:22 11to6t2024 10'.18:32 1110f,12024 10:16.42 11lOOt2O24 10:1.8:52 11lOOt2O24 10:'17:o2 1110612024 10:17:12 11lOAl2O24 10:17.22 1110612024 10:17'.32 11106,12024 10:17.42 11l0€,l2024 10:17:52 11106,12024 1O:18:o2 111ffi12024 1O:18t12 11lOBl2O24 10:18:22 1110612024 10:18:32 11tOA12024 10JA.42 'l'1/06/2024 10:18:52 111ffi12024 1O:19:O2 11loal2o24 10:19.12 11106,12024 10:19:22 'l1lOBl2O24 10:19:32 11lOAl2O24 10:19:42 'l1lOBt2O24 10:19:52 11l0al2024 1O:2O:O2 1110612024 1O:2O.12 11lOAnO24 1O:2O'.22 'l1lOAl2O24 1O:2o:32 'l1lOOl2O24 1O:2o:42 11lOAl2O24 1O:2O:52 11106,12024 10:21.O2 1110612024 1O:2'l'.12 11l0ts,l2024 10:21:22 1110612024 10:21:32 11lool2024 1O:2'l:42 11lOAl2O24 10:21:52 1110612024 1O:22:O2 11lOAl2O24 10:22:12 1110612024 10:22:22 11lOAnO24 10:22:32 11lMl2O24 10:22:42 11loal2024 10:22:52 11lOOl2O24 10:23:02 11lOOl2O24 10:23:12 1110612024 10:23:22 '111of,,12024 10:23:32 11lOOl2O24 10:23.42 11loal2o24 10:23.52 1110612024 10:24.02 11l0al2024 10:24:12 1110f,12024 1O.24:22 'l1lNl2O24 10:24.32 1 1 lOAl2O24 10:24 .42 11lOAl2O24 10:24:52 1110612024 10:25:02 11t0f,12024 1O:25.12 Altamont Main Gas Planl K-3C o2 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.08 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -o.o7 -0.08 -0.08 -0.07 -0.07 -0.07 -0.08 -0.06 -0.07 -0.07 -0.08 -0.08 -0.07 -0.07 -0.07 -0.06 -0.06 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.06 -0.05 -0.06 -0.08 -0.06 -0.06 -0.06 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.08 -0.08 -0.07 -0.08 -0.07 -0.06 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 PBaro 23.74 23.75 23.7A 23.78 23.78 23.74 23.74 23.74 23.74 23.78 23.7A 23.74 23.78 23.78 23.78 23.78 23.75 23.74 23.78 23.78 23.78 23.74 23.78 23.78 23.7A 2X.78 23.74 23.78 23.78 23.74 23.78 23.78 23.78 23.78 23.78 23.7A 23.7A 23.74 23.74 23.78 23.74 23.74 23.78 23.78 23.74 23.74 23.7A 23.7A 23.74 23.78 23.78 23.7A 23.75 23.78 23.78 23.78 23.74 23.78 23.74 23.74 23.78 23.78 23.78 23.74 23.78 23.78 23.78 23.76 23.78 23.78 23.74 23.78 23.78 23.74 23.78 23.78 23.78 23.78 23.78 23.75 ,14[) Group name #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #l Test Run - 60 *1 Tsst Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 8o #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 il Test Run - 00 #1 TBt Run - 60 #1 Tost Run - 60 fl Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 il'l Test Run - 80 f'l Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #l Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #l Test Run - 00 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 f1 Test Run - 60 #1 Test Run - 60 #1 Tesl Run - 60 #1 Tesl Run - 60 *1 TBt Run - 60 ,1 Test Run - 80 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 50 ll Test Run - 80 il1 T$t Run - 60 il1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 TBt Run - 60 #1 TBt Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 #1 Test Run - 00 *1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 f1 Test Run - 60 #1 Test Run - 60 NOx 3.13 3.19 3.23 3.32 3.41 3.37 3.32 3.29 3.25 3.37 3.48 3.52 3.58 3.63 3.68 3.82 3.59 3.52 3.45 3.37 3_28 3.31 3.33 3.41 3.51 3.48 3.44 3.69 3.83 4.01 4.22 4.11 4.00 3.80 3.60 3.48 3.27 3.24 3.20 3.20 3.18 3.20 3.2'l 3.21 3.21 3.13 3.06 2.91 2.76 2.74 2.70 2.73 2.7e 2.75 2.76 2.71 2.67 2.59 2.52 2.55 2.56 2.67 2.74 2.81 2.86 2.80 2.75 2.611 2.s6 2.50 2.42 2.58 2.74 2.86 3.09 3.12 3.17 3.09 3.01 3.01 co 4-98 4.87 4.7A 1.75 4.75 4.7A 4.82 4.88 4.88 4.87 4.81 4.69 4.56 4.45 4.34 4.24 4.17 4.13 4.13 4.09 4.03 4.00 4.01 4.O7 4.15 4.19 4.',14 4.'10 4.11 4.09 4.11 4.19 4.31 4.50 4.68 4.81 4.81 4.77 4.75 4.81 5.04 5.38 5.62 5.68 5.56 5.31 5.12 5.04 4.95 4.88 4.83 4.78 4.68 4.61 4.49 4.35 4.25 4.18 4.14 4.13 4.13 4.15 4.19 4.20 4.19 4.16 4.13 4.17 4.27 4.34 4.37 4.29 4.17 4.O4 3.95 3.89 3.86 3.88 3.93 3.96 Ambient 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 43 43 43 43 44 44 44 44 44 44 44 44 44 43 43 43 43 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 14 Humrdity 29.1 29.0 24.8 28.8 28.8 29.0 29.2 29.5 29.5 29.4 29.4 29.6 29.8 29.9 30.0 30.0 29.9 29.8 29.7 29.0 29.8 30.0 30.2 30.4 30.6 30.6 30.5 30.6 30.6 30.6 30.6 30.5 30.3 30.2 30.2 30.1 30.2 30.2 30.2 30.2 29.9 29.8 29.6 29.4 29.3 29.1 28.9 28.9 28.9 24.9 29.0 29.2 29.3 29.4 29.5 29.7 29.8 30.0 30.1 30.3 30.4 30.4 30.4 30.4 30.4 30.5 30.6 30.8 30.9 30.5 29.9 29.5 29.3 29.3 29.4 29.4 29.3 29.4 29.5 29.5 Run name Test Run Test Run Tsst Run Test Run Test Run Test Run Tost Run T6st Run Tost Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run T6st Run T€st Run Test Run Tasi Run Tesl Run T€st Run Test Run Test Run Test Run Test Run Tsst Run Tost Run T6st Run Tesl Run Tert Run Test Run Test Run Test Run Test Run Test Run Test Run T$t Run Test Run Test Run T6st Run Test Run T33t Run T$t Run T$t Run T$t Run T*t Run T$t Run Test Run Test Run Test Run Tast Run T6st Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp 11lOOl2O24 10:25:22 11lOOl2O24 10:25:32 11106,12024 10:25:42 11lOBl2O24 10:25:52 11lOOl2O24 10:26:02 11nAt2O24 10:28:12 11lOAl2O24 10:26:22 11lOAl2O24 10:26:32 1'lltrl12024 10:26:42 1110812021 10:26:52 11lOOt2O24 10:27 .02 11lOOl2O24 10:27:12 11nAl2O24 10:27:22 11rc4PO24 10:27:32 1110612024 10:27.42 11lOAl2O24 10:27:52 11lOAl2O24 1O:28:O2 'l1lOOl2O24 1O:24i2 11lOAl2O24 10:24:22 11lOOl2O24 10:28:32 'l1lOAl2024 10:28:42 11lOOl2O24 1O:2A.52 1110f,2O241O:291O2 11lOAl2O24 10:29:12 11lOAl2O24 10:29:22 11lOAl2O24 10:29.32 11l0al2o24 10:29:42 11lOOl2O24 10:29:52 1 1/0€,/2024 10:30:02 11lOAl2O24 1O:3O.12 11106,12024 10:30:22 11n€l/2024 1O:3O:32 11nAl2O24 1Oi3O:42 11lOBt2O24 10.3O:52 11lOEt2O24 10:31:O2 11lOOl2O24 10:31:12 1110612024 10:31:22 11lOBl2O24 10:31:32 11lOAl2O24 1O:3'l:42 11lOBl2O24 10131:52 11lOOl2O24 10:32:02 1110612024 10:32:12 '1110612024 10:32:22 11106,1202410:32:32 1110,812024 10:32:42 1110612024 10:32:52 11lOAl2O24 1O:33:O2 11lOOl2O24 10:33:12 '11106,12024 10:33'.22 1'll0E,12O24 10:33'.32 11lOAl2O24 10:33:42 1110612024 10:33:52 11lOOl2O24 10:34:02 11DAI2O24 1O:Y:12 11lOOl2O24 1O:U:22 11lOOl2O24 1O:U:32 1110612024 lO:Y.42 1UO6|2O24 10:34:52 11lOBl2O24 1O:35:O2 11lOOl2O24 10:35:12 11lOAnOz4 10:35:22 11lOGl2O24 10:35:32 1110612024 1O:X5:42 11lOGl2O24 10:35:52 11lOAl2O24 10:34:02 1110612024 10:36:12 11lOBl2O24 10:36:22 1110612024 10:36:32 11108,12024 10.16:42 11106,120241O:3A:52 'l1106,12024 10:37:02 1110612024 10:37:12 11lOAl2O24 10:37:22 11lOOl2O24 10:37:32 'l1l$l2o24 10:37:42 1 1 lOGl2O24 'lO:37 .52 11lOAl2O24 1O:M.O2 11lOAl2O24 10:38:12 11DA/2O24 10:38:22 11lMl2O24 10:38:32 Altmont Main Gas Plant K-3C 02 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.00 -0.07 -0.08 -0.07 -0.07 -o.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.0e -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.00 -0.07 -0.07 -0.06 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.05 -0.07 -0.08 -0.07 -0.06 -0.06 -0.06 -0.08 -0.08 -0.08 -0.07 -0.06 -0.06 -0.05 -0.06 -0.06 -0.05 -0.05 -0.08 -0.07 -0.08 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 Group name #1 Test Run - 80 #1 Test Run - 60 fl Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 00 #1 Test Run - 80 #1 Test Run - 80 ,1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 00 #1 Test Run - 80 #1 Tesi Run - 80 #1 Test Run - 60 #l Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 TBt Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 80 #1 Test Run - 60 #'l Test Run - 60 *1 Test Run - 60 {1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60fl Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 00 #'1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 fl Test Run - 80 #1 Tesl Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tesi Run - 60 #1 Teqt Run - 60 #1 Test Run - 60 #1 Test Run - 60fl Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 il'l Test Run - 00 #1 Test Run - 00 #1 Test Run - 60 #1 Test Run - 60 #1 T€st Run - 60 #1 Test Run - 60 #1 Test Run - 80 il1 Test Run - 00 #'1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 TBt Run - 60 NOx ,oo 3.23 3.58 3.70 3.83 3.71 3.53 3.35 3.21 3.06 2.96 2.45 2_78 2.70 2.63 2.56 2.58 2.58 2.79 3.00 3.07 3.20 3.23 3.26 3.22 3.18 3.17 3.10 3.08 3.01 2.90 2.77 2.84 2.90 3.2'l 3.51 3.81 4.11 4.19 4.29 4.24 4.20 4.01 3.83 3.65 3.46 3.33 3.19 3.15 3.07 3.1 1 3.15 3.19 3.23 3.25 3.28 3.23 3.20 3.12 3.04 3.06 3.07 3.5s 3.75 4.00 3.83 4.24 4.62 4.93 4.964.il 4.26 3.84 3.63 3.26 3.11 co 3.95 3.94 3.8t1 3.80 3.78 3.79 3.85 4.O2 4.18 4.35 4.46 4.47 4.45 4.36 4.31 4.3'l 4.32 4.32 4.25 4.21 4.13 4.06 4.03 4.00 4.00 3.98 3.94 3.88 3.79 3.78 3.88 4.O4 4.13 4.18 4.16 4.10 4.09 4.03 4.05 4.05 4.O4 4.05 4.03 4.01 3.95 3.90 3.86 3.83 3.81 3.79 3.80 3.81 3.84 3.86 3.8e 3.85 3.E8 3.95 4.03 4.19 4.25 4.23 4.20 4.17 4.24 4.37 4.46 4.55 4.57 4.86 4.81 5.00 5.16 5.26 5.30 5.25 5.13 5.02 4 g'1 Anbient 44 44 44 41 44 44 44 14 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 42 42 42 42 42 42 42 42 42 42 42 42 42 42 43 43 43 43 43 43 lX PBarc 23.78 23.78 23.78 23.74 23.74 23.74 23.78 23.74 23.74 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.75 23.74 23.74 23.78 23_74 23.78 23.78 23.74 23.74 23.74 23.78 23.74 23.74 23.7A 23.74 23.74 23.78 23.78 23.78 23.74 23.78 23.78 23.7A 23.76 23.74 23.78 23.78 23.78 23.78 23.78 23.74 23.78 23.78 23.74 23.78 23.78 23.78 23.74 23.78 23.78 23.74 23.78 23.?8 23.74 23.78 23.78 23.78 23.78 23.74 23.78 23.78 23.78 23.78 23.78 23.78 23.74 23,79 23.78 23.74 Humidity 29.5 29.5,o< 29.6 29.6 29.6 29.6 29.6 29.6 29.8 30.1 30.4 30.5 30.2 29.6 29.1 28.7 28.3 28.0 27.8 27.8 27.7 27.7 27.7 27.8 27.9 24.1 28.3 28.5 28.8 29.2 29.4 29.4 29.3 29.2 29.3 29.1 28.9 28.8 28.7 28.6 28.6 28.7 28.7 28.7 28.7 28.8 28.8 28.7 28.8 28.7 28.7 28.7 28.7 28.6 28.5 28.5 24.7 2A.A 29.O 29.O 29.0 29.1 29.1 29.3 29.6 29.9 30.3 30.7 30.7 30.6 30.5 30.3 30.1 29.8 29.7 29.7 29.7 29.7 29.4 Run name Test Run Test Run Tesl Run Tast Run Test Run Tost Run Test Run Tost Run T6st RiJn Test Run Test Run Test Run Tast Run Test Run Test RrEr Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Tesl Run T6st Run Test Run Test Run Tost Run Tast Run Tesi Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Tast Run Test Run Test Run Tast Run Tsst Run Test Run Tast Run Test Run Test Run Test Run Tast Run Tast Run T6st Run Test Run Tast Run Test Run Tost Run Tast Run Test Run Test Run Test Run Tsst Run Tesl Run Tesl Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run "t 41 Company Station Unit TimeStamp Altamont Main Gas Plant K-3C 02 1110612024 10.38:42 -0.06 1110612024 10:38.52 -0.07 11lOGl2O241o:39.O2 -0.07 11tffi12024 10.39.12 -0.08 11t06,t2024 10..39.22 -0.08 11na12024 10.39132 -0.07 111ffi12024 10:39:42 -0.06 11tO612021 10.39.52 -0.06 11tOAt2024 10.40.02 -0.07 11lOEl2O24 1O:4O:12 -0.07 1110612024 1o.4O.22 -0.07 11nal20241O:4O.32 -0.07 11lOAl2O241O:N:42 -0.07 11lOGl2O241O:4O:52 -0.06 11lOAl2O2410:41.o2 -0.07 11lOAl2O24 10:41:12 -0.08 1110f/2O24'lO:41:22 -0.07 111ffi1202410:41:32 -0.07 1'11061202410:41:42 -0.07 11106,12024 10:41:52 -0.07 11106120241O:42:O2 -0.07 1110612024 10:42:12 -0.06 11lOBl2O24 10:42:22 -0.07 1110€,12024 10:42:32 -0.06 1110612024 10:42:42 -0.07 1110612024 10:42:52 -0.07 11lOGl2O24 1O:43:O2 -0.07 11106,1202410:43:12 -0.07 11n€,2024 10:43:22 -0.07 111061202410:43:32 -0.08 1110612024 10:43:42 -0.06 '1110612024 10:43.52 -0.07 11lOAl2O24 1O:44:O2 -0.07 1110612024 10:44:12 -0.07 11lOAl2O24 10:44:22 -0.07 11lOAl2O2410'.44:32 -0.07 11tOAl2O24 10:44.42 -0.06 1110612024 10:44:52 -0.07 1110612024 10:45:02 -0.07 1110612024 10:45:12 -0.06 11lOAl2O24 10:45:22 -0.06 1110612024 10:45:32 -0.07 1110612024 10:45:42 -0.06 1110f,1202410:45:52 -0.07 11t06,12O24 10:46:02 -0.07 11lOAl2O24 10t46',12 -0.07 11lOOl2O24 1O:4A:22 -0.07 11106,1202410:46:32 -0.07 11106,12024 1O:4A:42 -0.07 11lOOl2O24 1o:4a:52 -0.07 111061202410:47.o2 -0.07 11lOGl2O24 10:47:12 -0.06 111061202410:47.22 -0.07 11t06t202410.47.32 -0.06 11to6t202410.47.42 -0.07 11t06t202410.47.52 -0.06 1110612024 1O:48:O2 -0.07 11lOGl2O24 10:48:12 -0.06 11lOGl2O24 1O:4A:22 -0.07 11tffit2024 10.48.32 -0.07 1110612024'lo: a.42 -0.07 11lOGl2O24 10:48:52 -0.07 11lOOl2O24'lo:49.o2 -0.07 111OA12O24 10.49:12 -0.06 111061202410:49:22 -0.08 11lOBl2O2410:49:32 -0.08 11t06t2024 10.49.42 -0.06 11/06i/202410:49:52 -0.07 11106,12024 1O.5O:o2 -0.07 11l0el2024 1o:5O:12 -0.09 11106,12024 1O:5O:22 -0.06 11106,12024 10:50:32 -0.07 11lOGnO241O:5O:42 -0.05 11lOOl2O24 1o:5o:52 -0.04 11lOGl2O2410:51:02 -O.O7 11tOGl2O24 10:51:12 -0.07 1110612024 10:51:22 -0.08 1110612024 10:51:32 -0.08 111061202410.51.42 -0.08 11m6,1202410.51.52 -0.08 NOx 2.9 2.91 2.87 2.86 2.85 2.80 2.77 2.70 2.84 2.49 2.71 2.95 3.19 1at 3.28 3.17 3.07 2.93 2.78 2.74 2.72 2.71 2.70 2.63 2.57 2.59 2.83 2.68 2.74 2.79 2.84 2.79 2.75 2.72 2.70 2.65 2.62 2.45 2.87 2.75 2.44 2.87 2.92 2.88 2.52 2.AO 2.75 2.92 3.19 3.29 3.39 3.46 3.54 3.47 3.40 3.30 3.20 3.12 2.99 2.88 2.78 2.72 2.67 2.81 2.55 2.53 2.49 2.57 2.64 2.63 2.& 2.56 2.44 2.45 2.40 2.56 2.68 3.10 3.52 3.59 co 4.82 4.72 4.61 4.51 4.40 4.39 4.43 4.51 4.60 4.63 4.66 4.64 4.60 4.62 4.84 5.32 6.03 6.82 7.32 7.50 7.37 7.20 7.O1 6.85 6.61 6.37 6.16 5.99 5.85 5.63 5.36 5.09 4.85 4.73 4.66 4.63 4.93 5.77 7.23 8.46 9.21 9.15 8.50 7.85 7.56 7.36 7 .17 6.89 6.46 6.01 5.65 5.37 5.'13 4.94 4.44 4.78 4.78 4.78 4.75 4.64 4.50 4.40 4.37 4.44 4.58 4.67 4.70 4.U 4.49 4.40 4.32 4.26 4.30 4.38 4.57 4.80 4.95 5.0't 5.00 4.97 tunbient 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 43 4X 43 43 43 43 43 43 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 43 43 43 43 43 43 43 43 43 43 43 43 42 42 42 42 42 42 42 42 41 41 41 41 41 41 41 Humidity 29.0 28.7 28.7 28.6 28.7 28.8 28.9 28.9 28.9 28.8 28.4 28.4 24.1 28.0 28.1 24.2 24.2 28.O 27.9 27.8 27.9 27.9 28.1 28.3 28.4 28.5 2A.s 24.5 28.5 28.4 28.2 24.1 28.1 28.2 24.4 28.4 28.5 28.6 28.7 28.9 29.1 29.2 29.1 29.0 29.1 29.0 28.8 28.6 24.5 24.5 28.6 28.7 28.8 29.'l 29.4 29.6 29.6 29.5 29.4 29.4 29.4 29.4 29.3 29.1 29.1 29.1 29.1 29.1 29.2 29.2 29.4 29.5 29.6 29.8 30.2 30.6 31.2 3'1.6 32.0 PBarc 23.78 23.74 23.78 23.74 23.78 23.74 23.78 23.74 23.74 23.78 23.78 23.74 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.74 23.1A 23.78 23.78 23.1A 23.74 23.78 23.78 23.74 23.78 23.78 23.78 23.74 23.78 23.78 23.78 23.74 23.78 23.79 23.78 23.74 23.78 23.7A 23.78 23.78 23.74 23.78 23.78 23.70 23.74 23.78 23.78 23.78 23.74 23.78 23.74 23.78 23.78 23.74 23.78 23.78 23.78 23.78 23.78 23.78 23.74 23.74 23.74 23.74 23.74 23.74 23.74 23.74 23.78 23.74 23.74 23.78 2X.?8 23.74 142 Group name il1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 T$t Run - 50 #1 Test Run - 60 *'1 Test Run - 60 #1 TBt Run - 60 #'1 Test Run - 60 ,1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 ,1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 #1 Test Run - 60 #1 T€st Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 fl Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60fl Test Run - 60 #1 Test Run - 60 f1 Test Run - 60 #1 Test Run - 60 fl Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 ,1 Test Run - 60 Run name Tsst Run Test Run Teit Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Rm Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T*t Run Test Run Test Run Test Run Tesl Run Tesi Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run TBt Run Tesl Run Test Run Test Run Company Station LJni t TimeStamp 11nAl2O24 1O:52:O2 1110612024 10:52:12 11lOGl2O24 1O.52:22 11ft412024 10:52:32 11106,12024 'lO:52:42 11tO612O24 10:52.52 't1lOAl2O24 10:53:02 11106,12024 10:53:12 1110612024 10:53:22 1110612024 10:53:32 11lOOl2O24 1O:53.42 11lOAl2O24 10:53:52 1110612024 10.il.O2 11lOAl2O24 10:il:12 1110612024 10..il.22 11DA/2O24 10:g:32 11lOOl2O24 10:*:42 11lOGl2O24 10:il:52 11lOBl2O24 1O:55:O2 11lOOl2O24 10:55:12 1110612024 10:55:22 11t06t2024 1A:55:32 11lOAl2O24 10:55:42 1110€/2024 10:55:52 1110€/2024lo:fi:O2 'l1lOOl2O24 10:58:12 11lOAl2O24 10:56:22 1110412024 10:fi:32 11lOAl2O24 1O:5A.42 'l110612024 10:56:52 11lOOl2O24 10:57:O2 11nAl2O24 10:57:12 11lOAl2O24 10:57:22 1 1 lOAl2O24 10:57 :32 11lOOl2O24 10:57 .42 1110612024 10:57:52 11rc412024 1O:58:O2 11lOBl2O24 10:58:12 1110612024 lO Sa:22 1110812024 10:fi:32 111061202410:*:42 1110612024 10:58:52 1 1/0€/2024 1 0:59:02 11lOOl2O24 '10:59:12 11lOBl2O24 1O:5s:22 11rc412024 10:59:32 11lOAl2O24 10.59:42 1 1/06/2024 10:59:52 11DA|2O24'11:@:02 11rc412024 11:OO:12 1110612024 11 OO:22 11lOOl2O24 11:@:32 1110612024 11:@:42 1110612024 11:OO:52 1114612024 't1:O1:O2 '11106,12024 't1 .O1:12 11lOAl2O24 11:O1:22 11lOAl2O24 11:01:32 'l1lOOl2O24 11:O1:42 11lOGl2O24 11:O1:52 11lWl2O24 11:O2:O2 11lOOl2O24 11:02:12 11lOBl2O24 11:02:22 11lOBl2O24 11:02.32 111O6t2024 11:02:42 111O612024 11:02:52 11lOOl2O24 11:O3:O2 11lOAl2O24 11:0'3:12 1110612024 11:03:22 11lOBl2O24 11:03:32 1110€,t2024 11.O3.42 11lOBl2O24 11:03:52 11t06t2024 11.U.O2 111Ots12O24 11:04:12 11lOGl2O24 11:04:22 11rc4/202411:U:32 Avanga 11lOAl2O24 11:09:58 11lOOl2O24 11.1O:Oa Altamont Main Gas Plant K-3C o2 -0.07 -0.06 -0.06 -0.07 -0.08 -0.06 -0.07 -0.08 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.09 -0.08 -0.08 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.00 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 _o.o7 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 {).07 -0.01 -0.01 PBaro 23.78 23.78 23.7A 23.74 23.78 23.78 23.78 23.7A 23.78 23.78 23.78 23.78 23.'18 23.18 23.78 23.78 23.78 23.78 23.74 23.74 23.78 23.78 23.74 23.7A 23.78 23.7A 23.78 23.74 23.75 23.74 23.78 23.78 23.74 23.74 23.74 23.74 23.18 23.7A 23.74 23.74 23.18 23.78 23.78 23.78 23.78 23.78 23.78 23.78 23.74 23.1A 23.78 23.78 23.18 23.78 23.78 23.78 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23,7A 23.77 ?3.77 143 Group name #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 80 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 fl T$t Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 f1 Test Run - 60 #1 Test Run - 60 #'l Test Run - 60 #1 Test Run - 60 #l Test Run - 60 il1 Test Run - 60 #1 Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Tesl Run - 80 #1 Tesl Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 ,1 Test Run - 60 #1 Test Run - 00 #1 Test Run - 60 #1 T6st Run - 60 #1 Test Run - 60fl Test Run - 60 fl Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 ,1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 50 #1 Test Run - 60 #1 Test Run - 60 #'1 Test Run - 60 #'1 TBt Run - 60fl Test Run - 60 #1 Test Run - 60 #'l Tast Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 # 1 Test Run - 50 fl Tsst Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 #1 Test Run - 60 *1 Test Run - 60 #1 Test Run - 60 #1 Tesi Run - 60 #1 Test Run - 60 #1 Bias Check #1 Bias Check NOx 3.69 3.54 3.31 3.21 3.11 3.04 2.94 2.88 2.79 2.74 2.85 2.48 2.65 2.92 3.15 3.66 4.20 4.'15 4.15 3.93 3.88 3.85 3.80 3.57 3.54 3.42 3.29 3.32 3.33 3.45 3.56 3.87 3.09 3.61 3.37 3.12 3.01 2.80 2.74 2.03 2.56 2.48 2.44 2.36 2.36 2.35 2.36 2.37 2.37 2.37 2.X8 2.38 2.X7 2.35 2.36 2.38 2.36 2.35 2.36 2.37 2.35 234 2.36 2.31 2.29 2.26 2.28 2.3'l 2.30 2.30 2.29 2.27 2.27 2.26 2.26 3.09 187.95 188.04 co 4.95 4.95 4.91 4.74 4.67 4.53 4.39 4.31 4.29 4.39 4.56 4.76 4.86 4.85 4.56 4.44 4.36 4.27 4.23 4.29 4.41 4.56 4.65 4.63 4.55 4.49 4.59 4.89 5.21 5.48 5.58 5,49 5.36 5.37 5.48 5.57 5.83 5.59 5.51 5.38 5.22 5.07 4.98 4.97 5.04 s.17 5.32 5.3s 5.28 5.06 4.98 4.93 4.91 4.91 4.94 5.06 5.24 5.43 5.62 5.42 5.36 5.33 5.34 5.32 5.28 5.13 4.96 4.80 4.69 4.67 4.71 4.75 -0.26 -0.29 Ambient 41 41 41 41 41 41 41 4'l 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 tt3 41 41 Humidity 32.2 32.2 32.2 32.2 32.2 32.4 32.5 32.6 32.7 32.7 32.7 32.6 32.6 32.6 32.6 32.6 32.7 33.0 33.0 32.6 32.6 33.0 33.3 33.5 33.4 33.1 32.9 32.8 32.8 32.8 32.9 32.8 32.7 32.6 32.4 32.1 31.8 31.6 31.5 31.4 3'1.4 31.4 31.4 31.4 31.4 31.3 31.1 30.9 30.8 30.9 31.'l 31.2 31.4 31.8 32.4 32.7 32.8 32.8 32.4 32.7 32.4 32.1 32.0 32.0 31.9 31.9 31.7 31.5 31.4 31.4 31.4 31.2 31.0 30.9 30.8 29.8 24.8 26.9 Run name Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test RUF Test Run Test Run TBst Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run I est Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOx Bias NOx Bias Company Station Unit TimeStamp 1110612024 1'l:10:18 11lOOl2O24 11:10:24 1110612024 11:10:34 11106,12024 11:10:44 Avange 1110612024 11:14:33 11106,12024 11:14:43 1110{y2O24 11:14:53 11/06/2024 11:15:03 '1110612024 11:15:13 11lOAl2O24 11j5:23 AveEgo 1110612024 11:17:33 11lOOl2O24 11.17:43 11lOOl2O24 11:17:53 11108,12024 11j4:03 11lOGl2O24 11:18:13 11106,12024 11:14:23 Avemgo 11l$el2o24 11:23:21 11nA12024 11.23:31 11106,12024 11.23:41 11lOOl2O24 11:23:51 1110612024 11:24:01 11lOOl2O24 11:24:11 11lOOl2O24 'l.1:24:21 1110612024 11.24:31 11lOOl2O24 11 .24:41 1110812024 'l.1:24:51 111c6,12024 11:25:0'l 1110612024 11:25:11 11lOOl2O24 11:25:21 11t08t2024 11.25.31 1110612024 11:25:41 11lOOl2O24 11:25:51 1110612024 11:26.O'l 11t06t2024 11 .26.l',1 11lOOl2O24 11:26:21 1 'l 10612024 1 1 :26:3'l 11lOOl2O24 11:26:41 111c6,i2024 11:26:51 1110612024 11:27:O1 1110612024 11:27:1'l 11lOOl2O24 11:27:21 1110612024 1'l:27:31 1110612024 11:27:41 '11106,12024 11:27:51 11lOOl2O24 11:2A:O1 1110612024 11:24:11 1110612024 11:24:21 11lOOl2O24 'l.1:24:31 11lOAl2O24 11.24:41 11lOAl2O24 11.2a:51 11lOAl2O24 11:29:01 11106!2O24 11:29:11 11lOOl2O24 11:29:21 11lOOt2O24 11.29:31 1 1 lOOl2O24 'l 1 :29:41 11lOGl2O24 11:29:51 11/06/2024 11:30:01 11lAAl2O24 11:30:'11 111O6t2024 11"30.21 1110612021 11:30:31 1110612024 11:30:41 1 1/06/2024 1 1:30:5'l 1'l lMl2O24 11:31:o1 11lOAt2O24 11:31:11 11lOGl2O24 11 .31:2'l 1110612024 11:31:31 11lOAl2O24 11:31:41 11DAaO24 11..31 .51 11tO612024 11 .32.O',1 1110612024 11:32:11 11lOOl2O24 11:32:21 11lOOl2O24 11:32:31 1110612024 11.32:41 1110612024 11:32:51 Altamont Main Gas Plant K-3C o2 0.00 -0.01 -0.01 -0.01 -0.01 Group name #1 Bias Check #1 Bias Check #l Bias Check #1 Bias Check #1 Bias Check #1 Bias Check f1 Bias Ch*k #1 Bias ChEk #1 Biss ChEk #'l Bias Check #1 Bias Ch*k #1 Bias Chsk #1 Bias Check #1 Biss Check #1 Bias Check #1 Biss Chsk #2 Test Run - 80 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Tast Run - 60 #2 Test Run - 60 ,2 Test Run - 60 #2 Tost Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Tost Run - 60 #2 Tast Run - 60 #2 Test Run - 60 *2 T6st Run - 60 #2 Test Run - 50 #2 Test Run - 60 #2 Test Run - 60 #2 Te3t Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 To3t Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Tost Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tost Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 5.08 5.07 5.07 5.05 5.07 5.05 5.07 0.00 0.01 0.00 0.00 0.00 0.00 0.00 NOx 188.20 1 88.35 1 88.46 1 88.57 188.26 4.47 6.91 5.85 4.6't 3.29 1.81 4.43 -o.1 3 -0.1 5 -0.1 I -0.20 -o.23 -0.25 {.19 7.14 6.63 5.28 5.92 5.80 5.s9 5.36 4.88 4.61 4.56 4.48 4.29 4.12 3.94 3.74 3.99 4.35 4.38 4.47 4.33 4.18 4.09 3.95 3.80 3.64 3.55 3.45 3.44 3.43 3.4S 3.56 3.63 3.73 3.59 3.35 3.39 3.39 3.58 3.80 3.85 3.86 4.00 4.26 4.00 3.76 3.73 3.69 3.56 3.44 3.29 3.14 3.09 3.M 3.39 3.72 3.78 3.92 co -0.29 -0.28 -o.24 -o.27 -0.26 0.06 o.23 0. 16 0.04 -0.05 -0.15 0.05 194.00 194.00 194.00 194.00 '194.00 194.00 194.00 4.00 4.00 4.01 4.05 4.08 4.14 4.29 4.47 4.74 5.08 5.20 5.30 5.42 5.49 5.59 5.53 5.28 4.99 4.7A 4.70 4.66 4.57 4.50 4.41 4.31 4.23 4.21 4.31 4.49 4.68 4.79 4.73 4.63 4.59 4.60 4.63 4.64 4.65 4.68 4.74 4.81 4.73 4.60 4.44 4.40 4.32 4.25 4.18 4.08 4.01 4.00 4.O2 4.O4 4.05 4.O2 4.00 4.03 4.14 Arnbient 41 41 41 41 11 40 40 40 40 40 40 40 40 40 40 40 40 40 /+o PBarc 23.77 23.7'l 23.77 23.77 2!.77 23.77 23.77 23.77 23.71 23.77 23.77 2X.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.17 23.77 23.77 23.77 23.77 23.77 23.7"1 23.77 23.77 23.77 23.77 23.77 23.77 23.71 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.?7 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.77 23.77 23.77 23.71 23.77 23.77 23.77 23.77 Humidity 26.8 26.6 26.5 26.4 28.7 26.5 26.5 26.6 26.7 28.7 26.6 26.8 28.4 24.3 27.9 27.6 27.3 27.1 n.E 27.2 27.2 27.2 27.3 27.4 27.4 27.3 27.3 27.3 27.3 27.3 27.3 27.5 27.7 27.6 27.4 27.4 27.4 27.4 27.3 27.2 27.2 27.1 27.1 27.O 27.O 27.1 27.1 27.O 27.O 26.9 26.8 26.7 26.7 26.7 28.8 27.O 27.2 27.3 27.2 26.9 26.8 26.7 26.7 26.7 26.7 26.8 27.1 27.1 27.3 2A.6 29.7 30.8 31.8 32.4 32.6 32.3 31.9 Run name NOx Blas NOx Bias NOx Bias NOx Bias 02 Bis 02 Bias 02 Bias 02 Bias 02 Bias 02 Bias CO Bias CO Bias CO Bias CO Bias CO Bias CO Biag Test Run Test Run Test Run Test Run T8t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run T6st Run Test Run Test Run Test Run T63t Run Test Run Test Run Test Run Test Run Test Run T63t Run Tesi Run T6st Run Iest Run T$t Run Test Run Test Run Test Run Tssi Run Test Run T*t Run Test Run Test Run Test Run Tesl Run Tast Run Tesl Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run -0.06 -0.06 -0.05 -0.05 ;0.04 -0.05 -0.05 -o.o7 -0.06 -0.07 -0.05 -0.06 -0.06 -0.07 -0.06 -0.06 -0.06 -0.06 -0.07 -0.06 -0.06 -0.06 -0.07 -0.0s -0.07 -0.06 -0.06 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.06 -0.06 -0.07 -0.00 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 ao 16 39 39 39 ao 39 39 39to 39 39 39 Company Station Unit TimeStamp 11lOAl2O24 11:33:01 1110612024 11:33:11 1110612024 11:33:21 11lOGl2O24 11:33:31 11106,12024 11:33.41 1110812024 11:33:51 11lOAl2O24 11:Y:O1 11lOBl2O24 11:U:11 11lOBl2O24 11:A:21 11lOAl2O24 11:U:31 11lOAl2O24 11:34:41 11lOGl2O24 11:34:51 1110612024 '11:35:01 11106,12024'11:35:11 11lOAl2O24 11:35:21 1110612024 11:35.31 1110612024 11:35:41 11lOAl2O24 11:35:51 1 1/06,/2024 1 1:36:01 11lOOl2O24 11:36.11 11lOOl2O24 11:36:21 1110612024 11:36:31 11nAl2O24 11:38:41 1 1/O€,/2024 1 1:36:51 11106,12024 11:31.O1 'l1lOGl2O24 11:37:11 11lOAl2O24 11:37:21 'l1lOAl2O24 1'l:37:31 11lOAt2O24 11:37:41 11106,12024 11:37.51 1'l10,612024 11.3a:O1 't110612024 't1 .3A:11 1110,612024 11:34:21 11lOOl2O24 11:38:31 11lOGt2O24 11.3A:41 I'l lOGl2O24 1 1 :38:51 11lOAl2O24 '11:39:01 11lOAl2O24 11:39:'11 1',V06t2024 ',11 .39:21 1 l/06/2024 1 1:39:31 11lOOl2O24 11:39:41 11lOAl2O24 11:39:51 11DAI2O24 11:4O:O1 11ner'2024 11:40:11 1110612024 11:40:21 11DA/2O24 11:40'.31 11lOAl2O24 11:40:41 1110612024 11:40:51 11lOOl2O24 11:41tO1 11lOOl2O24 11:41t11 11lOGl2O24 11:41:21 1110612024 11:41:31 11lOBl2O24 11:41:41 1110612024 1'l:41:51 111ffi12024 11:42:01 11DA|2O24 11:42:11 11to6t2024 11.42:21 1110612024 11:42:31 11l0el2024 11:42:41 111o6t2024 11.42:5',1 11lOq2O24 11.43:01 11lOAl2O24 11:43:11 11lOGl2O24 11:43:21 11lOGl2O24 11.43:31 1'1lOGl2O24 11:43:41 11lOGl2O24 11:43:51 1110612024 '11 .44:01 1110612024 11:44:11 1110612024 11.44:21 1110612024'l1 .4"31 11lOGl2O24 11:44:41 11lAOl2O24 11:44:51 11lOBl2O24 11:45:01 11rc412024 11:45:11 1110612024 11:45:21 111cE,12024 11:45'.31 11n612o24 11:45141 11lOOl2O24 11:45:51 11lOOl2O24 11:44:01 11lOGl2O24 11:46:11 Altamont i/ain Gas Planl K-3C 02 -0.07 -0.07 -0.07 -0.08 -0.06 -0.06 -0.07 -0.06 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.06 -0.06 -0.07 -0.08 -0.07 -0.06 -0.06 -0.08 -0.06 ,0.07 -0.06 -0.06 -0.08 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.06 -0.07 -0.08 -0.08 -0.07 -0.07 -0.06 -0.05 -0.06 -0.06 -0.08 -0.06 -0.06 -0.05 -0.07 -0.05 -0.07 -0.08 -0.06 -0.06 -0.07 -0.06 -0.06 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 Ambaent 39 39 39 39 39 39 39 39 39 39 10 39 39 ao 39 10 39 39 39 39 39 39 39 39 39 39 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 39 39 39 39 39 39 39 39 39 39 39 39 39 39 NOx 3.95 3.97 4.00 4.05 3.96 3.82 3.70 3.51 3.37 3.21 3.15 3.08 3.05 2.99 3.32 3.66 3.78 3.90 4.27 4.66 4.45 4.18 3.99 3.65 3.53 3.34 3.26 3.11 3.18 3.27 3.30 3.39 3.24 3.08 3.84 4.14 4.50 5.1 1 4.73 4.37 4.08 3.61 3.41 3.20 3.07 2.91 2.97 3.07 3.08 3.05 3.20 3.38 3.17 2.97 3.04 3.11 3.24 3.42 3.38 3.24 3.50 3.72 3.42 3.98 3.75 3.29 3.03 2.93 2.82 2.71 2.64 2.87 3.00 3.30 3.36 3.48 3.31 3.O2 co 4.26 4.43 4.67 4.91 5.08 5.19 5.15 5.02 4.80 4.57 4.38 4.22 4.16 4.30 4.72 5.64 6.84 7.38 7.7s 7.54 7.O2 6.50 6.00 5.58 5.25 5.O2 4.89 4.74 4.58 4.39 4.23 4.18 4.31 4.80 4.89 5.10 5.16 5.18 5.13 5.11 5.03 4.92 4.73 4.54 4.45 4.46 4.61 5.22 6.07 6.64 6.89 6.60 5.97 5.55 5.20 4.95 4.71 4.63 4.63 4.71 4.85 4.96 5.03 5.03 5.13 5.44 5.75 5.94 5.86 5.43 5.01 4.76 4.64 4.50 4.65 4.81 5.09 5.73 0.6s 7.83 PBaro 23.77 23.77 23.17 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.17 23.77 23.77 23.77 23.77 23.7? 23.77 23.7? 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.71 23.77 23.71 23.77 23.71 23.71 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 145 Humidity 31.7 31.6 31.9 32.5 32.8 33.2 33.6 33.8 34.1 34.3 34.3 34.5 34.9 35.6 35.9 36.1 36.4 36.6 36.7 36.7 36.5 36.2 36.0 35.8 35.8 35.7 35.9 36.1 36.2 36.2 36.3 36.3 36.3 3e.3 36.4 36.3 35.7 34.6 33.2 32.0 30.9 29.9 29.0 2A.s 27.9 27.6 27.8 24.7 29.3 29.9 30.1 30.2 30.4 30.7 30.5 29.8 29.3 28.6 27.8 27.2 26.8 26.5 26.3 26.1 26.1 26.1 26.2 26.3 26.3 26.3 26.3 26.3 26.2 26.2 24.3 26.3 26.3 26.2 26.2 Grcup name #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 00 #2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 00 *2 Tsst Run - 60 #2 T6st Run - 60 il2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Tost Run - 60 #2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Tost Run - 60 #2 T$t Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 *2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T€st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T€st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T$t Run - 60 f2 Test Run - 60 f2 Test Run - 60 f2 T$t Run - 60 Run name Tesl Run Test Run Test Run Test Run Test Run TeSt Run T€st Run Tesl Run Tast Run T8t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Test Run Tast Run T6st Run T6st Run Test Run Test Run T6st Run Tost Run T6st Run Test Run Test Run Test Run Tast Run T$t Run Test Run Test Run Tast Run Tesl Run Tsst Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Tesl Run Tesl Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Iest Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp 11nAl2O24 11:44:21 11lOOl2O24 11:46:31 1110812024 11:46:41 11lNl2O24 1'l:46:51 't110lj12024 11:47:01 'l1lOGl2O24 11:47:11 11l0al2o24 11:47:21 11lo6l2i24 11:47:31 1110612024 11:47:41 11lOAl2O24 11:47:51 11lOOl2O24 11:44:01 1110€r'2024 11:4.€:11 11lOAl2O24 11:4a:21 11rca12024 1'l:4a:31 11lOAt2O24 11:44:41 11ltrll2024 11:48:51 11/0@2024 1 1:49:01 11lOBl2O24 1'l:49:11 11106120.24 11:49:21 1110fj12024 11:49:31 11lOAl2O24 1'l:49:41 1110612024 11:49:51 1 1/06/2024 1 1:50:01 11/06,/2024 11:50:'11 1110612021 11:50:21 1110612024 11:50:31 11lOAt2O24 1'l:50:41 11lAAl2O24 11:fi:51 'l1lm,12024 1'l:51:o1 1110612024 11:51:11 11106,12024 11:51:21 11loe,/2024 11:51:31 11lOAl2O24 11:51:41 11lOAl2O24 11:51:51 11l00l2o24 11:52:01 11106,12024 11:52:11 1110612024 1'l:52:21 11lOOl2O24 1'l:52:31 1110612024 11:52:41 11lOAl2O24 11:52:51 11lOBl2O24 11:53:01 11lOBl2O24 11:53:11 11lOAl2O24 11:53:21 11lOBl2O24 11:53:31 11nal2o24 11:53:41 11lOAl2O24 11:53:5'l 11loal2024 11:54:01 11lOAl2O24 11:*:11 11rc412024 11:*:21 11nAl2O24 11:Y:31 11lOOl2O24 11:54:41 1'UOGI2O24 11:54:51 11nOl2O24 11:55:01 11lOOl2O24 11:55:11 1110i612024 11:55:21 1 1/0€/2024 1 1:55:31 11lOBl2O24 11:55:41 11lOOl2O24 11:55:51 11106,12024 11.fi:o1 1 1/06/2024 1 1:56:1 1 11lOOl2O24 '11:56:21 1110612024 11:56:31 11lo6t2024 11.56:4'l 1 1/0612024 '11 :56:5'1 1110,612024'11t57:0'l 1110612024 'l.1:57:11 11lOAl2O24 11:57:2'l 11lOBl2O24 11:57:31 11lOAl2O24 11:57:41 1110612024 11:57.51 11/06/2024 11:58:0'l 11lOGl2O24'11:58:1'l 11lo&l2t24 11:58:21 'l.1106,12O24 11:fi:31 11106,12024 11:58:41 'l 1/06/2024 11;58:51 11lOGl2O24 11:59:01 11lOGl2O24 11:59:11 11lOGl2O24 11:59:21 't11o6t2024 11.59:31 Allamont Main Gas Plant K.3C o2 -0.07 -0.07 -0.06 -0.07 -0.06 -0.06 -0.07 -0.07 -0.07 -0.07 .0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.00 -0.06 -0.07 -0.07 -0.07 -0.06 -0.08 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.00 -0.00 -0.08 -0.07 -0.07 -0.06 -0.07 -0.08 -0.07 -0.07 -0.06 -0.05 -0.06 -0.07 -0.06 -0.06 -0.05 -0.06 -0.05 -0.07 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 PBaro 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.78 23.76 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.?7 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 146 Group name #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - e0 #2 Test Run - 80 #2 T6st Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Tost Run - 60 #2 Tsst Run - 60 #2 Test Run - 80 #2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 T6st Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T*t Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tesl Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 00 *2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - eO #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 60 f2 Test Run - 00 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 Test Run - 60 12 Test Run - 60 *2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 il2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 f2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 60 NOx 2.95 2.46 2.90 2.9 2.92 2.96 3.04 2.99 2.94 2.92 2.86 3.16 3.40 3.44 3.48 3.40 3.30 3.16 3.02 2.98 2.47 3.55 4.'t7 4.51 5.22 4.81 4.18 4.08 3.93 3.90 3.89 3.81 3.74 3.54 3.22 3.12 3.00 3.1S 3.36 3.39 3.45 3.45 3.47 3.33 3.12 3.17 3.19 3.21 3.29 3.29 3.27 3.28 3.30 3.35 3.43 3.37 3.26 3.45 3.66 3.57 3.48 3.37 3.s7 3.81 3.90 4.11 3.67 3.45 3.21 3.05 2.57 2.81 2.75 2.75 2.75 2.81 2.85 CO 8.82 9.21 9.11 8.74 9.44 8.29 7.86 7.28 8.62 6.05 5.70 5.52 5.30 5.16 5.09 5.06 4.91 4.70 4.41 4.21 4.14 4.18 4.25 4.24 4.18 4.10 4.01 4.05 4.11 4.18 4.2A 4.32 4.32 4.51 4.82 5.03 5.18 5.11 4.90 4.76 4.72 4.72 4.92 5.28 5.62 5.86 5.80 5.53 5.18 5.O2 4.97 4.94 4.97 5.05 5.06 5.04 4.94 4.82 4.67 4.56 4.62 4.66 4.70 4.81 4.88 5.01 5.34 5.59 5.72 5.80 5.78 6.17 6.71 7.22 7.43 7.11 E.Ol 6.22 6.01 6.03 Ambient 39 ao 10 39 39 10 39 ao 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 lo 39 39 39 39 39 39 39 ao 39 39 39 39 39 39 39 39 39 39 39 39 39 38 38 38 38 38 38 38 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 3S 39 39 39 Humidity 26.4 26.5 24.6 26.6 26.7 26.7 26.6 26.5 26_5 28.6 26.6 26.7 24.8 2A.A 24.9 27.O 27.1 27.1 27.O 27.O 27.0 27.O 26.9 26.9 26.9 27.O 27.0 27.1 27.3 27.5 2A.O 28.1 27.9 27.6 27.4 27.3 27.5 27.4 27.0 26.7 26.4 26.2 26.0 25.9 2s.9 25.9 26.',| 28.2 26.3 26.5 26.9 27.2 27.5 27.8 28.0 28.1 28.2 24.1 28.0 28.0 28.2 28.5 28.7 28.7 28.7 29.O 29.5 29.9 29.8 29.7 29.5 29.6 29.8 29.9 29.7 29.1 28.7 28.4 28.5 Run name Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test.Run Test Run Test Run Test Run Tesl Run TBt Run Test Run Test Run Test RunT*i Run Test Run Test Run Test Run Tesl Run Test Run Test Run Tesl Run Test Run Tesl Run Tesl Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T$t Run T*t Run Test Run Test Run Test Run T6t Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tst Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Tesl Run Test Run Company Station Unit TimeStamp 11106,12024 11:59:41 11lOAl2O24 11:59:51 11lOOl2O24 12:0O:O1 11IOAi2O24 12:OO:11 111612o24 12:OO:21 11lOOl2O24 12:00:31 1'llOAl2O24 12:@:41 1110612024 12:OO:51 11lOBl2O24 12.O1:O1 11lOGl2O24 12:01:'11 11DO|2O24 12.O1:21 'l110612024 12:01:31 11106,12024 12:01:41 'l1lOOl2O24 12:01:51 11lOGl2O24 12:O2.O1 1110@2024 12:02:11 1110612024 12:02:21 11lOAl2O24 12:02:31 11lOBl2O24 12:02:41 11108,12024 12:02:51 11lOBl?O24 12:O3:O1 11lOOl2O24 12:O3:1'l 11lOAl2O24 12:O3:2'l 11DAaO24 12:03:31 11lOOl2O24 12:03:41 11lOdt2O24 12:03:5'l 11lOAl2O24 12:M:O1 11lOAl2O21 12:M:'11 1110O12024 12:04:21 11lOAl2O24 12'.U:31 '1110612024 12.U:41 11lOAt2O24 12,U:51 11lOAl2O24 12:O5:O1 1110612O24 12:O5:11 11lOAl2O24 12:05:21 1110E,12O24 12:O5:31 11nAl2O24 12:05:41 11lOOl2O24 12:05:51 11lOGl2O24 12:06:01 11106,/202412:6:11 1'llOAl2O24 12:06:21 1110612021 12:06131 11106,12024 12:6.41 11lOOl2O24 12:@:51 1 'l lOAl2O24 12:07 :O1 11lOAl2O24 12:07:11 1110612024 12:07 .21 11lOAl2O24 12:07:31 11lOAl2O24 12:07:41 11lOAl2O24 12:07:51 1110612024 12:08:01 11106,12024 12:08:11 11l0dl2024 12:08:21 11lOBl2O24 12:08:31 111c6,12024 12:@:41 11ft412024 12:OA:51 11lOAl2O24 12:09:0'l 11lOOl2O24 12:O9:'l'l 11lOAl2O24 12.@:21 11DAI2O24 12:09:31 11nAl2O24 12:09:41 11to6t2024 12.09:51 11lOBl2O24 12:1O:O1 11l0el2024 12:10:11 'l 1 1o6t2024',t 2., 1 0:21 11rc412024 12:10:31 11nAt2O24 12:10:41 11lOGl2O24 12:10.51 1110612024 12:11:01 11lOBl2O24 '12:11:11 1110]612024 12:11:21 11lOOl2O24 12:11:31 11lOAl2O24 12:11:41 1110612024 12:11.51 11lOOl2O24 12:12:01 11lOOl2O24 12:12:11 11rc412024 12:12:21 11lOOl2O24 12:12:31 11lOBl2O24 12.12:41 11rc412024 12:12:51 Altamont Main Gas Plant K-3C o2 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.06 -0.06 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -o.o7 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.06 -0.08 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.08 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.06 -0.07 -0.08 -0.08 -0.07 -0.08 -0.0s -0.06 -0.05 PBaro 23.77 23.77 23.71 23.77 23.17 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.?7 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.7"1 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.71 23.77 23.77 23.77 23.77 23.77 2X.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.17 23.77 23.77 147 Grcup name #2 Test Run - 50 #2 Test Run - 00 #2 Test Run - 60 #2 T6st Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tost Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 T$t Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 Tost Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 lest Run - 60 #2 Te3t Run - 00 #2 Test Run - 60 #2 TBt Run - 80 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 *2 Tesi Run - 80 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 00 #2 Test Run - 80 #2 Tsst Run - 60 #2 T6st Run - 60 #2 Test Run - 00 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 80 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - 80 #2 Test Run - 60 #2 T6st Run - 60 #2 Test Run - 60 #2 T$t Run - 00 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 NOx 114 3.38 3.50 3.88 3.44 3.21 3.14 3.05 3.16 3.27 3.31 3.38 3.27 3.1 1 3.05 2.98 2.86 2.74 2.77 2.77 2.73 2.71 2.74 2.74 3.00 3.29 3.36 3.45 3.39 3.3'1 3.'19 3.07 2.99 2.85 2.81 2.76 2.?4 2.7'l 2.7s 2.79 2.75 2.66 4.47 6.83 8.02 9.02 8.63 7 .15 6.15 5.09 4.48 3.81 3.62 3.29 3.49 3.69 4.30 5.O2 4.65 4.30 4.10 3.86 3.95 4.05 4.09 4.10 4.10 4.1 1 4.18 4.27 4.14 4.03 3.86 3.58 3.42 3.21 3.14 3.41 3,68 CO 6.08 5,92 5.64 4.74 4.56 4.43 4.42 4.47 4.50 4.63 4.94 5.31 5.62 6.00 6.50 7.08 7 .37 7.28 6.78 8.11 5.54 5.15 4.97 4.95 5.00 5.13 s.1t 5.05 5.03 5.00 4.96 4.91 s.11 5.98 7.23 7.96 8.20 7.75 7.08 6.69 6.48 6.29 5.99 5.79 5.74 5.63 5.53 5.48 5.36 5.26 5.16 5.02 5.00 5.02 4.97 4.85 4.70 4.53 4.34 4.24 4.31 4.44 4.61 4.78 4.87 4.97 5.03 5.06 5.46 5.93 8.17 6.28 5.97 5.50 5.17 4.94 4.81 4.70 tunbient 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 ao ao 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 Humidity 28.3 28.0 27.8 27.7 27.5 27.5 27.4 27.3 27.2 27.0 28.7 26.4 26.3 28.3 26.3 26.4 24.5 26.6 26.6 26.8 26.8 26.7 26.8 26.8 26.9 27.O 27.O 2?.2 27.3 27.3 27.3 27.3 27.5 27.6 27.7 27.7 27.8 28.0 27.9 27.4 27.4 27.3 27.3 27.1 26.8 26.5 26.3 26.2 26.2 26.1 26.1 26.1 26.1 26.4 26.6 26.6 26.6 26.6 26.6 26.7 26.8 27.1 27.5 27.7 27.7 27.8 27.9 24.1 28.1 27.9 27.6 27.4 27.2 27.1 27.0 27.0 21.O 2?.1 27.2 27.3 Run name Test Run Test Run Test RunT*t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Company Stalion Unit TimeStamp 11Dal2o24 12:13:01 11lOBl2O24 12:13:11 11lo&l2024 12:13:21 11DA|2O24 12:13:31 1110A12024 12:13:41 11106,12024 12:13:51 I 1 lw2o24 12:14:01 111O6t2O24 12:'l.4:11 111@12024 12:14:21 11lOAl2O24 12:14:31 11lOOl2O24 12:14:41 11rcA12o24 12:14:51 11lo&l2024 12:15:01 111trl,12024 12:15:11 11nAl2O24 12:15:21 11lOAl2O21 12:15:31 11lOEl2O24 12:15:41 111trl12024 12:15:51 11lOBl2O24 12:16:O1 11l08l2o24 12:16:11 11l0al2o24 12:1e:21 11lOAl2O24 12:16:31 1 1 lOOl2O24 12:18:41 11lOOl2O24 12:16:51 11lOAl2O24 12:17:O1 11lOAl2O24 12:17 .11 1110€,12024'12:17 .21 11lOAl2O24 '12:17:31 11lAAl2O24 12:17:41 1 1 DAI2O24 '12:17 :51 11lo8,n024 12:18:01 11lo&l2O24 12:18:11 11rc412024 12:14:21 11lOEl2O24 12:18:31 11loAl2o24 '12:18:41 1'lloal2l24 12:18:51 11lOAl2O24 12:19:01 11lOAl2O24 12:19:11 11lOAl2O24 12:19:21 1 1 lfil2024 12:19:31 11lOOl2O24 12:19:41 1 1 lAAl2O24 '12:19:51 11l0al2024 12:2O:O1 11loel2o24 12:20:11 1'll0€,12o24 12:20:21 11lOAl2O24 12:20:31 1110612024 12:20:41 1110O12024 12:20:51 11t06t202412.21 .O1 1 1 lOAl2O24 '12:21 :1 1 11lOAl2O24 12:21:21 11lOOl2O24 12:21:31 11lOOl2O24 12:21:41 11l0al2o24 12:21:51 1'1106,12024 12:22:01 11lOAl2O24 12:22:11 11lOBl2O24 12:22:21 11lOBl2O24 12:22:31 11lOAl2O24 12:22:41 1110€,12024 12:22:51 11106120.24 12:23:01 11lOOl2O24 '12:23:11 Avamga 11lOAl2O24 12:27:34 I1lOAl2O24 '12:27 .48 11lOGl2O24 12.27:58 11lOOl2O24 12:28:oa 'l1lOGl2O24 12:28:18 11lOGl2O24 12:28:28 AveEg! 11lOAl2O24 12.33:03 11lOAl2O24 12:33:13 1 1 lOOl2O24 12:33:23 11l0el2024 12:33:33 11l1al2o24 12:33:43 11lAAl2O24 12:33:53 Avomgg Altamont Main Gas Plant K-3C o2 -0.05 -0.05 -0.06 -0.05 -0.06 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.06 -0.07 -0.08 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.08 -0.07 -0.08 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.00 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 PBarc 23.77 23.77 23.77 23.77 23.7'l 2X.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.7'l 23.77 23.77 23.77 23.77 23.71 23.77 23.77 23.71 23.77 23.77 23.76 23.76 23.7A 2X.78 23.76 23.77 23.'t7 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.77 23.78 23.76 23.76 23.7A 23.77 23.78 23.76 23.18 23.76 23.76 23.76 23.76 23.76 23.76 23.74 23.78 2X.76 23.76 23.16 144 Grcup name #2 Test Run - 60 #2 Test Run - 60 #2 Tsst Run - B0 #2 Test Run - 60 #2 Test Run - 60 f2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 80 *2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 *2 Test Run - 60 *2 Test Run - 60 f2 Test Run - 60 #2 Test Run - 80 #2 Test Run - 60 #2 TBt Run - 00 il2 T$t Run - 00 *2 Tasi Run - 60 #2 Tsst Run - 80 #2 Test Run - 60 #2 Tesi Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Test Run - 00 #2 T6st Run - 60 #2 Test Run - 00 #2 Tast Run - 80 *2 Test Run - 80 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 *2 Tsst Run - 80 #2 Test Run - 60 *2 Tsst Run - 00 #2 Test Run - 60 *2 Test Run - 60 #2 Test Run - 60 ,2 Tast Run - 60 #2 Test Run - 60 fl2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Tast Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 8O #2 Test Run - 60 ,2 Test Run - 60 #2 Test Run - 60 #2 Test Run - 80 f2 Test Run - 60 #2 Test Run - 60 #2 Bias Check #2 Bias Check #2 Bias Chek #2 Bias Check #2 Bias Check f2 Bias Ch*k #2 Bias Check #2 Bias Ch*k #2 Bias Chek f2 Bias ChEk #2 Bias Check #2 Bias Ch€ck 40 40 40 40 40 40 /t0 39 38 38 38 38 38 36 0.00 o.o2 0.00 0.00 -0.01 0.00 0.00 5.05 5.05 s.06 5.04 5.06 5.05 5.05 NOx 3.60 3.54 3.38 3.14 3.04 2.89 2.78 2.64 2.84 3.08 3.09 3.11 3.29 3.49 3.48 3.47 3.45 3.44 3.39 3.29 4.09 1.82 4.93 5.17 4.77 4.12 3.81 3.46 3.39 3.30 3.23 3.1s 3.38 3.61 3.54 3.48 3.57 3.67 3.42 3.19 3.07 2.92 2.88 2.82 2.70 2.72 2.74 2.75 2.79 2.82 3.13 3.45 3.43 3.43 3.40 3.35 3.09 3.72 4.62 4.76 5.01 3.62 1 89.1 6 189.12 1 89.32 1 89.53 189.50 189.4s 189.35 0.53 '18.61 4s.35 29.98 10.73 11.40 20.43 co 4.'11 4.71 4.70 4.82 5.18 5.57 5.90 6.16 6.22 6.08 5.97 5.72 5.43 5.22 5.03 4.86 5.04 5.32 5.73 6.00 6.11 8.09 5.98 5.89 5.E0 5.55 s.32 5.23 5.33 5.50 5.53 5.47 5.42 5.44 s.54 5.55 5.38 5.13 4.86 4.13 4.63 4.54 4.53 4.53 4.44 4.36 4.42 4.97 5.76 6.47 6.93 7.29 7.51 7 .72 7.85 7.55 7.O4 6.73 6.49 6.22 6.01 5.83 5.29 -0.26 -0.29 -0.29 -0.30 "0.29 -o.29 {.29 '1.00 '1.46 1.72 1.53 '1.01 0.62 1.22 Ambient 38 38 38 37 37 37 37 37 37 37 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 39 39 39 39 39 39 ao 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 3S 39 39 39 39 39 39 39 39 39 39 39 Humidity 27.4 27.6 27.8 2A.O 28.3 24.6 28.7 28.7 28.7 28.6 28.6 28.7 28.8 28.7 28.7 28.6 28.5 28.5 24.7 28.8 28.7 28.6 28.5 28.6 28.6 2A.A 24.8 28.9 28.9 28.6 2A.5 28.4 24.1 27.7 27.5 27.3 27.O 26.9 26.9 26.9 27.0 27.3 27.8 28.3 24.4 24.4 24.4 28.5 28.6 28.5 28.4 28.3 28.3 28.4 28.4 28.3 28.2 28.0 27.9 27.5 27.7 27.6 2E.1 26.7 26.5 28.3 26.2 26.1 26.0 26.3 26.9 28.9 27.O 27 .1 27 .1 27.1 27.O Run name Test Run Test Run Tost Run Tesi Run Test Run Tast Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Tast Run T$t Run Tesi Run T€st Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Te3t Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run T€3t Run Test Run T€st Run Test Run Test Run Tst Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Tesi Run Test Run T6st Run Tssl Run Tesl Run Test Run Test Run Test Run NOx Bia3 NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias O2 Bias 02 Bias 02 Bias 02 Bias 02 Biag 02 Bias Company Station Unit TimeStamp 11nAl2O24 12:34:Oa 1110612024 12:36:18 11lOBl2O24 12.36:28 11lOOl2O24 12:36:38 11rc412024 12:36:44 11lOOl2O24 12:36:5A Avengo 11lOOl2O24 12:42.09 11106,12021 12:42:19 11lOAl2O24 12:42:29 11lOAl2O24 12:4?:39 11lOOl2O24 12:42:49 11la6l2024 12:42:59 11lOAt2O24 12:43:09 11106,12024 12:43'.19 11lOAl2O2412:43.29 11rc412024 12:43:39 1'UOA|2O24 12:43,49 11tO412024 1243,59 11DA/2O24 12:44:Og 11lOOl2O24 12:44:19 11nAt2O24 12:44:29 1110612024 12144:39 11lOOl2O24 12.44:49 11lOBl2O24 12:44:59 11lOBl2O24 12:45:Og 1110fjt2024 12:45:19 11lOBl2O24 12:45:29 11lOBl?O24 12:45:39 'l1106,2024 12:45:49 'l1lOAl2O24 12:45:59 11nAl2O24 12:46:09 11lOAt2O24 12:46:19 11lOOt2O24 12:46,29 11lOAl2O24 12:44'39 11lOAl2O24 12:48.49 11lOAl2O24 12:48:59 11lOAl2O24 12:47:O9 111@,12024 12:47:19 11lOAl2O24 12:47.29 11lOOl2O24 12:47:39 1'llOAl2O24 12:47:49 11t06t2024 12.47.59 11loal2o24 '12:48:Og 11DA|2O24 12:48:19 11tOOl2O24 12148:29 11lOAt2O24 12:48:39 11DA|2O24 12:48:49 11rc412024 12:4A:59 11lOGl2O24 '12:49:09 11lMl2O24 12:49:19 11rc412024 12:49:29 1110612024 12:49:39 11lOAl2O24 12:49:49 11106,12024 12:49:59 11lOAl2O24 12:50:09 11106,12024 12:50:19 11l0€,l2024 12:50:29 11lOAl2O24 12:50:39 11lOOl2O24 12:50:49 11lOAl2O24 12:50:59 11lOOl2O24 12:51:Og 11106,12024 12:51:19 111O4t2024 12.51.29 11lOOl2O24 12:51:39 11nAl2O24 12:51:49 111O6t2024 12"51:59 11lAd2O24 12:52:Og 11lOAl2O24 12:52:19 11oel2o24 12:52:29 11rc412024 12:52:39 1110€,12024 12:52:49 1110612024 12,52:59 11lOOl2O24 12:53:Og 1110812024 12:53:19 11lOOl2O24 12:53:29 11lOGl2O24 12:53:39 11lOGl2O24 12:53:49 11nAl2O24 12:53:59 Altamont Main Gas Plant K-3C 02 -0.01 0.00 0.00 0.00 -0.01 0.00 0.00 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.06 -0.07 -0.07 -0.08 -0.06 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.00 .0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -o.o7 -0.08 -0.07 -0.07 -0.06 -0.06 -0.07 -0.07 -0.08 -0.07 -0.09 -0.09 -0.08 -0.08 -0.08 -0.07 -0.05 -0.06 -0.05 -0.07 -0.08 -0.06 -0.07 -0.07 .0.07 -0.07 -0.07 NOx -0.35 -0.36 -0.39 -0.40 -o.42 -0.43 -0.39 4.52 4.36 4.10 3.91 3.73 3.53 3.31 3.36 3.38 3.87 4.38 4.18 4.O2 3.80 3.54 3.42 3.22 x.22 3.22 3.09 2.95 3.18 3.43 4.44 8.O2 0.09 6.36 5.86 5.37 5.'19 4.88 4.57 4.09 4.11 4.O7 4.32 4.84 4.29 3.92 3.78 3.62 3.97 4.42 4.54 4.78 4.50 4.08 4.13 4.18 4.40 4.60 4.72 4.59 4.80 5.19 4.75 4.34 4.10 3.85 3.66 3.68 3.53 3.29 3.23 3.15 3.19 3.24 3.19 3.15 3.14 3.06 a ro co '194.60 134.60 195.00 195.00 195.00 195.00 191.E7 4.75 4.75 4.69 4.57 4.49 4.43 4.78 5.34 5.92 6.63 6.99 7.12 7.14 6.94 6.68 6.40 6.10 5.68 5.56 5.79 6.14 6.50 6.48 6.10 5.81 5.71 5.65 5.47 5.18 5.02 5.06 5.09 5.15 5.31 5.39 5.51 5.53 5.61 5.73 s.72 5.57 5.31 5.29 5.45 5.57 5.60 5.41 5.20 5.28 5.84 6.34 6.59 6.54 6.14 5.68 5.27 4.97 4.70 4.53 4.47 4.81 c.oz 6.32 7.10 7.92 8.38 8.66 8.58 8.06 7.84 PBaro 23.78 23.76 23.76 23.76 23.76 23.76 23.16 23.76 23.76 23.74 23.76 23.?6 23.76 23.74 23.76 23.76 23.74 23.78 23.7e 23.78 23.78 23.7A 23.76 23.78 23.78 23.78 23.76 23.76 23.76 23.78 23.74 23.76 23.76 23.7e 23.76 23.76 23.7A 23.74 23.76 23.76 23.76 23.76 23.76 23.78 23.76 23.16 23.76 23.74 23.76 23.76 23.76 23.76 23.18 23.16 23.76 23.74 23.76 23.76 23.76 23.76 23.76 23.76 23.74 23.76 23.76 zJ./o n.7a 23.76 23.76 23.74 23.76 23.74 23.76 23.76 23.76 23.76 23.76 23.74 23.76 Ambient 38 38 38 38 38 38 38 Humidity 28.8 28.7 2A.5 28.5 . 28.7 2A.B 2E.B 28.6 28.6 28.2 27.6 27.5 27.4 27.4 27.3 27.3 27.4 27.5 27.6 27.8 27.7 27.9 2A.O 28.0 27.8 27.5 27.2 27.1 27.1 27.1 27.1 28.8 26.5 26.4 26.2 26.0 25.9 25.9 26.0 26.0 26.0 25.9 25.9 25.9 25.9 26.0 26.1 26.3 24.5 26.5 26.5 26.5 28.7 26.7 26.8 26.8 26.8 26.8 26.7 26.6 26.8 26.8 26.6 28.B 26.7 27.1 27.4 27.4 27.3 27.2 27.1 27.O 26.9 26.9 26.9 27.1 27.3 27.5 Group name #2 Bias Check #2 Bias Check #2 Bias Ch*k #2 Bias ChEk #2 Bias Chsk #2 Bias Check {.3 Test Run - 60 #3 Test Run - 60 #3 Tast Run. 60 *3 TBsl Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 f3 TBt Run - 50 #3 Test Run - 60 #3 Test Run - 60 #3 Tesl Run - 80 J,3 Tost Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Tast Run - 60 ,3 Tast Run - 50 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 TBst Run - 60 f3 Tost Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 TBst Run - 60 l€ Test Run - 60 il3 Test Run - 60 #3 T6st Run - 60 ,l3 Tsst Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,3 T6st Run - 60 *3 Tsst Run - 60 #3 Test Run - 60 ,3 Test Run - 60 ,3 Test Run - 60 f3 T6st Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 f3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,r3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 il3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 00 *3 Tost Run - 60 #3 Tost Run - 60 ,l3 Test Run - 60 #3 Test Run - 00 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 Run nams CO Bias CO Bias CO Bias CO Bias CO Bias CO Bias Tast Run Tost Rln Test Run Test Run T$t Run Test Run Test Run Test Run Test Run T€st Run Test Run Test Run Tast Run T€st Run Test Run Test Run Test Run Test Run T6st Run Tost Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run TBst Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T8t Run Test Run Tast Run T6st Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run TBt Run Test Run Test Run Tsst Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Tost Run Ts3t Run Test Run T6st Run Test Run Test Run Test Run T6st Run Test Run 39 39 39 39 39 39 ao 39 39 39 39 39 39 39 39 39 39 39 39 40 40 40 40 40 40 39 39 39 39 39 39 39 39 39 39 39 39 39ao 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39ao 39 39 39 149 TimeStamp 11lOAl2O24 12:il:09 1110612024 12.il:19 11lOAl2O24 12:g:29 11lodl2o24 12:54:39 11lMl2O24 12:*:49 111O6t2024 12.54'.59 'l110612024 12:55:09 1110A12024 12:55.19 1110612024 12:55:29 'l1l0€,12O24 12:55:39 11loel2o24 '12:55'.49 'l1lOOl2O24 12:55:59 11tOAt2024 12.56.09 111O612024 12:56:19 11t06t2024 12.56.29 1 1/0€,/2024 1 2:56:39 11lOOl2O24 12:58:49 11t06t2024 12.56.55 1110O12024 '12:57:O9 11lOBl2O24 12:57.19 11nAl2O24 12:57:29 1 1 lffil2l24 12:57 .39 11loal2024 12:57:49 11lOBl2O24 12:57.59 11lOOl2O24 12:58.09 11lOOl2O24 12:58:19 11nAl2O24 12:58:29 11106,12024 12:5A.39 11nAl2O24 12:5E:49 1'llOAl2O24 12:58:59 1'110612024 12:59:Og 11nOl2O24 12:59:19 1110612024 12:59:29 11lOOl2O24 12:59.39 1110,612024 12:59:49 11106,12024 12:59:59 11/06/2024 13:00:og 1110A12024 13:oO:19 11lOAl2O24 13:00:29 11lOAl2O24 13:00:39 1110612024 13:00:49 11/06/2024'13:00:59 11/08/2024 13:01:09 11lOAl2O24 13:01:19 't1lOAl2O24 13t0'l:29 11lOAl2O24 '13:01:39 1 1 lOAl2024 13:01 '.49 11/06,/2024 13:0'l:59 1110612024 13:02:09 1110612024 13:02:19 1 1 10612024 13:02:29 11lOBl2O24 13:02:39 1110612024 13:02:49 11lOOl2O24 13:02:59 1 1/06/2024 13:03:09 1 1/06/2024 13:03:19 11nal2o24 13:03:29 1 1/06/2024 1 3:03;39 11l0al2024 13:03:49 1 1/06/2024 '13:03:59 1110'612024 13:U.O9 1110612024 13:04:19 1110612024 13:04:29 1110a12O24 13:04:39 11lOOl2O24 13:04:49 '1 1/06/2024 13:O4:59 11lW2O24 13:05.09 11/06i/2024 13:05:19 11tOGl2O24 13:05:29 11lOAl2O24 13:05:39 11loel2o24 13:05:49 11/06,/2024 13:05:59 11/06/2024 13:06:09 11/06/2024 13:06:'19 11/06r'2024 13:06:29 11/06/2024 13:06:39 11/06/2024 13:06:49 1 1/06/2024 13:06:59 11lOGl2O24 13:07'.Og 11106,12024 13:07:19 Altamont Main Gas Plant K.3C o2 -0.06 -0.07 -0.06 -0.07 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.09 -0.07 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.06 -0.08 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 PBaro 23.76 23.76 23.76 23.76 23.76 23.76 23.78 23.76 23.76 23.78 23.7A 23.76 23.74 23.76 23.74 23.76 23.76 2X.76 23.76 23.74 23.V8 23.74 23.78 23.78 23.76 23.76 23.78 23.76 23.78 23.76 23.76 23.76 23.76 23.76 23.78 23,78 23.76 23.76 23.78 23.76 23.74 23.76 23.76 23.74 23.76 23.76 23.78 23.76 23.76 23.76 23.76 23.76 23.78 23.74 23.76 23.74 23.16 23.?6 23.74 23.76 23.76 23.76 23.?A 2t.75 23.75 23.76 23.76 23.76 23.76 23.7e 23.75 23.75 23.75 23.75 23.15 23.75 23.75 23.76 23.75 23.76 150 Group name #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 f3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - A0 f3 Test Run - 60 #3 Test Run - €0 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 f3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 8o #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 00 #3 Tesl Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tesi Run - 60 ,r3 Test Run - 60 #3 Test Run - 60 #3 Tesl Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 00 #3 Tesl Run - 60 *.3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 NOx 3.34 3.30 3.22 3.39 3.57 3.50 3.43 3.35 3.23 3.83 3.90 4.81 6.45 6.09 5.80 5.42 5.03 4.69 4.17 3.94 3.86 3.42 4.11 3.89 3.68 x.71 3.73 3.67 3.63 3.47 3.23 3.02 2.74 3.19 3.57 3.78 4.08 4.28 4.55 4.17 3.77 3.66 3.52 3.39 3.20 3.06 2.89 2.90 2.90 3.46 3.66 4.06 3.83 3.47 3.43 3.37 3.34 3.32 3.15 2.87 2.46 2.81 3.03 3.27 3.33 3.41 3.27 3.02 3.10 3.27 3.49 3.88 4.43 5.87 5.82 6.02 5.67 4.67 485 co 7.95 8.06 8.10 7 .75 7.06 6.77 6.78 6.82 8.88 6.76 8.5't 6.55 7.39 8.79 9.95 10.46 10.1 1 9.06 8.10 7.45 6.93 6.67 6.63 6.8'l 6.90 6.99 7.O2 6.93 6.92 6.77 6.47 6.66 7.29 8.25 9.27 9.79 9.52 8.81 8,06 7.52 7,10 6.68 4.22 5.68 5.'19 5.01 5.22 s.70 6.14 6.43 8.28 5.82 5.48 5.49 5.86 7.04 8.14 8.77 8.84 8.16 7.41 7.O4 7.00 7.03 6.99 6.62 6.16 5.56 5.19 5.00 4.98 5.46 6.78 8.2'l 9.16 9.21 8.41 7.20 6.40 607 tunbient 10 39 39 39 39 39 39 39 39 39 39 39 39 39 38 38 38 38 38 38 38 38 38 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 Humidity 27,7 28.1 28.2 27.9 27.4 27.2 27.1 27.1 27.2 27.1 26.9 26.9 26.9 27.O 27.1 27.1 27.1 27.O 26.9 26.9 27.1 27.2 27.3 27,2 27.0 26.8 26.8 27.O 27.O 27.O 26.9 26.9 27.0 27.1 27.2 27.2 27.2 27.1 27.0 26.9 26.8 26.8 26.8 26.6 26.4 26.4 26.3 26.3 26.4 24.4 26.4 26.4 26.3 26.2 26.2 26.5 26.6 26.6 26.6 26.7 26.8 26.9 27.O 27 .1,7' 27.3 27.1 27.O 26.9 26.9 26.8 26.8 26.8 26.7 26.8 26.9 27.O Run name Test Run T6st Run Test Run Test Run Tost Run Test Run Tost Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tsst Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tegt Run TBt Run Test Run Test Run Tsst Run Test Run T6st Run Company Station Unit TimeStamp 11lOAl2O24 13:07:29 1110612024 13.O7.39 11lOOl2O24 13:07 49 1110612024 13:07:59 1 'l106/2024 1 3;08:09 1 1/06/2024 1 3:08:19 1110612024 13:OA:29 1 1/06/2024 1 3:08:39 '1 1/06/2024 1 3:08:49 1 1/06/2024 1 3:08:59 '1 1/06/2024 1 3:09:09 11/08/2024 13:09:19 11lOAl2O24 13:0929 '1 1/06/2024 1 3:09:39 1 1/06/2024 1 3:09:49 1 1/0€,/2024 I 3:09:59 1 1/08/2024 13:10:09 11lOAl2O24 13:10'.19 11lOBl2O24 13:10:29 1 1/08/2024 '13:10:39 11lOAl2O24 13:10:49 1 1/06/2024 13:10:59 1110612024 13:11:Og 11DA|2O24 13:11:19 11lOAl2O24 13:11:29 11/06/2024 13:11:39 11nAl2O24 13:11:49 11/06/2024 13:'11:59 11lOGl2O24 13:12:09 11lOOl2O24 13:12:19 11lOGl2O24 13:12:29 11nAl2O24 13:12:39 11lOOl2O24 13:12:49 11lOOl2O24 13:12:59 1 1/06/2024 1 3:1 3:09 1 1/06/2024 13:13:19 11lOOl2O24 13:13:29 11lOOl2O24 13:13:39 11/06/2024 13:13:49 1 1/06/2024 13:13:59 11lOAl2O24 13:14:Og 11106,12024 13:14:19 1110612024 13:14'29 11DO|2O24 13:14:39 11lOAl2O24 13:14.49 11lOOl2O24 13:14:59 11DA|2O24 13:15:Og 1110612024 13:15:19 11lOOl2O24 13:15:29 11lOOl2O24 13:15:39 1110612O24 13:15:49 11lOAl2O24 13:15:59 11lOOl2O24 13:18:Og 1 1/06/2024 '13:16:19 11lOAl2O24 13:16:29 1 1/0€/2024 13:16:39 1110612024 13:14:49 11/06/2024 13:16:59 1'l10612024 13:17:o9 111ffi12024 13.17.19 1110A12024 13.17 .29 11lOOl2O24 13:17:39 1110612024 13.17.49 11lOAl2O24 13:17 .59 1 1/00/2024 13:18:09 '1 1/06/2024 1 3:18:1 I 11lOAl2O24 13:18:29 11IOADO24 13:14:39 11lOOl2O24 13:18:49 '1 1/06/2024 13:18:59 1 1 10,612024 ',t3 .19 .O9 1110612024 13:19:19 11lOBt2O24 13:19:29 11/00/2024 13:19:39 111ffit2024 '.t3.19:49 1 1 /06/2024 1 3:1 9:59 11lOGl2O24 13:2O:Og 1110612024 13:20:19 11nel2o24 13:20:29 1110,612024 13:20.39 Altamont Main Gas Plant K-3C o2 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.08 -0.05 -0.07 -0.06 -0.06 -0.08 -0.07 -0.09 -0.06 -0.06 -0.05 -0.06 -0.06 -0.08 -0.06 -0.07 -0.08 -0.08 -0.08 -0.08 -0.08 -0.06 -0.06 -0.06 -0.05 -0.05 -0.07 -0.07 .0.07 -0.05 -0.08 -0.08 -0.07 -0.06 -0.0s -0.08 -0.08 -0.09 -0.05 -0.07 -0.07 -0.06 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.08 -0.08 -0.07 -0.07 -0.06 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 NOx 5.25 5.32 5.68 5.55 4.83 4.60 3.95 3,93 3.37 3.26 2.93 2.90 2.42 2.84 2.88 2.86 2.83 3.14 3.87 4.00 4.28 4.06 3.45 3.40 3.32 3.30 3.23 3.30 3.71 3.66 3.61 3.55 3.25 3.10 2.94 3.03 3.20 3.47 3.78 3.66 3.42 x.44 3.27 3.27 x.32 3.25 2.90 2.86 2.77 2.76 2.72 2.67 2.58 2.55 2.35 2.58 2.92 2.90 2.94 2.81 z. oo 2.65 2.61 2.il 2.71 2.71 2.75 2.75 ?.75 2.65 2.55 2.52 2.42 2.41 2.39 2.38 2.35 2.35 2.34 2.32 LU 5.69 5.36 5.25 5.52 6.33 7.32 8.09 8.48 8.34 8.10 7.83 7.40 8.88 6.40 6.14 6.71 7.72 8.38 8.92 8.96 8.57 8.13 7.47 6.59 5.94 5.69 5,57 5.75 6.09 6.48 6.7'l 6.59 6.16 5.93 6.19 6.70 7.06 7.O1 6.60 6.18 6.16 6.32 6.51 6.60 6.43 6.13 5.79 5.69 6.03 6.80 7 .O1 7 .17 6.94 6.51 6.11 5.86 5.56 5.32 5.17 5.06 4.97 4.95 4.99 5.06 5.14 s.27 5.38 5.30 5.20 5.13 5.06 5.13 5.57 6.12 6.81 7.'18 7 .11 b.d I 6.33 Ambient 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38. 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 PBaro 23.78 23,76 23.7A 23.76 23.76 23.'18 23.?A 23.76 23.76 23.76 23.75 23.78 23.74 23.76 23.76 23.76 23.78 23.78 23.76 23.75 23.75 23.76 23.74 23.76 23.76 23.78 2t.75 23.78 23.75 23.75 23.75 2t.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.?5 23.75 23.15 23.75 23.75 23.75 23.75 ?3.7s 23.75 23.75 23.74 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.74 23.76 23.76 23.76 23.76 23.76 23.75 23.75 Humidity 27.2 27.4 27.3 27.1 27.0 27.0 26.9 26.9 27.O 27.0 27.1 27.2 27.3 27.3 27.4 27.5 27.5 27.s 27.4 27.4 27.4 27.5 27.5 27.s 27.s 27.4 27.7 27.8 27.9 27.9 2A.O 28.3 28.4 28.5 24.4 24.1 28.0 28.0 27.9 27.9 27.9 27.9 27.9 28.0 27.9 27.8 27.6 27.A 27.5 27.B 27.8 27.8 27.9 27.9 27.9 28.0 28.0 28.0 28.2 28.3 24.2 27.9 27.8 27.8 27.7 2-t.7 27.7 27.6 27.6 27.6 27.8 27.5 27.4 27.3 27.1 26.9 26.9 26.9 Group nam€ #3 Tesi Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3-Test Run - 60 ,r3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 80 ,,3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 00 #3 Test Run - 60 f3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 f3 Test Run - 60 S3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 t3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,13 Test Run - 00 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,r3 Test Run - 60 #3 Test Run - 60 ,r3 Test Run - 60 *3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,,3 Test Run - 60 #3 Test Run - 60 #3 Tesl Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 00 f3 Test Run - 60 A3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 Run name Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Tesi Run Test Run Test Run Test Run T€st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run 't 51 Company Station Unii TimeStamp 11lOAl2O24 13:20:49 'l1loal2o24 13:20:59 11lOBl2QZ4 13:21:o9 1110612024 13:21:19 'l L lOGl2O24 13:21 :29 11lOOl2O24 13:21:39 11l0€,t2024 13:21:49 11106,12024 13:21.59 1110€,12024 13.22:Og 1 1 lMl2O24 13:22:19 11lOAnO24 13:22:29 11rce12024 13:22:39 11lOAl2O24 13:22:49 11/oA/2O24 13.22:59 11lOAl2O24 13:23:09 1110612024 13:23:19 11lOAl2O24 13:23:29 11nAl2O24 13:23:39 11106,12024 13:23:49 1110612024 13:23:59 1110612024 13:24:09 11106,12024 13124:19 11loeno24 13:24:29 11lOGl2O24 'l.3:24:39 11lOOl2A24 'l.3:24:49 11106/2024 13:24:59 11106,i2O2113:25:@ 11lOOl2O24 13:25:19 111O6t2O24 13:25'.29 11lOOl2O24 13:25:39 11106,12024 13:25t49 11106,12024 13:25:59 1110A12024 13.26.O9 1110612024 13:26:19 1 1 lOAl2O24 13:26 .29 11loOl2o24 13:24:39 1,1lOAl2O24 13:28:49 11lOAl2O24 13:28:59 1110€,2024 13.27 .O9 11t06t2024 13.27 .19 1110612024 13:27:29 11lOBl2O24 13:27:39 11to6t2o24 13:27 .49 1'llOAl2O24 13:27:59 1110612024 13:24:Og 11nGf2O24 13.28:19 11lOAl2O24 13:28:29 11lOAl2O24 13:2A:39 11loal2o24 13:2a:49 11nGnO24 13.2A:59 1110612024 13:29:09 11106,12021 13:29:19 11lOOl2O24 13:29:29 111O612O24 13:29:39 1 1 lOBl2O24 13129 .49 11106,12024 13.29"59 11106,12024 13:3O:Og 11/06/2024 13:30:19 1110612024 13:30:29 1 1/06/2024 13:30:39 11lOAl2O24 13:30:49 11/0€/2024 13:30;59 11lOAl2O24 13:31:Og 1 1/06,/2024 13:31:19 11lOOl2O24 13:31:29 11/08/2024 13:31:39 1110612024 13:31:49 11/06/2024 13:31:59 1110fJ12024 13:32:Og 11DA|2O24 13:32:19 11io612024 13:32:29 1110612024 13:32:39 11lOAl2O24 13:32:49 11lOOl2O24 13:32:59 1 1/06/2024 1 3:33:09 11/06r'2024 '13:3:}:'19 11lOGt2O24 13:33:29 11/06/2024 13:33:39 1 1 lOBl2O24 13:33 .49 1110€,12024 13:33:59 Altamont Main Gas Plant K.3C o2 -0.07 -0.06 -0.07 -0.00 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.06 -0.06 -0.00 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.06 -0.07 -0.06 -0.06 -0.06 -0.07 -0.08 -0.08 -0.06 -0.07 -0.06 -0.07 -0.07 -0.06 -0.07 -0.07 -0.07 -0.08 -0.06 -0.07 -0.07 -0.06 -0.06 -0.06 -0.05 -0.06 -0.05 -0.06 -0.05 -0.05 -0.05 -0.06 -0.00 -0.06 -0.08 -0.08 -0.07 -0.05 -0.06 -0.05 -0.05 -0.05 -0.04 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.08 -0.07 -0.00 -0.06 -0.07 -0.07 -0.07 PBaro 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.7s 23.75 23.75 23.75 23.75 23.75 23.75 23;15 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23;15 23.75 23.75 23.75 23.7s 23.75 23.75 23.7s 23.7s 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.15 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.7s 152 Group name 13 T6st Run - 60 l,3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 43 Test RUF - 60 #3 Test Run - 80 #3 T6st Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 50 #3 Tesi Run - 60 13 Tesi Run - 50 *3 Test Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 50 *3 Test Run - 60 f3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 {l3 Tsst Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tast Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Te3t Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 Tsst Run - 60 #3 Tsst Run - 60 *r3 Tssl Run - 60 *3 Test Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 *3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Tsst Run - 60 la3 Test Run - 00 #3 Test Run - 60 #3 Tast Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 NOx 2.28 2.52 3. 13 3.12 3.19 3.46 4.O7 4.10 4.74 4.46 3.92 3.86 3.42 3.40 3.36 3.37 3.42 3.31 3.15 3.1 1 2.83 3.01 3.26 3.28 3.58 3.s7 3.O2 3.04 3.03 2.97 2.89 2.82 2.63 2.83 2.46 2.48 2.43 2.44 2.45 2.45 2.45 2.45 2.45 2.45 2.42 2.42 2.43 2.41 2.31 2.33 2.36 2.36 2.v 2.36 2.38 2.37 2.36 2.41 2.472.il 3.14 3.11 2.96 2.90 2.732.il 2.47 2.69 3.22 3.23 3"30 3.19 2.89 2.92 2.52 2.98 3.00 3.05 2.82 2.72 co 6.01 5.65 5.31 5.44 5.72 5.82 6.08 7.42 8.59 9.28 9.81 8.86 8.24 7.99 7.69 7.29 6.89 6.36 6.34 6.84 7.23 7.82 7.82 7.27 6.88 6.51 6.22 6.11 8.12 6.09 6.06 5.93 s.71 5.61 5.48 5.38 s.37 5.27 5.09 4.89 4.69 4.67 4.72 5.06 5.78 8.34 6.77 6.96 6.96 7.O2 7.37 7.74 7.75 7 .47 6.85 6.s6 6.20 6.12 6.59 7.98 9.68 1 0.83 1't.'l 5 10.26 9.27 8.94 8.88 8.70 8.31 7.80 7.23 6.78 8.37 6.06 5.84 5.87 5.90 5.90 5.71 Ambienl 38 38 38 38 38 38 38 38 39 39 39 ao to 39 39 39 39 39 ao 39 ao 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 Humidity 26.9 26.9 26.9 26.9 27.0 272 2'1.3 27.5 27.5 21.5 27.4 2'.1.6 27.5 27.3 27.2 27.1 27.2 27.2 27.2 27.2 27 .1 27.1 27.1 27 .1 27 .1 27.1 27.2 27.3 27.2 27 .1 27.O 27.O 26.8 26.8 26.8 27.O 27.3 27.s 27.7 27.S 27.8 27.1 27.4 27.s 27.3 27.1 26.9 26.8 26.7 26.7 28.8 27.O 27.2 27.4 27.6 27.7 27.9 2A.O 28.1 28.O 28.0 28.0 27.9 27.8 27.8 27.9 27.9 27.9 27.9 2S.O 24.2 24.4 2A.7 29.0 29.1 29.1 29.1 29.0 29.0 28.9 Run name Test Run Test Run Test Run Test Rm Test Run Test Run Test Run Test Run T€st Run Tesl RH Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T$t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run T$t Run Iest Run Test Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Tast Run Tst Run Test Run Te3t Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run T6t Run Test Run T$t Run Test Run Test Run Tost Run Company Station Unit TimsStamp 11lOAl2O24 13:U:O9 11/06r'2024 13:34:19 11DA/2O24 13:U:29 1110,612024 13:Y'.39 1ilA612O24 15:U:49 11/06/2024 13:34:59 '1 1/06,/2024 13:35:09 1'tlMl2O24 13:35:19 111ffi12024 13:35:29 1 1/06/2024 13:35:39 1110612024 13:35:49 1 1/06/2024 13:35:59 1 1/06/2024 13:36:09 11/06/2024 13:36:19 1 1/06/2024 13:36:29 1 1/06/2024 13:36:39 '1 1/06/2024 13:36:49 1 1/06/2024 '13:36:59 11106,12024 13:37:Og 1 1 1612024 13:37 :19 11106,12024 13:37:29 11lOBl2O21 13:37:39 11lOAl2O24 13:37t49 1110612024 't.3:37:59 1 1/06/2024 13:38:09 11lOAnO24 13:38.19 1110612024 13:g:29 1110612024 13:8:39 11lOAl2O24 13:34:49 1 1/06/2024 13:38:59 1 1/06/2024 13:39:09 1 1/06/2024 13:39:19 11nAl2O24 13:39:29 1 1/06/2024 '13:39;39 11nAl2O24 13:39:49 11lOAl2O24 13:39:59 11lOAnO24 13:40:09 11106,i2O24 13:40:19 11106,12024 13:40:29 11lOAl2O24 13:40:39 11lOAl2O24 13:40:49 1 1/06/2024 13:40:59 11lOGl2O24 13:41:Og 1 1 10612024 'l.3:41 :19 11lOGl2O24 13:41:29 11lOGl2O24 13:41 .39 11lOAl2O24 13:41:49 1110612024 13:41:59 Averaga 11/06/2024 13:46:03 11lOGl2O24 13:48:13 11lOAl2O24 'l.3:46:23 1 1/06/2024 13;46:33 11lOBl2O24 13:46:43 11lOOl2O24 13:46:53 Average 11lOOl2O24 13:fi:23 1 1/06/2024 13:50:33 11lOAl2O24 13:50:43 1 1/06/2024 '13:50:53 11106,12024 '13:51 .O3 1110612024 13:51:13 AvoEge 11lOBl2O24 13:54:57 1110612024 13:59:07 1110i612024 13:59:17 1110612024 13:59'.27 11|ON2O24 13:59:37 11NA2O24 13:59'.47 Averago Allamont Main Gas Plant K-3C o2 -0.06 -0.07 -0.06 -0.07 -0.08 -0.96 -0.00 -0.07 -0.06 -0.D7 -0.08 -0.07 -0.08 -0.08 -0.07 -0.06 -0.06 -0.06 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -0.07 -o.07 -0.06 -0.07 -0.07 -0.07 -0.06 -0.07 -0.06 -0.06 -0.07 -0.07 -0.06 -0.07 -0.06 -0.07 -0.06 -0.07 -0.08 -0.07 -0.07 -0,07 -0.01 -0.01 0.00 0.00 0.00 -0.02 -0.0 1 5.09 5.06 5.07 5.08 5.07 5.05 5.07 o.o2 0.01 0.01 0.01 0.01 0.00 0.01 NOx 2.60 2.55 2.39 2.49 2.62 2.64 2.75 2.74 2.50 2.66 3.03 3.06 3.16 3.26 3.66 3.72 3.85 3.84 3.75 3.70 3.48 3.39 3.21 3.24 3.39 3.40 3.42 3.35 aro 3.36 3.48 3.34 3.13 3.00 2.74 2.79 2.79 3.07 3.50 3.52 3.59 3.65 3.75 3.68 3.58 3.88 3.78 4.46 3.45 1 88.1 I 188.25 188.39 188.47 1 88.58 1 88.59 'I E6.41 -0.04 -0.09 -0.16 -0.'t9 -o.24 -0.28 -0.'t 6 -o.52 -0.54 -0.54 -0.54 -0.55 -0.55 .0.54 co 5.59 5.68 6.26 6.75 7.s2 8.31 8.70 8.86 8.56 . 7.95 7.30 6.74 6.19 5.83 5.60 5.52 5.46 5.32 5.35 5.41 5.46 5.50 5.40 5.25 5.17 5.10 5.20 5.38 5.50 5.52 5.34 5.06 4.42 4.44 4.94 5.04 5.12 5.02 4.85 4.77 4.67 4.59 4.62 4.70 4.90 5.08 5.25 5.37 6.47 -o.21 -o.22 -o.24 -o.23 -o.21 4.21 0.41 0.43 0.42 o.42 0.38 0.38 0./tl 193.60 194.00 194.00 194.80 1 95.00 '195.00 '194.40 Ambienl 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 39 39 39 39 39 39 39 39 39 39 39 ao 39 39 39 39 39 ao 39 38 PBaro 23.75 23.75 23.75 23.?5 23.75 23.75 23.7s 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.7s 23.75 23.75 23.75 23.75 23.75 23.75 23.7s 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.78 23.75 23.75 23.75 23.75 23.15 23.75 23.75 23.75 23.75 2X.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23.75 23,75 Humidity 28.9 28.9 29.0 28.9 2A.A 28.8 28.9 24.9 29.0 29.0 29.0 28.9 28.8 28.8 28.6 28.5 28.6 28.8 28.8 2E.8 28.8 28.8 28.5 28.5 28.5 28.4 28.3 28.2 28.2 28.2 28.2 28.X 28.3 28.2 28.2 28.2 28.2 28.2 28.3 28.3 28.4 28.2 28.0 27.9 27.9 27.9 27.8 27.5 27.1 27.3 27.4 27.5 27.6 27.6 27.4 27.5 27.2 27.1 28.9 26.8 26.7 26.6 26.9 27.9 27.8 27.5 27.1 26.7 26.5 27.3 Run name Test Run Tast Run Test Run TBt Run Test Run Test Run Test Run T$l Run Test Run Test Run Test Run Test Run Test Run T$l Run Test Run Test Run Test Run T$t Run Test Run Test Run TBt Run Test Run Test Run Tasl Run Test Run Test Run Tast Run Test Run Test Run Test Run Test Run T6st Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tost Run Test Run Test Run Test Run Test Run Tast Run Tast Run Test Run T6st Run NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias NOx Bias 02 Bias 02 Bias 02 Bias 02 Bias 02 Bias 02 Bias CO Bias CO Bias CO Bias CO Bias CO Biag CO Bia! 39 ao 39 39 39 39 39 ao 39 39 39 39 39 39ao ao 39 39 39 Group name *3 Test Run - 60 *3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 ,,3 Tsst Run - 60 #3 Test Run - 60 #3 T6st Run - 60 #3 Tast Run - 60 #3 Test Run - 00 #3 Tast Run - 60 #3 Test Run - 60 #3 T6st Run - 80 ,,3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 T€st Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 T€st Run - 60 #3 Test Run - 00 #3 T6st Run - 60 #3 Test Run - 60 *3 Test Run - 80 #3 Test Run - 60 #3 Test Run - 60 #3 Tost Run - 60 *3 Test Run - 60 #3 Tsst Run - 60 #3 Test Run - 60 #3 Test Run - 80 #3 T6st Run - 60 #3 Test Run - 60 #3 Test Run - 00 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Test Run - 60 #3 Bias Check #3 Bias Check #3 Bias Ch*k #3 Bias Check #3 Bias Check ,,3 Bias Check f3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check *3 Bias Check #3 Bias Check il3 Bias Check *3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check 153 K-3G FTIRVOG nxo GHzO 88 8 8 8 8 8 33 3 3 A 3 3 fr x s g B e E EB S E E E E EE E g i E E dd d d d d d d 6 d d dd d d d d d d d d d dd d d d N d d d d N dd d d d d d d d d d dd d d d d d d d d d d6 d d d d 6 d 6 6 d dd d d d d d d d d d dd d d d d d d d d d od d d d d d d d O o d;d ; d - J ; ; ; J dil d d d d d d d d d r6 o r q @ o 6 9 o dd d d d d d d d d SB f , J S S B T T I dd d d d d d d d d x -- - - " - - - t - oo d 6 6 d o 6 l o -- - - - - - - t - @o o E - o 6 6 t - oo o o o o o 6 t - 88 8 8 5 5 8 8 1 1 -- - - - - - - t - -- - - - 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EE E H E i g iq g g q + e 88 8 8 P 8 8 := E E S E E 88 E 8 E s 5 gs S R r g r 33 3 t s r 8 J RF S R N X R EE d I E S !t{tE 8 ;3 3 3 3 3 3 3 3 3 3 3 ,N o o o d 6 o d o d o iE g E E E E E E E E E 6 _l_ l _ l - l _ l _ l - l - l _ l _ l _ l lE r E t t r r 6 t t r d6 6 6 0 i d \ 6 6 d 6 d 6 dd d d d d d - d i d dd 6 o a d i r i - G 88 8 8 8 8 8 8 8 8 8 EA a A E A E D A A E 15 5 88 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 t t 8 t t 8 ;;r r J r ; - - ; ; ; - - ; ; - J - ; J ; - - - - J ; : - 88 3 E 3 8 8 : E g E r A t 9 3 8 3 3 h l r R ; E 5 S P t 3 tt t i tS a E E E E E EE E a E t B f i t t t t t 6 ; 6a 6 rJ - - - - r e - - J J - F J-- ; - J - J-- ; - - - - - od o d d o d d o o d d o o d o o d o d o o o o o o o d o o od d d d o d d o o d d o o o o o o o d o d o o d o o d o o dN N d d d d d d d N d N N d N i d d d d d d d N d d d d d .O N F N T 6 O 6 N od d d d d d d d d d 9 o d d d d d d o d d 6 d d d d d o o 35 8 8 9 8 S f ; ts 8 8 * E p P 8 r 8 6 r g 8 6 6 3 : P g f r ; cP ? 9 9 d 9 ? d 9 9 9 9 9 9 9 9 9 9 9 9 C 9 9 ? ? 9 9 9 9 SS S R S S I I T R g S t s N E N T H } 8 T i l 3 5 t E I 3 P T ad d d d d d F d d r o F d 6 - F 6 d @ d 6 i @ o i i o d o gR E p I s : S S g ; E E E I : d i l g: F E E f ; :H F i H B PP P d P . 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' . ' . ' o ' . ' =l t l t l l l -e P E t t t t r1 4 1 1 4 r 1 !E g E E E E E ;E E E E E E E I ! . r . t t t t L 1e e e e e 9 9 :t t t t ? t 1 ? t t t iE E E , E 3 E E E . E , i , E !E E E E E E E E E E E e6 6 i l t 6 6 5 6 0 t 6 0 t 0 t do o o d d o d d d d oo r e - d d d N o d 88 8 8 s 8 8 8 i E r r EC E A D A a A A A A _l 3 clH El o l v i= l 15 6 st t t t t t t t t 6 6 s E E ; 5 5 E t t t t t t t t 8 8 5 5 ; 5 8 ; E ; 5 5 5 t t t t 8 t 8 8 PB s E t S r ; 3 S b e f , S3 : 9 t C 8 r & 8 3 t 3 t E ; > E t g g 3 8 8 t s oo o o o 6 0 F F o EE E E T E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E 88 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 r r 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 --- - ; - -;- - - - J - - ; ; J - - - J - J Tf E B E E } : E T E E g E E E E E g i C B X : : g : T T E E F i E g E T B dd o d d o d d d d d d d d d d d d d d o d d d d d d d o d o d d o d o o o 3g : t 6 9 3 ; t P S E h s g S e t N B N : t F t $ t 3 F 9 8 ! N E ! 3 I 3 dd d N N d d d d N N d d N N d d d d N d N N d N d d d d d d N d d i l ^ N N dd d d d d d d d d 6 d d d d d d d d d d q d d d o o d o d d d o o d o o o St u b t 9 s ? 8 3 f r 93 e : E s s R & R 8 $ E 9 S E B & 3 R E 3 R 8 t E E 6d 6 6 6 o d o 6 o 6 d o 6 d d d 6 d o d d d d 6 6 d 6 6 6 o 6 6 6 6 o 6 6 PS 9 t e i l e 3 3 9 8 g 3 3 E r f st s S * ; t s 8 8 X 9 i 8 5 S 8 8 f , *e 3 99 9 9 e q 9 9 9 ? 9 C 9 ? 9 9 9 9 9 ? ? 9 9 9 9 ? 9 C 9 9 ? 9 ? ? 9 ? 9 ? oo o N o d o o N N o N o 6 o N N o o r o o 6 N r o r d o o o o o F t F -o dio a o d a d d o i o d d d t s t s @ d o o d t s d € . o d € d d d o d @ N 6 i JJ r J - ; - ; - - - - r r J ; - - - J J - J J J ; J J ; - - - J - - ; - - r - - ; - - J - ; - dd d N d d N d d d d d d d d d d N d d N N d d d N d d d d d d d d d d d N d d N d N d d N N d ;6 ; h 6 d 6 6 6 6 6 6 ; r d 6 6 6 6 6 d ; 6 6 - d 6 d 6 d 6 6 6 d ; 6 d 6 a 6 6 6 ; 6 6 d - 6 dd d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d n d d d o o d d d d dd d d d d d d d d 6 d d d d d d d d d d d d d d d d d d d d d d d d o o d o d d o o o d d d d dd d d d o d d o o o d d d d d d o d d d o d o o o o o o d d o d d d d d d d d d d d d d o o d 3l ; E E I E E E E E E i E S $ E E T i E S H B I E $ E E E E i f r EH S f r g$ 3 S E I $ * S $ $ I I d I 9 -o I 3 9 P I = P P I o o d o d o d @ o o o o I 9 P P P o o d d o d d d o d o o o o d o dd d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d o o d 83 r 5 8 ; : 3 E 8 3 3 E 8 9 8 5 6 t 5 8 N 8 8 8 8 P 3 3 X 8 8 8 8 5 9 ; t r9 - 6 N 6 6 N 6 N r 6 ! N 6 6 N t 6 o - 9 - 6 E r€ - o 6 : o i N o o o o N : r 6 o Nd d d d N d t s 6 N d t s N F N N d d o d d d d d 9 d d d i d 6 d d d d : d d d 6 o d 6 t s = 6 6 d ?a $ E E I U i e ; * ; $ \ i p f i E$ B E F i q H H S i : : E B E E q S : : PiP P P P d o d d d - d P P d d d P 6 @ c d P 6 9 P = P : P o e o 9 o d e 99 9 9 9 d 9 9 9 9 d d 9 d 9 9 9 9 9 9 9 9 9 9 9 9 9 d ? 9 9 C 9 9 q C 9 C e e C ? C 9 9 9 ? C 6 r i d r dd d o o - 6 dd i i o i6 i i r d i d r r dd r i 6 i r r o i r @ r i i dd d d 6 d d d d d d d d d d d d d A d d d d d d d n d d d d d d - d d d d do d d d d d d o d d d d d d d 6 d d d d d d d d d d d d d d d d d d d d o d d d d o d d d d d dd N d d d d o d o 6 o d o d d N i l 6 F i i l N i l o N o d o d o d N N N E i i i d o i \ N i t s o \ iN N N i L N i d \ N i N F d i i i i \ i i 6 i i i l d t F i N N F t s N d d F d- - - -o J- J - - - * J - J J r - -- ; F d - d - - - - J - r e - - - -;J r - 9p 9 9 9 9 9 e 9 9 9 9 9 9 9 9 ? ? 9 i 9 9 9 ? ? 9 ? 9 9 9 9 ? 9 c ? c ? ? s 9 e 9 q 9 9 9 9 9 qa 9 9 9 C g C q 9 C C C g q e C C C 9 9 C 9 C C 9 C C 9 g 9 C 9 C 9 9 C 9 d.i3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 UN - d d i d d o F d d - d o i o 6 d - d o i 6 d N d d d r d o i 6 6 i l d 6 o - N d i 6 6 i l 6 o 6 SA i E E E E E E E E C E E E C E E E E T E g E E E E C E E E E C E C C C C E C C C E E E E E E C 3 Nr N r N r N l N t N t N t N t N t N l N , N t N r N t N r ^ t n r N l N , N r N r N t N t N t N t N t N t N , N t J J N t d r N t N r N t N r N t t u r _ r * t ^ r _ r ^ t _ r * r * r - l i e &d d t d & nG d d d G d d t a t d n t u d G d v d G t c d t t t d t e & t n t G t a t d a d 33 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 r6 6 N d d o F d o i6 6 i d o d - d o i d @ F o d o r N d i a @ N d o o - 88 8 8 8 8 5 s 5 5 5 8 5 5 5 5 9 S 9 9 9 9 9 f r gs 3 g g 3 s 3 3 g 3 g t J EE E E g E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E E -l -t -t -r -t -r - r -t -r -t _r -r - t _l -l - l -l -t - t - t -l -r _t- l -l -t _l _l -l - t -t -l -r -r -t -l _r -r ed t G t t d G t t e d d t i d d d & t e t G d t G d d a t t d & t e d G & 8g E 3 3 3 E 8 B E 8 3 t t J 8 8 ; S 5 8 9 8 8 3 3 5 E 8 8 h 5 8 8 3 ; t 8 NN N N N N d N N N N d N N N d N d N d d N N N N N d d N N N N o N N f t NN dd d d N N N d N N N N N N d N d N d d d N d o o d o d N d N d d N d d d N o d d o d o o N N o $$ $ 8 E U E E E 8 3 E $ $ $ r t $ E t S E r E $ $ E U t E E E E $ $ $ $ S EE A A A E A E A A A A E A A T i A A A E A D a A A E A A E A A e T e A A e T e A A A E A A E A od o : N N - r . o d t s @ o d o - N o rr F o o N o o o 6 6 = o g8 8 3 B E $ 8 8 b 3 3 S t 3 3 E 3 h 8 5 t 8 8 8 8 e S E 8 3 A B 3 E 8 t s S dd d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d o d 9 d 15 7 ;F - - - ; ? - - J - J J - ; - - ; ; ; J ; ; a i - ; ; ; ; i ; ; F e ; J e - ; ; ; ; ; ; - ; f -iJ ? - 5t t t 8 8 8 8 8 8 5 6 5 5 8 5 5 5 8 8 8 8 8 8 5 5 5 t t t t t t E 5 5 5 E 6 t 8 5 8 5 5 8 t t t t t 8 8 --- - : - - - - J - J : - - - - J - - - J - - J- - J :J ; ; J ; ; ; r-- ; r ; F - ES t t i --J - ; - ; - e - - ; ; - - - J - ; - 85 5 5 5 5 E 8 t t t 5 8 8 8 8 8 8 8 5 6+ 6 6 6 F d 6 6 - d Nd d d d N d N d d N aa E E a a a a a a a 66 L 6 G o a - N Nd d d d d N d d aa E a D e a e e 3E 3 r i l S 8 9 g E r S S 3 J 3 8 F 9 f l f, 38 8 3 S 8 3 9 t 3 f f r t ; t 8 8 3 t 3 P R 8 8 5 8 8 8 3 3 h r 8 3 3 8 9 3 5 5 8 3 3 3 9 do d o d o d o d o o d d d o o d d o d d d o d d d d d o d d d d o d o o d d o o o d o d d d d d d d d o d d d o o o o o d d d o d *E B P g 3 9 E R E R l 3 P 3 3 8 g U B E E r gI g 3 3 3 I 3 8 8 I 3 3 8 g B B 3 t g J g 8 5 : 3 g g S J 3 3 S 3 3 t B J B J J g E dd d d d d d d d d d d d d d o d o o d o d d o d o o o o o o d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d o dd d N d d d N d d d d d N d N d d d N d d d d d d d d d N N N d d d d N d d d d d d d d d N d N d N N d d N N d d d d d d d d d d 9: R g 8 5 E 3 8 N N 3 8 R e g r C 3 E r 8 8 P r 8 8 9 R : 8 8 9 8 8 3 i l i ! ; 3 8 E t F F E B 3 ! N h i l R 6 t : r 8 t ; = S 3 F 3 dd - o o d d - d o o o o o o o d o o d o d o o o d d o d d d o o d o d o d d o d d d d o o o d o d o o d d d d d 6 d d o d o o d o St p B E E S p E E s E ! ? E I : B E : t E a E E s E n g E I F A g E S g ; g ; H p E E $ E g E S H E g B 6 E I t E E E ! E E n B S dP 9 3 9 9 9 P 9 9 9 9 9 P P d P d 3 e P P o e P d P o d P 3 9 d d : d o d o o o d o o o 9 o e d d d o P d d 9 9 9 9 o P 9 9 - P P 85 J 5 8 9 8 3 8 9 ; 8 3 3 3 8 3 8 t 3 8 5 8 a 8 5 3 8 X 8 5 8 5 8 E 8 8 5 8 S 8 = = t 5 5 t 8 9 3 8 8 8 S 5 r 8 8 5 5 3 8 8 4 8 r dN d n d N d d d f t NN N N N d d d o d d d d d d d N d d d o d d N d d d d o d d 6 d N d d d d d d d d 6 o d d o d d o o N d N o i l diN N d N N N N N N ^ N N N N d N N d N i d d d d o d n o 6 o o o d o - d d d d d o i 6 d d d n d d i 6 o d o o d 6 6 6 o d d o o aa a a a E a a a a a E E E a a a e a a a G a a a a a a a a a E D e a a a a a a a a a a a a E a a a a a Q a a a a E E a a E a a a E {5 8 -- - - - ; - J - - * J ; - $3 T € S P E E E E E $ E E $ C E E 3 E JS B E g S S E T g E E U E I E T E T E 66 d 6 o 6 o o - o - o o o d o - - 6 d il^ N N d N d N i l d d N d d N d N d N d do d o o o o o o o d o o o o o d d d d ;6 6 - ; ; 6 6 6 6 6 6 ; 6 6 6 d G d d dd d d o d d d o d d n o d d o d d d d do d o d d d o d o d o d d d d d d d d Nq 6 N N 6 N d 6 N o 6 f t r 6 N o d n t r o9 o o d d d o d o 6 d d o o o o o o 9 hs E E s h E * s E s 3 D 3 E h h 5 f r g E3 = 8 3 3 8 3 8 8 3 8 3 8 8 E 8 8 8 8 J-- - * J J - - - - ; - i - F - F r - 8e J 8 E S 8 8 8 t 8 g S 8 5 t t 5 5 8 NN d N N d N N d N o d d d o d N N N N 66 6 6 6 d 6 d6 o o 6 6 . 6 6 d o o d d d d 6 6 d 6 6 d 6 d o o 6 o d 6 d 6 d d 6 d 6 o 6 o d o 6 6 d d o d d d d o 6 o d d 6 d o o ?d 9 ? d 9 ? ? q o 9 o 9 d 9 9 9 9 9 9 9 d 9 9 9 9 9 9 9 9 9 o 9 9 ? ? ? 9 t 9 9 9 ? 9 9 c 9 9 9 9 9 9 9 9 9 9 q d c 9 9 9 9 ? ? o FB R s P 9 N P I T J : E R E 9 g 9 B B 8 g J T 5 5 3 E g 8 R g ! ; S J 8 3 F J i P T 9 3 3 8 g 8 N R 8 h R R t g 8 3 9 : 5 3 S 8 f ; 6 6 6 i 6 d r 6 o o a i r 6 r r 6.6 o o 6 r r r - € ir r di r r i t d i i o i i i i i o r r r d i d t ! r od i 66 NN - o g N N r 6 o o o - t r g9 R R N R R 3 3 3 R 3 : ; i l E R g 8 : 5 8 8 E 8 5 8 R 8 8 9 8 r F 9 8 8 8 8 R 8 R 4 R p 8 6 S $ g X i P S 6 t = s E S S t R F E : dd i d i d 6 i d d i d i i d N i i i l d d N d d d d i d d i i d d d i i d d d d d d P d d d d i l d d d g d d d d d d i d d i d d i d 3I 9 P g 8 S 9 F r B S 3 S 3 8 3 8 8 99 9 9 C ? C a 9 9 C 9 9 9 9 9 9 9 C 8t N B 3 8 & 5 9 3 5 9 3 9 5 i l 8 n & rd o r o r r r t r r 6 r i t t d r i oN r * = o 6 o t s a J3 9 3 E 8 J * ; 8 B D T 8 3 T h P : ts i o d = o d - d d d d 6 d @ o d N d dd 6 d d d d d d d - d 6 d d 6 d d d d d i o d d i d d i d d d d o d d d d o d o o d d i 6 d d d d d d o d o d d o o d 6 o o o o 6 68 3 f 3 3 S 8 5 B S * r G i l S i l E E S E h S E N E t s E r g f fr 88 8 8 G G 8 3 g9 g E 3 E 5 9 9 3 8 9 8 i l 8 6 3 3 S 9 3 6 i l t s 3 6 dd o o d d d d d o o o d o o o d o o o o d o d o d d o d o d o d d o d o d o o o o o d o d o o d d d o d o d d o o o d d o o o d d Nd 6 @ o d @ 6 o o o o d - @ d d N 6 @ d d N d @ i d 6 N @ d @ t s t s d t s t s t s d N i d o d d d N d d t s 6 o d F t s 6 o € 6 E d 6 d N @ @ 99 9 9 i c a 9 9 4 c a 9 9 c 4 c c c e 9 9 c a c a c c " 9 9 9 c a c a 9 9 9 c a 9 9 9 9 9 9 9 9 i 9 9 9 9 9 c a 4 9 c a c a + 9 9 ni3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Qd - 6 d d d o o - N 6 - d 6 N d d o - d o r . d i l d o d - d o i d d i l d d d - N d i 6 d i l d o d - d o r c 6 i 6 6 a F d 6 i o 6 a d I3 3 E I I 3 I E E I 3 T A T 3 3 t r 3 3 3 3 A 3 3 3 E 3 3 E E 3 E 3 3 3 E E T E I I T E t r T 3 E E T A T T I T I 8 A T T T A E E A : A gC gE E E g E E g E E g g g C E E g gE E E B gg E g S E E T g E E E E E T g C ! g E E g g g g E C g E E E g g g E E g g g g g E C I ot 6 1 6 t o t o t o r _ r d r o r _ t _ r _ r _ t . t _ r _ r _ r - r - r - r _ r _ , - t _ r - t _ r _ r . t _ r o r o t o t o t 6 l o t 6 t o t o t o t o r o t o t o r o t o r d t o t J o t o t 6 t o t o t o t o l o t o l o t d t 6 , o t o t o r o t o r o t - de d d E d eE t d d t t & G t d d t d t d e & t e t d d n t e tG d d t t e e E t n t d d d G dt d d & d d d t d d t t t z e E i 99 9 9 9 9 9 9 9 ? 9 9 9 9 ? 9 9 9 9 9 ? i ,* l idE l_ t l Eli l s l -l ! l . l 33et 33 3 t 3 3 3 3 3 3 3 3 3 3 3 3 3 3 rd 6 r d d N d d o - d d i 6 d i d 3t 3 3 3 t 3 t 3 3 3 3 3 3 3 3 3 3 CC C C E C E C E E C C E E E C E E ;t f t t Nt Nt Nt NlN t RI dt Nt Nt Nt Nt Nr Nt Nt Nt N t s! 5 s s 5 5 s 5 5 t 5 r 5 t 3 3 5 dn t d c d d d E i n E d d t G c d ?c a i i g g gB 3 N 9 8 3 85 9 3 3 5 8 3J 8 : 3 t s 3 88 8 8 8 8 8 88 8 8 8 5 8 99 9 9 q ? 9 88 E 8 8 8 8 ts H 9 T R & N HH H E H S S 88 8 8 3 3 8 88 8 8 8 8 E E3 E g E t s 3 88 8 3 3 3 8 ae a a c -? t t e ? P P j4 1 ) 4 4 1 1 iE T E g C E E N -t - r - t _ t _ t _ t _ l I E t1 1 1 E q oo o o o o o o EE g g C E E +c a 9 9 + ? 8Pea I= 15 9 xT93 ;I II+ x tsEc LIPtI g8J3+88 8 8 8 5 E s$ $ $ u E E E:I: $8 8 8 9 P EU E E E $ dd d 6 d d d o dd d d d 6 d r od d d d d o d aa a a a e e e 5txq E q q q E t nd L d 6 d - d iE E E E E E E -( e' e ' r' el s' :' e' D! . ( q { . ! . 8 ! . t6a a 6 6 6 A AF F F F F F F FO O O O O O O 33 3 3 3 3 !E E 8 8 8 g 58 5 5 , U 8 5 , T5 E E E 5 5 5 1! . ! . q ( q l! r [ ! ! ! f, o o o o o o ig - r g g g E ir E r E S , * S , t r 88 8 h E B 5 8I 8 8 E f r J 8S 3 8 8 8 8 99 9 9 i 9 9 {{ E 3 E E q II E E S I E gr 3 3 8 g g ?g + i i e ? J3 g8TrEE9B8t& IRIaII3ItET LIB 3I3II 4qtE9333EE383 BI:il?fr3Ipr B g s g E EE E c c q c 5S 8 3 9 8 5 99 9 9 9 9 RB 8 8 E 8 9? 9 9 9 + EE 8 8 8 g 99 9 + 9 + 33 8 8 8 8 ?96 E8aIa 3E 8 8 E a ?9 9 9 + e 8r 8 8 3 3 8gaf , 8Peg ;tIERTTJ8g 8; D st EE E E E g E SE S E E E E dd d d d d d 6 88 8 S 8 8 8 ii ? g g + e dd d d d d d d 3 3 i3 q B q 3 1 I* s e n e ; Sg E E E E E 9b b b b b S 3fiEE I ,- t rx l IIE&E 1_ | :l t r l I Elr i H l lt o t * t lu l I 83aa3!ExEd LAST PAGE OF REPORT UT&{ DEPARTTIE}Ir OF E}flROiilEhTTAL OI'AITTY DEC 3 1 2024 DIV'SION OF AIR OI'AUTY KMA Main CS ICE 9 2024 new rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont - Main Plant Company Contact:Erin Dunman Contact Phone No.303-914-7605 Stack Designation:ICE-9 Test Date:11/6/2024 High Flow Test Date: 1/0/1900 Review Date: 1/13/2025 Mid Flow Test Date: 1/0/1900 Observer: none Low Flow Test Date: 1/0/1900 Reviewer:Robert Sirrine Emission Limits Emission Rates NMHC NOX CO NOX CO g/bhp-hr 0.70 0.70 0.50 0.030 0.0 0.0 lbs/hr 0.1 1.6 1.1 0.09 0.03 0.03 ppm 60.0 82.0 270.0 3.417 1.043 1.630 Percent %O2 Correction as a whole #15.00 15.00 15.00 Test Information Heat Input Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) fuel flow rate (Btu/hr) Heat Input (Btu/hr.) 12.00 0.79 9489 Contractor Information Contact: Nathan Liebmann Contracting Company: KMA Emissions Test Group Address: 1001 Lousiana St. Ste 1000 Houston TX 77002 Phone No.: 713-420-3664 Project No.: 8702 Round Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthrocite 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 Yes Yes Correct For O2 CO2 Interferece w/CO Yes KMA Main CS ICE 9 2024 new rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont - Main Plant ICE-9 Average Emission Dry NMHC NOX CO g/bhp/hr 0.03 0.0 0.0 Average % concentration lbs/hr 0.09 0.03 0.03 CO2 O2 ppm 3.42 1.04 1.63 -0.09 Run 1 Enter O2 or CO2 Dry NMHC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs/MMBtu (O2)1.17E-02 3.21E-03 3.15E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft 1.36E-06 3.7E-07 3.6E-07 lbs/hr 0.086 0.023 0.023 -0.10 ppm corrected for %O2 3.34 0.87 1.41 -0.07 Run 2 Dry NMHC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs/MMBtu (O2)1.23E-02 4.14E-03 3.53E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft 1.42E-06 4.8E-07 4.07E-07 lbs/hr 0.08879 0.02990 0.02548 -0.09 ppm corrected for %O2 3.49 1.13 1.57 -0.07 Raw Value Run 3 Dry NMHC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs/MMBtu (O2)1.20E-02 4.14E-03 4.28E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs/MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs/cu.ft 1.39E-06 4.8E-07 4.94E-07 lbs/hr 0.085973 0.02959 0.03062 -0.09 ppm corrected for %O2 3.42 1.13 1.912 -0.07 Raw Value Run 4 Dry NMHC 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 0.00 Raw Value C For Cal Drift ppm corrected for %O2 C For Cal Drift C For Cal Drift C For Cal Drift Raw Value O2 CO2 Clear lbs/MMBTU KMA Main CS ICE 9 2024 new rev Calibration Error Test Test Date November 6, 2024 O2 CS - Cal. Span 11.00 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 -0.02 0.02 0.18% Passed Cal. Mid-level 5.06 5.05 0.01 0.09% Passed Cal. High-level 11.00 10.98 0.02 0.18% 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 46.00% 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 NMHC 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 November 6, 2024 NOx CS - Cal. Span 465.00 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 0.009% Passed Cal. Mid-level 195.00 193.18 1.82 0.391% Passed Cal. High-level 465.00 465.10 0.10 0.022% 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 41.94% 100% of Cal. Span High-level 100.00% Test Date November 6, 2024 CO 1.14 CS - Cal. Span 448.00 270 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 0.009% Passed Cal. Mid-level 197.00 196.00 1.00 0.223% Passed Cal. High-level 448.00 447.40 17.60 3.929%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 43.97% 100% of Cal. Span High-level 100.00% KMA Main CS ICE 9 2024 new rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont - Main Plant NMHC NOX CO CO2 O2 ICE-9 CS Calibration Span 465.00 448.00 11.00 Units ppm ppm ppm % % Unprotected CV - Cylinder Value:NMHC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 195.00 197.00 5.06 High-Level 465.00 448.00 11.00 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 41.9% 44.0% 46.0% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 195.00 197.00 5.06 Calibration Error Test Cs - Measured Concentration NMHC NOX CO CO2 O2 Low-Level -0.04 0.04 -0.02 Mid-Level 193.18 196.00 5.05 High-Level 465.10 447.40 10.98 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 193.18 196.00 5.05 Low-Level 0.01% 0.01% 0.18% ppmdv Difference 0.04 0.04 0.02 Status Passed Cal. Passed Cal. Passed Cal. Mid-Level 0.39% 0.22% 0.09% ppmdv Difference 1.82 1 0.01 Status Passed Cal. Passed Cal. Passed Cal. High-Level 0.02% 0.13% 0.18% ppmdv Difference 0.1 0.6 0.02 Status Passed Cal. Passed Cal. Passed Cal. Pre-Test Sampling System Bias Initial Values NMHC NOX CO CO2 O2 CO - Low-Level 0.36 -0.06 0.03 System Bias. SBi - Zero Bias TRUE 0.09% 0.02%TRUE 0.45%± 5% of Span Difference TRUE 0.4 0.1 TRUE 0.05 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 189.57 194.58 5.10 SBi - Up-Scale Bias TRUE 0.78% 0.32%TRUE 0.45% Difference TRUE 3.61 1.42 TRUE 0.05 Pass or Failed Invalid Run TRUE Passed Cal. Passed Cal.TRUE Passed Cal. Raw Test Data Time Start Stop Test Date:11/6/2024 NMHC NMHC NOX CO CO2 O2 NOX 11.9 3.090 4.750 -0.070 CO 0.0%0.7% 1.1%0.0% 0.6%CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values NMHC NOX CO CO2 O2 CO - Low-Level -0.19 -0.28 -0.01 System Bias. SBi - Zero Bias TRUE 0.03% 0.07%TRUE 0.09%± 5% of Span Difference TRUE 0.2 0.3 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 188.26 194.00 5.07 SBi - Up-Scale Bias TRUE 1.06% 0.45%TRUE 0.18% Difference TRUE 4.9 2.0 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.05% 0.05%TRUE 0.36% Drift Difference TRUE 0.6 0.2 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.28% 0.13%TRUE 0.27% Difference TRUE 1.3 0.6 TRUE 0.0 Pass or Re-Calibrate Pass Pass Pass NOTEThese cells sc appropriate C after the Cmentered. If this scan is the Cma and gas value. Failed Bias Failed Failed Cal CO Wet CEMYes Yes Correct For O2 CO2 Interference w/COYe Correct For O2 Failed KMA Main CS ICE 9 2024 new rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont - Main Plant NMHC NOX CO CO2 O2 ICE-9 CS Calibration Span 465.00 448.00 11.00 Units ppm ppm ppm % % CV - Cylinder Value:NMHC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 195.00 197.00 5.06 High-Level 465.00 448.00 11.00 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 41.9% 44.0% 46.0% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 195.00 197.00 5.06 Calibration Error Test Measured Concentration NMHC NOX CO CO2 O2 Low-Level -0.04 0.04 -0.02 Mid-Level 193.18 196.00 5.05 High-Level 465.10 447.40 10.98 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 193.18 196.00 5.05 Low-Level 0.01% 0.01% 0.18% ppmdv Difference 0.04 0.04 0.02 Status Passed Cal. Passed Cal. Passed Cal. Mid-Level 0.39% 0.22% 0.09% ppmdv Difference 1.82 1 0.01 Status Passed Cal. Passed Cal. Passed Cal. High-Level 0.02% 0.13% 0.18% ppmdv Difference 0.1 0.6 0.02 Status Passed Cal. Passed Cal. Passed Cal. Pre-Test Sampling System Bias Initial Values NMHC NOX CO CO2 O2 CO - Low-Level -0.19 -0.28 -0.01 System Bias. SBi - Zero Bias TRUE 0.03% 0.07%TRUE 0.09%± 5% of Span Difference TRUE 0.15 0.32 TRUE 0.01 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 188.26 194.00 5.07 SBi - Up-Scale Bias TRUE 1.06% 0.45%TRUE 0.18% Difference TRUE 4.92 2 TRUE 0.02 Pass or Invalid Run TRUE Passed Cal. Passed Cal.TRUE Passed Cal. Raw Test Data Time Start Stop Test Date:11/6/2024 NMHC NMHC NOX CO CO2 O2 NOX 12.4 3.620 5.290 -0.070 CO 0.0%0.8% 1.2%0.0% 0.6%CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values NMHC NOX CO CO2 O2 CO - Low-Level -0.39 -0.29 0.00 System Bias. SBi - Zero Bias TRUE 0.08% 0.07%TRUE 0.18%± 5% of Span Difference TRUE 0.4 0.3 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 189.35 194.87 5.05 SBi - Up-Scale Bias TRUE 0.82% 0.25%TRUE 0.00% Difference TRUE 3.8 1.1 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.04% 0.00%TRUE 0.09% Response Spec. Difference TRUE 0.2 0.0 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.23% 0.19%TRUE 0.18% Difference TRUE 1.1 0.9 TRUE 0.0 Pass or Re-Calibrate Pass Pass Pass Failed Bias Failed Failed Cal WET CEMYes YesCorrect For O2 CO2 Interference w/COYe Correct For O2 Correct For O2 Failed Bias KMA Main CS ICE 9 2024 new rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont - Main Plant NMHC NOX CO CO2 O2 ICE-9 CS Calibration Span 465.00 448.00 11.00 Units ppm ppm ppm % % CV - Cylinder Value:NMHC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 195.00 197.00 5.06 High-Level 465.00 448.00 11.00 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 41.9% 44.0% 46.0% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 195.00 197.00 5.06 Calibration Error Test Measured Concentration NMHC NOX CO CO2 O2 Low-Level -0.04 0.04 -0.02 Mid-Level 193.18 196.00 5.05 High-Level 465.10 447.40 10.98 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 193.18 196.00 5.05 Low-Level 0.01% 0.01% 0.18% ppmv Difference 0.04 0.04 0.02 Status Passed Cal. Passed Cal. Passed Cal. Mid-Level 0.39% 0.22% 0.09% ppmv Difference 1.82 1 0.01 Status Passed Cal. Passed Cal. Passed Cal. High-Level 0.02% 0.13% 0.18% ppmv Difference 0.1 0.6 0.02 Status Passed Cal. Passed Cal. Passed Cal. Pre-Test Sampling System Bias Initial Values NMHC NOX CO CO2 O2 CO - Low-Level -0.39 -0.29 0.00 System Bias. SBi - Zero Bias TRUE 0.08% 0.07%TRUE 0.18%± 5% of Span Difference TRUE 0.35 0.33 TRUE 0.02 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 189.35 194.87 5.05 SBi - Up-Scale Bias TRUE 0.82% 0.25%TRUE 0.00% Difference TRUE 3.83 1.13 TRUE 0 Pass or Invalid Run TRUE Passed Cal. Passed Cal.TRUE Passed Cal. Raw Test Data Time Start Stop Test Date:11/6/2024 NMHC NMHC NOX CO CO2 O2 NOX 12.2 3.450 6.470 -0.070 CO 0.0%0.7% 1.4%0.0% 0.6%CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values NMHC NOX CO CO2 O2 CO - Low-Level -0.54 -0.21 -0.01 System Bias. SBi - Zero Bias TRUE 0.11% 0.06%TRUE 0.09%± 5% of Span Difference TRUE 0.5 0.3 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 188.41 194.40 5.07 SBi - Up-Scale Bias TRUE 1.03% 0.36%TRUE 0.18% Difference TRUE 4.8 1.6 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.03% 0.02%TRUE 0.09% Response Spec. Difference TRUE 0.15 0.08 TRUE 0.01 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.20% 0.10%TRUE 0.18% Difference TRUE 0.9 0.5 TRUE 0.0 Pass or Re-Calibrate Pass Pass Pass Failed Failed Cal Wet CEMYes YesCorrect For O2 CO2 Interference w/COYe Correct For O2 Failed Correct For O2 Failed