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Home My WebLink AboutDAQ-2025-0029201 DAQC-541-25 Site ID 10219 (B4) MEMORANDUM TO: STACK TEST FILE – KINDER MORGAN ALTAMONT LLC – Bluebell Compressor Station THROUGH: Harold Burge, Major Source Compliance Section Manager FROM: Robert Sirrine, Environmental Scientist DATE: May 15, 2025 SUBJECT: Location: Bluebell Compressor Station near Altamont, Duchesne County, Utah Contact: Fariba Mehdizadeh Tester: Kinder Morgan – Emissions Testing Group Source: Engine Units C-161, C-162, C-163, C-252, C-253, and C-258 FRS ID#: UT0000004901300033 Permit# Title V 1300033003 dated June 30, 2022, revised February 28, 2025 Action Code: 3A Subject: Review of Stack Test Report dated May 5, 2025 On May 8, 2025, the Utah Division of Air Quality (DAQ) received a stack test report for the Kinder Morgan Altamont – Bluebell Compressor Station, NG compression engine units C-161, C-162, C-163, C-252, C-253, and C-258, located near Altamont, Utah. Testing was performed on March 11-12, 2025, to demonstrate compliance with the NOX, CO, and VOC emission limits found in 40 CFR 60 Subpart JJJJ, and permit Conditions II.B.4.a, II.B.4.b, and II.B.4.c. The DAQ results are: Source Test Date RM/Pollutant DAQ Result Tester Result Limit C-161 3/11/25 7/NOX 0.58 lb/hr 0.58 lb/hr 0.76 lb/hr 30 ppmvd* 30 ppmvd* 82 ppmvd* 0.5 g/Bhp-hr 0.5 g/Bhp-hr 1.0 g/Bhp-hr 10/CO 0.03 lb/hr 0.03 lb/hr 1.24 lb/hr 2 ppmvd* 2 ppmvd* 270 ppmvd* 0.0 g/Bhp-hr 0.0 g/Bhp-hr 2.0 g/Bhp-hr ***/VOC 0.17 lb/hr** 0.17 lb/hr** 1.07 lb/hr** 8 ppmvd* 8 ppmvd* 60 ppmvd* 0.1 g/Bhp-hr 0.1 g/Bhp-hr 0.7 g/Bhp-hr C-162 3/12/25 7/NOX 0.62 lb/hr 0.62 lb/hr 0.76 lb/hr 35 ppmvd* 35 ppmvd* 82 ppmvd* 0.5 g/Bhp-hr 0.5 g/Bhp-hr 1.0 g/Bhp-hr 10/CO 0.18 lb/hr 0.18 lb/hr 1.24 lb/hr 17 ppmvd* 17 ppmvd* 270 ppmvd* 0.2 g/Bhp-hr 0.2 g/Bhp-hr 2.0 g/Bhp-hr ***/VOC 0.29 lb/hr** 0.29 lb/hr** 1.07 lb/hr** 15 ppmvd* 15 ppmvd* 60 ppmvd* 0.2 g/Bhp-hr 0.2 g/Bhp-hr 0.7 g/Bhp-hr * - / $ - - $ ) 2 C-163 3/11/25 7/NOX 0.37 lb/hr 0.37 lb/hr 0.76 lb/hr 29 ppmvd* 29 ppmvd* 82 ppmvd* 0.4 g/Bhp-hr 0.4 g/Bhp-hr 1.0 g/Bhp-hr 10/CO 0.02 lb/hr 0.02 lb/hr 1.24 lb/hr 2 ppmvd* 2 ppmvd* 270 ppmvd* 0.0 g/Bhp-hr 0.0 g/Bhp-hr 2.0 g/Bhp-hr ***/VOC 0.10 lb/hr** 0.10 lb/hr** 1.07 lb/hr** 8 ppmvd* 8 ppmvd* 60 ppmvd* 0.1 g/Bhp-hr 0.1 g/Bhp-hr 0.7 g/Bhp-hr C-252 3/12/25 7/NOX 1.55 lb/hr 1.55 lb/hr 2.13 lb/hr 38 ppmvd* 38 ppmvd* 82 ppmvd* 0.5 g/Bhp-hr 0.5 g/Bhp-hr 1.0 g/Bhp-hr 10/CO 0.03 lb/hr 0.03 lb/hr 2.44 lb/hr 1 ppmvd* 1 ppmvd* 270 ppmvd* 0.0 g/Bhp-hr 0.0 g/Bhp-hr 2.0 g/Bhp-hr ***/VOC 0.42 lb/hr** 0.42 lb/hr** 2.13 lb/hr** 9 ppmvd* 9 ppmvd* 60 ppmvd* 0.1 g/Bhp-hr 0.1 g/Bhp-hr 0.7 g/Bhp-hr C-253 3/12/25 7/NOX 1.46 lb/hr 1.46 lb/hr 2.13 lb/hr 33 ppmvd* 33 ppmvd* 82 ppmvd* 0.5 g/Bhp-hr 0.5 g/Bhp-hr 1.0 g/Bhp-hr 10/CO 0.23 lb/hr 0.23 lb/hr 2.44 lb/hr 8 ppmvd* 8 ppmvd* 270 ppmvd* 0.1 g/Bhp-hr 0.1 g/Bhp-hr 2.0 g/Bhp-hr ***/VOC 0.96 lb/hr** 0.96 lb/hr** 2.13 lb/hr** 16 ppmvd* 16 ppmvd* 60 ppmvd* 0.2 g/Bhp-hr 0.2 g/Bhp-hr 0.7 g/Bhp-hr C-258 3/11/25 7/NOX 0.08 lb/hr 0.08 lb/hr 2.09 lb/hr 2 ppmvd* 2 ppmvd* 82 ppmvd* 0.0 g/Bhp-hr 0.0 g/Bhp-hr 1.0 g/Bhp-hr 10/CO 0.08 lb/hr 0.08 lb/hr 3.35 lb/hr 2 ppmvd* 2 ppmvd* 270 ppmvd* 0.0 g/Bhp-hr 0.0 g/Bhp-hr 2.0 g/Bhp-hr ***/VOC 0.13 lb/hr** 0.13 lb/hr** 2.09 lb/hr** 3 ppmvd* 3 ppmvd* 60 ppmvd* 0.0 g/Bhp-hr 0.0 g/Bhp-hr 0.7 g/Bhp-hr ***ASTM D6348-03, **Total VOC = VOC as propane + CH2O *@15% Oxygen 3 DEVIATIONS: None noted. CONCLUSION: KMA – Bluebell compression engine units C-161, C-162, C-163, C-252, C253, and C-258, NOX, CO, and VOC emissions test report appears to be acceptable. The VOC ppmdv @ 15% oxygen and the g/Bhp-hr values were determined using VOC as propane without CH2O. The VOC lb/hr values were determined using VOC + CH2O as propane. So the Excel spreadsheets have the correct values for ppmdv @ 15% oxygen and g/Bhp-hr but a lower value for lb/hr using only the VOC as propane as required by Subpart JJJJ. I ran the CH2O ppmdv through the spreadsheets and added that to the VOC as propane value and verified that their reported values for VOC plus CH2O lb/hr were accurate and demonstratable. RECOMMENDATION: KMA – Bluebell compression engine units C-161, C-162, C-163, C-252, C-253, and C-258 should be considered to have been in compliance with the NOx, CO, and VOC applicable missions limits at the time of testing. HPV: No. ATTACHMENTS: Stack test report received May 8, 2025 DAQ generated spreadsheets KINDE*fi*oqg*il May 5, 2025 Harold Burge, Manager Major Source Compliance Section Utah Department of Environmental euality 195 North 1950 West Salt Lake City, UT 84116 Re: Klnder Morgan Altamont [[C Bluebell Facility (Gas plant), Title V permlt 1300033003 Emlssions Test Report Mr. Burge, via FedEx DEPARTMENtgtumtrEt{tx, qrf,rr tlAY - I 2025 uUtEUt c m qftv Kinder Morgan Altamont LLC (Kinder Morgan) conducted periodic compliance emission testing on several compressor engines at its Bluebell Facility (Bluebell) located in Duchesne County, Utah. The testing wasconducted to fulfillthe requirements of Title V Permit 1300033003 issued by the utah Division of Air Quality(UDAq and 40 CFR 60 subp art Jlll, Standords of Performance for Stationary Spork-lgnited lnternot Combuslan Engines (NsPs JJx). Attached is a report of the test results for your review. As indicated in the attached report, all units successfully tested below permit limits. For all engines, testing was conducted at the highest achievable load under normal operatlons and while thesource was operating at the rate and/or condltions 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 operatlons, and operated under such other relevant conditions specifled by the Director. Based on information and belief formed after reasonabte inquiry the statements and information contained in the report are true, accurate, and complete. Please contact Fariba Mehdlzadeh orvia email at Fariba-Mehdizadeh@kindermorgan.com with any questions. Sincerely,tu Don Perkins Director, Operations CC: EPA Electronic Submittalvia CEDR/ERT nrHlren#,noncnt{ 1 ALrAxoFrT LLc Emissions Testing Group 1001 Louisiana St., Suite 1000 Houston, TX770O2 EmissionsTest Report Two (2) CatepillarG3508B LE Natunal Gas Fired Engines Two (2)CateprllarG35'16 LE NatunalGas Fired Engines One (1) Caterpillar G350&J Natunal Gas Fired Engine One (1 ) WaukehaLT}A GSl 55 Natunal Gas Fircd Engine UniE G1 61, C-162, G1 63, G252, G253, G25f, Title V Operating Permlt Number: 1300033003 Emissions Testing Group File # 25-040 Test Dates: March 11th and 12t ,2025 UrnH OTPNRTMEN EN Kinder Morgan Altamont LLC Bluebell Facilrty Gas Plant DIVISION OF AIR OIJALITY Duchesne County, UT Date: Prepared for: Prepared by: Reviewed by: May Ol r 2025 Utah Department of Environmental Quality Division of Air Quality-(DAQ) Wyatt Dickey Emissions Testing Group (7131420,-2471 Nathan Liebmann Emissions Testing Group (713) 420-3664 l\rAY -B 2025 Table of Gontents TABLE OF CONTDNTS....................... ,.4 RESULTS ..................,..... '.4 ..,..,.................. I 0EMISSIONS SAMPLING PROCESS...... ....... I .......3 .......3 PROCESS DESCRIPTION EMISSIONS TEST \TEI.IICLE ........ SAMPLINC SYSTEM ..12 ivluruop 7E .... IN STRUIVIENT CHECKS AND CA L I BRATIONS.,,.......... EPA PRorocoL Geses (40CFR60, AppENDIx A - M7E.7. I ) INTERFERENCE RESPONSE (4OCFR6O, APPENDX A -M7E.8.2,.7) ,,. ANRLyzEn CelrBRArroN Ennon Tasr (40CFR60, APPENDX A * M7E.8.2.3) NO: ro NO CoNVERSToN EFFICteucv (40CFR60, AppaNox A - M7E.8.2.4). REspoNsr Trur TESr (40CF'R60, AppENDIx A - M78.8.2.6) .......... SysrErur BlAs CTTECK (40CFR60, AppeNox A-M7E.8.2.5 & M7E.8.5)...... VOC nNo CHzO DetEnrrarueloN EMISSIONS TESTINC......,. Senple LoceroN AND SEr-up.............. DETERMI.{ArroN oF STRATIFTcAToN (40CFR60, APPENDIx A - M7E.8. I .2) FuEr- Ga.s ANn1ysrs................... CourlieNce TEST RuNS.......... cALCULATIONS ................... ......... I 8 .... I 3 .... t3 l3 .... l4 .... l4 .... l4 ....14 . .l4 ...14 ... l5 ... l5 . ..16 ..... I 8 ..... I 8 ... . l8 ..... I 8 MASS EMISSION CALCULATIONS, METI-IOD I9.....,...,............ ...........21 APPENDIX....,...,...'.,,..........'.........21 List of Figures List of Tables Table 2: Emission Units and Requirements..................... ....................2 Table 3: Emission Unit & Summary Results for Unit C-161....'........ .......................4 Table 4: Emission Unit & Summary Results for Unit C-162'.'.'....'.'. ....'....'........'....5 Table 5: Emission Unit & Summary Results for Unit C-163............. .......................6 Table 6: Emission Unit & Summary Results for Unit C-252............ .....'..................7 Table 7: Emission Unit & Summary Results for Unit C-253............. .......................8 Table 8: Emission Unit & Summary Results for Unit C-258............. ...................'...9 Table 9: Available Instrumentation......................,.... ,.,.....,,....21 List of Equations Equation 2: EPA Fuel Specifc Fd factor...... .............'.20 Equation 3: Emissions Corrected to ll'h Oxygen......... '..............'...20 Equation 4: Mass Emission Rate (lb/hr).. ...'.............." 2l Equation 5: Mass Emission Rate (g/bhp-hr).................... ......'...........21 Equation 6: Noise Limited Minimum Detectable Concentration #I ............... .................'..'...'...'22 Equation 7: Analytical Minimum Detectable Concentration#2................ ............22 Equation 8: Analytical Minimum Detectable Concentration #3................ ......'.....23 Equation 9: Reference Cell Path Length 23 Equation l0: Sample Cell Path Length............... Equation 1l: Dilution Factor........... Equation 12: Expected Spike Concentration.......... .'.........................25 Equation 14: Moisture Corrected Concentration.................... ........'25 Equation 15: VOC as Methane by Response Factors.......... .............26 Equation 16: VOC as Propane..... Equation 17: Total VOC for Approval Order Permit Limits ...'.'...26 lr lntroduction The Company's Emissions Testing Group (ETG) conducted source emissions testing at the Kinder Morgan Altamont LLC Bluebell Facility Gas Plant in fulfillment of the State of Utah Department of Environmental Quality (UDEO) Title V Operating Permit Number 1300033003. The purpose of this test is to demonstrate compliance with permitted emission limits and 40CFR60 Subpart JJJJ for the units listed below. Table 1 and Table 2 present the emission units and species that were measured during the testing along with applicable permit limits. ,Alltesting was conducted in accordance with Environmental Protection Agency (EPA) test methods as described in 40CFR60, Appendix A, and the test protocol dated February 3,2025. Concentrations of Volatile Organic Compounds (VOC) and Formaldehyde (CHzO) were determined using an FTIR following ASTM D6348 as allowed by 40CFR60 Subpart JJJJ. Non-methane 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 (TotalVOC). Units C-16'1, C-163 and C-258 were tested on March 11,2025. Units C-253, C-252 and C-162 were tested on March 12,2025. Wlatt Dickey and Jonathon Schroeder conducted the tests. Table 1: Engine Detail Unit Name (Permit lD) Serial Number Manufacturer Model Catalyst Type Type Horsepower MFG Date c-161 N8C001 92 Caterpillar G35O8B LE Oxidation 4SLB 69'l @ 1400 rpm 4t27 t2018 c-162 N8C001 93 Caterpillar G3508B LE Oxidation 4SLB 691 @ 1400 rpm 4t30t2018 c-163 N8W00313 Caterpillar G3508J Oxidation 45LB 691 @ 1400 rpm 11t2112023 c-252 N6W00424 Caterpillar G3516 LE Oxidation 4SLB 1380 @ 1400 rpm 1112412017 c-253 N6W00502 Caterpillar G3516 LE Oxidation 4SLB 1380 @ 1400 rpm 1t11t2018 c-258 WAU- 1641952 Waukesha L7044GSl S5 NSCR 4SRB 1900 @ 1200 rpm 22-Feb Table 2: Emission Units and Requirements Unit Name (Permit lD) . Emission Species Applicable Test Method Applicable Limits Permit Basis c-161 c-162 c-163 NOx EPA Method 7E 0 76 lb/hr Title V Operating Permit #1 300033003 1.0 g/bhp-hr 9!. 82 ppmvd @ 15% Oz 40CFR60 Subpart JJJJ CO EPA Method 10 1 24lblhr Title V Operating Permit #1 300033003 2.0 g/bhp-hr 9,1 270 ppmvd @ 15% Oz 40CFR60 Subpart JJJJ VOC ASTM D6348 0.7 g/bhp-hr or 60 ppmvd @ 15% Oz 40CFR60 Subpart JJJJ TotalVOC ASTM D6348 1 07 lb/hr Title V Operating Permit #1 300033003 c-252 c-253 NOx EPA Method 7E 2.13 lb/hr Title V Operating Permit #1 300033003 1 0 g/bhp-hr 9.1 82 ppmvd @ 15% Oz 40CFR60 Subpart JJJJ CO EPA Method 10 2.44lblhr Title V Operating Permit #1 300033003 2.0 g/bhp-hr oI 270 ppmvd @ 15o/o Oz 40CFR60 Subpart JJJJ VOC ASTM D6348 0.7 g/bhp-hr 9.1 60 ppmvd @ 15% Oz 40CFR60 Subpart JJJJ TotalVOC ASTM D6348 2.13lblhr Title V Operating Permit #1 300033003 C-258 NOx EPA Method 7E 2.09 lb/hr Title V Operating Permit #'1300033003 1.0 g/bhp-hr 9! 82 ppmvd @ 15oh Oz 40CFR60 Subpart JJJJ CO EPA Method 10 3.35 lb/hr Title V Operating Permit #1 300033003 2.0 g/bhp-hr 9.1 270 oomvd @ 15% Oz 40CFR60 Subpart JJJJ VOC ASTM D6348 0.7 g/bhp-hr 9.t 60 ppmvd @ 15% Oz 40CFR60 Subpart JJJJ TotalVOC ASTM D6348 2.09 lb/hr Title V Operating Permit #'1300033003 FACILITY INFORMATION Facility: Kinder Morgan Altamont LLC Contact: Bluebell Facility Gas Plant Duchesne Count, UT GPS Coordinates: LAT 40.381450 LONG -110.084043 Fariba Mehdizadeh Air Compliance 1001 Louisiana St Houston, TX77002 Fariba_Mehd izadeh @kindermorgan.com (713) 420-6182 EMISSIONS GROUP INFORMATION Facility: Emissions Testing Group Contact: 1001 Louisiana St., Suite 1000 Houston, TX77002 \Afatt Dickey Emissions Testing Group \Af att_Dickey@ki ndermorga n. com (713) 420-2471 TestSummary The exhaust gases from the units 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 each unit are presented in Table 3, Table 4, Table 5, Table 6, Table 7 and Table 8. The three run average below shows that the units tested below the emission limits. Detailed summaries of the test results are included in the APPENDIX, RESULTS 4 Table 3: Emission Unit & Summary Results for Unit C-161 Emissions Summary For Emissiohs Test Report - C-l61 Date 0311il25 Average Limit BasisParameterRun I Run 2 Run 3 Time 16: 13 l7:24 18:36 FLrel Flow 1,102 530 7 6.1 1,102 541 78.3 533 11 .1 4,146 1,101 535 11 .4 4,132 NOx (pprnvd @ 15% O?)30 30 30 30 82 NOY (LB/HR)0.s8 0.s8 0.51 0.58 0.76 NO" (s/BHP-HR)0.5 0.5 0.5 0.5 1.0 CO CO (ppmvd @ 15% O,)2 2 2 2 270 CO (LB/HR)0.03 0.03 0.03 0.03 t.24 CO (s/BHP-HR)0.0 0.0 0.0 0.0 2.O voc VOC (pprnvd@,15%$)8 8 8 I 60 VOC (s/BHP-HR)0.1 0.1 0.1 0.1 0.7 VOC + CH,O VOC + CH,O (LB/HR)0.17 0.17 0.11 0.17 7.07 o J, (% Bias Corrected) | 9 tl e.64 I 9.70 | 9.71 Table 4: Emission Unit & Summary Results for Unit C-162 Emissions Summary For Emissions Test Report - C-162 Date 03n2t25 Average Limit BasisParameterRun 1 Run 2 Run 3 Time 15:51 11:02 18:16 Flow SCFH S Load 1.101 528 76.3 x 1,101 489 70.8 1,1 00 523 75.6 4,300 1,101 s13 74.3 4,395 NC)- (nnmvd (A lSYo O"\34 35 35 35 82 NO. (LB/HR)0.63 0.61 0.6 r 0.62 0.76 NO, (s/BHP-HR)0.5 0.6 0.5 0.5 1"0 CO CO (ppmvd @ 15% Or)17 11 t7 17 270 CO (LBIHR)0.1 8 0.r8 0.18 0.1 8 7.24 CO (g/BHP-HR)0.2 0.2 0.2 0.2 2.0 voc VOC (pprnvd@ 15% U)t4 t5 15 l5 60 VOC (s/BHP-HR)0.2 0.2 0.2 0.2 0.1 voc + cHzo VOC + CH,O (LB/HR)0.3 0 0.29 0.29 0.29 7.07 o2 Table 5: Emission Unit & Summary Results for Unit C-163 Emissions Summary For Emissions Test Report - C-163 Date 03ny25 Average Limit BasisParameterRun I Run 2 Run 3 Time 11:18 12:42 L3:57 Speed (RPM Horsepower 1.403 416 60. l )1 r,403 417 60.3 1,402 I 417 60.4 3,086 1,403 4t7 60.3 3.157 NO. (oomvd (4. 15% O,\29 29 29 29 82 NO, [B/HR)0.3 8 0.37 0.36 0.37 0.76 NO" (s/BHP-HR)0.4 0.4 0.4 0.4 1.0 CO CO (oomvd (d 15o O,\J 3 2 2 270 CO GB/HR)0.02 0.02 0.02 0.02 t-24 CO (g/BHP-HR)0.0 0.0 0.0 0.0 2.0 voc VOC (pprnvd @,15% U)8 8 7 8 60 VOC fslBHP-HR)0.1 0.1 0.1 0.1 0.7 voc + cH2o VOC + CH"O (LB/HR)0.1 l 0.10 0. r0 0.10 1.07 o2 6 Table 6: Emission Unit & Summary Results for Unit C-252 Emissions Summarv For Emissions Test Report - C-252 Date 03112t25 Average Limit BasisParameterRun I Run 2 Run 3 Time 11:04 12:20 13:36 1.372 1,417 102.6 1.373 1.414 102.5 1,374 | 1,416 102.6 10,0 r 9 1.373 7,415 t02.6 10,01 8 NO' (oomvd (d.15Yo O,)38 39 38 38 82 NO" (LB/HR)1.55 1.s8 1.54 1.55 2.13 NO. (s/BHP-HR)0.5 0.5 0.5 0.5 1.0 CO CO (ppmvd @.15% O))1 I 1 270 CO GB/HR)0.03 0.03 0.04 0.03 2.44 CO fslBHP-HR)0.0 0.0 0.0 0.0 2.0 voc VOC (pprnvd@15%U)9 9 9 9 60 VOC (g/BHP-HR)0.1 0.1 0.1 0.1 0.7 voc + cH2o VOC + CH,O (LB/HR)0.42 0.42 0.41 0.42 2.13 C. (7o Bias Corrected) o2 Table 7: Emission Unit & Summary Results for Unit C-253 Emissions Summary For Emissions Test Report - C-253 Date 03lt2lzs Average Limit BasisParameterRun 1 Run 2 Run 3 Time 11:04 12:20 13:36 S H Load % 1,367 1.435 104.0 t.367 1.425 103.2 1,366 | 1,41 8- ron'-l I 1,1 19 1,367 1.426 103.3 r 1.097 NO' (opmvd@,15% U)32 )Z 33 33 82 NO" (LB/HR)1.43 1.46 1.50 t.46 2.13 NO. (s/BHP-HR)0.5 0.5 0.5 0.5 1.0 CO CO (ppmvd @ t5% O.)9 8 8 8 270 CO GB/HR)0.23 0.23 0.22 0.23 2.44 CO (g/BHP-HR)0.1 0.1 0.1 0.1 2.0 voc VOC (ppmvd @ 15% q)l5 16 16 t6 60 VOC fplBHP-HR)0.2 0.2 0.2 0.2 0.7 voc + cH2o VOC + CH,O (LB/FIR)0.96 0.96 0.95 0.96 2.t3 O. (% Bias Coffected) 8 Table 8: Emission Unit & Summary Results for Unit C-258 Emissions Summary For Emissions Test Report - C-258 Date 03mt25 Average Lirnit BasisParameterRun 1 Run 2 Run 3 Time 11:18 L2:42 13:57 Flow SCF H Load r,r99 1,645 86.6 1.200 1.641 86.7 12,383 1,201 1.649 86.8 469 1,200 t.647 86.7 12,440 NC)- (nomvd (A lsYo O"\2 )I 2 82 NO- (LB/HR')0.08 0.08 0.07 0.08 2.09 NO" (s/BHP-HR)0.0 0.0 0.0 0.0 1.0 CO CO (ppmvd @ 15% Or)2 2 3 ,)270 CO TLB/HR)0.07 0.07 0.08 0.08 3.35 CO (q/BHP-HR)0.0 0.0 0.0 0.0 2.0 voc VOC (oomvd fa 15% O,)3 3 3 3 60 VOC (s/BHP-HR)0.0 0.0 0.0 0.0 0.7 voc + cH2o VOC + CH,O (LB/HR)0. 14 0.13 0.13 0.l3 2.09 o2 Emissions Sampling Process PROCESS DESCRIPTION The Caterpillar G3508B LE (691 hp), Caterpillar G3508J (691 hp) and Caterpillar G3516 LE (1,380 hp) reciprocating compressor engines are four stroke, lean burn, natural gas fired internal combustion engines, equipped with Oxidation catalysts, driving gas compressors. The Waukesha L7044GS| 55 (1,900 hp) reciprocating compressor engine is a four stroke, rich burn, natural gas fired internal combustion engine, equipped with a NSCR catalyst, driving gas compressors. The energy released during the combustion process drives gas compressors, raising the pressure of the rncoming gas from an initial "suction" state to a more compressed "discharge" state. EMISSIONS TEST VEHICLE 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 data averages to a video monitor and the hard drive. The readings are recorded and represented in Central Standard 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, including/excluding formaldehyde volatile organic compounds (VOC), formaldehyde (CHzO) and oxygen (Oz) emission concentrations. Available instrumentation and analyzers are listed in Table g. Brand names and speciflc models are for reference 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 Teflon 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 manifold is maintained at a constant pressure by means of a pressure bypass regulator. Stainless steel needle valves control the sample flow to each analyzer. See Figure 1 for the flow schematic. For the FTIR analyzer, the exhaust gas is brought into the trailerthrough the same stainless steel probe and 3-way sample valve, however, it is next directed through a heated sample line to the FTIR hotbox where the temperature, pressure and flow rate are kept constant by way of a pressure regulator, temperature controller and needle-valve flow meter until the sample enters the analyzer. After the sample has passed through the analyzer, it is purged outside of the trailer. See Figure 1 for the flow schemattc. 10 S ample Flller SamDt€ Line E laS ST:6 Chillsr Figure 1: Sample System Schematic Table 9: Available lnstrumentation ,---\-()-a< --lxF tst-+x3- LEGEND - ooen lo @ s-WayvatvePumP Armosphere - ( p I Pressureoau0e snap F llrrng --><F Hand v atsE \--l iJi,lJo'' -ffi- [:.,i;l;: .g1_ r,owMe,e, sorenord -q[:f- 3.way vave _E- orterIFrrrer 4-..- 3:;l:1 .," Parameters Manufacturer Model Detection Principle Range NOx Thermo Fisher Scientific 42i Thermal reduction of NOz to NO. Chemiluminescent reaction of NO with Os Variable to 10.000 opm CO Teledyne T3OOM NDIR with Gas Filter Correlation Variable to 10.000 oom VOC / CHzO MAX iR Fourier Transform I nfrared Spectroscopy Oz Servomex 4900 Paramaqnetic O toZlo/o Barometric Pressure Rosemount 3051 20 - 31 "Hg WeUDry Temperature Humiditu Vaisala Model HMP 233 -40 "F to 140'F 0o/o - 100o/o 11 General Testing Procedure 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 daled 021312025. 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 oxygen 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 ANDASTM METHODS MEmoo 1 "sample and Velocity Traverses for Stationary Sources" 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 each engine. Diagrams are found in the APPENDIX. MEmoo 3A "Determination of Oxygen and Carbon Dioxide Concentrations rn Emissions from Stationary Sources (lnstrumental Analyzer Procedure)" The objective of Method 3A 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 performed on each engine for the determination of Oz. 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. Calibrations and test results are found in the APPENDIX. MEmoo 4 "Determination of Moisture Content in Stack Gases" The objective of Method 4 is to determine the moisture content of stack gas. Section 16.3 of this method allows the use of an FTIR as an acceptable alternative to determine stack gas moisture. 12 MEruooTE "Determination of Nitrogen Oxides Emissions 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 from a stationary source and routing the sample through a condttioning system to an analyzer for the measurement of NOx (NO and NOz) in ppmvd. Method 7E testing was performed on each engine for the 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. Memoo 1O "Determination of Carbon Monoxide Emissions from Stationary Sources (lnstrumental Analyzer 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 analyzer for the measurement of CO in ppmvd. Method 10 testing was performed on each engine for the determination of CO. 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. Calibrations and test results are found in the APPENDIX. MEruoo 19 "Determination of Sulfur Dioxide Removal Efficiency and Particulate Matter, Sulfur Dioxide, and Nitrogen Oxide Emission Rates" The objective of Method '19 testing is to determine the emissions exhaust flow. Method '19 entails a NOx emission rate determined by an Oxygen-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 each engine for the determination of NOx emission rates. The NOx pollutant concentration, dry F-Factor and percent of dry Oxygen 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 p5344 "Determination of Gaseous Compounds by Extractive Direct lntefiace Fourier Transform lnfrared Fnfl 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 each engine for the determination of VOC and CHzO in ppmvd. The acetaldehyde/tracer sptke, recovery analysis and minimum detectible concentration for VOC and CHzO were within the tolerances of the method. The previously mentioned data and the lesting data were recorded on FTIR software. Calibrations and test results are found in the APPENDIX. I The same exhaust flow calculation was used for CO, VOC and Total VOC. 13 I NSTRU M ENT CH ECKS AN D CALI BRATIONS The following instrument checks and calibrations guarantee the integrity of our sampling system and the accuracy of our data. EPA Pnoroool GASES (4OGFR6O,APPENDX A - M7E.7.1) Calibration sheets for EPA Protocol 1 calibration gases are included in the APPENDIX. I NTERFERENcE RESFoNsE (4OGFR6O, APPEN Dx A - M7 E.8.2.7) Vendor instrument data concerning interference response in the NOx, CO and 02 analyzers are included in the APPENDIX. Axalvzrn GaueRAnoN ERRoR TEsr (4OGFR60, ARRenotx A - M7E.8.2.3) 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 analyzer'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 +/- 2 percent of the span. This curve remained unchanged throughout the test. The analyzer calibration checks (linearity) sheets are included in the APPENDIX. NOz ro NO GoHveRspN ErnclelcY (40GFR6O, APPENDIx A - M7E.8.2.4) An NOz to NO conversion efficiency test was performed on each day of testing following the procedure described in 40CFR60, Appendix A, Method 7E Section 8.2.4.1. The results of the conversion efficiency test are included in the APPENDIX. Saruprc Ltxe LeaxGnecx The sample line was leak checked before the test by closing the calibration valve assembly while the sample pump is operating. Once the maximum vacuum is reached (approximately 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 test for each unit was considered acceptable if the vacuum gauge reading drops by an amount less than 1 inch of mercury over a period of 1 minute. The result of the sample line leak check are included in the APPENDIX. 14 REspoNsE TIME TESr (4OGFR6O, AppENDrx A - M7E.8.2.6) Before sampling began, it was determined the mid-level calibration gas best approximated the emissions and was the more appropriate gas to be used as the upscale gas. A response time test was performed by first introducing the zero gas into the sample system at the outlet of the probe until all readings are stable. The calibration valve 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 low-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 analyzer to determine upscale and downscale responses. The greater of the upscale or downscale 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. Svsreru Bns Gxecx (/IOGFR6O, AppENDlxA- M7E.8.2.5 & M7E.8.5) Before sampling began, the upscale gas was determined as mentioned in the Response Irme Iest section. The system bias check was conducted once prior to and once following the test runs of the series and consists of first introducing the NOx analyzer's upscale gas directly at the analyzer. The analyzer was allowed to stabilize and the readtng noted. The same gas was then introduced at the probe, passing through the entire sample train to the analyzer and the reading noted. The resulting readings indicate any bias attributed to the sample train. This process was repeated with the NOx analyzer's low gas. The bias check was acceptable if the direct gas reading of the analyzer rs within +l- Soh of the complete sample trarn reading of the analyzer [per 7E.13.2). This same procedure was repeated for CO and the 02 analyzers. Sample system bias check forms are included in the APPENDIX. Bias checks before and after each test run of the series are used to determtne a zero and span drift for the NOx, CO and Oz analyzers. The zero and span drift for the test run period was less than +l 3 percent of the span value for each of the analyzers [per 7E.13.3]. The system bias (drift) checks sheet for each test are included in the APPENDIX. 15 VOG and GHzO Determination VOC and CHzO concentrations were determined using ASTM D6348. The instrumentation for this test program was an MAX-|R 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 conceniration 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 pedorming analyte spiking, prior to the test series, in which spike recoveries met +l- 30% of predicted value (see ASIM D6348 EQUAIIO/VS section 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 certifled value. Test Runs: Three test runs, each 60 minutes in duration were collected The QAJQC checks outlined below were performed on the analyzer. 2 Acetaldehyde was used as a surrogate for VOC and CH2O during spike and recoveries. 3 Ethylene was utilized as a Calibration Transfer Standard (CTS). 16 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 4-6 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 spectral data. Field Sampling & Analysis Post-test Analysis Following data collection, the following checks was performed again for verification against pre{est values: identified in Annex A-8 of Method ASTM D6348 17 EMISSIONS TESTING SAMPLE LocATIoN AND SET.UP A single point probe consisting of 3/B inch stainless tubing open at one end was used to collect the sample. The sampling point was placed at least eight stack diameters downstream and at least two stack diameters upstream from any flow disturbance (40CFR60, Appendix A, Mtd 1,11.1.1)to ensure a high integrity sample from each engine's exhaust. D grERMrxnrpN oF STRATI FtcATtoN (4OGFR6O, APPEN Dlx A - M7E. 8.1 .21 A stratification check was performed on Units C-l6'1 , C-162, C-163, C-252, C-253 and C-258 using the sample probe. Three points on a line passing through the centroidal area were used, spaced at 16.7%,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 lnternal Combustion 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. ln order to ascertain the presence or absence of stratification on engines with circular stacks, exhaust concentrations of Oz were measured at three points on a line passing through the centroidal area of the exhaust duct. The mean concentrations were used to determine the amount of stratiftcation. The individual traverse point diluent concentrations differs by no more than t3ppm t0.3 percent Oz from the mean for alltraverse points, the gas stream was considered unstratified and samples were collected from a single point that most closely matches the mean. FuelGnsAxALYsts 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. GompuarcE TEsr RuHs The exhaust gas from the engines was sampled continuously to determine NOx, CO, VOC, CHzO and Oz concentrations for three (3) individual sixty (60) minute test runs @ the highest achievable station process load. 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. t8 Galculations CONCENTRATI ON CORRECTI ON Emission concentration corrections required in 40CFR60, Appendix A, Method 7E were calculated by using the bias check zero and span values from before and after the test. The equation is as follows: _ c^,Csas=(C-C")r+-C^- Co Equation 1: Bias Gorrection Calculation Nomenclature: csas'. Effluent gas concentration (ppmvd) e . Average gas concentration indicated by analyzer (ppmvd) Cot Average of initial & final system calibration bias check responses for the zero gas (ppmv) Cn,t Average of initial & flnal system calibration bias check responses for the span gas (ppmv) C,rot Actual concentration of the upscale calibration gas (ppmv) l9 EPA F-FACTOR A fuel specific Fd factor was calculated as descrlbed in EPA Method 19, "Determination of Sulfur Dioxide Removal Efficiency 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. Fa=[(3.64.Hwtoto) + (1.53 .Cwton) + (0.14'Nz*to/o) - (0.46')r*rot)) GCV PPuelGas Equation 2: EPA Fuel Specific Fd factor Nomenclature: Fd. Fuel specific F-factor (dscf/MMBTU) H*ro . Hydrogen weight Percent Cwt%t Carbon weight percent Nzw.*r,,. Nitrogen weight Percent )zwto/n. OxYgen weight Percent G CV'. Heating value of the fuel (BTU/dscf) pruelcast Density of the fuel gas (lb/scf; 15% OXYGEN CORRECTION The measured concentration of NOx was corrected to 15% Oz as set forth in 40CFR60, Appendix A, Method 7E rs.9 1N 0x - N0x oa, x lrp _ r/r0r) Equation 3: Emissions Corrected lo 15% Oxygen Nomenclature: NOx'. Corrected emission concentration (ppmvd) a N0xour'. Observedemissionconcentration(ppmvd) o/o02: Observed02concentration(%) a The same formula is used for CO, VOC and Total VOC. 20 MASS EMISSION CALCUIATIONS, METHOD 19 The F-factor Method and guidance from Part 75 was used to calculate mass emission rates (lb/hr) and (g/bhp-hr) for NOx, CO, VOC and Total VOC. Equation 4 and Equation 5 were used to determine the mass emission rates. E,r=C:xFrx#%xQnxY(20.9-o/oo) -' r/'' . 106 Equation 4: Mass Emission Rate (lb/hr) Em-- Crx h"#x 0r. x #"# Equation 5: Mass Emission Rate (g/bhp-hr) Nomenclature: En, Ca, Fd. o/o02. Qn: GCV.. BHP. Pollutant emission rates (lb/hr and g/bhp-hr) Pollutant concentration (lb/scf) Fuel specific F-factor for dry Cd measurement (dscf/MMBTU) Oxygen concentration in percent, measured on a dry basis Fuel rate from calibrated AGA compliant meter (scfh) Heating value of the fuel (BTU/scf) Brake horsepower The conversion factors in Table 10 were used to correct the pollutant concentration in ppm to lb/scf. Table 10: Unit Conversion Factors To Convert from:To Multiply by: ppm NOx lb/scf 1.194 x 101 ppm CO lb/scf 7.268 x 10-8 oom CeHa lb/scf 1 1444 x 107 DDm CHzO lb/scf 7.7895 x 10-8 21 ASTM D6348 EQUATIONS M ruruu ru Dgrecresle GoxcrntRenon MDC#L = Equation 6: Noise Limited Nomenclature: NEA ,s *Cref * Lref REF#,.I Lceu Minimum Detectable Concentration #1 MDC#1, N EA: REF: Cre f '. Lrel'. L certl Noise limited minimum detectable concentration for analyte m (ppm) RMS noise for analyte m Root mean square absorbance value obtained 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) IvIDC#Z = 3 * p1s-.- F Llctr " P=7 - c;')' Equation 7: Analytica I Mi nimum Detectable Concentration #2 Nomenclature: MDC#2 P: C aue. co: Analytical algorithm error minimum detectable concentration for analyte (ppm) Number of sample spectra used Average concentration for analyte m representing the analytical bias (ppm) Concentration results produced by the analytical algorithm for the analyte on spectra P of the set (ppm) 22 MDC#3 -1'!!' *c'"r-* L'er " REFlhs Lceu Equation 8: Analytical Minimum Detectable Concentration #3 Nomenclature: MDC#3 Analytical algorithm error minimum detectable concentration for analyte m (ppm) REA: Residual equivalent absorbance for analyte m REF Root mean square absorbance value obtained on the reference spectrum Cr"ft Concentration used in generating the reference spectra for analyte m (ppm) L,ef . Path length used in generating the reference spectra for analyte m (ppm) Lcetrt Path length of the cell used to perform the measurements (m) Rrrenrnce GeLL AesoRpnoN Pnnr Lenonr Equation 9: Reference Cell Path Length Nomenclature: L,: Reference cell absorption path length (m) Lf . FundamentalCTS absorption path length (m) T, Absolute temperature of reference CTS gas (R) Tf , Absolute temperature of fundamental CTS gas (R) Pr. Absolute pressure of reference CTS gas (torr) Pf , Absolute pressure of fundamental CTS gas (torr) C,, Concentration of reference CTS gas (torr) Cf Concentration of fundamental CTS gas (torr) (t), Ratio of reference CTS absorbance to the fundamental CTS absorbance,\er/ determined by classical least squares L'=Lr(;X?) tnff) 23 Saruplr GELL ABSORPTION PAIr LTHCIT Equation 10: Sample Cell Path Length Nomenclature: Ls, Sample cell absorption path length (m) L, Reference CTS absorption path length (m) 7,, Absolute temperature of sample CTS gas (R) T, Absolute temperature of reference CTS gas (R) Ps, Absolute pressure of sample CTS gas (torr) Pr Absolute pressure of reference CTS gas (torr) Cr' Concentration of sample CTS gas (torr) C,: Concentration of reference CTS gas (torr) (&) Ratio of sample CTS absorbance to the reference CTS absorbance,\Al-,/ determined by classical least squares Analrrr Splxrtc DF=Tracer-sp111s Tracer-e1ps67 Equation 11: Dilution Factor Nomenclature: DF: Dilution factor of the spike gas Tracer-5p1y6' Diluted tracer concentration measured in a spiked sample (ppm) Tracer-p1ps5y: Tracer concentration measured directly in undiluted spike gas (ppm) L,=1,(+)(t) e)(f) 24 Cexp: Uail * CS Equation 12: Expected Spike Goncentration Nomenclature: Cexp Expected spike concentration of the analyte (ppm) U n, Concentration of the analytes in the unspiked samples (ppm) lJan, Concentration of analytes in spiked sample effluent accounting for dilution (ppm); Uol= U" x (1 - DF) C,, Certifled concentration of the calibration standard for the analyte (ppm) C.S CS=C.xDF DF: Dilution factor of the spike gas R =1)bs x 1ooLrrp Equation 13: Spike Recovery, Percent Nomenclature: R: Percent spike recovery (%) Cobs: Observed spike concentration of the analyte (ppm) Cexp. Expected spike concentration of the analyte (ppm) Wer _ Dny POLLUTANT GONCTXTRMON GORREGTION C^ _ meo.s ro/oHzO\1-( roo., Equation 14: Moisture Corrected Concentration Nomenclature: Ca, Corrected pollutant concentration on a dry basis (ppmvd) C^eos, Measured pollutant concentration on a wet basis (ppmvw) o/oH2O Measured effluent moisture concentration (%) 25 VOC GaI.CUI-ATIONS BY RESPONSE FAGTORS V0C = ethylene (ethene) acetylene (ethyne) propane propylene (propene) butane Equation 15: VOC as Methane by Response Factors Nomenclature: c1,2 ethylene (ethene) (PPmvw) c13 acetylene (ethyne) (PPmvw) c14 propane (ppmvw) c15 propylene (propene) (PPmvw) c16 butane (ppmvw) V0C aspropane -V0C asmethanef3 Equation 16: VOC as ProPane' Total V)C = VOC as propane + CH20 Equation 17: TotalVOC for Approval Order Permit Limitss 1,.9 x c12 * 2.4 x c1.3 * 3xc14* 2.85 x c15 * 4 x c1,6 s Used for: ppmvd @ 15% C'2,lb/hr or g/hp-hr. 26 APPENDIX Kinder Morgan Altamont LLC Bluebell Facility Gas Plant Units C-161, C-1 62,C:163,C-?52, G-253, C-258 SECTION I: DIT ILEN ENIISSIONS SUNIN,I.TRV resr SuvrvaRY......... SECTION 2: G EN[tt\L lNFoRNli\l-loN S ECT I ON 3 : INS'r-Rt I i\I tiNr Ct t tlcxs ..rND C..tLt BR\t'l oN LEAK CI IECI{. S I R.q ilFtt ,t iltrN CItt ( f RESPONSE TtvtE Tt,s't .............................. I l2 LrNEARrry CIIECK (Cnlteneloru ERROR) FoRN,ls .......................... l3 I ExAN,rpLE C,,\r-cuLr\TroNS ....................... I 76 ........... I 83Brrrs Connrcl-toN C/\LCLJLATIONS .......... FTIR MDC/CTS SUVIN,I,qRY FTIR - VALIDATI0N TESr SuvrHanRt' AND QA/QC A8 ................ SIICTION 4: R.\\\, D..\T..\ SECTION 1: DETAILED EMISSIONS SUMMARY 29 Tesr SururuRnv 30 lun 1 3 A\/ERAGErnlel6t317:24 l8:.]6 Unsine Oneratins l'aranlcters ;peed ( RPi\'I)t,l 02 1.t02 l,t0l l0r Panrl Ilorsenorver 510 541 531 535 .or(l (%,)16,7 7lr-J 77.1 '77.4 lxlculatcd Torquc (Y")97.5 q9.5 98.0 98.1 ctual Torque ('%)97.5 99.s 98.0 98.3 LsIiti0n Titnitrc ("BTDC)23.(t 24.0 24.0 23.9 :latdll'lst Diffcrcntial Prc.ssurc ("I I rC))1.0 0.8 0.9 0., ir I\lanifold Plcssurc (l'SlC;3E.7 18.4 19.5 38.9 ir l\lanitrrld Prtssurt {"llg)76.8 i8.2 60..t '7).1 AiI Nlanifold Trmneralurc ("F)lJ2 t32 ltl ll2 ,lackct Wdtcr C)utlct TernneIntuIC ("F'l l9l t91 t9{l9J he ()il ()rrtlet Tr,rnncrrturo I"l:\196 196 t96 t96 ,ube Oil Prcssurc (PSIG)6J.4 63.0 64.0 63.5 .omDt'cssor Ciompressor Suction Pressulc (PSIG))4 f,5 (lonrnressor Suction -I'cmDerxturc ("F'l -25 -25 25 -25 Corrrplcssol Disclralge Pt csrrrlc 1PSI(i)r56 l6r l6t r59 ( onur|essoI Dischlrgc'I cnrtrcr'iltlrre ("F)rJ5 136 ll5 l]6 Florr'illeasurernents rucl (jrs Strtir l'rcssurc (PSl()1 I 7tt.5 I 78.{I 78.5 I 78.5 ?ucl C;rs Diffcrcntial Prcssurc ("llrC))t1.J r 9.8 t8.7 18.6 lrrl (;:rJ'l crlorr':ttilrr l 'l:l 6.i 6{l 59 6t \lrturt l trntrcrrtilrc ("F 682 632 6S2 682 'rurl Fucl Ikrn' (SCl;ll){,71.1 {.725 t,716 1,732 rlurusl l"l0\y (l.lf/HI{) - i\lctltoil l9 5,79e :,7J I 5,79J 5.778 rhrurt Fllr (t)S(:lrll) - I\lcthrrrl l1)8..1,700 81,?56 81.555 8.1,137 Ail lkrr' (\\SCl.'\l ) - l\'lr(ltod [9 82,t81 8 t .171 82,().tl 8 r,8J2 lkrt Rrtc (BTllnlP-llR)8.819 8,675 8,E52 8.792 El'.,\ Fucl f-I.nctor'. (), Ilrsis (DS(.Fii\li\lR-fll)8.701 3,702 tt.702 8.702 Ambicnt Conditions .\rnbicnt l-crnDcra(urc ("li)58 s9 57 58 lln ronletrir I'ressurc ( " I Ig)24.19 11 t9 2.1.1 9 24 l9 ,.\nrhicnt llelatirc I lumiditl' ('7o)16. I 16.4 I 7.J r 6.6 ,\hsolulc llunridity ((;rail!/LB )l!.2 14.1 t4.9 I t.6 ,rnissions Conccntrations & Calculaterl Nlass Iirnissions \1O1 (grpmvd Rar\ i\lersu[cd l)r'v)51.05 56.1 1 5(r.?6 55.6,t \'Oy (t)t)nryd Rias ('orrcctctl;57.2.t 58.00 56.52 s?.25 ,lL). lorrurvtl rit 159" L\t\l0 30 30 JO {0\ (t.L/ilR)0.58 0.53 0.57 0.51,r \(-)\ (s/lltllLHIt)0.5 0.5 0.5 0.5 l() (nnmv(l Rarv lllcrsure(l [)r'v]s.43 s.36 s.06 s.28 i() (pprnld Bias (iorrcrtctl)4.t9 4.{ I .t.29 {.36 :() (l)l)rnYd ra; l5')1, O1),,2 'o (LBiilR)0.01 0.0J 0.01 0.01 :'O (s/BtllLlllt)0.{}0.(){}.0 r,.0 {r0 ('2,)9.19 9.89 9.87 9.85 VOC as C.llI, (pt)nrvrv)42.58 .t3. I J 43.4'l 4J.06 \'0C rs Crtl" (DpDr\'r')t4.lq r J.33 l.l..l9 t 4.J5 \/()(: (t)t)[r\,{l)r s.73 I S.1.)6 r6.olJ r 5.92 \r0(j (pptrr}d riit l5'\'o O)8 8 8 I VOC (g/llHlrllltt 0.I (). I 0.1 0.1 vOC + (.lHrO (t)t,rnrd)t8.11 l8.lrJ t3.65 t3.l.t \,'O(' + (illro (pprl'tl fd l5"ul, O2)q_6s 9.611 9_,ql ,.7 \roc + cHrt) 0.u/Htt)0.17 0.1?0.r7 0.t7 lOr('2, Rarr Nlcasurcd \\'ct)s.69 s.68 s.63 5.68 to, (,2, Dr\ )(r.l I (r_3r)(r.-t0 6.10 31('% Rau' Nlcrsurcd Dry)9.45 9.ll 9.12 ,.43 )i ('7, Birs C0rrectr(l)1.1.11 9.6-l 9.70 9.7 t Drtr: I l-l\lrr-:5 Coilr,rnilr: Altrnront Lt,C Rntod RPNI: I,.100 RPiu Srrtioil: Blucl).ll Gxr Plrilt Rrtcrl BllP: 691 BllP ljtrit: C-l6l EPA UDIIV: l,l)97 btr/djcl i\lt|ii\lodrl: CAT GJsoEB LE. ACA LDII\' : ,9J [tr/drcf nt rg o,,", ------ln-E,t t s SN; Nxclxll9r crtrl*t T1 p", ----6i.iiii-- 31 Ilun )3 AvER-1.GE t'i l5r5l l'l;02 lll:lil lnsinc Oneratins Prrametel's ;pced (RI'Nl)I,l0t I,l0l 1.r00 l.l0l )nncl llolscporvcr 528 489 523 5tJ .o3d ("i1,)76.1 70-,{75.(r 7.1.3 }lculutcrl'l'olque (')1,)97.0 90.()96,J 94.4 \ctual Torque (ol,)97.0 90.0 96.3 9.1.4 snition Tinrinp ("8'l'DC)t3.4 22-0 2J.9 2J.l irarlvsi IDlct Tcr|l)crrturc ("F)ltE 72S 7lJ 726 t{0utlet Tenrtlerature ("F)7t9 7r5 715 7t6 :'xtalylst Differcntirl Pressure ("Il2O)-0.6 -0.6 -0.6 -0.6 Air Nlrnifold Prcssurc (PSIG)36.5 3J.8 38.8 36.3 Air l\tanifold Prcssult' ( "flg)14)-(r8.li 18,1)74.0 \ir l\lrnifotd Temnernture f'F)135 rJ5 l16 lt6 txcliet \\rrter Outlet I'crnperxture {"1"1 l8l t3l t80 t8l I-uhe Oil C)utlet Temoeraturc (uF)186 I lt7 187 t86 l-ube Oil Plessure (PSIG)66.5 65.4 66-7 66.0 om Dlessor -'orrlrrcssor Sucliou I'rt'ssure (PSIC )3 I I 4 -'onrlressor Suction Tcntperature ("F;2 -22 22 lornplessol Dischatge Pressrrlc (PS[(i]t6l t1t t6l 165 onlDreslol Discltrt le'l cntnct rrure ("F)r35 130 lJl 133 Florv iVlersurenrcnts Iucl Gss Static Pr'.'sstrrc (PSIG.1 I 78.8 I 78.2 I 7u.3 t 78.-t Fuel (ies Diflt'r'errtinl Prc{sure ("H.()l 8.6 I1.6 I 2.9 tJ.7 I I (:l\'l-alrDerrture l'l')67 65 6l 65 \hrilst'l rnroclntilr'e ("f')659 65!)659 6s9 'lncl Fucl Irlow (SCFI'l).1.5 I 0 4,175 .1,300 {,39-i thrusr Flon, (l,B/llR) - Ilcrlrql Ill f,.))f,5,JS8 5,29'5,Jl I rhausr l lorv{I)S(llIl)- i\Iethod I1)8t,0911 7S,667 77,25J 79,006 \ir l'kru (\\'SCFNI) - ['lethcd l9 'ilt,6t)9 76,310 74.96')7(i,66,,, Ica( Rrt( (l]'f U/llP-llt{)8,519 8-el I li..l0 I 8,54"1 .P.\ Fu('l F-Frrcmr. O, Brsis (l)SC'F/IlrlBTtl)8,70J It.70.l s.701 It.703 Arnhient Conditions I'cnrDeraturc ("F)6!6J 6J 6l Biloorctric Prcssurc { "tlg)t.21 7J.)1 2,1.23 2J.2{ Anrbiert Rclrtivc l-lunriditv (%')2t.7 21.2 lt.7 ) t.5 ,\bsolutc Hurrirlitl' ((;rrinsi I -ll)27.t 21.5 !2.9 22.5 Ernissions Concentrations & Cllculated Mass Entissions \iC). (nnnrvrl Rtrv Nlc:rsurcd Drv)66.50 61.32 6'1.11 67.i9 \o\pnrrrl Birs L orrcct.'rl)65.06 65.t I 65.lt6 6i_dl \or ppnrld riir I5'% Or)t4 J5 35 J5 NO LB/l ill)0.6J ()-61 0.61 0.62 NO g/ll I IP-tl Il)0.5 0.6 0.5 0.5 CO (nnnrvd llnv i\leasured Dry)3.2.99 31.98 J3.O I 12.99 (lO (ppmvd llics (.orrecterl)I r.23 31.21 J I .2.1 I t.26 (i0 (pprnvd ia I-i'r(r Or)t1 t1 l'7 t7 to (L.B/llR)0.1!t 0.18 0.tI 0.18 '0 (gi BtlP-llt{)().1 0.-l 0.2 0.2 llo ("/")r 0.0..1 9.81 I 0.00 9.95 i;OC as Cllr (ttrrnrvrv)7l_6 I 71.46 71.65 7.1.J I t'OC rs ('rll, (pprtrvrv)1J,5J u.e2 24.9.5 2.1 77 'O(i (ppntvd)7.2S 17.-i2 21.12 27.5 | v'O('(ppnrvd tril l5'1, Or)IJ t5 t5 t5 r'0C (g/llllP-Illt)0.2 ().2 0.1 0.1 f'OC' + CI lrO (ppdr\(l).t4.7t 3.,1.7.1 35.0J J],3J \'()C- + (ll'l,O (ptrnrrrl ,'o l5'7' ():)I S.40 I 3..1|I 8.56 tft.46 \r(xt+ ('H"o (LuitItt)0.3{)0.r9 0.29 0.29 !'Or ('% Rlv illcrsured \\'ct)5.67 5.69 5.68 5.68 I O, ('% Drr)6.30 6.Jl (i.Jl 6..1I )r ("1, Rlrr illcrsured Dry)9.65 9.65 9.63 I 6,1 ), ('7' Rirs (ltrrrecterl)9.1'l tt -'l'7 9.76 9-76 D.lc: l:-Nrt'-!S Con'Finy: Srrrion: Utri t: Ilf'/Nlodrl: Ntq Ditr: SN: Crtrl){ TyIr: lltrnroilt LLC Rrrrd RPll: Rltc(l BHPI EPA UDIIV: ACA LD}TV: 1.10il RPII BIIP hlu/d$f htr/drct Blurh.tl Cr! Philt c-16, CAT C}5'ISB LE l/ltrrlt ls NSCUq 32 Run 7 3 ..\VER{GEf irne l l:18 12t42 I J:57 Ensine Ooeratins Pararneters Specd (RPi\1.1 I,401 l,40J 1.102 1,403 Panel Horseuorvet 116 417 111 417 Loatl ('%)60.1 60.J 60.4 60.3 Crlculaterl 'l o[que ('7')60.0 (r0.2 6r).3 60.2 {ctual Torque (7o)60.0 60.3 60.3 60.2 Is,nition Tinrinp a'BTDC)25. I 25.2 25.0 25. I {ir I\Ianifultl I'ressure (PSIG)28.0 2'1.5 28.0 27.8 \ir j\lanitbltl fressure ("Ilg)57.0 56.(,,57.0 56.? ir Nlanifoll Ternpernture ("F)t3J lJ5 lJ5 134 lxcliet Woter Outlct TemDcrature ("F)l8s t85 185 185 Lube Oil Oiltlet Temner{rture ("t')192 t92 l9l t9J Lube Oil Pressure (PSIG)61,9 6.1.2 64.0 6.1.0 Cornnressor Conrplessor Suction Pressure (PSIG).4 .t 3 .l ComDressor Discharge Plessrrre (PSIG)112 150 l5l 148 Flow Measurenrents ruel Cas Slrtic Pressurc (PSIG)I 0J.0 I 0l.s I 03.0 r 0t.2 rucl C,ils Diffcrcrrtial Pressulc ("ll1C))66.5 67^0 64.3 65.9 :ucl Gas'Ienttleratu rt' ("F)5l 60 6l 57 rhitust TenrDeruture ("F)6,15 6{5 645 6J5 )rrrcl Furl l.los (SCFll)1 ' )l 3 t6l 3,086 J.1 57 rhrust l.lorr { l-lVtlll) - l\lethod l')3.6ri8 -r.rr.t().)52r -1,6 I J rlraust llor (l)SClfll) - i\letltotl l9 51. l e2 52.47 50,1Xr4 i2.lc0 \ir'llo$ {\\'S( F}l} - llclhod l9 5 1.6.12 5r).9J I 19,421 50,6(ili Ilert lirlc {l}'l ti/Hlrlll(l 7,10(r 7.5J5 7.J.16 7 <r.) El').\ f uel lt-Frrctor,O, Basir (t)SCFfi\'ltrl81'tl)8.701 3.702 8,702 8.702 Anrbient Conditions ..\nrhient Ternrlerature ("t')47 53 53 53 lll rometric I'r'essure ( "[Ig)24.29 24.2't 24.24 24.21 ..\nrhielt ltelalile I{ulnidity ('%)31.5 28.3 25.0 28.9 Absoltrte l'lumitl itv (Grains/l-ll)I q.5 2r).6 2t.8 20.6 issions Concentrations & Calculated Mass L,nl issions \Oy (pprnvd Rarv Nleasured Dr1')57.82 57.S2 l/-Jl 57.67 \0r lppnrvrl llias Ctrrrectctl)6('.00 53.69 59.82 59.50 tO' (grlrrrrvd rit 15",'" O)31)7\)29 2\) !{O\ (LR^IR)0.ls 0.J?0.16 0.1? YOy (gntHILHR)0.J 0.4 0.{u.4 lO (ppnrvrl Rlrv llensuretl Dr1')5.48 5.72 5.61 5.60 1'O (rrrrnrrtl Ilirs Corrected)5.r6 5.09 5.0r,5.08 30 (lrprnvd ii: l3'i1' O)l J I 1 t'O ( L,li/H ll)0.02 0.02 0.02 0.02 iO (s/BIll'-ltlt)0.0 0.0 0.0 0,0 IlO (%,)I 0.98 I 0.97 10.92 I 0.96 i'O(l as Cll, lppnrvrv)lt.7l 4r.60 t0.12 4t.35 I'O( rrs Crll, (t)D[l]'s,)t3.91 1.1.87 I J.S7 r 1.78 rrOC (pt)nr!'(l)I 5.63 I 5.58 l 5.2.1 I 5.{8 l'OC (ppnrvrl r4j l5')/" Orl I I 7 It i:OC (s/tltlFHll)0.1 0.1 0.t 0.1 t'O('+ Cllr() (ppnrv(l)l 3.82 l8.l?18.12 r 8.41 \:O(l + CIIr0 (t,prnyd 14 l5'% 02)9.t I 9.02 8.8d 9.01 t,o( + c:il,o {LR/ilR)0.r I 0.1 0 0.t0 0. r0 lOr ('% Rrrv l\leasured \\'et)6.07 6.09 6.09 6.08 3or1'li, Dry)6.82 6.81 (r.8{6.8J J, ('% Rarv t\{easuretl Dry)8.55 8.51 8.51 8.s2 D, ('% Bias (lrrlcclerl)8.8r 8.|t8 8.80 8.31 Drtc: I l-l\lar-1s Conrprny: Altanront LLC Ratcd RPIII: I,,100 RPII Strlion: Blucb.ll Cr3 Plil Rrt.d BHP: 691 BtlP Uilit: C-163 El'A UDHV: 1,097 htu/dscf i\tn./i\rodct, cAT ca503.J AcA LDHV: 9rJ btu/ds.f Nfg Datc: lll7ll2073 SN: NSWOOJIJ CrtelJrt Typ.: Oridrtios 33 Run 2 l ,L\/I:R..\GE r nte ll:0{I 2:20 l3:J6 ,npine ODeratins Paranleters rleed (RPi\'l)I,312 ,J73 1.37 4 t,37J Punel tlorseporver 1t7 4 t,l 1.416 1,415 l.oxd ( "l')I 02.6 l)2.5 I 02.6 t 02.6 (lalculatcd Torquc (ul,)104.7 04.5 I 0{.5 t 0J.6 Actual Torque (7n)I 01.8 0{.5 r 01.5 r 04.6 Ienition Tirning ("BTDC)L9.4 29.s 29.5 29.5 lctalYst Inlet Temnerrrture ("Ir)709 1t't1 709 708 lrrtalvst Otrtlet TenlDcrattrre ("F)701 700 701 701 {ir lVlanlfold Pressure (PSIG){2.8 42.8 43. l 42.9 r\ir Nlanifold Prcssule ("lIg)87.t 87.0 87.8 87.3 tir Ntanifold Trnrnerature (uF)125 r28 lt2 t28 Iackrt WflteI Outlet Ttrnuerature ("F)185 r85 187 186 Lube Oil Outlet Ternperature ("F)r83 l8J 185 184 Lube Oil Plessule (PSIG)66.4 65.5 65.6 65.8 omr,l'essor -'om0ressor Suction Pressure (PSIC)l0 t0 l0 t0 nr.s\or Suciion Ternnerature (''li)54 6J 70 63 -onrnressor Dirthrrge Prtssure (l'SlG)770 710 11t)770 Florv Nleasurements f uel Gxs Statit Prtssurc (PSIG;t 76.8 171.6 I 78.0 177.5 Fucl Cas Diflcrcntial Pressurc ("IIrO)9.4 10.0 9.9 9.8 Iilrel Grs'Ieul)(rrrurc l"F)(r6 7t 16 1t l1{hxtrst Tenloerrture ("F)649 649 6.19 6{9 Prrcl Fuel FloN' (SCItl)t 0.001 r 0.030 I 0.t 19 10,0r8 t)rhrrust l"lo\v (l.llillR)- Nlcthorl l9 t2.r80 I t,2:7 t 2, t9lt r2.1rfJ Erhuuri Flo$' (DSCIfll) - i\lcthud l1)t16,792 I 78,660 I 77.665 I 77.705 Ail Flor\,(\\rS(iFNI) - Nlcthorl l9 r ? 1,58s I 71.387 t72 42'7 I 71,.166 llcdt Rat(' (B'ttlil IP-llR)?.017 1,067 7,051 7,051 iP,.\ Furl [-[attor, Ci, Basis (DS(.F/'illi\lRTIj),q,?03 8,?r)l 8.70.)8.701 Ambient Conditions hient Temnrralure ("F)4S 54 58 s{ B, ronretric Prcssure (" tlg)24.J0 2.J.10 2t.29 2-1.30 .\nlhient Relativc llurnidity ('2,)38.4 I t.4 2s.J Jt.'7 \bsolute Ilumiditv (Crains/LB)2J.6 2J.1 22.6 23.3 F.missinns Concentrations & Calculated Nlass NOx (lrprnvd IlaN Nlelsut erl Dry)72.45 72.23 70.53 11.74 \Ov (Drlnrvd Ilias ('orrcctcd)7 3.21 7.1.01 12.31 71.20 No\ (ppnrvd (il 15"/; L))J8 39 l8 J8 .IOX (I,D/IIR)l.5s r.58 1.54 t.s5 tOr (s/BtIILHI{)0.5 0.5 0.-5 0.5 lO (pnmvd Rarv l\leasure(l I)rY)J.8l 4.26 4.61 4-23 -O (pprn!d Dias (.'orrcttctl)2.60 2.58 2.80 2.66 ":O (t)t)rnyd .A | 5')'. Or)I I I o (LB/rIR)0.01 0.01 {}.0.t 0.03 :'() (rittllP-lllt)0.0 0.0 0.0 l).0 il,o (%,)t 0.33 t 0.21 10.06 10.20 VOC as CII, (ppntvrv)46.',l2 J6.r{.15.15 46.00 lOC Lts C:Il" lppntvtr)I 5.57 15.33 I 5-05 l5.Jl \rOC (t)t)rnvd)t7.37 l7.lJ I 6.7J r 7-08 VOC (pDrn}d fti l5'li, O)9 g 9 9 \'0C (s/lltlP-Hlt)0.t {l- I 0.I 0.1 vOC + Cll:O (pprnYd)22.5r 72.t'l 71.14 22.t) \rOCl + (llIrO (ppnrvd Cnj I5?i, Or)I I.7l I t.64 l r,16 r t.58 \IO(J + CH,O (Lts/HIt)0.{2 0.{2 0.4 t 0.12 COr ('% Ra$ l\leasurcd Wet)5-7J 5_7 I 5.69 -5.7 t -Oi ('7, Drl')6.39 6.16 6.13 6..36 ), ('% Ra$' I\lcnsurcd Dry)9.17 9.11 9.41 9.41 ), ("1, Biirs C orrected)q.57 9.66 9.6 t 9.62 Ditr: l2-l\hr'-2-i Conrlrot: Altrmort LLC Rrtcd RPi\l: l'ru RPNI Strtior: Blothcll Grt Plrilt Rrttd BHP: 1,180 BllP Ililir: C-252 EPA UDIIV: !,100 bhr/(b(t t\tfr/i\todel: CAT 3516 LE AGA LDIIV : ')')6 l,toi(lrtf NItgDrtc: ll/!l/:01,sN,_]Mil- Cr(rl\rt T)trc 34 lun 1 J -.1\/L,R.l,Gf.I'inre I l:0{l2:20 l3:16 nc oDeratins l'aranleters ipeed (RPl\D ,367 I,J67 r,166 r.367 'lnel Ilorseporver .lt5 I,425 1.4 l8 1,126 ,ord ('X,)01.0 I rl.].2 t02.'l I Ol.3 :rlculatrd T0rqu( ( ol,)06.5 r 05.7 105.-l I 05.8 .\ctual Torquc (7.)06.s I05.8 l 05.3 r 05.8 sniti0tr Tirnius ("8'l'DC)29.3 29.1 29.3 29.3 :lrtrlvst Inlet'l'cmncrnture ("lil 731 733 7J{734 'rtel!{t ()!rtlet Tn[rrreroturc I"F]730 730 7tl 73r '\ir Nlanifold Pressurc (PSlCi){4.5 4J.3 44.2 44.4 AiI Nlunilold Prcssurr ("IIg)90.?90.2 90.0 s0.l Air l\,trtrifol(l'l'eDrDcraturc (''Fl t3{r36 lt9 137 Inckrt \\'atcr ()rrflet Terrrr)erIfure ("Fl r94 r96 196 195 Lube Oil Outlct'l'ernncraturc ("F)tr2 l9J l9{193 Lube Oil Prcssure (PSIC)(r2-6 63.7 6J. I 63. I ComDlessor Conrpressor Suction Presstrre (PSl(i)l0 l0 l0 t0 aonurressor Suction Tcrnncraturc ("F)52 6J 70 62 ,'onrprtssor Discharge Prrsrulc (l'SlG;758 757 758 758 lilorr, NIcasu rerncnts :ucl Gls Stllit l'rcssurc (PSlG.;I 73.J 117.9 I 78.9 I 7lr.-t lucl Cias Difltrcntial Prcssurc ("ll)C))19.0 39.0 39. r 39.0 lirtrl (,;ri'l'orttttet :ltrrt(' l"Fl '12 16 1\)16 lirlrxust'l'cnulcr'rturc ("F)6SS 685 685 685 I'rnrl Frcl Ilon, (SClitl)r I,070 l 1, 102 il.119 I r,097 t,rhlusl l.lon' (l.tl/llR) - i\lethod I 9 tJ.5lr5 I 3,79 I I J,70(i r J_69{ Erhrust I.'lo\\ (ltSCIll) - I\[cthod l()I 97,17?20 1,0]l I 99.921 I 99.446 {ir' }lo\' (\\SCh'\l} -,\lrlh{'(l l9 t 9 1,5{6 l 9s.08J I 9J,009 I 9J.546 Ilcut Ratc (BTtl/llP-llR)7.638 7,i66 7,8t7 7.75i EP,'\ Iucl li-l.actor, Or Rrsis (DS(:Fnli\lB'l'II)8,703 8,701 rJ.70J 8.70J {mbient Conditions \rn bictrt l enr)eralrrc ("F)48 5J 58 5{ ]uronlrtrir Pressurt' (" tlg)24.J0 2l_30 21.29 2.{.J0 \nlhictrt Relativc Hurnidity (7o)38.4 3 t.4 25.1 3 r.7 \bsolutt' llurniditv (Grains/LB)2J.6 23.7 22.6 2t.3 F,missions Conce ntrations & (-'alculated NIass nr rsslons \,1O1 (pprnYd llarl ivlersured Dry)60.60 6 r.85 63.89 62.1 I \0y lppnrvd llias Corrcctc(l)60.79 (r0.79 61.66 6t..lt \01 {lrpnrvtl rtt'15'1, O)l2 3l 33 3l \O\ (I,BflIR)I,JJ 1.46 1.50 t..16 NOr (s/ltHlllllt)0.5 0.5 0.5 0.5 3O (nnmvtl Rarv l\leasurctl I)rY)17,19 t1 l3 t1 t8 l'7 t7 :iO (pt)rnrd Bias Oorrccted;16.16 15.19 15.46 15.7? alO (t)t)mld ,Ai l5',|, Or)9 I 8 8 ]o (LBAIR)0.2J 0.23 o.22 0.21 C'O (q/llHP-lllt)0.t 0.t 0.t 0.1 ltro ('7,)r 0.56 10.17 9.96 I 0.23 \rOC as CllI, (t)t)Dl!'rv)83.80 83.1 7 42.4 8J.I] VOC rs CrH, (t)DtrrYrr)27.e3 27. t'27.17 21.1 | \:OC (l)t)ril\'d)J I.2J 30.86 10.-i I J0.37 \io(j (pprtrud /rct l5')1, ()1)l6 l6 l6 l6 vOCi (s/BHP-Hlt)0.2 0.2 0.2 0.2 vOC + CHrO (pprnld){8.05 .t7. l0 4(r.6ll 41.78 \rOC + C;ILO (r)Dnnd @, 157. O,)25.2-i l4 24.11 25.01 \r(xi + cHtO (t,B/HIt)0.96 0.96 0.95 0.96 :io "/u Rarv Nlclsurtd Wct)5.67 5.68 5.6S 5.68 ro 0l' Drr')6.JJ (,.3 6.31 6.i2 l)2 ('7u Ral' i\lcasurcd Dry)9.57 9.62 9.6s 9.6 r ('7' Bias (orrectetl)9.61 9.tt5 9.f i 9.76 Drtc: l:-l\lrr-15 Cotrrlrxilt: Stxtioni Unit: i\ltr/Nlodcl: Nlfu Ditc: SN: Cr(rltrtTJtrc: Altrtrron( LLC R{tcrl RPi\l: Rdtcd BHP: EP.{ UDIjV: AGA LDI,IV : t.100 RPJ\I B}IP bttr/drcl b(u/d3cI Blilcbcll Cr! Plrtrt I,JEo c-251 I,t00 CAT]SI6 LE N6W0050' 35 lutr I 3 ..\vElL\ct) firne ll:18 l2:47 I 3:57 Enpine C)neratins Parameters pced (RPNI)I,r99 1.200 1,20r I,200 Pancl Ilorseporver I,6r5 I,617 1.6{9 t,6t1 l.,0ad (%,)s6-6 86.7 8(;.8 86.? hlculated Torque ('7,)s6.6 86.7 86.8 86.7 .{cturl Torque (%,)87.5 88.0 87.5 87.7 sniiiou Tirnins f BTDCI !2..4 22.4 2L.3 27.4 atalvst Inlet Terlt)erature (r'F)97t)966 965 967 atalyst Outlet Te[rr)erature ((rf )1.026 r,0lJ 1.025 I,025 \ir I\'lanifold Pressure (PSlfi)3 r.8 3 l_3 J I.J i r.5 \ir l\larrifold Pressure ("llg)61.7 61.8 6J.7 6.1. t \ir Ntanifold Ternnerature ("F)122 t21 125 t21 Iacket Water Outlet TernI)erature ("F)114 173 t1t t74 Luhe Oil Outlet Ternnerature ("[]175 I75 r75 l?5 Lube Oil Pressurc (PSIC)55. I :).u 55.6 55.2 lomnressor Cornprcssor Suction Pressure (PSIC)l0 l0 l0 l0 Comnressor f)isthnrgc Pr€ssu rc (t'sl(;)76t 755 750 755 Florv N'Ieasurements Fuel firs Strtic Prt'ssut e (PSI(i)!t2.6 32.5 82.3 82.1 Irucl Cas Diflcrcntial Plt'ssulc ("t|20)J.-l J.4 l.-l J.3 Fuel Cius Tctrrnclutut e ('r)6l 6S 65 65 Erhaust Tentncr:rtu re ("[)9J0 940 9.t0 910 Prrtcl Irutl likru (S(.Ill)I 1,.167 r l.isl 12,.t 69 I 1,.,r0 Erhuust Florr (l,B/llR) - i\lc(ln,(l ll)It,$6S 3,8(,1 8.rJ51)8,8Ji Iirhrust Horr (DSC.Fll) - \letlrotl l9 I I q.lt2 I l t 8.12.5 I t9.0..1 I I r S,7i,? I}hrust l:lon (\\'.\(iFNl) - tr{ethod I 9 ?,850 7,8(rJ 7.u67 7,8{r' \ir Flrrl (\\:SCFi\'l) - Nlc(ho(l l9 r I 6,0:7 r 1s.252 I I 6.0J?I l 5.775 leur Rrte (IlTtlfl lP-llR)7,5i0 7,169 7.51 r 7,501 IPA [utl p-linctor, Or Busis (DS(]F/\|\IBT(l 8,702 3,702 8.702 8,702 {rnbient Conditions \nrbient Temneraturc ("F)l'7 53 58 53 Sarunretric Plessurc ("1 Ig)21.29 21.27 21.21 21.21 \rubicnt Rclrtilc I IuDridit)' ('7')3J.5 28.3 25.0 28.9 \bsolute I Iurnirlitr' ((i rairrs/l.B)I 1).5 20.6 2 r.8 20.6 Iirnissions Concentrations & Calculated Mass Emissions \Or (nnrnvtl Ralv i\'lcrsurcd Dry)6.6t 6.38 6.02 6.31 NOr (nnrnvd Birs C0rrcctcd)5.'t1 5.61 s.2J 5.5{ NOr (nnmrrl Q: l5"L 0:l 2 ,I I \o,. (LD/I lR)0.08 0.0s 0.$7 0.08 \Or (g/BIIP-llR)0.0 0.0 0.0 0.0 CO (ptrnrYd Rarv Nlcasurcd Dt1')9.r8 9."16 9.98 9.61 CO trrrnrrd llias (:orrectc(l)3.Ji 3.70 9.0 I 8.1t :lO (t)t)trryd rD l5'/. Or)2 ,3 , lo (t.B/l lR)(,.07 0.07 0.(r8 0.08 lO t,l/BIIP-llRt 0.(l 0.(r 0.0 0.0 :l.O (%)l'1.17 16.73 I 7.00 t6.97 3lllO lpllntrrv)0.00 0.00 0.00 0.00 VOC as CHr (ppmrrv)2{.98 !t.25 23.J0 21 l8 \'OO rs Crllr (ppnl\1v)IJ.J3 3.0s 7.17 8.06 VO(l (npntvtll | 0.05 q.7 I 9.36 t).7 t \'(Xl (ppruvd {:, l5'7, O:)J I 3 3 r'O(l (g/IlllP-llRt 0.0 0_0 0.0 0.0 v'O(; + (lllrO (ppnrYd)I 0.05 q.7 I 9.36 ').71 f'O(l + (lll:O (ppnrl'd i?, l5'2, ()2)!.8,1 L.1.t 2.6{2.71 r'O(l + (lll:O (LB/llR)0. l,l 0. r3 0. rl 0.lJ lOr ('% Raw iltcssure(l Wct)9.81 9_87 9.8J 9.85 lor ('r1, Dr"|,)I 1.87 I t.S-i I 1.86 r 1.86 J: ('% Rarv Nleasured Dt1')0.00 0.01 0.02 0.0 l lr ('7, Bias Colrcctcd)0.0(l 0.00 0.00 0.00 . 02 LOWER DETEfiON UMI REACHEO: 02 = 0.6 Dric: ll-i!|il-5 Conrl)rtr\: lltxnrrnrl LLC R't(d RPll: I'u Rl'[l Srrlirn!: Blut[cll Grs Pl!tri Rrtttl BllP: 1,900 BllP unil: C-:Ss EP.\ UDIIV : 1,097 btu/rlscf Nfr/Nlodcl: Wrultclh. L70ll lGA LDIIV: D htu/d.c[ llfB Drlt: 22'Ftb sN: wAU-r6.1195! 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E E iA E + * )i = r o od m o E; = i5 r 'r t r 6" E g. g () = iE ( g tg . ooor - ooc\ l $t rr )C' ) \f(oIf= roo6o!t$o(oooll(EE 6rONIC) (Edo(ooo-o0)Jd ooEG= 54 TJ JodLU ool o, r+@- c?(\ , lc{ tor-6 c?ol@ a$ ro.0 ct )@t-N o oror. - (0(t ro(\ l roIt qloro sF- ro(oo) roGIo- o!+6) COzftr F- - tr )c. j ooN^ @$(o - cf )NN Of- -@ N@ v$ LO(o ooLo _N o LOt- - NoCO LON |r )t- dLr ) .{ - f- - o) roo) $No- o\rO) ooN- @$(o _ cr )NN ot-@ oN@ s.t ro(o Ntr )N O @$f. - cr ) cr ) roc{ rot* otr i |r ) $t* tr(oOJ LONo_ Noo{ oLO@_ coNN c@co lr )N@ cr )$ r. o(o F-$^N o oroN \tcr ) roN tr )N oqLa ) ra l sN N@O) NNo_ oory oLO@_ cr )c. iN o@@ q(\co ns LO(o (r )@cD -N o LOt- - LOcY ) l. r )N LON lr )LOLO $f. * f. - (oO) (oNo- o_x. o_-co OoF. 00 s oao oN:f u- o IlrOa ao_ U)o- ao- LLo LLo ao- u- o LL o lro lro U)&, IULU=tr(Ltuzoztu aU)OLr J tr ot. l l LIJo-aulzEzLU Jtuzo_ C'z=trUlzozLI J uJfotroFJlFO ul trfU)aI.I Jto_OtrFaLt )oJI.J J lLL UJtrlaU)Lr l to_LLLLoaC' Jul :ftL II. J JFU)OJuJfLL =oJu_U)C9Jul fLLJuJzI uJt=U)U) t. L l to_zoFOfaFzl IJ JtfU)U)ultLt!OE=C)aoFzf t!v. faauJE.o-oJotLzx.4 o- I. J JFoJoLLzu? o-u. lFFuJ-JFfoJ6L!mf ulE.=aU)Ul to-J6uJmf l o_uJFFLr l JFfooN-FLr JYO o_ tl JFFI.J JJzFaJFa) o-LUFFul JFlol- -U)JFr) o- TI JF-YOFaF@=-xil l ro(\IG=I iE - E E 6 = + * EE r S sg t o E6 = EE () 5 i t r t ! Et ooor ^ ooc\ l C{ roCD$rotfB rf , )o6o$\fo(5ooi<(E= €rONIo (E(Lo(Eoo-ooJ6 ooE(E= 55 SECTION 2: GENERAL INFORMATION 56 Reuvnnr GONRESPoNDENGE 57 h > = > ar E tr t N : s o5 F Ef (o o =< J o t 6 0 6 i ; e 36 E :d 3 3 ;g rP $ .q P $ ! c I > i 6 E 4 o 5 g6 3 , 1 r .E g E r 3i E- !e - r .! s O - o >o 'a '; .:E 6 o l. e 'E 'E 0. 9 uI ut 5E EtogoosG3!! TEE i ,, o o o oo q . = t EI gx 6x O t r ; A! E D .EEo!qoEdrg _E 3 6 gE E \{\\ sa\ C)JJpC( t r Pd E E r n J #s e r \ f fr E o P, ' P o Or i " O =q C 6E p u o7 5 cf - vm o T 4l = e E s S Eq E i € - s: . d . H E t e E I fg E ; . a g E I H FH C E E . P * E :- i * = ! * ; = H 5 :' i t l + - . H i -' I: : e ' s € . 8 : I Et i * ' - l r * ' .. - g6 ! t r 4 $ r + ! E E = ' i o. E+ E R 5 g * E $ E i E g ; p : E Y Ea & ! c ; r B E sH EF ; E E H n P EE EE ! ! E E E I iE I ! * i + i ; * s! Ef i i r c € ' r " t s "€ i g; i ' E E I : E ; rl E i E 9 : E g r ; e s * tg =- r E :u ; I ; * ' ; $ F* H HE : E ; i i E E * AI i E : i E + XI E E fE f E E i ;" " ; E[ E g r r E i iE } o) ,^ CHg * # EE E , E S tf , E H B e i f E E H $ XE E BE B * E ;E I EE E E g +E g oo e : e : o E, 5 3 EE E 6 g oI*.oLr+.oPotroIIoo.EEI rl t r fr " , -. i, 2 E 345 zi <EC' EE=o=-N \ tr ITa= ,I T 58 --- - - a l c l -4z3vaz:dUo IzIFgoUzIistr2zcU2coI c:3: 2oti3:cEJ)>d< 2Jz!(J2- :z:Q:t s:2:2eaks?! Ut r oO9a 2e t6 2 :9loio I.t - :>:" ; :o:EA< LUDJd, < dOOzu5 |t c>2xaOqsz n6 h :doFU z9bqtoUzIF,aUzoU zdlFiz?<t r=; ctOF z3! zcZ3E6 €E r F 6 6 A 6 0 0 F F F - i: : i : : : t i i : i : i :: : : r r l : : ii : : ! i i : ; : : : : i ii i i : ! : ! i : : i i i i: i i ! t : i i i i : ! : :: : : : ! ! E a 6 ! ! ! ! ! : ! !. = i : ! E = : : I : r : 6 ! . = l:: : : : l IE ! ! e : : i i ! i i : 9 ! L - : i ! 6 6 : i ! i i i e i^ o ! ! : v v i i i l k: - !c t l = = : i ! e : ! i r ! :I 9 ; ; = ! i E i 9 : ! 9 -E = - - i E g - - 5 : I : E i i e E6 s 3 d A P ig gd c ia -r a : = ! r M *E ! i i E : : 3 d s ! i ; :: E . : . : l E i i ri - E F ! o d ! = = Z - o o; o ; -s E? E i € ! q E ? ! ! ; * E -i. t i.Y . Y =: o s s. q ? a . E E= e. ; i E E : == i i i & ? i 1 ? . : . l . a . L .. o - N o n 6 € F !u € F 6 6 - - - oo o o o o 0 0 0 0 0 0 0 0 'j = = = = = = = = E ' = 5 5 = 9Q Q ! Q @ Q Q O H 9 A Q H zaEJt= oZFqFze= ': oq-<O6cz?a> itr=FzpZa UJI= oFdz 5UJz zH2 : : < g I la a !!* ; : oo ;; u 6 ^a o O !s 2 t EE ? S >Z h E z actr a :< : a oa ^ a oo o o E; E = b'r [ ! o .E ! - =2 L + e O iE g eE il t EB J Z a E iE lu l 9: H {e i +. E: O E= t E 6 - od ooIFHFozaQzaarod.q =ao2FaFJt{za UfF:u l , zUoi : Eu - L> 4 ct : F uF 4 q* z qr a : l dz < !F :Ed:HqFq do7_:1za zod.ZfodozIa oolrgEb*J6JzotrdoEJUq ztJ=Fz .d OEoi L- g Jztr l g lt !5io; +r -OE Jf oi *a l s:oi -r i?ion oErzo3 -o n PE 59 -.in@jjFEA EIoosuooooo>* gF Eol0o@d. Ioo EooOR q6E3 ooooo:>* tr Eofa@doo Eo!laodLoo ECo-oUoqq>* _qtr Eoco_o !oooao>* -qi: Eoola@c.oo ECoOR .g . 6E3 oooo>* i- - tof,adIOo Eo!f@otruoo Eoco_oqq>* -9F EJ-gE=ee !Fo o oE ;r 9 o9 o €I.! o P ra ' E bt ; o>oE .i 3 or o co5: r @ B ", 8 :E oo Ero E! o EO€ ;r 9 eE o t4a ds +- Eo . , @ H olE qENO orN o *s f :r @ \Eod o I€r OEE93t -a E<3 F UFoocoIU o!o-oU oF oF@ uroEcU o!coU o=Fa oFo -E B B,H edfi o oz oO oo OoEF oz oo Oo oEoF 9a z7 '= o5s oo o NNoo HE E E E€ E gH E = E3 It i E E' i E gE E 6 aH EE f i Ee $ - se x , ; o ss HE " & H EE H E * E E ! gE Ef i E n * :; E EE E : g HE ;E g E E f, ! q += qE ; :E 3= E E : EE t g; g H s EE E ;f i E I E :# H Er S e i i# i B; E i E rE f , 5; g E E E3 B EE E g5 i EE E+ EE E ie * E iE g E f g $ E E , E f ; $ E H $ E E - 5 EE I E E ti E i EE E E f l E€ E E !6 ; ! E iE : E EE 6 H E EE i f cE.:add!c=cf.9.9EU.,ig!F og=o ots oNo oN oN o INN 3qoo:E Eeo€o eoooeo Eooo€ Eoo@o Eooo€o Ee8€)ooe odF 6@ @)a @)a 6) En. 6ta ESo ooEo coopo po coil copc toz oEo UJ@oo UJooo oo U)o UJo aots eatc= oE 'ooO geooO 'a(J E((.] oEofB .g € o, Nooooz oooz oo3z aBz ooBz 5; o=cf , zc '= o<c @o No o o o (J 60 gi E E i I E i i E E , i E E E E g E I E E E g I E # i E g E E i #i a ; a ; B ;* i e i; E i ci E E E iE r ; J E i iE E E E Eg E 6 g A F E EI ; I EE E E E? E E = Ei E E E g E E{ E t i * f, i g g l i i g i . i t i E e g a t i E i I E E E i E f , i E i E E E E E i EH Ei E E E E i E E Ei E E EE i i g E EE i E E E Eg E i E E i EE E E E E .8 E -u c l o o s o o n d ,E P E 3 C O O N C t >O t r r o o = - : s o f x t s o cle ; H6 * o xv 9* : s ; : 8, 5 ; E 6E E x S H *e $ 5 E{ 3 i E e iE E o <E = g c :* L @F E E E ! o! €) g a. ) c => 6 to z, :, o;Ei ooggCCooo zo () = t s r; - O oo * -r E r ! i 3 E 33 8 E? e € E { gl i E( D 5 ho I s l t j s > ( J - q = t i" ' >e ^ a , ^ t. o E z tF E r g H !' . = o 8; ! " q = al e l. - >* i o ^ =3 sE ; e 55 ! 2. . : a \ E q- E V = 9e c ) zE a !(\ ) -ai; a; 46 2 6 La ,f LU ,f EoooPTOoooo oo>* Itr EotraouIo EOoo9uooooooo>*otr Eoo!lootuo Eoool@trIoo EoLo-oyr o oodo>+ -9L c4oc o -9 : 4 r , Q E, ol B cE o c;o? o E L , g €. olo qEN3 oFN o !o&F€; r 9 oy \Eod oo o Uts6cU !oEoGU @oF6 oFa oz oO oo oo6F O 61 E; E EI * I ; E ;g E * E S E 'g E : E; E* $; ; : : : EE : ;e I s E E E€ i; r ; E tf r ; l E B B; E E E t E E :E e E E E E H = r :* ; ; a s i _ ." 1 [ : E i E ;a r E E ? E ; EE E E E : E i : E E E E E g E g g ! E E E E E s [ E E g E E E P; E E: : i e i 5= iE g : B I $ E i 6 gg E E E E gI E g * E E i i E t i a E E ; i g E i E E i g g E E i a i g E E i E t t f, Ei g i :i ; i l i Ei iE i g t E E g r it E t E a ; . sg t g g a ; i g E tr B E E ., , E E ,9 -doqEb. g !coeEP 9; 69oo -o S .3 4 JF i 9g6, 6 od oE9oqo i9 e! po !oqoSe IIo oSFO!L f oO9 a'6c't roEo o4>:o5EZc-oc= fcooEEo: -E o c,asoo=IooE'tx62 dEI3lElEIolclsl:lqlel != IooFN sooF o ocI 1fc co,I Nb; ,q ; uFoEc ,cb; q;[| : oEr coEtr EEog6.96 cEEc oz oo Eeo=E{ , gdEd >! 2 5 e! I Ei o-F 62 otFoo€FEt!:4F lo o c o > o o r o E o oi o E l o i o da ,:C * o t x t - o c c i -E - c o o : r c= *E * E E g E E ; n fr e IE e = ; t - i EE si i t E ; : e E e * ? =E : r e a : E E; = ;r E E I E E I E E 6 3 [E $ ; 1 E E g E ql ] e ta $ ; E g t ; : e r i Ei E ; s , t * = 5 f ; ; g 1 ii l E * r : E i = e a u E, I [g ! ! g i g i 1 [ g[ ; gt l i l i l i E E Eg i EE i EE E li i g i i I g l g Ei g E 6 *E l E <= e = < z o: :x N ! oa G ! : o o t lo E o E d c c E : I E? E g E E m E ; ;! E E E ; E g iE E E E E s E : EE Ei * E F E E q E :E e E i : * i tE I E t s ; i * EE SE F H B T a * s hE s E r :E gE [ ; i e e E ; sI g ; ; ; ; E :; ; i e E ; ; g ge ; i; ; ' * ; r: a; :6 i BE g€ ; s; E ! * i [; 5 f; E EE E E ! E E f i ; :E E E i U = = !: 9 ; = i : E E s ;* Er ! Fi r ; * i ,E , + r; a E I EE f f ;; f i r iI * HE , a i * * i E :u 5 a 3 [ E ; I* E I ! i S : E Eg i Ei E E € i I t ; Ei i E E E i E IE ; E E E E E i ?E E 66 s = : E E E s Fg u € E e E I SE E E ; F t { B ' .$ E ! Bi ; ; ? ; ; p E If e 9 ! : e 9 id r , r ; t . e t i *; t *s : € ? t E i a ls : ; P e ; ! Fs H ; E t a E ? sE H ;g e e e : ; : f ; s f u ; ; E ; :S H $ t ; g E E Ei ! E* t 1 E ; : E t EE E ; q ; I E ; E: I x ; E 3 E g ! sE T Es E B E l E f l a $ SS H g i $f i I , $i E g E E E E E E . $S S g J ! E i I . $E E g E ; q H E E X: E E oo o o IE E t r hE b E EE E E 63 aT,d1P ts !Et e s. ! . s T6 E P! l d3 i : o 6 v , 6e c 9E € 5o i rs I 0 s3 t r -- ! tI o -F b t to - E t i> c3 3 g . -r , E 3E -. E E E f HI IE EE E . ; ? 9" " sg is E E ; E EH B € E sH i f i u 3I t: _ , 8 fi iE E ; ; iE Hi : E H Eg t ; E *; : t E E ; =E i E E lE E E h u r E E# E E F =5 3 e i EE E d ; €E ; g i Eg H E a I ! E ;< : E : E 8 g: . g E E E E ! EE ; E = ai }T 5 E5 F ; P ; E ; es F E s E {? a0 e ; g i; S ; ? * E ! * EE E i E E EE e i g E E I g E i EI E E E E E i E iE E i ; e tl i i : i { { l { g 6E g 1 r E H B 3 ;E # t ; 3, ! ll * s f l s s e l r .s O i ; = r a E 6 [ ). s ] o E ]: o eoo EE f f i g E ET E E i E E g iE i g EE E t E E g E E EE E i gi E t E t , I e E S E e i E E i E E H E E E E E i i E $ i I E ; ti i i g E l i EE E g l g i i a II i g I ii g i a g l t tt ig g i E Ei E E E E i I EE E i i E l i E ff i E E I Ei E i E E E E E EE ii i E , HE E 64 +E g a ! E ; i; i E ;E E E g i t E E ; t E I E E iE E il t $ t : r [a E e r ; ;r E i E E E E E E s * E E = I$ i Et I I i i l ri a : * t E gE E e i E E E E E i i E A E Hf l t iE E E E i t E i' 3 f l g I. Ei ! l E e e - r E n E i rn E3 * " iE E E E I : I E i i f E I ; I E * E E i E i E i i i E i * * * E - fr g ; * E € E ; F * E Es E i ii E EE i E E E $ E E € E g E E E . Ei E i Z n a: g 4 E E e E E I: E E E ;E E* a i E E E E ; E H f r : E E i ta ; ; ai fi .t EB E H Bs E -3 eg ! E EE ! e o =E E 3 ;E i i rl e g : EE :g e e - p g E; l E 5 aa - E az ' > ; A a = oE EE E E : E gg ; ; t .s E H ; E9 E = Es E : i g ! =E ?; - = E : t ii i Ei E !. ;i !: g l l ; * iE * EE E €s "= i ;t E E E f i g :e i iE *- Fq .: ; g eH 8 != F = " 8 =i = 3E :; s s c i E EE + et * il i E; E iE ;t E E ; E E ; g 3 - * = + E* i E! E I; q *i E E ; Ee E E i E Et ; ;H e r " gE : EE u EE E E E g ; ; * t ; t E g E g E ; e i : g g i EE $ gi , I ; i E € ,. ,\ , \ \, \ \ \ \ .\ \, \ \ \ E .. f !E . . . . g s :F p $e , $ 65 o! d , q :E s .e 5 Ec C e ! u,Er E e H EE € $ A EE a fi e 0 <' B E ; E t i +E . *t E t -C A [E .= Ei € [ fr :; -1 . " E i t E ; 3 F€ ,F I , q E E E € E Ei "l . S s _i : F 5 E ET G- E E € + E H cE (J E 6 ! o F ;; - ; 5 t E E E, I z =E ,g a E . i aE 5 0E ; ;. f i EI I ; e e tr ; i e ij 8 g .E s €g E O EE . F 5 E I T E 'd 3 E tU H5 o * :R E. E € EH ; 3 E i - +s E E E E 3i : 9 . € P= := i j , iE E Q a. e E -[ aE -a e t" o o E- r * H' Ps H' E k' r 6 e 6 E i l Ee t E i 6 c g i E E 3 0 . 9 ! O { s E E P .I ( V =d u o J } ! I l i - " E .i .. .; S = st l E ,1 ,. ; ;i L .E =u l oo (E 7 o5;; E e a s I i t ; ; i E E E t E * F ii T e r ; I eE S &g E E *E I E r: g Ei H Ef H ! *F A E E ;g E E *g A E; ; €E * i '€ i -; EE E $ €E ; $g i EE * e , =E E E E tg + E H ; E . E E E T i E E i E E i E t EE I g ; ; + a EE a E e E E E E e c E g I E I g E E ; E E E , E? E E E i* ! E A* g $ Eg E E : tE E ; E fi ll f l e e ig g i sE E i gf , i E € , EE E E E EE IEEr OF 66 oEh FEodo!ag,o3Eeek !of= EaI 6@^l Ex': o\ oF E I? EotcooF trosx>9ago d oc c o. 9 . 9 ^ o? ; t { .q q E c 6Y H O .9 E E * E8 3 : uc c 6 ;; . q . 9 9 c6 0 H .9 F E X do o u ]O E E do o o UE E A .. q o o s 5 ts t s io o o suE .. 03Ei i r oo o 9 zz = x -E^l s tl r l6ldloxoelt2 E3 E. ?= 3 [o i f; E E E6 E e* o Ef i e r c = . 5 du r l i - h -q 2 *; : E ] E I ; i ; E Ei g e a gE c, ' * "" I Y 5 u o Pi B L E d E E EE E i E L s r o -c x - F = E Er : * l i f =j l i ' E E pE E u ;; cn i l g i- s -l E S Es ; . -X S q I < Fg E ;. " E r= [ Et s + _ e A ! E 9i ; H , * I. 1 S EE F E E E E g ts Z E s E "* ; EE E E * * i * : =a : U I i d * aE $ E P : " F o qE E E "r i rr + EE € F . E i E ; 3 <E g e ,s ' Er = H a € A E E - eE E e iF E ; s i e g E 6 ; : E F { : t F o - o 6 SE I _ t E" ht = : " * gg =E t E i qE u . q = $ + i r Fe u. J *- U)a EE 8 3tr EA E =l L Ef l ": - l I _c g l k ,, o e6 ' , E . S t .q oE 6 vl -= 5 I € E; f f sl : EG a a . l A +€ s Yl Ea i Al i 3 s? E tl E s u = q :l E o cE b {l r =6 = ll ,e I A - q * l E E xo x o o p= y Ht I h d n $E e E IF I I E E gg E o: , q ! E ul u o tg s H i l l : ; H e p E f s = 2 sE ? E el i $ i E =" _3 . E 3 = : EE E f i { l E Ee E E E E i E T s E, E E + -; l a E' i E I E u t Ep ne 5 . E :l I E ! . € € S -E b . \ 06 " $E # E -E l i " r o 2 o r o g Si 6 Hl E f :/ t E z tr n E! ; : f ; t H rE { E r i U E E E E; , E E '. = I *i -' .i i s 3 i i a€ d- oss LI J r 67 oco;4P:E =- e 0ia E 'L l < J ts = ii r _e E . * c ? c s o- l d _ = g A , ? F o 6 E 3 o = 3 E5 ' , H ? . * H 9 $ Ir tl g ! EE p E U E , * H Eg 6r l E '* U g E E 5 3 E f r i rY & r $ E i: as E E ; ; € s i f r E r E *! B I A A 2 : Ei E E 3E E 5 s s € € rf i 6 Hs g g g g E E tE E g $E g g 8 $ 5 5 EE 8tEE jg,5 i s - - s r r * o l q - e .- j . b - wo ozUcHG E^ o- EE E. E E =o c a ru o l v so o c -o < o FP E 5 a .= gI E s EOE EE s E F : g E E ; 5 6 9 d i cH E b' 3 * ; . E b 3 E U - > g b S E 06 ! a r + = I ! s e E E E: E - s e E := HH E . 8 ; -. i 5 4 9 6 c 60 ! o o ; !Q : : O C J o# . 6 c 9 l = E; 3 8 : ' q = *6 q ! E E =* ; s ; oq - =o E e B " - )l N q. 7 C c .E ^ -= r d -c -c €E ; E 3 s s c9 O O O O 6 <. 9 tr e o c c *c.9 :r l 5 !l o *1 3 * bl ' ! ut g 5l h o <F I E E F TI L I ; ki lk r E q lq 'E tr E mEUF+e 6ico=i ius u0coz ! t q i (: aq q q { { EE I e P t' sE h ;E NE O O *e o l - .E s EE G6 - F !E q I < c. . c : E OHoy Q o E E 5^ E 9 " EE ID C < € g g= . ' dv E G g g dq O E E; c2 0 !E ,E EE E - .= I ; : ! ' . = e i e xe T : HE e E 5 E *E d E E $ fi H i T r 5 'b 9 gg - d i I c U € s r s € E Et d ! <g z < (J 6 ug oc -. 9*5 3 i. . zE { d d UI(J "h . U -l q c- E e * E: EE s c o * P E -9 g q* s E : Ei i Ee E E IE E f ; x k si E E bl 6 E :e t e jl = * E 6 o e ; LI . " * E EH i l E JI f E fr f EE +h E E I i' = ! E il l f i = E pr c E =t e ( = * E E E ; ' ! u: E g H ! = I E Eq € : EE ') E E I =C E S E E =" g' ! iE n 5 3 E -. r a +E E * E E i, 5 € s EH E s r r lJ E r ; Jr sEU O oQ r < E : il E ES x t i F i E H z E = c r i i E=@Z<E 68 -g o>gq6o6qobb s s 6 -= . EqE p Ht r E: * .' ee 6h 5H Es + dO L r l EE @dE €E 60 4 60 6 !- oo9 0 ' Px F6 d o6 os EE s E FE o6 6 J ,- E - P - .s i {l + | ^e c o I r i = 0, - q - b 5 ol h H = p .f T > r €E E E ; e; il E i f = t- ! - v i eE i g s H g ; s , jl . F E sE H ^o 5 9 1 Y i F: q H g f gr €+ Fl p E :" E E tr i l = 6 FJ I F : E ; A E ,E + E E O E 4 FI F - = g E .E '. - - , ? tE B P . d H o H GE il tr =E t j i :* : E e g c * s E t f eE E E 1 E -s E . E s e e E e- i i n ss s 6 - i € e B a A A : : €' B EE i i ,f :6 F F E U E E H: =i H E H P ; ; 8 , ' E E ; e i5 t 5 F a- ; P j ! ! ! ! d d F Z {, F* E E E E H E *E T Et a d < < < < ( J ( J E i i . b gs 6 ! 6 5 ! 'E I: g E e E d i ' 1 E f} i E . F F a z {' i F ' r : o : q ' c t l l 5 E i 6A A EO (J u I 4={ <zo( o:g0EoEoz cer€^ EAoS .= s c\ EE H €G Oq- 5 - rc o9 0 0 EE E ; C &t ) i ' E t -! - E ; - 9_ 9 e E a >= E ii o o g Es E 3 a ru f r E O oa ' E O X o sE E E "r o tr t = h E . ^ . t l . I E E 3 ,E C E . U, I , U 'A *E $ a ; g I I HE 5 : E E E ; ! ? i 6 b s I+ E E ? E r E ,r ; I s s u x d 6 7 =f , ! r I ij 6 A : . 9 o H o 9 qt r E [ = I b b E b o E d o o s o o o ile i ' - 6 q o5 5 C L r 6 o!Goq{rEoz toEgEo qour i ,a=a ll o -oxr (J u .. icoEgU 69 A€EEo!rp€)I83 E ^a *E E t * 9 E : " 8 {. o- ! .b E E U + L U } E E -A E x H E -" " ' 9 ; . 9 6 c < o +: ^5 Es s l= fr EE * i .l : , | = E se g *5 i E. . E * i 8l \ - l q ! . - E - x e o Y > - Pt s t - = s : E =; r HJ F 3 Ed l Y s E t E -; g i9 . E o o E l : e EE B ,I n g l, , u H . i :> E i , " 1 ^ i - Y * E i E EE ; , I- I i; ; g : u = .P : e e q 9 <E E Pr q r E ; EE ! . E = f EE E [' : E E ? eq E u ^ E Ee * 3 E: fi i EE E E ^o H : E g a E . = sb g 's E E $ E Ea g 'n ra g E $ e E E ! E s; ; ! e r e 5 i F i. = . F s g t g f i [ a : iE l : t i _i l o| (. , -o .b o=> 70 Fuel. Gas AruRrvsrs 71 Constiiu.nt Mol. Fr.ction DENSITY 1 clRBoN Dtox-0.2886 0.11621 0 00076 METHANE 16 01315 r4.2563 0.0{ ETHANE 6 30.0703 0 00510 PROPANE tgl 0.1 I 617 o.oo222 LBUTANE 0.0760 0.1 N.AUTANE 58.1216 LPENTANF 0. o!02 72.0 19057 0 00004 N.PENTANE 0. r9057 0.00001 U Sralion: Uilit: Drte: GAS COMPOSITION Bluebell 6s Plart -a- r 6 r .Z:Gl]t-r,5s I -Nlatr25 upper Dry Herl Vat0e 1,0S blu/dsct Low Dry Heat V.lue 993 blu/dscl SpecilicGravily 0.6253DENSITY O.O177 lb/cf Tolal cerbons 1 121887636 Tolal H HHV r6el 1 099.32 Comp.esitility 0 997456943 8 46546E-07 CarbonV\ff.%r 74.565357 Hydrogon lM. o,{ i 23.466610orygonwl.%: 1.161026 Ni[ogen \M. ot : 0.606999 100.0000 Upper Dry He.t Value ________!9]2- btu/dscf Mole weiqhl _llqlllEPA F-Faclor (calc) _______]lzgl_ dscf^rMbtuLow Dry Hoat Value 995 blu/dscfSpecilicOrevity 0.6253Deilsily 0.0480 lb/sc, Total Carbons Tolal H HHV r6al 1 097.07 Compressibility 0.997156913 Cdnslituenl LHV idoal LHV(]) ideal LHVn real HHV ideal HHV(i) ideal iHV0 rea Nil 000 0 CARBON DIOX.o00 n IOl2 17 tf6 J LBUTANE U BO GAS COMPOSITION Conslituent Mol. Fr.ction clRBoN otox. 0.0768 u.0190 I.BUTANE B Constatuenl LHV EEAI LHVri) ideal LHV(i) r€al HHV id6al HHVn hael lHVn rer NITR6GFN ooa 0 OUU U METHANE 6la AJ 72 Stnti oo: Ur it: Dr te: Blueb€ll Cas PlrIt I 2-NlaF25 Upper Dry He.l VEloe 1,103 btu/dscl Low Dry Heal V.luo 996 blu/dsclSDecilicGravity 0.6275OENSITY 0.0179 lb/cf TolalCa.bons 1.126421212 HHV roal 1102.71 Compressibilily 0 907436013 8.46546E-07 C.rbonW.%: 74.601399 Hydrogen Vvl.0,6 : 23.,t33044 oxygonwt.%: 1.155734 Nitogen Wt % i 0.79981 5 100.0000 Upper Dry Hp.r Value -_______LJ!!9_ btu/dscl Low Dry Heat Valua 998 btu/dscf Specrlic cravdy 0.6275Dorrity 0.0481 lb/sct Mole weishr ______!!:!f!9__EPA F-Faclor (cnlc) _______.llzgl_ dscrMMblu Total Carbons Total H HHV real 1100.19 Compressibility 0.s97436013 Constiluent LHV id6al LHVfi) ideel LHVti) real HHV ideal HHVIi\ ldaal U-UU U,UO o uclt7 t05 301/a t/stot 6 oE3 oa4 JI Constitu€nl LHV ideal LHV(I) ideal LHV(l) real HHV ideal HHV(i) ideal IHV(D re. NITROGEN 000 000 0 o CARRON DIOI o tl I 5. oal N-l l 73 Srncx DnoRnrvls 74 Stack Di ameters Upstrearn: Stack Diameters Downstleam : 8. l3 2.44 Diarreter at Test Sample Port 75 Stack Diameters Upstream: 23.17 Stack Diameters Downstream'. 2.62 28', l 1 Test Sample Port txnausl Lias o) .C =fco oao0)o Eo(J CAT G3508J Unit C-153 76 Stack Diameters Upstrearn: 8.13 Stack Diameters Downstream: 2.44 Jl I I 39" I Test Sample Port i*l o ,o,iO: CAT 3515 LE Units C-252 & C-253 t) ,Ep l co ooaoo Eo(-) 77 Stack Diameters Upstream: 18.00 Stack Diameters Dowrrstream: 6.86 Test Sample Port ,, (_r txnaustLjas o) .E =:f co Looo0) o- EoO Waukesha L7044GS|55 U nit C-258 7A GnLreRArroN Gns GenrrncATES 79 l,i(J; li:rj ;rtJl llr)1. irl!r(ll t,j Eflfif;ii:Eq[::'{[t'ilr] HFffi Linde Gas & Equipment lnc. 5700 S. Alameda Street Los Angeles CA 90058 Tel:323-585-2154 Fax:714-542-6689 PGVP lD: F22023 DocNumber: 555805 CERTIFICATE OF AT,{ALYSIS / EPA PROTOCOL GAS Custonrer & Order Infonnuliott LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON TX77037-1240 Fill Date:OBhGl2O23 Lot Number: 70086322805 Cylinder Style & Outiel: AS CGA 580 Cylindet Prcssure and Volume:2000 psig 140 ft3 Second Analysis Data: Date Z:OR:0C:0Conc:o R:0Zt0C:0Conc:o zt0C:0R:0Conc:o UONI: % l\4ean Test Assay: o/" First Analysis Data: Date 0812312023 z: 0 R: 7.01 C: 4.94 Conc: 4.94 R: 7.01 Z: O C: 4.94 Conc: 4.94 Zi O C: 4.94 R: 7.02 Conc: 4.94 UOM: % Mean Test Assay: 4.94 % Component: Oxygen Requested Concentralion: 5 % Certifled Concentration: 5.186 % lnstrument Used: Siemens Oxymat 6E S/N 7l\,'1820211AA000CA1 Analytical l\4ethod: Paramagnetic Last l\y'ultipoint Calibralion: 07 12812023 irst Analysis Data: Dale 0812312023 Z: 0 R: 4.997 C: 5.188 Conc: 5.189 Rr 4 998 Z: 0 C: 5.'182 Conc: 5.183 Zt 0 c: 5.185 R: 4.993 Conc: 5.186 UOM: % Mean Test Assay: 5.186 o/o Analvzed BV Suchana Gurung Cenificate lssuance Dale : 0812312023 Li nde O rdet N u mb e r : 725281 69 Pan Number: EV NICDOXE40-AS Customer PO Numbe( 80537947 C ertifi c ati o n Info r m at i o n :CeriificationDate:0812312023 Term: 96Months Expiration Date: 0812312031 uncertainty at a level of conlldence ot approximately 95% with a coverage factor k = 2. Do Noi Use this Standard if Pressure is less than 100 PSIG. CO2 responses have been cotrected for Oxygen lR Broadening eflect. 02 responses have been corrected for CO2 inlerference. AnAlytiCUI DCilA: (R=Reference Standard, Z=Zero Gas, C=Gas Candidate) 1. Component: Carbondloxide ReferenceStandard: Type/Cylinder#: NTRI\4/DT0030310 Requesled Concenlration: 5 % Concentration / Uncertainly: 7.01 1 % 10.058 % Certilled Concenlration: 4.94 y. Expiralion Oae: 4112712027 tnstrumentUsed: HoribaVlA-5'10S/N20C194WK Traceableto: SRM#/Sample#/Cylinder#: NTRM#DT0030296 l'190702 1DT0030296 Analytical Method: NDIR SRlvl Concenlralion / Uncertainty: 7.01 1 / 10 058 Last lvlultipoint Calib?lton: 0712812023 SRtvl Expiraiion Dale: 0112712027 Reference Standard: Type / Cylinder #: Concentration / Uncertainty: Expiration Date: Traceable to: SRlvl # / Sample # / Cylinder #: SRIV Concentration / Uncertainly: SRI\.4 Expiration Date: GMtS / DT0016603 4.997 0/o !O.O11 % 12t14t2026 SRM 2658a / 72-D-24 I CALO16862 9.9180/6 trO.O220/o o2t03t2024 Certified By L;ourtney zrelxe of the use ol the information conlained herein exceed lhe fee established for providing such infoftiyion. Page '1 of 1 C ertifi e d C o nc entr atio n Expiration Date: Cylinder Number: 08123t2031 cc243897 Carbon dioxide Oxygen N itrogen NIST Traceable Expanded Uncertainty 4.94 % s.186 % Balance t 0.04 % t 0.015 % ProSpec EZ Cert Second Analysis Oata: Date Zt0R:0C:0Conc:o R:0Zt0C:0Conc:o Z:0c:0R:0Conc:o UoM: % MeanTestAssay: % DocNumber: 578992 EE*TJ.# E il#ffi,1 HlI#HI Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 4361 1 Tel: +1 (419) 729-7732 Fax: +1 (419\729-2411 PGVP lD: F12024 CERTIFICATE OF AIYALYSIS / EPA PROTOCOL GAS Custouter & Onler InJbnnulion LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON rX77037-1240 Cerlilicate lssuance Dale: 0812012024 Linde Order Number 72905217 Pai Number: Nl CDl 1O3E-AS Cuslomet PO Number: 80919826 Fill Date: OBl13l2O24 Lot Number: 7 0001 4226F 1 Cylinder Style & Out/el: AS CGA 590 Cylinder Pressure and volume: 2000 psig '140 [t3 C e rtifi c a t i o n I nfo r m ati o rt :CerlificationDate:0812012024 Term: 96Months Ex p i rati o n D at e : 0B I 20 I 2032 uncertainty at a level ol confidence of approximately 95% with a coverage factor k = 2. Do Not Use this Standard iF Pressure is less than 100 PSIG. AnglVtiCAl DAtg: (R=Reference Standard, Z=Zero Gas, C=Gas Candidate) 1. Camponent: Carbon dioxide Reference Standard:Type / Cylinder #;GNIlS / DT0046871 '12.38 % i0.03 % 0st29t2032 NTRt\4# CC725962 / NTRI\,4 SAI/PLE #190701- i03r%lti i&i -^^^ 01 t1212027 RequestedConcentration: 11 % CerlilledConcentration: 10.83"/" lnstrument Used: Horiba VA-5000 Analytical N.4ethodr NDIR Last lvlultipoint Calibrationi 08i05/2024 Concentration / Uncertainty: Expiration Dale: Traceable to: SRlvl # / Sample # / Cylinder #: SRi\4 Concentration / Uncerlainty: SR|ll Expiratron Dale: First Analysis Data: Date OBl2Ol2024 Z'. O R: 12.38 C: 10.83 Conc: 10.83 R: 12.38 Z: O C: 10.83 Conc: 10.83 Zi O C: 10.83 R: 12.38 Conc: 10.83 Uolvl: % Mean Test Assay; 10.83 % Second Analysis Data: Date Z:0R:0c:0Conc:o R:0Z.OC:0Conc:o Z:0C:0R:0Conc:0 UoM: % Mean Test Assay: % Component: Oxygen RequestedConcentration: 11 % CertifiedConcentration: 11.02% lnslrument []sed: Servomex 575 Analytical Method: Paramagnetic Last Multipoint Calibration: 08/05/2024 Reference Standard: Type / Cylinder #: Concentration / Uncertainty: Expiration Date: Traceable to: SRN4 # / Sample # / Cylinder #; SRl,4 Concentration / Uncertainty: SRI\4 ExPiration Date: Gr\,lrs / E80022483 22.54 % l:O.Os % 43t22t2029 2659a I 71-D-04 / CALo1 5785 20720/.tro430k 08t23t2021 First Analysis Data: Date 0812012024 Zi O R: 22.54 C; 1 1.02 Conc: 1 1.02 Rt 22.54 Zt 0 C: '1 '1.02 Conc: 11.02 Z: 0 Ct 11.02 Rt 22.54 Conc: 1 1.02 UOM: % MeanTestAssayi 11.02 % second Analysis Data: Date Zt0R:0C:0Conc:o R:0ZioC:0Conc:o Z:0C:0R:0Conc:o UOM; % MeanTestAssay: '/. fmr,*'/,U r /,7 Analyzed By Justin Kurth Certilied By Lloyd Knapp of the use oF the information contained herein exceed lhe ,ee established lor providing such inforSdion. 1 Of 1 C ertifi e d C o nc entratio rt xpiration Date: oBt2Ot2O32 NIST Traceable Cylinder Number: CC311018 Expanded Uncertainty 10.83 % Carbon dioxide t 0.03 % 11.02 % Oxygen t 0.05 % Balance Nitrogen ProSpec EZ Cert praxair Distribution, lnc 6055 Bront Orivc Toledo OH 4361 1 Tel: +1 (419) 729-7732 Fax: +1 (419) 729-2411 PGVP ID: F.1201929 6043 ZenrrFrcATE ol 4yALY|$ / EPA PRorocoL GAS 12t2312027 ccl 671 49 NIST Trace 20,9 Yo Balance Ctt!ttttil{ t\ ()nltr ltfttnruilitrt .oIr^iR FhG HolrsIoii I \ HD ',i,.0. Sr,ttt rl rleH t altt ii:rrstor ; x :iul;' l?':0 Ccd4(ate lss0tucc Dall Ptaxat Odcr Ntmbel Patl Nunbet Custorter Po Numbnr 1)t2?.t?a19 71i9C199 r'Jr ox21E-AS 7g 1 77798 hliDat. 12t11n}lrir I ol l.luabq 7cccl934aF6 Cyhndcr Slyle & Oulte! AS Cyhriie. Pre<su.e ahcl Va\tqie .)Cl2C00 psr,) 140 ltl CGA '30 Cc rt i.fi c ol i o rt I nfornrol io n : Thl! cYlrnder was cellrfiod oc6rdrng lo lho 20l2 EPA Tracoabrlry Proto@t Do Not Use thls Sl6nda'd U Pcssurc is lo$ than 100 PSIC Anlll'ticll DolA: lR=Rcteencostandad z=zeaGas' 'L Conrponarl: OtYgcn Requeslod Cmcentmilm 21-0 % Conried Concentrollon' 20 S lt lia!^iTeil utr.l Senromot 575 A.alynal trlolnod Focrnaan€ii' Lssl Mlllipqnt calrbrouon l2l18j2019 certilicalionDale:12123t2019 remr: 96Months Expiration Date : 12t2312027 DoEumenl dEPA€oo/R'1 2/531, u5rng Procedure G1 C.Gas CanlJdale) nclerEnca Slnndird; Type / Cyl nder ! StllS i EeC00335{ Concenlratrcn/ Uncede nV 22 51 1'. !0 31'. Exprraron Daro l1l'17n015 T..cr:bleto: SRM',/Sample0/CvlnderA 2659ai 71'D-04/CA1015785 5?:.1 C..(.'lrnl a i L c"'i 'ir. :il 7? ' 10 C 1 l SRf, E:Prral:on Dale O3:?3DO21 FlBt Analyrll Dali: Z: 0 R: 2-2.5 Ci 20 0 Conc: 20 I R: 22.5 z; o C; 20'8 conc: 20 I Z: O c:2Og Ri 225 Concr 209 UoMr * tdao Tlrt Altay: 20.0 "/o ABtyz6d gY Lloyd Kn!PP Second,Analy!15 D.t3: Zt O R, 0 RioZ:o ztocto UOH: % C: 0 Conc: 0 Ct A Conc: 0 R: O Conc" 0 Mcao Tt3i AasnYi ,. EdilN1l E ZucttC€dfied EY rpq;*!T#"ldfiffiii":g["."rll,:1"#ft.l#E#r}i*#f,tr#:l]Ii*i,l: ffiik#fil?[:niil],ill,iffi+,"*]:Hllffihlffk:ll],ftff,iili:" flfiTi"?ffiW;;unoa r'erorn e'coa [n' rrr 6stabrsnoo ror prcvrorns such rnl Az PnSpec DZ Cert ii;11 irrrl t,11 .",1',i1 llt.)ti i,iU(liil iiVl' EFftfiiE +t:.1{t#:#r:EllEilEIJLJ.r,.t BH.ffii 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 DocNumber: 572273 CERTIFICATE OF A]YALYSI,S / EPA PROTOCOL GAS Custonrcr & Order Ittfonndiott TGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOT.JSTON TX 77037-1 240 Ce iifi c ate I ssuance Date : O5l 1 51 2024 Linde O rder N umbe r: 7 27 89187 Pan Number: Nl No95M23E-AS Customet PO Number 80802198 Fill Date:0411912024 Lol Number: 7008641'1002 Cylinder Style & Oulleli AS CGA 660 Cylinder Pressurc and volume: 2000 psig 140 ft3 C ertifi c ati o n I nfo r m at io n :Ce r1i f i cati o n D ate : 05 I 1 5 I 2024 ferm: 96 Months Ex pi ration D ate : 051 1 512032 uncertainty at a level of confidence of approximately 95% with a coverage factor k = 2. Do Not Use lhis Standard if Pressure is less than 100 PSIG. AnglVtiCgl D,tet: (R=Reference Standard, Z=Zerc Gas, C=Gas Candidate) '1. componeot: Nitric oxlde Reference Standard:Type / Cylinder #:Gr\4S / CC724395 96.7 ppm i0.5 ppm a1t15t2028 sRM# 1684b / 44-T-89 / FF6010 99.75 ppm / r0.5 ppm 01t25t2020 Requested Concentration: Certilied Concentration: lnstrument Used: Analytical lvlethod: Lasl lvlultipoinl Calrbration: 95 ppm 93.9 ppm Thermo Electron 42i-HL S/N '1030545087 Chemiluminescence 04t25t2024 Concentration / UncertaintY: Expiration Date: Traceable to: SRN,4 # / Sample # / Cylinder #: SRI\4 Concentration / Uncerlainty: SRlt4 Expiralion Date: Flrst Analysis Data: Date 0510812024 Zt o R: 96.7 C: 93.5 Conc; 93.5 R: 96.7 Z: 0 C: 93.5 Conc: 93 5 Z: O C: 93.5 R: 96.7 Conc: 93.5 UOM: ppm Mean Test Assay: 93.5 PPm Second Analysls Oata: Date 0511512024 Z: 0 R: 96.7 C: 94.3 Conc: 94.3 R: 96.7 Z: 0 C: 94.2 Conc: 94.2 Z: A c: 94.3 R: 96.7 Conc: 94.3 UOM: ppm Mean Test Assay: 94.3 PPm 2 Component: Nltric oxide (as NOx) Requested Concentration: 95 Ppm Certified Concentration: 94.2 ppm lnstrument Used: Thermo Electron 42i-HL S/N 1030545087 Analylical lvlethod: Chemiluminescence Last N,lultipoint Calibnlion: 0412512024 Reference Standard:Type / Cylinder #G[,11S / CC724395 96.8 ppm t0.5 ppm o1t15t2028 sRr\,{# 1684b / 44-T-89 / FF6010 99.75 ppm i io.s ppm o1125t2020 Concentration / Uncertainty: Expiration Date: Traceable to: SRM # / Sample # / Cylinder #: SRM Concentration / UncertainiY: SR[.'l Expiration Date: Second Analysis oata: Date 0511512024 Zi 0 R: 96.8 c: 94.5 Conc: 94.5 R: 96.8 Zt O C: 94.4 Conc: 94.4 Z: O c: 94.5 R: 96.8 Conc: 94.5 UOM: ppm Mean Test Assay: 94.5 PPm fifui i'[,{r, Analyzed By Certified By of the use of the information contained herein exieed the fee established for ptovrdtng such inlorS*ion 1 Ol 1 C e rtifie d C o ncentrstio tt xpiration Date: OSt1Sl2O32 N Cylinder Number: CC244574 Expanded Uncertainty 93.9 ppm Nitric oxide t 0.5 PPm 94.2 ppm Nitric oxide (as NOx) t 0.5 ppm Balance Nitrogen ProSpec EZ Cert irst Analysis Data:rirst Analysis Data: Date 0510812024 Z: 0 R: 96.8 C: 93.8 Conc: 93.8 R: 96.8 Zt 0 C: 93.8 Conc: 93.8 Z: 0 C: 93.8 R: S6.8 Conc: 93.8 l..lOM: ppm lvlean Test Assay: 93.8 ppm DocNumber: 570006 tr:tE+f.#E iH#F#i ffi#+ffi Linde Gas & Equipment lnc. 5700 S. Alameda Street Los Angeles CA 90058 Tel: 323-585-21 54 Fax:714-542-6689 PGVP lD: F22024 CERTIFICATE OF AIYALY,SI^S / EPA PROTOCOL GAS Cuslonrcr & Ortlcr Ittfornnliott LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON IX77037-1240 Ceftilicale lssuance Oate: 0411012024 Linde order Number: 72766597 Pad Number: Nl NO19523E-AS Customer PO Number: 80779363 Fil Date:0312712024 Lot Number: 70086408705 Cylinder Style & Out/elr AS CGA 660 Cylinder Pressure and Volume:2000 psig 144 ft3 C e rtifi e d C o nc entrulio n Expiration Date: O4tOgt2O32 NIST Traceable Cylinder Number: CC7271Z Expanded Uncertainty 200 ppm Nitric oxide t 1 PPm 200 ppm Nitric oxide (as NOx) t 1 PPm Balance Nitrogen ProSpec EZ Cert C e rtifi c nt i o tt I nfo nn atio n :C e rtifi c at i o n D ate : 0 4 I 09 I 2024 ferm: 96 Months Expiration Date: 0410912032 unceriainty at a level of confidence bf approximately 95% with a coverage factor k = 2. Do Nol Use this Standard if Pressure is less than 100 PSIG. An1lVtiCttl DU1A: (R=Reterence Standatd, Z=Zero Gas, C=Gas Candidate) 1. Componenl: Nilric oxide Reference Standard:fype / Cylinder #:Gt\ils / DT00'10509 256 ppm t1 ppm 05t07t2028 1685b i 43-L-1 1 / CA1017304 243.9 ppm / 11. 1 ppm 05/09/2020 Requesled Conceniration: Certilled Concentration: lnstrument Used: Analylical Melhod: Last lvlultipoint Calibration: '195 ppm 200 ppm Thermo Eleclron 42i-HL S/N 1030545087 Chemiluminescence 0312612424 Concentralion / Uncerlainly Expiration Date Traceable to: SRM # / Sample # / Cylinder # SRM Concentration / Unce.taintY SRN4 Expiralion Date First Analysls Data: Date 0410212024 Zt O R: 256 C: 200 Conc: 200 R: 256 Z: 0 C: 201 Conc: 201 Z: O C: 200 R: 256 Conc: 200 UOIVI: ppm lvlean Test Assay: 20O PPm Second Analysis Data: Dale 04l1gl2o24 Zt O R: 256 C: 200 Conc: 200 R: 256 Zt 0 C: 199 conc: 199 Zi 0 C: 200 R: 256 Conc: 200 Uolvl: ppm Mean Test Assay: 2OO PPm component: Nitric oxide (as NOx) Requested Concentration: '195 PPm Certified Concentraiion: 200 PPm instrument Used: Thermo Electron 42i-HL S/N 1030545087 Analytical Method: Chemiluminescence Last Multipoint Calibration: 0312612024 Reference Standard Type / Cylinder #:Gtvlts i DT0010509 256 ppm !1 ppm 05/09/2028 1 685b / 43-L-1 1 i CALol 7304 243.9 ppm / 11.'1 ppm 0510912020 Concentration / UncertalntY: Expiration Date fraceable to: SRN,l # / Sample # / Cylinder # SRM Concenlralion / Uncertainty SRM Expiration Date Flrsl Analysis Data: Date Zi O R: 256 c: 200 Conc: 200 R: 256 Zt 0 C: 2o1 Conc: 201 Z'. 0 C: 200 R: 256 Conc: 200 UOM: opm MeanTestAssay: 2AO PPm second Analysls Data: Date 04( z'. O R: 256 C: 200 Conc: 200 R: 256 Z: 0 C: '199.3 Conc; '199 Zt 0 C: 201 R: 256 conc: 201 UoM: ppm Mean Test Assay: 2OO PPm lt#itu il,,'{a Analyzed By lvluneeb Abdelrahman Certilied By Nelson Ma of the use of the information contained herein exceed the fee established for providing such infor$lton. 'l Of 1 DocNumber:232068 Praxair Distribution, lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (419) 72s-2411 PGVP lD: F12019 CERTIFICATE OF A]VALYSIS / EPA PROTOCOL GAS Custouer & Order Inforuation PRAXAIR PKG HOUSTON TX HP 10205 SWEETWATER LANE HOUSTON TX 77037-1240 Cerli[icale lssuance Dalei 01/15/2019 Ptaxah Order Numberr 70829069 Part Number: Nl NO450E-AS Fiil Dale:1212612018 Lol Number: 700018360D0 Cylindet Stle & Ouretr AS CGA 660 Cylinder Pressure and Volumer 2000 psig 140 ft3 C ertified Co n ce ntr atio rt Expiration Date:01t'tst2027 EB01 1 8926 raceable Cylinder Number:Expanded Uncertainty 462 ppm Nitric oxide Balance Nitrogen ! 0.3 o/o For Reference Only: C ertifi c atio rt I nfo r n rut i o n : NOx 463 ppm CeriificationDate:0111512a19 Term: 96Months Expiration Date : 01 I 1 512027 This cylinder was certllied according to the 20'12 EPA Traceability Protocol, Document #EPA-600 lR-121531, using Proced ure G1. Do Not Use this Slandard if Pressure is less than'100 PSIG. AnAl.ytical DatA: (R=Retercoce standard' z=zerc Gas, c=Gas candidate) 1, Componenl: Nitric oxide Reference Standard: Type / Cylinder#Glfls / DT00'13773 493 ppm 10.2% 07117 t2025 Requested Conceniratlon: Cerlif ied Concentratlon: lnskument Used: Analylical N,,1e!hod: Last lvlullipoint Calibration: 450 ppm 462 ppm Thermo-42i HL C hem ilumin esc ence 12t1712018 Concentration / Uncertainty: Expiration Datei Traceableto: SRMi/Sample#/Cylinder#: 1687b/41-L-42lFF10438 SRI,,l Concent.alion / Uncedainiyi 985 / 0.95 SRNI Expiration Date: 05/0'1/2020 First Analysls Data: Date 01/07/201S Z: O R: 498 C: 46'1 Conc: 461 R: 498 Zt 0 C: 461 Conc: 461 Zi 0 C: 461 R: 498 Conc: 461 UOMI ppm !', MeanTestAssay: 461 ppm Second Analysis Datr: Dale 01/15/2019 Z: 0 R: 498 C: 462 Conq 462 R: 498 Zi O C: 462 Conc: 462 Z: 0 Cr 462 R: 498 Conc: 462 UOM: ppm Mean Test Assay: 462 ppm Analyzed By Certined By of the lnformation contained hereln exceed the fee established for providing such info(mation. 85 .t'\'. v' ;/?-_::_\Yi,1r..ffi4?:>Z-Z-_l\,.s. ',,i,Ail*'" {# -*,rP"'JH:,*Accreditation #62754 Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-55'1-8150 PGVP Vendor lD # G12024 EPA PROTOCOL GAS GERTIFICATE OF ANALYSIS Cylinder Number: Product lD Number: Cylinder Pressure: coA # Customer PO. NO.: Customer: 80058631 1256'1 I 1900 PS|G E80058631 .20240430-0 Certification Date: Expiration Date: MFG Facility: Lot Number: Tracking Number: Previous Certification Dates: )5t2012024 1512012027 - Shreveoort - LA 80054631 .20240430 074332423 This calibration standard has been certifled per the May 2012 EPA Traceability Protocol, Document EPA-600/R-12l531, inq orocedure G1. Certified Concentration(s) Component Concentration Uncertainty Analyiical Principle Assayed On Nitrogen Dioxide 44.3 PPM r0.5 PPM FTIR 0511312024,05t2]t2024 Air Balance Analytical Measurement Data Available Online Reference Standard(s) Analytical lnstrumentation Component Principle Make Model Serial MPC Date NO2 FTIR lvlKs MKS 2031GPPP1A5ZK1XX 112428254 0412412024 SMART.CERT This is to certify the gases referenced have been calibrated/tested, and verlfied to meet the defined speciflcations. This calibration/test was performed using Gases or Scales that are traceable through National lnstitute of Standards and Technology (NlSl-) to the lnternatronal System of Units (Sl). The basis of compliance stated ls a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximate the 95% confldence level of the measurement, unless otherwise noted. This calibration certificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas Services. lf not included, the uncertainty of calibrations are available upon rRquest and were taken into account when determining pass or fail. o(, ,lorrdru thr"h- Aaron Varelas Analytical Chemist Assay Laboratory: Red Ball TGS Version 02-J, R€vlsed on 2018-09-'17 Serial Number c2344201.02 c21 90301.02 PJL{C.!br.rlon.!d TEllnO Accreditation #62754 Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-55'l -81 s0 PGVP Vendor lD # G12024 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number: Product lD Number: Cylinder Pressure: COA # Customer PO. NO.: Customer: cc734762 125618 1900 PS|G 4c734762.20240828-O Certification Date: Expiration Date: MFG Facillty: Lot Number: Tracking Number: Previous Certification Dates: )9t20t2024 )9t20t2027 - Shreveport - LA :c734762.20240828 1 01 359672 calibration standard has been certified per the May 2012 EPA Traceability Protocol, Document EPA-600/R-12/531, usinq procedure G1. I Analytical Measurement Data Available Online. Reference Standard(s) Analytical lnstrumentation NO2 NO2 Principle FTIR FTIR Make MKS MKS MKS 2O3lGPPPlAsZKlXX MKS 2O3lGPPPlAsZK1XX 112428254 1 12428254 o1t14t2024 09t1912024 SMART.CERT This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable through National lnstitute of Standards and Technology (NIST) to the lnternational System of Units (Sl). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testjng process. The expanded uncertainties use a coverage factor of k.2 to approximate the 95% confidence level of the measuremenl, unless otherwise noted. This calibration cedificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas Services. lf not included, the uncertainty of calibrations are available uporLJEquest and were taken into account when determining pass or [atl. o I llapL,^- *^eg- Hayden Hartley Analyst Assay Laboratory: Red Ball TGS Version 02-K, Revised on 2023-09-07 Certif ied Concentration(s) Concentration Uncertainty Analytical Principle Assayed On Nitrogen Dioxide 44.7 PPM ro.s PPM FTIR 09104 12024, 09 120 12024 Balance Serial Number Lot D970535 E80089932.20200831 E80097551.20201021 ati on Concentration Uncertai NI D970535 E80089932 E80097551 09t28t2024 't0t26t2026 05/05/2025 PRI,,I GMIS GI,4IS AIR AIR AIR NO2 NO2 NO2 99 PPM 1.01 294 PPt\4 4.627 63 3 PPM 1.074 c2384201 02 c1847810.01 c21 90301.02 l,i(j: t;:,1 ri:t, .; itli)tr i r'rrrll:r ii\'I Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (4191729-2411 PGVP lD: F12022 DocNumber: 503696 CERTIFICATE OF AIYALY^SIS / EPA PROTOCOL GAS Cusloner & Order It{brmtilion LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON rX77037-1240 Cedificale lssuance Dale: 09121 12022 Linde Order Number: 72185538 Pai Number: Nl C095ME-AS C u slomet PO Number: 801 90362 Fiil Dab:AUY12022 Lot Number: 700012243F6 Cylindet Style & Orllelr AS CGA 350 Cylinder Pressure and Volume:2000 psig 145 fi3 C ertifi ed C onc entratio n te: O9l2ll20i0 Cylinder Number: CC236291 Expanded Uncertainty 97.8 ppm Carbon monoxide t 0.2 PPm Balance Nitrogen Certificatio n I nfonnation :C e rlifi c ati o n D ate : 09 I 21 12022 Term: 96 Months Expiration Date: 09121 12030 unced;inty ai a level ol con,ldence of approximately 95% with a coverage factor k = 2. Do Not Use this Standard if Pressure is less than 100 PSIG. AnUlytiCnl DA1A: (R=Refereoce Standard, Z=Zero Gas. C=Gas Candidate) 1. Componenl: Carbon monoxide Reference Standard: Type / Cylinder #; Gl\,,lls / ND73226 Requcsted Concentration: 95.0 ppm Concentration / uncertainty: '101.0 ppm 10.2 ppm Cedined Concentration: 97.8 ppm Expiration Date. 0212612029 tnstrument Used: Horiba VIA 510 Traceable to: SRM # / Sample # / Cylinder #: 1679c / 03-K-60 / FF25429 Analytical N4ethod: NDLR SRIVI Concenlration / ljncedainty: 99 28 ppm I tO21 ppm Last Multipoint Calib Gtton: OBt25t2O22 SRIVI Exprralion Date: 09t2512O22 First Analysis Data: Date 0912112022 Z: 0 R: 10'1 C; 97.9 Conc: 97.9 R: lol Z: O C: 97.8 Conc: 97.8 Z: . 0 C: 97.8 R: 101 Conc: 97.8 UOM: ppm Mean Test Assay: 97.8 PPm Second Analysis Data: Date Z:0R:0c:0Conc:o R:02:0C:0Conc:0 Zt0C:0R:0Conc:o UOIV: ppm Mean Test Assay: ppm ,?,0- 'riY,.n"$ .' / . -' _t 7t*-l'z' ,1i:, Analyzed By Mike lvlonnette Certified By Edward E Zucal of the use of the information contained herein exceed the fee established for providing such inforlltEion. Page '1 of 'l ProSpec EZ Cert DocNumber: 528'101 Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (419)729-2411 PGVP lD: F12022 CERTIFICATE OF AA{ALYSIS / EPA PROTOCOL GAS Cuslonrcr & Order InJbrnrulion LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON rX77037-1240 Ce difi cale I ssua nce D ale : 1 1 l1612022 Linde O rde r N u mber : 7 2253244 Pad Number: Nl CO1 95ZE-AS Cu slomer PO Number: 80259010 Fiil Dale:1111012022 Lol Number: 70001 2314F6 Cylinder Stylo & Oullef: AS CGA 350 Cylinder Pressure and Volume: 2A0O psig 145 ft3 C ertifi c ati o rt I nfo r m ut i o n :Ce rlification D ate : 1 1 I 1 612022 Ierm: 96 Months Ex pi ration D ate : 1 1 I 1 612030 uncertainty at a level of conlidence ol approximately 95% with a coverage factor k = 2. Do Not Use this Standard if Pressure is less than 100 PSIG. AnAlVtiCAl DAtg: (R=Rete@nce Standard, Z=Zero Gas, C=Gas Candidate) 1. Componenl: Carbon monoxide Reference Standard; Type / Cylinder #: Gl,'lls / E80020579 Requested Concentration: 195 ppm Concentration / Uncertainly: 250.3 ppm 10.7 ppm Certilied Concenlrationi 197 ppm Expiration Date: 03/'16/2026 lnstrumentlJsed: HoribaVlA5l0 Traceableto: SRN.4#/Sample#/Cylinder#:2636a157'F-15 lFF3O792 Analytical N.4ethod: NDIR SRl,4 Concentration / Uncerlainty: 247.1 ppm / 10.5 ppm Last lvlultipoint Calibration: 1012712022 SRlvl Expiralion Date: 03/26/2018 First Analysis Data: Date 1111612022 Z: 0 R: 250 3 C: 197.5 Conc; 198 R: 250.3 z: o C; 197.4 conc: 197 Z: 0 C: 197.4 R: 250.2 Conc: 197 UoM: ppm Mean Test Assay: 197 ppm Second Analysis Data: Date Z:0R:0C:0Conc:o R:0zi0C;0Conc;o z'. O C: 0 R: 0 Conc: 0 UO[4: ppm Mean Test Assay: PPm ftrt-'['(Y'n"furr*'r'i' Analyzed By Certified By of the use of the inFormation conlained herein exieed lhe fee eslablished lor providing such rntor{lHron. Page 1 ot 1 C e rtifi e d C o nc entratio r t xpiration Date:11t1612030 cc300256 NIST Traceable Expanded UncertaintyCylinder Number: 197 ppm Carbon monoxide Balance Nitrogen 11 ppm ProSpec EZ Cert DocNumber: 587642 Linde Gas & Equipment lnc. 6055 Brent Drive Toledo OH 4361 1 Tel: +1 (419) 729-7732 Fax: +1 (4191729-2411 PGVP lD: F12025 CERTIFICATE OF A|YALYSIS / EPA PROTOCOL GAS Cnsloner & Order InJornruliort LGEPKG HOUSTON TX HP 10205 SWEETWATER LN HOUSTON rX77037-1240 Cuslomet Relercncer Kinder t\,'lorgan Cenilicate lssuance Dale: 01117 12025 Linde O rde r N umbe r: 7 3047 232 Pad Number: Nl C0450E-AS Customer PO Numberr 8'1 063626 Fiil Dale:0111312025 Lot Number: 7000'1 5013D3 Cylinder Slyle & Oulleti AS CGA 350 Cylindet tuessure and Volume: 2000 psig 140 it3 Certified Concenftotion -Expiration Date: o1t17l?033 NIST Traceable Cylinder Number: SA24B7 Expanded Uncertainty 454 ppm Carbon monoxide i 3 PPm Balance Nitrogen C ertification Infonnilion :Cedification D ate : 01 I 17 12025 Ierm: 96 Months Expiration Date: 01 I 17 12033 uncertainty al a level of conlldence;f approximately 95% with a coverage factor k = 2. Do Not Use this Slandard if Pressure is less than 100 PSIG Analyticnl Dutu: 1, Component: (R=Retercnce Slandard, Z=Zero Gas, C=Gas Candidale) Carbon monoxide Reference Standard: Type / Cylinder#: GlVllS / ND67616 Concentration / Uncertainty; 1008 ppm i3 ppm Expiralion Date. 02101 12029 Traceable to: SRM fl / Sample # / Cylinder #: 1681b / 1-K-42 / CA1015913 SRN4 Concentration / Uncertainty: 963.5 ppm i 13.oppm SRM Explralion Dale: 0912612021 Requested Concentration: Cerlilled Concentration: lnstrument Used: Analytical [/ethod: Last lvlultipoint Calibration 450 ppm 454 ppm Horiba VIA 510 NDIR o1l't6t2025 First Analysls Data: Date 0111112025 z'. o R: 1008 C: 454 Conc: 454 R: '1008 Z: 0 C: 454 conc: 454 Z: 0 c: 454 R: '1008 Conc; 454 UOM: ppm Mean Test Assay; 454 PPm Second Analysis Data: Date Z:0R:0C:0Conc:o R:02:0C:0Conc:0 Z:0C:0R:0Conc:o UOM: ppm llean Test Assay: PPm li4l,- 'fl[y" ^"r+)/+t t /';r- Analyzed By lvlike Monnette Certifled By Lloyd Knapp ol the use ol the inlormation contained herein exceed lhe fee established for providing such infoill{ion. 1 Of 1 ProSpec EZ Cert Linde Gas & Eouioment lnc. 6055 Brent Drive Toledo, OH 4361 'l Tel: +1 (419) 729-7732 Fax: +1 (419) 729-2411 Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72780976 Customer PO Number: 80793868 Certiflcate lssuance Dale: 41 1 812024 Revision Number: 0 Certification D ale: 4l I 8 I 2024 Lot Number: 7000f 4101 UA Part Number: Al EY100C-AS DocNumber:751832 Expiration Dale: 41 1 512029 CERTIFICATE OF ANALYSIS Certified Standard Requested Certified Concentration Concentration Analytical AnalyticalComponent (Molar) (Molar) Reference Uncertainty Ethylene 100 ppm 100 ppm 1 !2% Air Balance Balance Cylinder Style: Cylinder Pressure @ 70F: Cylinder Volume: Valve Outlet Connection: Cylinder Number(s): AS FIII 2000 psig Analysis 145 ft3 cGA 590 LCCOSATTOO Dale:411012024 Dale:411512024 Filling Method. Gravimetric Vrr' t lio;o= QA Reviewer: Lloyd Knapp Approved Signer: Mike Monnette Key to Analytical Techniques: Reference Analytical Instrument - Analytical Principle MKS-2010 - FTIR Nalional lnstitute ot Standards and Technology (NIST) or tvleasurement Canada, or through NIST Standard Reference Materials or equivalent where available. IIVPORTANT use of the information contained herein exceed the fee eslablished ,or providing such information. 1 Of,ir Linde Gas & Eouioment lnc. 6055 Brent Drive Toledo, OH 43611 Tel: +1 (419) 729-7732 Fax: +1 (419)725-2411 Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72778822 Customer PO Number: 80791694 Certificate lssuance Dale: 41 17 12024 Revision Number:0 Certification D ale 41 17 12024 Lot Number: 700014101 UA Part Number: Al EY100C-AS DocNumber: 751345 Expiration D ate: 4l I 51 2029 CERTIFICATE OF ANALYSIS Cerlified Standard Requested Certified Concentration Concentration Analytical Analytical Component (Molar) (Molar) Reference Uncertainty Ethylene 100 PPm 100 PPm 1 !2% Air Balance Balance Cylinder Style: Cylinder Pressure @ 7 OF : Cylinder Volume: Valve Outlet Connection: Cylinder Number(s): AS 2000 psig 145 ft3 CGA 590 DTo04651 1 Fill Date:411012024 Analysis Dale: 4t 1 512024 Filling Method: Gravimetric 7r1r ^ 1'5,^.^i'.f-,'' QA Reviewer: Lloyd Knapp Approved Signer: Mike Monnette Key to Analytical Techniques: Reference Analytical lnstrument - Analytical Principle 1 MKS-2010 - FTIR National lnstitute ol Standards and Technology (NIST) or l\4easurement Canada, or lhrough NIST Standard Reference lvlaterials or equivalent where available. IN,,IPORTANT use oF the information contained herein exceed the lee established for providing such information. 1 Off Linde Gas & Eouioment lnc. ISO 9001 Registered 37256 Highway 30 Geismar, 1470734 Tel:225-677 -7700 Fax: 225-673-3531 Customer & Order lnformation: LGEPKG HOUSTON TX HP 10205 SWEETWATER LN, HOUSTON, TX77037-1240 Linde Order Number: 72840535 Customer PO Number: 80854310 CustomerReference: KM-CH3CHOCF4-100-10 Certificate lssuance Dale: 7 I 1 12024 Revision Number:0 Certification D ate 7 I 1 I 2024 Lot Number: 70340 4180 7J Part Number: Nl AYI 00H1ZP-AS DocNumber 767894 Expiration Date: 7 I 1 12025 CERTIFICATE OF ANALYSIS Primary Standard Cylinder Style: Cylinder Pressure @70 F: Cylinder Volume: Valve Outlet Connection: Cylinder Number(s): AS 2000 psig 139 ft3 cGA 350 cc3000s8 Fill Date:612812024 Analysis Dale: 7 l'l 12024 Filling Method: Gravimetric )t Analyst: Clara Cambre QA Reviewer: Mark Hebing Key to Analytical Techniques: Reference Analytical lnstrument - Analytical Principle 1 2 J Agilent 7890B - Gas Chromatography with TCD Hewlett-Packard 6890 - Gas Chromatography with FID N/A - By Difference of Other Components National lnstitute of Standards and Technology (NIST) or [/easurement Canada, or through NIST Standard Reference lVaterials or equivalenl where available. IMPORTANT use of the information coniained herein exceed the fee established for providing such information. Component Requested Concentration (Molar) Certified Concentration (Molar) 105 ppm 9.75 ppm 99.988525 % Analytical Reference 2 1 3 Analytical Uncertainty !1% !1 o/" N/A taldehyde 100 ppm 10 ppm 99.989 % Tetrafluoromethane Nitrogen 1Off' SECTION 3: INSTRUMENT CHECKSAND CALIBRATION 94 Lenx Guecx 95 SAMPLE LINE LEAK CHECK BluebellGas Plant c-161 & C-258 11-Mar-25 9:46:00 1 minute -14 " Hg Time of Day Duration lnitialVacuum Final Vacuum 96 SAMPLE LINE LEAK CHECK Station BluebellGas Plant Unit C-162 & C-253 Date 12-Mar-25 Pre-test Leak Check Time 9f Day Duration lnitialVacuum FinalVacuum 9:14:00 1 -'15 -'15 minute "Hg "H 97 SAMPLE LINE LEAK CHECK BluebellGas Plant c-163 11-Mar-25 9:46:00 1 minute -15 " Hg Time of Day Duration lnitialVacuum FinalVacuum 98 SAMPLE LINE LEAK CHECK Bluebell Gas Plant c-252 12-Mar-25 Time of Day Duration lnitialVacuum FinalVacuum 9:14:00 1 minute -14 " Hg 99 SrnnrrFrcAnoru Gurcx 100 STRATIFICATTON CHECK (7E.8.1.2) Station Unit Date Bluebell Gas Plant c-161 1l-Mar-25 Location Time or(%l Diff of Mean (%) Port 1 Point 1 15:40:00 9.43 0.03 Port 1 Point 2 15:44:00 9.s6 0.1 0 Port 1 Point 3 15:48:00 9.39 0.07 Mean:9.46 0.07 Highest Stratification: 0.10% Difference of mean is less than 0.3%: Single sampling point Point Used: 1 fol STRAT|FICATION CHECK (7E.8.1.21 Station Unit Date Biuebell Gas Plant c-r62 12-Mar-25 Location Time or(%l Diff of Mean (%) Port 1 Point 1 15:17:00 9.52 0.13 Port 1 Point 2 15:22.00 s.74 0.09 Porl 1 Point 3 15:26:00 9.70 0.05 Mean:9,65 0.09 Highest Stratification: 0.13% Difference of mean is less than 0.3%: Single sampling point Point Used: 3 102 STRATTFTCATTON CHECK (7E.8.1.21 Station: Unit: Date: Bluebell Gas Plant c- 163 11-Mar-25 Location Time o2f/"1 Diff of Mean (%) Port 1 Point 1 10:26:00 8.4S 0.04 Port '1 Point 2 10:34.00 8.56 0.03 Port'l Point 3 10:38:00 8.53 0.00 Mean:8.53 0.02 Highest Stratification: 0.04% Difference of mean is less than 0.3%: Single sampling point Point Used: 3 103 STRATIFICATTON CHECK (7E.8.1.21 Station Unit Date Bluebell Gas Plant c-252 12-Mar-25 Location Time O2(o/ol Diff of Mean (%) Port 1 Point 1 10:07:00 9.30 0.00 Port I Point 2 10:12:00 9.29 0.01 Port 1 Point 3 10:18:00 o 1l 0.0'l Mean:9.30 0.01 Highest Stratification: 0.01% Difference of mean is less than 0.3%: Single sampling point Point Used: 'l 104 STRATTFICATION CHECK (7E.8.1.21 Station Unit Date Bluebell Gas Plant c-253 l2-Mar-25 Location Time or(%l Diff of Mean (%) Port '1 Point 1 '10:07:00 9.s0 0.00 Port 1 Point 2 1 0.1 2:00 9.50 0.00 Port 1 Polnt 3 10:18:00 9.51 0.01 Mean:9.50 0.00 Highest Stratification: 0.01Yo Difference of mean is less than 0.3%: Single sampling point Point Used: 2 10s srRATtFrcATroN cHECK (7E.8.1.21 Station Unit Date Bluebell Gas Plant c-2s8 l1-Mar-25 Location Time oz(%l Diff of Mean (%) Port 1 Point 1 10:26:00 0.01 0.00 Port I Point 2 10:34:00 0.01 0.00 Port 1 Point 3 '10:38:00 0.01 0.00 Mean:0.01 0.00 Highest Stratification: 0.00% Difference of mean is less than 0.3%: Single sampling point Point Used: 2 l06 NOz To NO GouveRTER Gxecx Fonrul ,l07 NOz - NO CONVERTER CHECK (7E,8.2,41 Station Unit Date Bluebell Gas Plant Analyzer S/N Thermo 42i 12112011862c-161 & C-258 11-Mar-25 lItJ2 rsylllluer l\lulIluer EE'UUOOOA) N02 Calibration Gas Cylinder Value ppm 40.65 44.3 Percent Conversion I 91.76 %,.i :;,i,; fl f $$*.,,;r,:,;,i1i: Percent Conversion = (Response / Cylinder Value) . 100 Time NOx (ppm) 9:43:45 40.72 9:43:55 40.63 9.44'.05 40.60 9.44.15 40.64 9.44'.25 40.66 9.44"35 40.63 40.65 Average l08 NOz - NO CONVERTER CHECK (7E.8.2.41 Station Unit Date Bluebell Gas Plant Analyzer Thermo 42i s/N 1024343934c-162 & C-253 12-Mar-25 N02 Cylinder Number cc734762 NO, Calibration Gas Cylinder Value Percent Conversion I 98.99 %Pass' Percent Conversion = fResponse / Cylinder Value) " 100 Time NOx (ppm) 9:29.10 42.96 9'.29'.20 43.79 9:29:30 44.18 9'.29'.40 44.51 9 29:50 44.87 9:30:00 45.18 44.25 Average {09 NOz - NO CONVERTER CHECK (7E.8.2.41 Station Unit Date Bluebell Gas Plant Analyzer Thermo 42i s/N 1024343934c-'163 11-Mar-25 N02 Cylinder Numbe N02 Calibration Gas Cylinder Value Percent Conversion I 98.22 %1i;l,RdsS;l{;i;11;1 Percent Conversion = (Response / Cylinder Value) * 100 Time NOx (ppm) 9:43:45 44.51 9:43:55 44.70 9:44:05 44.72 9"44.15 42.55 9'.44.25 42.30 9.44:35 42.28 43.51 Average 110 NOz - NO CONVERTER CHECK (7E.8.2.4) Bluebell Gas Plant Thermo 42i 12112011862 12-Mar-25 N02 Cylinder Number NO. Calibration Gas Cylinder Value Percent Conversion Percent Conversion = (Response / Cylinder Value) * 100 Time NOx (ppm) 9:29:10 44.09 9:29'.20 44,08 9.29.30 44.08 9"29.40 44.09 9:29:50 44.10 9:30:00 44.13 44.10 Average 111 RespoNsE Tlrvle Tesr 112 Response Time Check Station: Unit: Date: Bluebell Gas Plant c-161 & C-258 11-Mar-25 Slowest Average Time 82 seconds 02 Analyzer: Servomex 4900 S/N: 200318 Mid Gas Concentration: Analyzer Span Setting: 5.186 11.02 Upscale Response Low Response seconds seconds NOx Analyzer S/N Thermo 42i 12112011862 Mid Gas Concentration: Analyzer Span Setting: 200 462 Upscale Response Low Response seconds seconds CO Analyzer S/N Teledyne T300M 937 Mid Gas Concentration: Analyzer Span Setting: 197 454 Upscale Response Low Response seconds seconds 113 Response Time Check Station: Unit: Date: Bluebell Gas Plant c-162 & C-253 12-Mar-25 Slowest Average Time 82 seconds 02 Analyzer: S/N: Servomex 4900 200317 Mid Gas Concentration: Analyzer Span Setting. 11.02 20.9 Upscale Response Low Response seconds seconds NOx Analyzer: Thermo 42i S/N: 1 024343934 Mid Gas Concentration: Analyzer Span Setting: 94.2 200 Upscale Response Low Response seconds seconds CO Analyzer S/N Teledyne T300M '1059 Mid Gas Concentration: Analyzer Span Setting: 97.8 197 Upscale Response Low Response seconds seconds 114 Response Time Check Station: Bluebell Gas PlantUnit: C-163 Date: 11-Mar-25 Slowest Average Time = 80 seconds 02 Analyzer: S/N: Servomex 4900 200317 Mid Gas Concentration: Analyzer Span Setting: 11.02 20.9 Upscale Response Low Response seconds seconds NOx Analyzer: S/N: Thermo 42i 1024343934 Mid Gas Concentration: Analyzer Span Setting: 200 462 Upscale Response Low Response seconds seconds GO Analyzer: S/N: Teledyne T300M 1 059 Mid Gas Concentration: Analyzer Span Setting. 197 454 Upscale Response Low Response seconds seconds r15 Response Time Check Station: Bluebell Gas Plant Unit: C-252 Date: 12-Mar-25 Slowest Average Time = 79 seconds 02 Analyzer: S/N: Servomex 4900 20031 8 Mid Gas Concentration: Analyzer Span Setting: 11.02 20.9 Upscale Response Low Response seconds seconds NOx Analyzer S/N Thermo 42i 12112011862 Mid Gas Concentration: Analyzer Span Setting. 94.2 200 Upscale Response Low Response seconds seconds CO Analyzer: S/N: Teledyne T300M 937 Mid Gas Concentration: Analyzer Span Setting: 97.8 197 Upscale Response Low Response seconds seconds 116 I nrenrERENcE REspoNsE GrnrlncATES 117 THE EFFECT OF VARIATIONS IN SAMPLE COMPOSITIONS brrr srRvoMEx MAGNETo- DYNAMIC OXYGEN ANALYSERS Servofilex 3S rfl GAs .\NrLYslS ShaPed Pcle Piec=s Figure I Strong Oumb-belton torque suspension Ught Source3r Photocells;-------;''iI aJ Figure 2 Orygen is very ::iong-:/ paramagnetic' ie anracred ioto a mag;-:ic fieid' Vinually all other ;;;;;-;;" weaklv dia=...gnt:'c' i'e' repelled from a magnetic fietd. ln the Servom=< magr:etodYnarnic. measuring cetl (F'gu= 1). oxYgen molecules are ,*i"i"u i"i; ";":tY suong migneti.9 field' This ;;;"; the deftectiot of a-Cumb-bell' rnounted on " t*qu" tuspensiort from its nutl (i'e' zero) p"iiui."- fnit aunu-on is Cetected optically and a ctr.r"nt is applied to = coil rcuod the dumb-bett which testo.es i( to =e nutl position' The curren( ..q"i.uJ io oo ttris's drecdy proponional to the oxygen concenraticn (see Figure 2' . Servomex o)o6€n analyseis are calibrated on a scale which is noc--alised for nitrogen ac 0 and orygen at 1OO. For the highes: accuracy it is necessary to corect for the iero :rtor of the background gas in the sample The paramagn:ic enect varies with r"-p"r"r,rre. The folowing tables list measuring ceI iemperatures o;20"C (foi analysers with unheate'd cells). 50'C (Sao range). 60'C (1 t 00pJ and I l0'C (l IOOH). Orlrervalues can be found by ioterpolation. Assuming the 5oltowing composition' and the analysis a( 50'C: ' , Ot" aO. --O-29 x l0-2 x 'lQ = -0'029 5%CA +0.07x10-2x5 ==0.O04 5% n{crane 47O x'lO-r x 5 - -0'135 78% Nu +0.00 x l0r x 78 = 0'000 . Erfect of background gas = {'1607o O: This effect can be corrected bf zeroing and spanning rhe anatyser in the usual way and then offiening the zero by-({'16)= +0.16% Oz. For gises not listed in the table, standard . tables of ioldme magnetic suscepribitity can-b-e .L^irft"a and the re[ative magnetic susceptibility obcained from:&-K. tq _K. Where: Ko = Volume magnetic suscepotility of gas K" = Volume magnedc suscepnbilty of nitrogen Ko = Volume rnagnetic susceptibiticy of o>cygen NB: Nitrogen dioxide is significantly paramagnetic- as it exists in thirmal equilibrium U*, Anlrogen terroxide, which is weakly diamagnetii its effect varies markedly with ternperaR re. 118 !,i i:r il Appendix I Paramagnetic transducer information Table l-1: Recommended calibration periods for paramagnetic transducers Table l-2: Paramagnetic transducer FSD values Transducer FSD % Oz (User set to 0-25%)100o/o Oz Table l-3 : Paramag netic transd ucer perform an ce s pecif ication Rev 890000M/001i805 @ Servomex Group Limited 2021 Gas transducer module Low calibration High calibration Paramagnetic transd ucer Weekly Weekly Gases measured o/o Oz Range 0 - 100% Minimum recommended output range o-50/ lntrinsic error t 0.1o/, Oz Linearity error lnherently linear, dependent on calibration gases < 0.05% Oz Repeatability < 0.1o/o Oz Lower Detection Limit (LDL) (95% confidence interval) 0.02o/o Oz Response (T90) at 1500m1/min < 15 s Zero drift / week < 0.05% Oz Span drift / week < 0.1o/o Oz Output fluctuation (peak to peak)t 0.05% Oz Ambient pressure coefficient Directly proportional to analyzer vent pressure Zero temperature coefflcient / 10 "C change ! 0.1o/o Oz Span temperature coefficient 110"C change 1% of reading or t 0.1oh Oz, whichever is the larger. 119 225 Gases measured o/o Oz Sample flow effect range over full flow range < 2%o of reading ot 0.1o/o Oz, whichever is the larger. t.1 Overview of measurement errors for paramagnetic Oz transducer For an Oz transducer, the composition of any typical background gas in the gas sample will have an impact on the analyzer measurement accuracy Table H-4 below gives 4 examples of cross-interference errors (Oz measurement errors) in gases which contain 100% of a specific background gas, for an analyzer which has been 'Lo'calibrated with Nz (nitrogen) and 'Hi' calibrated with Oz. Table l-4: Example cross-interference measurement errors (20"C) 100% Background gas o/o 02 Error Argon -0.22% Carbon dioxide -0.26% Carbon monoxide +0.06% Nitrogen dioxide +0.50% Note that the error is directly proportional to the concentration of the background gas in the sample being measured and, in most cases, can be ignored. A detailed listing of these measurement errors for a wide variety of background gases are listed in Section 17.11.2 below, XINT is a reported concentration adjustment that can be set in the Paramagnetic Measurement menus. lt is a scaling factor that is used to correct the current transducer reading. The default value is 1.0. lf required the operator can change this value to compensate for the background gas. For example: lf you are measuring oxygen in a background of carbon dioxide -0.26 should be entered as the XINT value. Figure l-1; XINT icon lf XINIT compensation is to be used, care must be taken to insure thatthe value used for the background gases is correct. During a calibration, no XINT compensation is applied and it is assumed that the calibration gas sample has negligible cross-interference. @ Servomex Group Limited 2021226 120 Rev 890000M/001/805 1.2 Cross interference offsets (for paramagnetic transducer) Pure gas Formula Molar mag. susc x 10{ Cross intederence offsets 20 "c 50'c Acetaldehyde CH,CHO -22.70 -0.3'l -0.34 Acetic acid CH.CO,H -31.50 -0.56 -0.62 Acetone CH.COCH.-33.70 -0.63 -0.69 Acetylene HCCH -20.80 -0.25 -0.28 Acrylonitrile CH,=CHCN -24.10 -0.35 -0.39 Allyl alcohol CH,CHCH,OH -36.70 -0.71 -0.79 Ammonia NH.-18.00 -0.17 -0.1 I Argon Ar -19.60 -0.22 -0.24 Benzene C.H.-54.84 -1.24 -1.36 Boron chloride BCI.-59.90 -1.38 -1.53 Boron trifluoride BF.-19.00 -0.20 -0.22 Bromine Br,-73.50 -1.78 -1.96 1,2 Butadiene C.Hu -35.60 -0.68 -0.75 '1,3 Butadiene C,,H.-30.60 -0.54 -0.59 N-Butane C,H,o -50.30 -1.11 -1.22 iso-Butane (cH.),cHCH,-51.70 -1 .'15 -1.26 I Butene CH.CH,CH=CH,41.10 -0.84 -0.93 N-Butyl acetate CH'COOC,H'-77.50 -1.89 -2.09 iso-Butylene (CH,),CH=CH,44.40 -0.94 -1.03 1 Butyne (Ethylacetylene)CH.C.H,-43.50 -0.91 -1.00 Carbon dioxide CO,-21.00 -0,26 -0.29 Carbon disulphide CS,42.20 -0.87 -0.96 Carbon monoxide CO -9.80 0.06 0.07 Carbon tetrachloride CCl,-66.60 -1.58 -1.74 Carbon tetrafluoride CF,-3'1.20 -0.55 -0.61 Rev 890000M/001/805 @ Servomex Group Limited 2021 121 227 Pure gas Formula Molar mag. susc x 10'6 Cross interference offsets 20'c 50 "c Chlorine CI,-40,50 -0.82 -0.91 Chloroethanol CICH,CH,OH -51.40 -1.14 -1.25 Chloroform CHCI.-59.30 -1.37 -1.51 Cumene (CHr,CHC.H.-89.53 -2.24 -2.47 Cyclohexane C.H,,-68.1 3 -1,62 -1.79 Cyclopentane CuH,o -59.1 8 -1.36 -1.50 Cyclopropane C.Hu -39.90 -0.8'1 -0.89 Diacetylene C,,H,-37.50 -0.74 -0.81 Dichloroethylene (cHGr),49.20 -1.07 -1,18 Diethyl ether (c,Hr,o -55.1 0 -1.25 -1.37 2,2 Difluoro 1 chloroethane CCIH,CHF,-52.40 -1.17 -1.29 1,2 Difluoro 1 ,2 dichloroethylene CFCI=CFCI -60.00 -1.39 -1.53 Difluoro dichloro methane (Freon 12) CCl,F,-52.20 -1.16 -1.28 Dimethoxy methane cH,(ocHr,47.30 -1.02 -1.12 Dimethylamine (cH.),NH -39.90 -0.81 -0.89 Dimethyleiher CH.OCH.-26.30 -0.41 -0.46 Dimethylethylamine (cH3)2NC2H5 -63.60 -1.49 -1.64 Enflurane (Ethrane)C3H2F5CIO -80.10 -1.97 -2.17 Ethane C2H6 -26.80 -0.43 -0.47 Ethanol C,H'OH -33.60 -0.62 -0.69 Ethyl acetate CH.COOC,H,-54.20 -1.22 -1.34 Ethyl amine C,HuNH,-39.90 -0.81 -0.89 Ethyl benzene CuH.CrHu -77.20 -1.88 -2.08 Ethyl bromide CrHrBr -54.70 -1.23 -1.36 Ethyl chloride CrHrCl -46.00 -0.98 -1.08 @ Servomex Group Limited 202'1 Rev 890000M/001/805228 122 Pure gas Formula Molar mag. susc x 10{ Cross interference effects 20 "c 50'c Ethylene C,H,-18.80 -o_20 -0.22 Ethylene glycol (cH,oH),-38.80 -0,77 -0.85 Ethylene oxide (CH,),O -30.70 -0.54 -0.60 Ethyl mercaptan C,HuOSO.H -47.00 -1.01 -1.11 Fluorochlo robromomethane CFCIBT -58.00 -1.33 -1.46 Fluorodichloromethane (Freon 21) CHCI,F -48.80 -1.06 -1.17 Fluroxene CF.CH.OCHCH,-56.70 -1.29 -1.42 Freon 1 14 CrClrF,-77.40 -'1.89 -2.08 Furan C,H,O -43.09 -0.90 -0.99 Germanium tetrachloride GeCl,-72.00 -1.73 -1.91 Halothane C,HBrClF.-78.80 -'1.93 -2.13 Helium He -1.88 0.29 0.32 N-Heptane CrH'u -85.24 -2.12 -2.33 N-Hexane C,H,.-73.60 -1.78 -1.96 Hydrogen H,-3.98 0.23 0.26 Hydrogen bromide Br -35.30 -0.67 -0.74 Hydrogen chloride HCI -22.60 -0.31 -0.34 Hydrogen cyanide HCN -14.50 -0.07 -0.08 Hydrogen iodide HI 48.20 -1.05 -1.1s Hydrogen selenide H.Se -39.20 -0.79 -0,87 Hydrogen sulphide H,S -25.50 -0.39 -0.43 lsoflurane (Forane)C.H,F'ClO -80,1 0 -1.97 -2.17 lsoprene C,H,44.80 -0.95 -1.04 Ketene CH,CO -15.70 -0.1 1 -o.12 Krypton Kr -28.80 -0.49 -0.54 Methane CH.-17.40 -0.1 6 -0.17 Rev 890000M/0011805 @ Servomex Group Limited 2021 123 229 Pure gas Formula Molar mag. susc x 104 Cross interference effects 20'G 50'c Methanol CH.OH -21.40 -0.27 -0.30 Methoxyfluorane CHCI,CF,OCH.-87.1 0 -2.17 -2.39 Methyl acetate CH.COCH.42.60 -0,88 -0,97 Miithyl cyclopentane CuH,,-70.20 -1.68 -1.85 Methylene chloride CH,CI,-46.60 -1.00 -1 .10 Methylethlyketone CH.COCH,e H.-45.50 -0.97 -1.07 Methylfluoride CH.F -25,50 -0.39 -0.43 Methylformate HCOOCH.-32.00 -0,58 -0.64 Methyl iodide CH.l -57.20 -1.31 -1.44 Methyl iso-butyl ketone (MrBK) C,H,COCH,-69.30 -1.66 -1.82 Methyl mercaptan CH.SH -35.30 -0.67 -0.74 Molybdenum hexafluoride MoF'-26.00 -0 40 -0.45 Monochlorobenzene C.H,Cl -70.00 -'1.68 -1.85 Neon Ne -6.70 0.15 0.17 Nitric oxide NO '1461.00 42.56 42.96 Nitrobenzene C.HuNO,-61.80 -1.44 -1.59 Nitrogen N,-12.00 0.00 0.00 Nitrogen dioxide NO,150.00 5.00 16.00 Ortho-Nitrotoluene C.H.CHTNO,-72.30 -1.74 -1.92 para-Nitrotoluene CuH,CH.NO,-76.90 -1,88 -2.07 Nitrous oxide NrO -'18.90 -0.20 -0.22 N-Nonane C,H,o -'108.1 3 -2.78 -3.06 N-Octane C,H',-96.63 -2.45 -2.70 Oxygen o,3449.00 100.0 100.0 Ozone o,6.70 0.54 0.60 iso-Pentane CuH,,-64.40 -1.51 -1.67 @ Servomex Group Limited 2021 Rev 890000M/001/805230 124 Pure gas Formula Molar mag. susc x 10'6 Cross intederence offsets 20'c 50 "c N-Pentane CuH,,-63.1 0 -1.48 -1.63 0.01%Phenol CuHuOH -60.21 -1.39 -1.54 Phosphine PH.-26.00 -0.40 -0.45 Phosphorous oxychloride POCI.-69.00 -1.65 -1.82 Propane C.H,-38.60 -0.77 -0.85 iso-Propanol (cH.),cHoH -47.60 -'1.03 -1.13 Propene CH.CH=CH,-31.50 -0.56 -0.62 N-Propyl acetate CH.COOC,H,-65.90 -1.56 -1.72 Propyl amine C.H,NH,-52.40 -1.17 -1.29 Propyl chloride CrH,Cl -56.1 0 -1.27 -1.40 Propylene C,Hu -3'1.50 -0.56 -0.62 Propylene oxide OCH,CHCH.42.50 _O.BB -0.97 iso-Propyl ether (cH.)..cHocH -79.40 -1 95 -2.15 Propyl fluoride C.HrF -52.20 -1 .16 -1.28 Pyridine N(cH),49.21 -1.08 -1 .19 Silane SiH.-20.50 -0.25 -o.27 Silicon tetrachloride sict,,-88.30 -2,20 -2.43 Styrene C.HuCH=CH,-68.20 -1.62 -1.79 Sulphur dioxide SO,-18.20 -0.1 8 -0.20 Sulphur hexafluoride SFu -44,00 -0.92 -1.02 Tetrachoroethylene Cl,C=CCl,-81.60 -2.01 -2.22 Tetrahydrofuran C.HuO -52.00 -1 .16 -1.27 Toluene C.HuCH.-66.11 -1,56 -1.72 1,1 ,2 Trichloroethane (Freon 1 13) CHCI,CH,CI -66.20 -1.57 -1.73 Trichloroethylene CHCI=CCl,-65.80 -1.55 -1 .71 Trifluo roch loroethylene C,F.Cl -49.10 -1.07 -1 .18 @ Servomex Group Limited 2021Rev 890000M/001/805 125 231 Pure gas Formula Molar mag. susc x 10{ Cross interference offsets 20 "c 50 "c Trimethylamine (cH,).N -51.70 -1 .15 -1.26 Tungsten fluoride WFu -40.00 -0.81 -0.89 Urethane co(NHroc,H,-57.00 -1.30 -1.43 Vacuum 0.00 0.35 0.38 Vinyl bromide CH,=CHBr -44.80 -0.95 -1.04 Vinyl chloride CH.=CHCI -35.60 -0.68 -0.75 Vinyl fluoride CH,=CHF -28.80 -0.49 *0.54 Water HrO -13.00 -0.03 -0.03 Xenon Xe -43.90 -0.92 -1.02 Xylene (CH.),C'H.-77.78 -1.90 -2.09 O Servomex Group Limited 2021 Rev 890000M/001/805232 126 TherrnoFisher5CIENTIFIC Thermo Scientific Model 42 NO-NOz-NO, Analyzer Potential lnterference Gas Responses Potential lnbrterent Model 42iLS Model 42iHL fest Gas Concentration NO NOz NO,NO NO,NO, COz 5.20%0.001 0.004 0.004 0.001 0.003 0.004 COz 15.60%0 0.003 0.003 0.001 0.004 0.005 HzO 1.00%0 0 0 0.003 0.001 0.004 NO 15 ppm 14.9 0.1 tc 15 -0.06 14.99 NOz 15 ppm 1.1 14 0.4 14.6 la) Nzo 10ppm 0 0 0 0 0 0 CO 50 ppm 0 0 0 0 0 0 Soe 21 ppm -0 01 0 -0.01 0.007 0 0.007 Ul-1r 50 ppm 0 0 0 0 0 0 HCI 1 0 ppnr 0 0 005 0.006 0 0.004 0 004 NH:''10 ppm 0 0 0 o.17 8.9 9.1 Sum of Responses 0.011 0.01 o.02 0.011 0.009 0.02 Span Value '160 152 160 '160 152 160 %o of Calibration Span 0.01% 0.01%0.010k 0.01%0.01%0.01% Acceptance Criteria found in Secflon 13.4 of Method 7E ls the sum of responses musf not be greater than 2.5% of the analyzer calibration span value. 'NH, interferent resl//fs shown for the Model 42iHL was not used in calculation of interference response check because it is a known interferent with an approximate 1 ppm to 1 ppm positive bias in analyzers using stainless stee/ NOzto NO converlers. Thermo recommends fhat NO, analyzers with staintess sfee/ NO2to NO converters musl use a NH3 scrubber when testing sources with potential NH j in the flue gas. This document is subject to change without notice. 127 !,r!v!v. lhermolisller.com Teledyne T200H and T300M lnterference Check Below is the factory interference check for the Teledyne T200H and T300M as well as other Teledyne analyzers as allowed in EPA Method 7E, Section 8.2.7...You may also meet the interference check requirement if the instrument monufocturer performs this or o similor check on on onalyzer of the same make ond model of the onalyzer thot you use ond provides you with documented results. l\4ethod7E Resultslor PotEndal PotEntirl lrtErfEr;ot lntErfErEflt Gas G3r Con(EntEtion t,t:.st',L'!2SEH C9:l.rt:1IEH SEEor llt]31f lrl?CC€Ll lOElol M33C€ &i9CBE O2 [,1EO3E CO] S Hscr Senrc.r 902 ilD NOI ?9 ppmv 15 ppmv 15 ppmv 13ppmv 5CFpmv Slppru SiFt mv 15ia 13ppmu .s'.:91 .3.1E.1 o!: -;.i15 -1.:'3; 4.74 -c.1E6 -3.!11 -o014 -o.026 -c936 0.sc s.113 -3,i:5 -3.3€ 1 o@ {.c82 €.C€4 €.cc9 osl -O.1C6 -9.061 -OO15 -3.015 ,o.O51 -CO15 0.'311 -3.051 -OOli 4.Oq1 -OO?4 -l-JaD -J lS -U.!'r Le.il '3 3t6 EC CH: H] Ir]l Il H3 Hfl x.slo.:et c..3lo I Ab:{lutE:um cf FE:Fcn:E:1.1S6 *EPm IJHJ J,+I J.III Sqpm :'3.95 i'> 15;:I l:slibratlce Scan 'f EFm lCppm **FFm 15i.r 19FFm *EFm 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. i PErcent !f t>librEtion Span 11_471 2.1!4 1.:t6l 128, TELEDYIUE ADVANCED POLI"UTI ON INSTBU MENTATI ON ri ';,.r:!i ,,, 1,, :Jr:tLri,:,rt,.r:, . ,.':;l i. \ -0480 Carroll Park Dtive San Diego, CA 9212i-5201 August 4,2014 To Whom It May Concern: Teledyne Aclvanced Pollution Instnrmerttation has introduced new instrutnent Inodels to replace olrr existirlg E Series gas analyzers The new instruments are collectively referred to as our T Series lnodels The fundamental design and all critical wetted, electronic, electrical and analytical components of the T Series instruments are identical to theE Series, including: UV sources, photo detectors, pov/er supplies, pressure and flotv transducers, pileumatic connectors and valves as ,,vell as external signal I/O connectors for serial data (RS- 2321485 ancl Ethenret), analog concenrration and statlls signals, and contt'ol inputs. The clesign of all analytical algorithnrs. signal processing trnd control soiir.vare algoritlinrs are iclenticzrl as r,vell, including A,iD measuremel)ts. digital signal f:ltering, concentration calculations, calibration thctors artd algorithms. temperature and pressui-e colnpensatiotl. temperatllre control loops. Tlib prirnary difl'erences between the nrodels E Series and T Series instrument desigrrs are provided below: 1. The 2 line by "10 character vaclrum fluorescent display module is replaced by a 7" color LCD display with a touch screen interface. The cument humatt user interface is emulated on the color, graphical display. The touch screen is used to emulate the existing 8 button context seusitive keyboard. Z, The software platforrn has been upgraded to support the graphical display and touchscreen. Softrvare routines liave been added to support the new analog input optior-r, and a native Ethernet port oll tbe CPU. 3. An upgraried CPU board that inch-rdes liardrvare to drive the LCD display and is backwards cornpatible with the current E-series CPU is used for the T-series analyzers. 4 A ne,uv front panel assembll, has been designed to house the new display, and a nerv 9-pin connector rvill be added to the rear panel to support tlte new analog input option 5. Tlie nerv analo_9 input option is designed to pernrit users to display arid log, Lrsing the analyzer's internal data logger, signals from meteorological and other miscellaneous external sensors. None of the exter-nal signais are used in the calculations that yield calibrated concelltration. 129 Internal production testing of the T Series analyzers that have been manufactured to date has shown that they meet the same analytical specifications as the equivalent E Series analyzers, including noise, linearity, drift, and response time. We feel that, due to the nature of the changes described above and the testing performed to date, the modifications will not affect the performance characteristics of the analyzer. Best Regards,.n ,./ u'( ".('r{.'/ 4l:;4td77e-r,,-- Doug Haugen - US National Sales Manager Teledyne Advanced Pollution Instmmentation (.970) 224-3686 f)ou r.rl a s; ita u uen[ri)tel edv1le co1]l 130 Lrneanrv GxEGK (GmreRATroN Ennon) Fonms 131 d) 0) q ) (J L L .0 , ) or F \o( o\o\cl \oo\ or It tl !H .:tr O \o; C\O c)ahU) q, )oN EI 'l _ _l q 3 "t:l"l - lq = z3 3l 6l l- _J " q N z2 L' o (J o\ ,6 v tr q ) >= \J > O c- . tq r. . l c)z,rqJU \oNtr )a. l oo*N ooC.OO o\ -f , r-\oOO U)d oI(.)N z boF AJ-{SC4 ltqJ(JAJt-q)bas OY- lx AJUq)r-a) -\ '\ !la)+Jo(/) -a qNe) o) r T L t NA > -h ? ' c Ho O . <a a +1F]moornca rF )F4U()o Li ! r o -. 4 CE i+ r U) p > sl O'\ I -i - Im xl ' - - dJ l a a FI R "q l \o IO r)c. lI-zI(. )c(63Frar ts, )0) -o() pa L, ] < o! ?NY 4, ; -6 ) .r t r \- ) J q) qJ o (J L L. ( ) o) F o\Oq o\o' \ o\sf ,=q 9? ? (J l r () = !i - r .=a \o+ aa6i U)U)ooN =l3l -. 1 = O z9, =l ;l l* lo e J v- )I z9 I -t:l -t l- lo ' , 'c i \o<. zg oA l. / G O Oc\ ca \o$ 0)zfrc)U i. i iroN No)t-Nt-C)O (oNO)@-rocoLU v)o UliON z o0 HFJ r q)).-tr t'a ilqJUl-qJt-qJ (+ -bas OOr{X qJUal t-q) \,{ \ !]AJ$ol, ' t ^a ca \o-f , 6# a nr ) -h ? ' o <a a tr lJFAooOtr )caFUc) Lt <r !. = L CE : ( F a? z N\oooON-N\o#IO N$LoFc' lIcozI0)nrCh(c() -o() Lo*NU -) -t r tr bxo At r zi o oc ) (. ) L L .q ) o) F \oo\caO .oo\NclO \oo\o\ c1 o) = d) l l Ll F. = tr \nO Oq t- -\ 6)U) t)q) ilfr6)N I6 ( : *l*l l-l. r - c. l tr )$ z2 O zU -\ 5 ) o\ zU !r t r oa g/ 6 q tr -o\ sf$ L0)zliq)U HLoN \o|. r )c{cnO(. ) f- -oo$Na U) () i- <oN z bo HtJ r AJ\dt-a14 ilq) (Jq)Lq) \\as OOr' {X q)Ul-a)Lq) \\q.) +JtUq $tr )t4) tr o= O> 7 ! \ NF < > -h E o <a a E]Jca@(caF(Jo li <t o -- a c! - l H (, p > tr -aa^\\o IO aUcaF()xOoF(C.IIirzIq,)Orcr1 rl() .o()EI Lve) E Nc ) -l - -A9 \r ' .= UF ] 13 4 {) oq ) QLhe o\.i - \oo\ooc1O -oo\t- Q: o) l l Ll iE .=tr co ooCJ cnd oU)ahq) ilt-oNh "t:l3l l- __ t q 5 =l :l -. 1 - 3 =lsl'l - __ l oqN z2 l- -o Qo \ Evtr 6 ) >= l/ > Oq Nq q(. . l LC)zq)>,U \oNrnNoo#ON ooOcaOO o\$t- - \o()(- ) U) U+<()N a b! HF]r q)IS. l'- ) llAJ(Jq)F-q) \s OOrlX q)U\q. )LOJ\\lq) +Jot1-a{ qONai L o- O) 17 Ll r* e ) -h E ' o lo A . <a a 14-]caoorcr t f i., )FU0) o. . A +r . = L CE d + r a= z t- -caa. lC.. l \o-IQ Oo\ \i -X0)o!oa6)dF.ari() -o(.)m hSSE r- ) f ) Nt r A' = {3 5 o o0 ) 9t i L -6 ) o lr i +i .Etr U)av)L0)N tr )nOON q) e . \/ G trir0)N sNlr ) \i - .tNOO NO) f- -Nf- -OO trq)zLoU q)BSGg(4 ilAJ(Jq)t-qJ \s OOrlX AJUq)t-q) \aAJ+Jol, j ^a (- . )q) rr o= O> 7 l l N- > h? ' c CE . n ; Ha ) A <a a rl . ] .. ]oo rca(JFOo tr i i o. . d c( r + r a? > .d . aao'\ ca-f , ca$o. lN\o IO NFoF()Aa\Jo-o()m tr(. ) + NU ra > = 'dxo E \J .- zi 13 6 qJ ooQL r L .q , ) 0) F \oo\ .oo\* o\sN Yc i q) l- r L. t !8 . = tr N cl oon c)U)U)oti()N =l3ll= ? ?, "t:l'l - l^rY@A 3 "l3l 'l - l" r Jr O i LEoa Eq ) l/ 6 ooF- -o\ tr -o\ 0)z0)U $itr0)N o\NC'N(- )L) \otr )NcaOL) v) U-oN b0F AJCJSHEV) ilqJU|-qJt-q) \\!. 1s OoriX q)Uq)LqJ\\\lq)+Jot4 -a tr -0) 6# o NA > hE c <a a rr . lJc0oo rcaoFO0. )o tr ! - o -- d c( ; + r ch P Z o' \ \N\o IO acaF()()oFtr )c. lILaIc\0rcn(sosoca L4 \l / c. ) Nq ) a> - 4' i \c t r A9 \J .= ul 1 13 7 (,) (, ) q) Qt <h8o=Er ! ol l Q= !H .=t q)U)t)q)e)N l- .o 6) o\ Evtr c ) >= \J > 6)ztr0)U \oC- . l (r )(\o,ooa\ ooOcn()U -i - t- - \oO(- ) OOFtx a)BBS14 ilAJUqJt-q) \\a\OO\ q)(. ) l-AJq)Ha)+Jt4-ad o\ONo O) >7 !i NF T > h? ' c Ho A . <a a oo (a ) caFO()o tr F r d; i ( H a) z t- -caONca \o IO OA\f ,x()EoLoarno. lIiraI4)Acndf i., ) () -o0) co a) (. ) N9 -) f \ 4=' 0.) dt r lJ Fl 13 8 q,) q) q ) OL L .q ) o) F \oo\ \nd \o6\@c. . lO \oo\ tr - ,r ? (J : : ol l Lr lo= ts . = tr Nn o\ c. l U\?N q)U)U)qJqJN({ =l :l ^ O z9 ,l ,: l"t _ lr - -J o. ;I z9 3l 'l o l. r JO \o$ zt2 lt roa l/ ( ! O N ca\o$ Lozq)U kLr0)N NO) f- -Nf- *OO (oNo)@omLl - l u) rr l Uir0)N a oo+H AJ!BS|-dg14 ilq)Uq)q. ) \\r- ls OOr- lX A)Qq)t-q) \\r_ )a)+Jol/ ) .a ca \o-i fq) O) 17 l! N- > ., + G E CE ' n ; <a a n@\ncaFOo o. . A +r . E L ci i ( H +i = E f a) a <fcao'\ co$aa$Nca\o I (- ) N$oHLOFtr ) (- . l IIOdBia(d r ts, )os0) cq La. ) + NY . >. ; tr - h 4' ixq ) At r \J .= zi 13 9 C) 0) c ) (J ! L .q ) dJ F9l E () l l tl-. : n 0)U) rh0) ilLq)N tr -o' \ +f$ oa l/ d \ot/ ^ ) C. . l caOO (- -oo$c. l rt l-q)zl-oU q)SS. 14 ilq.)UAJt-q) \\as Oorlx a. )UAJt-q)\\aq) {Joq-o .i - tr )$o (] . ) t T q y N' r > ,, ? G . <a a @(r . ) aaUFQ() tr io. . a !. E l i 6i; l Ea) > EIOI c. I F lo ' il E a) lEl ca\o I (J c. lIaIq)Fra\Jo-o()m lr w lL J O Nq J -> - ^q ) L. ) .E UF I 14 0 0) oo9Lhe \oo\ \n-- \oo\@c1O .oo\@n (J : ol l -. : c q ooi 4)U)oU)q) iloN =lsl :l = O z ,l;l-l a 3 "t3l3l -- l = N 3 L- o 6) o\ Evtr c ) >= \J > OU Nq qN 0)zLC)U \oNrnNo' \ oo#OO(\ oo-OC.UO o\ .d - t- - \oUO (r )6 iiC)N \3a hoA qJBl-tr - (/ ) lla)(Jq)t-q)\\as OOr- fX q)u|-a)Lq) \!q. ) {)Ut/ ) ^a{ qN() LO - o) ,7 !g N- > BE tr Ho A <a a ir lJ\o\nCOFU() o. . A dd ( H a) a ooCr )NN(NIO OO.i|X()HoL0,)aC.lIiiIc. l0)(d0racdd) 'o0))m L 'j l o !., | NYh0 1=\U.l tr \J F l 14 1 q) ooOL L. O d) F \oo\ .oo\ca \oo\aaA (. ) : 0, ) l l !H .:d N c. l tr )c\O ()v)ar )G) (. )N4 -l :l3l -l = O z? =l ;l l- __ l n$o'\ z3 "tEI 'l - lc . . t 'oON z9. oa \J 6 q cl -i -o'\ ON Lq)z0,)U ,r|roN $f. - LO\r$NOO No)t-NNOO U) !oN z h0FH StsNS. q llq)\q)t-AJ \\s OOriX q)UAJt-qJ\\Hq)+Jt4^a{ Nq) 6# es n- ) bE ' c N\oooNolN(NI (- ) o. loi()F-l5lo!CdAaUo.o0)m li() +SE la - . , 5 xq ) tr \/ ' rZ- 1 14 2 o c) q ) C. ) ! ir .c ) d) FE: I o) , l tr U) .t )()6)N q, ) q l/ 6 L0)zoU o\c\ l coNOQ \otr )Nca()O a. ){Ip.h ila)Q|-a. )t-\as OOr- {X AJUq)Lq) \aa)+laq^a{ tr -o\o) Hz s i? ' c lo A <a a r!J\o(r )coFOq) ,i Er +J . E }] CE a + r do D > >l=lF l" - o. l 1. . !J ^ #lFl N\nNIO () Ir rarF )oOpa tr 4ot N q,) ra > - 41 L \G/- \ I \J .= UF I 14 3 q) oq ) Qt r l- .o d) F o\$O \oo\ooc' )O o\sO E: I 0) l l o= F .! : At r caA oo ca oU) (n0)toN -l :l3lls ? z9 I tt=l -- l * zJ? ,lsl"l - __ l oqN ztt !- .o (J o\ 'E v tr o ,t ? \J > O N-i o\a\ Lq)ztroU \oN\c\ lo\ooN ooaaOQ \ft- -vUO v) -0)N Uz boF q)!BSB14 ilqJt-q. ) \as Or{X a)U}-q)Lq)aq)+Joq-a qNo a, 7 N pa ) iE ' c :L c q <o a HIItr )caFU +j . = i C( . i + { q7 > F-caNcatr )NI() o\$XoEo!roatr ) c. lIirdZIc. lq)cdBiar ts,1ooIJ . J Lr ' j ! SE .. 1 tr LJ . l 14 4 q) () c ) () hLC ) OJ t s o\ \oo\r-cl o\Nq (J = 0i ll Ll F .: :tr N $ v1 tr )s:O v)cr )0)()N FI -l = ? z =l=l"l - __ _ i e ca 3 -lEI ;t l- __ t : N z9 oA 1, , / 6 O c' l$o' \ OC\ q)zoU !o!0)N sf. - ro\f\tNOO NO) f- -NNOC) U) f, i o-oN z bo HFr r q)(J ' &lt ) ila.)UqJLa) \\L- )s rlX OJUq)t-q) \\!. 1q.)+Jt4^a{ a\o b9 E NF . > .h E o Ho O . <a a rl ]Fl \otr )caFU cd - + r a? z $cao\ ca$an\f ,NC. rnNIO N-i -oFot- r rnc' lILr63aIc!c,)Aa() -!oca L() +NU -) ,. E xq ) tr \J .- zi oq ) (J - ! L .q ) G) F o\O \oo\-i .oo\$n c) = CJ :: o) l r LW c N OclO oo=q 6)U)at)c)LoN .lEI"l ^ lo 3 "t:l;l l- __ _ l q oo 3 "t3l :l ln -- - J u53 z?, r. t r oa v6 qO @so\ Ir - lioz()U tiL{()N N\ocaN(- )O vrNOcaOO U) !(.)N z h0 HEl r q)SNa14 tlq)UAJt-a)Hs OO-lx q)q)t-q) ,{ \ \L.]q.) +- ) !ou1 -a{ c-o'\q) a, ) t7 Ll NF T > h? ' o <, i , 4 tr l F- l UC.F()0) o. - a di e H (, D Z EI co l F lo . il E rl(- ) l EI catr )C\ lI (- ) r(. . l I!<aIc. lod+racCo-o() t- 4o7 N q, ) ,> - tr B ,- \ 9 \J .= U! l 14 6 q) oo () LLC ) O, J H \oo\o\q .oo\ tr ld o\ .i r ,r 1 ol r !E .=t O N \oq q)U) rhq)&L0)N =lsl"l _ lo 1Q -l;l -l = '. r ; z2 "t:l'l - __ _ l q 3 .-4) o\ Evtr q,) >, = \J > O \o@(r ; Nq ()zo) () \oN(nNo' \ ooON Ir -o\@ca$N() (- ) @caOO U)o fioN A -h0F a)*S|-S. l^ . ilq)U|-qJt-qJ\r- 1s OOriX qJUAJLq) \\aAJs!oL4 -a NO tr o = O> 7 q t NL > hE ' c CE ' ! < t <a a tr )aa$$Or- -Fl t)o}Z(dB4) r-ar-a @caNoo rNI (- ) 6Ca) Atx6)L(. )atr )olIt<dI6)d,f r<,t )()s.om Lj ( () ?NY ^ -o ) (t { t r L, r l 14 7 q) q) q,) (J L L. C) o) F o\OO \oqO \o-i -=q 9? ? oJ ll () = !E . = tr O v+ aao. i 0)U)ov)()0,)N+ EI _. 1 = C; zI "t:l"l o lo q Jr r ) 3 z2 "l :tit l-lq JO \o$ zL Lt r cr A \J G qO N ca\ow !q)zLq) (J ,o-oN NO) f. -NNOO (oNO)@omLU U) oL<C)N a b0 ts qJa{S. C4 ltqJ(JqJt-q) \\Ll rOo\Or- lX OJ(Ja)Lq) \\aq)+J!t4 ca\osf() O, 7 cq nt u ) hG ' c 4a a rnU)a$$t- --](Do(c4) tiL=a N\oooN-c. nootr )NIO li a0)N.i -oFoFr/ )c' lIaIo,4 iao-o() Sr(. ) * NU rr > -t r xe ) At r v' -zi 14 8 q) oq ) (. ) L L. o d) F \oo\ca o\Nc. j \oAc1O d) l r !l !r . = t (H t- -\ e)ooU)c)6)N -l olBI ;t-- l = cj J _l:l'l o lq J\ o I 2 =lxl'l - l' r(n$ z?, !. t r q) A VG F-o' \ s-$ liC)zlroU tro$<0_ )N vt/ ^ )Nca(- )O t- t@NCN a ()N e boF qJd\tr - V) lla.)(lq)LAJ\\as OOrlx q)Uq)Lq) \\qJ+- )q.a{ (a )$0) 6# c tt r ) hG ' c Ho A . <a q r)aarF l$$Ir -Ja0)dB(,)Erat- l- ia .- . , I 3tOI cn l F l" - o.l I cn tr lo \ >\ l -o l oJ l El ootr )NIO c{ A a)nl*t=l-l4) Il ra(crl() -o6) ca li voz N6 ) r- ) - 6T. B 1L\6 ^O \J .= UF I 14 9 Sysrrrvr lnrecRtry (Bns Gnecx) Fonus 1s0 Sample Line lntegrity Check Unit: C-161 NOx Analyzer: Serial Number: SPan: Thermo 42i Station: Bluebell Gas Plant Date: 1 1-lvlar-25 CO Analyzer: Teledyne T300N.4 Serial Number: 937 Span: 454 O2 Analyzer: Serial Number: SPan: Servomex 4900 20031 8 20.9 1211201 1862 463 N c oL N c o c scan rime llI0.05 ppm o-zs;.> E<c Galrbratron gas through complete calibration Scan Time | 9:05:00 0.01 ppm Scan Time | 9:31 :00 195.84 ppm ozd 6= JC o ScanTime 1905:00 0.01 ppm Scan Time | 9:31:00 195.84 ppm Calibraiion gas through :omplete sampling system r l.l Scan Time I ls:oe:Oo 1.03 ppm Scan Time | 15:04:00 185.18 ppm Scan Time I ls:le:oo ppm Scan Time | 19:39:00 1S1 .04 ppm Pas3 Pass 'Pass System calibration Bias o-22 2.30 1.14 "/"'l.04 o/. N5 C oo I ualrDralon gas tnrougn complete calibration cr,-r6h altl Scan Time | 9:05:00 0.'15 ppm Scan Time | 9:31:00 196.00 ppm o -N:i -> 3<c Scan Time I 0.15 9:05:00 ppm Scan Time I 9:31:00 196.00 ppm Calibration gas throu gh :omplete sampling system / l.l Scan Time I ls:o+:oo 17 ppm Scan Time | 15:06:00 191.98 ppm Scan Time I te:gs:oo 0.98 ppm Scan Time | 19:42:00 185.00 ppm Pas5 Pass Pass System Calibration Bias o.22 "/.0.89 0/"0.1 8 ./,2.42 "/" Low Response Upscale Response Low Response Upscale Response N -> a N o o L calrbratron gas tnrou gn complete calibration .r,.rah rlll Scan Time L -0.03 9:00:00 ppm Scan Time I g:11:00 10.94 ppm N-> c No o oc Scan Time | 9:00:00 -0.03 ppm Scan Time | 9:11 :00 10.94 ppm Calibration gas through :omplete sampling system ll. \ Scan Time | 14:41 00 0.03 ppm Scan Time I la:ag:oO 10.87 ppm Scan Time I ts:tg:OO 0.03 ppm Scan Time I I g:Zt :OO '10.87 ppm PASS Pasi d.i, r Pasaii. j,i System Calibration Bias 0.29 0.33 0.29 0.33 o- ;>g! 9<L ualrbratron gas tnrougn complete calibration Scan Time | 9:00:00 -O.O2 ppm Scan Time | 9:11:00 93.66 ppm zd d= .:. c oo- Scan Time | 9:00:00 -0.02 ppm Scan Time | 9:1 1:00 93.66 ppm ualrDrauon gas tnrougn :omplete sampling system 1l.l Scan Time | 14:46:00 2.19 ppm Scan Time I tt:al:oo 94.96 ppm Scan Time I ts:Zs:oo 2.29 ppm Scan Time I tg:tg:OO 94.36 ppm Pass : Pas5 . "::;..r,.i1'.s:t .: Pas3 r'_ System Calibration Bias '1.11 0.65 "/"1.16 0.35 oN c oc ualtbratron gas tnrougn complete calibration .r,.t-h /ltl Scan Time I -o.o2 9:00:00 ppm Scan Time I 9:11:00 98.00 PPm ooE Eg !c3<I Scan Time | 9:00:00 -0.02 ppm Scan Time | 9:1 1:00 98.00 ppm Calibration gas lhrough omplete sampling system / l.l Scan Time | 14:41:00 1.76 ppm Scan Time I t+:ao:oo 99.50 ppm Scan Time I t s:l s:oo 1.99 ppm scan Time I ts:zg:oo 9S.19 ppm Pa33 Pass Paas:.. .:.,h, System Calibration Bias 0.90 0.76 1.02 0.50 Station: Bluebell Gas Plant 02 Analyzer: Servomex 4900 Serial Number: 2oo317 Sample Line lntegrity Check Oate: 12-t\4ar-25 Span:20.9 NOx Analyzer: Serial Number: SPan: Thermo 42i 1 024343934 200 CO Analyzer: Serial Number: SPan: Teledyne T300L4 1 059 197 152 Sample Line Integrity Check Station: 02 Analyzer: Serial Number: Span: Bluebell Gas Planl Unit: C-163 NOr Analyzer: Thermo 42i SerialNumber: 1024343934 Span: 463 Date: '11-l/ar-25 Seruomex 4900 CO Analvzer: Teledyne T300[,4 200317 Serial Number: Span:20.9 c o N.> c c Scan Time 9:52:00 Scan Time 198.71 Scan rime Llf198.71 ppm o gGic6<oc N> c oo I calrbration gas through complete calibration cwctcn llt\ Scan Time I 9:05:00 0.02 ppm Scan Time I 9:31:00 1 97.00 ppm oooL 3-> 3<d Scan Time I o.o2 9:05:00 ppnl Scan Time I g:31:00 197.00 ppm Calrlrratron gas through ;omplete sampling system /l-t Scan Time | 9:52:00 0.19 ppm Scan Time I g:ss:oo 194.18 ppm Scan Time | 15 04 00 0.61 ppm Scan Time I tS:oo:oo 193.12 ppm Pass Pas s rass System Calibration Bias 0.04 0.62 ,/"0.'r 3 "/.0.85 % {53 Low Response upscale Response Low Response Upscale Response N.>Gc o & uallotallon gas trrroug complete calibration sw<tem /ll\ Scan Time I 0.01 9:00:00 ppm Scan Time I 9:11 :oo 10.94 ppm Ni c No o Scan Time | 9:00:00 0.01 ppm Scan Time I g:1 1:00 10.94 ppm calrbratron gas (nrougn complete sampling system /l-\ Scan Time I 9:18:00 O.OZ ppm Scan Time I s:zo:oo 10.90 ppm Scan Time | 14:41:00 0.06 pPm Scan Time I t+:+e:oo 10.84 ppm ,. PAS 6 Pass '4,.i;ilrjy:PaSg i System Calibration Bias 0_05 0.19 0.24 0.48 "/" o- ;-> E<L Lalloratlon gas rnrougl complete calibration <r,<t.m lltl Scan Time | 9:00:00 O.O2 ppm Scan Time | 9:11 :00 94.45 ppm zit o= 6<oc Scan Time I o.02 9:00:00 ppm Scan Time | 9:11:00 94.45 ppm calabratron gas tnrou9n :omplete sampling system /l-\ Scan Time I g:ZS:oo 0.16 ppm Scan Time I g:t a:oo 94.24 ppm Scan Time I '14:46:00 O.77 ppm Scan Tame I tn:+l:oo 9'1.63 ppm Pass Pass i'.": l)"la ,Pagg System Calibration Bias 0.07 0.'l'l 0.38 "/"1.41 ,/" i oo o c calibration gas througn complete calibration <v<tem alll Scan Time I 9:00:00 0.09 ppm Scan Time I 9:'11:00 S7.55 ppm o; :N Ei -> 3< Scan Time I 9:00:00 0.09 ppm Scan Time I 9:1 1:00 97.55 ppm calrbratron gas lnrou gn complete sampling system / l.l Scan Time I g:t a:oo 0.97 ppm scan Time I g;zs:oo 97.58 ppm Scan Time | 14:41:00 '1.80 ppm Scan Time I la:+O:oo 98.44 ppm Pass Pass Pass''11455 , System Calibration Bias 0.45 o/6 0.02 0.87 0A 0./i5 % Sample Line lntegrity Check Station: Bluebell Gas Plant Unit: C-252 NOx Analyzer: Thermo 42i SerialNumber: 12112011862 Date: ____-!?:!ye4!__ CO Analyzer: Teledyne T300MO2 Analyzer: Serial Number: Span: Seruomex 4900 20031 8 20.s Span: Serial Number: SPan:197 154 Station: 02 Analyzer: Serial Number: Span: Bluebell Gas Plant Sample Line Integrity Check Ljnit: C-253 12-Mar-25 Seruomex 4900 NOx Analyzer: Thermo 42r SerialNumber: 1024343934 CO Analyzer: Teledyne T3001\,4 200317 Serial Number: Span: 1 059 20.9 197 N>o No I N> No oc Scan Time 11.17 o- ;->oo E<c ga- (.rIUu9 complete calibration <w<tam /ltl Scan Time I s:00:00 -0 02 ppm Scan Time I s.11:00 93.66 ppm o o= ;<oc Scan Time I 9:00:00 .0,02 ppm Scan Time I g:1 1:00 93.66 ppm calrbratron gas througn :omplete sampling system / l.l Scan Time I s zs oo 0.33 ppm Scan Time I S:te.OO 92.O2 ppm Scan Time I l+:a6:oo 2.19 ppm Scan Time I 1a:41 :00 94,96 PPm Pass Pas6 Pass System Calibration Bias 0-18 0.82 %'1.11 0.65 i oo c calrbratron gas Inrougn complete calibration svstem (lt'I Scan Time I 9:00:00 -0.02 ppm Scan Time I 9:11:00 98.00 ppm :N;i _> 3ad Scan Time I 9:00:00 -0.02 ppm Scan Time | 9 11 :00 98.00 oDm oalrbratron gas througn complete sampling systen 1l-l Scan Time I s:t a:oo 0.63 ppm Scan Time I g:zs:oo 95.13 ppm Scan Time I 14.41 00 1.16 ppm Scan Time I tn:lo:oo 99.50 ppm Pasg Pass PasS Pass System Calibration Bias 0-33 '1.46 0.90 0.76 ,/, 155 Station: Bluebell Gas Plant Sample Line lntegrity Check 1 1-Mar-25 O2 Analyzer: Serial Number: Spa n: Servonrex 4900 NOx Analyzer: Serial Number: Span: Thermo 42i 1211i311862 463 CO Analyzer; Teledyne T300lV Serial Number: S3720031 8 Span: Low Response Upscale Response Low Response Upscale Response N.> c o c ualrbratron gas Inrougn complete calibration Scan Time I s:oS:oo -0.01 ppm Scan Time I 9:37:00 5.17 ppm N-> c o Scan Time | 9:05:00 -0.01 ppm Scan Time | 9:37 00 5.17 ppm Calibration gas through omplete sampling system /1.! Scan Time | 9:52:00 0.05 ppm Scan Time I s ss oO 5.18 ppm Scan Time I lS:o+:OO 0.06 ppm Scan Time I lS:oa:oo 5.11 ppm Pass tsas s System Calibration Bias 0.54 0/"0-09 0.6/t ./.0.54 o-za E<L Lailoralon gas rnrou9n complete calibration svstem (lt) Scan Time | 9:05:00 0.01 ppm Scan Time | 9:31:00 195.84 ppm 2a "gE;<o Scan Time t 0.01 g:05:00 ppm Scan Time I g:31:00 '195.84 ppm Calibratron gas through omplete sampling system Scan Time I s ss oo l.J3 ppm Scan Time I s:sz:oo 193.14 ppm Scan Time I ts:oe:oo 1.03 ppm Scan Time I 't s:ol:oo 185.14 ppm Pass Pass ' Hass Pas3 System Calibration Bias 0.29 0/"0.58 0.22 %2.30 > c o A uarDraUon gas rnrougn complete calibration <1,ctpm /ltl Scan Time I 0.'15 9:05:00 ppm Scan Time I g:31.00 196.00 ppm ob E}.:E3<c Scan Time I 9:05:00 0.15 ppm Scan Time I 9:31:00 196.00 ppm calrbratron gas lnrougn :omplete sampling system /l^ I Scan Time I S:Sz:oo o.52 ppm Scan Time I g:Ss:oo 195.85 ppm Scan Time I tS:oa:OO 117 ppm Scan Time I tS:Oo:OO 1 91.98 ppm Pass Pass System Calibration Bias 0.08 0.03 v"0.22 0.89 "/, 156 AnarvzeR Dnrrr Fonrus 157 oOX a)BSdtr - q ila)aq)Lq){s q)UULqJaqJov\ -a GIl!IIq)Ls!sl4-a c\:: .. 't = N- > i? e Lo O <a a G]Jc0cocar' )FUc)zLz ooNI r' ) 6aa) o\tx(JEoL()aC.lILI()A.do0) -o()o ! l- t r (] oNE<UNU a C {l LoN LI- l4)aLc) o OU ^L<; 5 LoN_ . c! t r 1d ti ,L(.)N>i 4) <. .! . / Oo \ >, = \. J > \oNC\ coO(\ €OcaOO \oNNcoON oZ(.)U \o(\No\@Oc\ cocaC) (- ) co(- )O O(- )o- odoo. ) 15 8 X str - V) tlsAJLAJao\ s!st-AJo14^a CIIt!ilsa)l.a)aUa4-a ca.i - N- > i? . <6 6 r!Jc0coC.oFOo2.a NooNNI (- ) a) N$-0)Fc.lIL-lIIA6(' )() -o()@ o) E N. g>. : Jc c \( Jz: LN LLCJL4Jo. o Oo ^L<x LN_ . i;tr o 1a -oiI €-i@ LOJN=q<E - -q.: : ./ rE (J c . =4 J .:ooN Nt- -(\r-OO LoLoN ()oz4JU o!0)N No\F-(\t- -QU No\Nr-(JU Ioo-3 15 9 a(JF- h AJo)Lo)ao\X a.) tsat-a.Iaoo14€ BtsIdll -Io)sLaq)FoU) -a $$q) si z S 3o c <d 6 E]Jca@OoFUq)L2 EI cr l LI t lF - ol o tr lo . Jl3tEl \o() ci Fa) a!ILdz.Ia(!o.doo-o0)m :. C N. : -r 6Fr =<U Ad \J t r ()N LIL o Oo ^La-Q<E nNo\ 9No\ LN- . i;dE 1a -C ) \qc\o\ L()NCl E qo<c . .2 ?r ' c) AUE .!o!0)N c) !zqlU Nca(JO \oN(- )O o(do- f, 0)=oo-D 16 0 ooX a€at4 ilatrAJLAJbas a)sL$aAJoV) -o IBLr_ilq)oUoasoq-o (\o u, i d N- > i? c <A C l LIJJm@OoF(Jo2z a-ONc! \o IQ o. . a) o\x0)orC)aC.. lIL(oINcCOo-6(6=o.ooa t- l q) o NE<o 6! =LN Lt- tooLo_. (, ^L<^ LoN- . ba 1a -oLN>. 0 ) =qr. C<E .! rr ' Oo \ >. = !/ > \o(\No'€Oa\ oocaOO \oC{No\coc\ !zq)U NNo\coON ooO(. )U cocnOO oEoo-3 16 . 1 oX q)(Js- U) aoLq)LAJa\o sUUAJaooq €I l{llq)ULLsaUoc4a oa\(,) a> G N4 > .h E e <6 6 r!J@(,?- (_ )L vo\ .f ,aa.i-c.lN\o IU k' = a) c\soFa\LCcc\()(np.do(_ ) .o0) c0 Cq G) = N. 9 >: za 6z: LN L6.)L,3 ^L<x Lo*, ,= ' q -( ) c-ELq)N>) ( r 6F<E .! ^/ cJ OQE .2op6)N .:o!()N LzLU <fr- .i -$a. lOL) $t- -$$a.. lU(- ) I(!oo.D Idoo.D 16 2 oBtr - l4 tlsaot-aas OOrix UUt*AJaooq^a I$lrilaqJt*oaa)o14 .a t- -o\o o7 C gN- > iE e <6 6 t!JmoooFOaL =lol i: l - 0l yf fl = -o l#lFl N\c ) IO a) (\ILdINotrqo.do0) -ooa N. : r- c g<5 AE vE f ) G(.)N LI. Ic)aL4) ar 3 OL q. O<x Lq)N_ . i;-oiI()N>, o =q<c . .= F / oJ aU? oL(- )N o.N\oc. lOL) 0)N LzU .=oN N\oNOO o\N\c )N(JU 16 3 oX stra4 ilsUq)Lq) \o a)sot-a!UoV1 .s ICJ lrila)Uq)Lq)aqJ<4a qN0) .. ' : = N- > i? e <( h C ) ooFO4) t: =o. . a 'i! >CE a * 6= z a-c\9IU 01sxoo!oaa.lL(d_l()o.do=OJ -o0)co 0) o N. : nn<UN9 A = tl oN Lt- l4)Lo -. q) ^La- O<A L()N- . i;4ac- i;q)Nd-<c . L . o Oo \ >, = \r > \oc\c. ] ooOa'l oocaOO \oNatcoN LozoU \oNNo\coN co(J() ooca(JO I(!oo.D OEoo-D ()Goqo-D 16 4 o(lCJU) ilAJ0JLAJao\X 0)Et-a)aso4-o IBrrlla.)al I.*0)aov\ -a c) N- > i'( g E <, ; ,6ooOcaOFU:o EFo. . < E. = i 6a Ha) z aao\$can-NOca\oO N$otr(JFalI6-t()CgA0) -oo6 G N. 9 >) : 4C !nuz: Lc)N LHooLq) o Oo ^L<; i c. lo LoN- . i;tr Q - (, ) hi aaca L4)N>. o =q<c .E c ( '=oq .!oLdiN Lc)zL<c)=(. ) NOl r-c. . lF- (JU .=oL()N a. lo\r-Nc-(JU .!oLqJN ooao- oEoao-D 16 5 X U€tr - (/ ) UsqJLols sot-q)aq)oL4 -ad BICJ lrIa)Uq)aq)o14 -a rf ,$4) N. - > =. s tr <a a oooF(- ) o. . 4 e- = L Cl -h a) z =l€t c. I F l o \ Pl 3 5l - ol -lUIFl I c\L(Ga3otdr')o.oom i=N. : r- ) 6 <3 A! V=r\ GN Lt- t() o OO^LZ. o : o 6F<c . -q.! ^/ LL0J o. .!oN LozoU .:o!0)N \oNOU \oNQU 16 6 OodX sdL(Jtr -hq)qJLo)Lls qJaLsaa)or4-a{ IGtLilq)!0lLUaooq-a o\ONq) o7 6N- > iG e :L c ! Lo q <a a t!JPcaFOc) EEo. . a €- = L a= z oacaa{c'. 1NIQ o\$x()rq)aNILC'l t- . tGqcd -o()m 0) o NEa- a , ( ) 6-<E =o .: A/ (r o\ >, = v> \o(\No\ coOOr\ l ooOO \oNNco5OoN oz()U \oNNo\@N cocaL)Q oo=caOUoEoqo= 16 7 ooX sBSLBC4 ila)UaLs6s o)sLoaso14 .a BtsICJ t(ltAJq.)saq)o14^a Ocn $z s i? c <d 6 t!J\oFO() tr =o -- 2 . !. = L 6a L (, = - an@OC\lNa. l (\tO N$oFtroFa.lLIc\ l(no-o=0.) -o0) N. 9 hx jG\( Jz: LoN Lo()L4)0r -. q) A .a ) <; 5 q)N- . i31A -4 ) hLoN>t o d={o . .: r( '=tEq) q $t- -$$NOO .ho!oN LzC)U .!oLoN (- -$$NUO sa-<-$NOQ 16 8 oOd otr -hsgqJt-qlas q)Uq)La)aso14 -s sIila)tsAJLsaoU1{ t- -o\ N- > i? c <, ; 6 r!J:FUc) E5o. . 4 !- = L 6a r a) z -tat !: tHFl r - ol o tr l o \ x'u lolEl NNI(J (\La]C) !a.Oo.o0)m c! N. : ,\ ci ,, \ AE vE qJN L6)tr o OO ^L) c, Eo<c . cJ C. U? N\oNO(- ) N\ocaN()O .!o!()N Lq)z()Q .=o!0)N NIcaNOU LorC)N dJ(€oao. a)oo- f 16 9 OOX sBdtr14 lla)(JoiLA.) !o\ e)Lal-aL. lq)oq-a I(J t\ltAJUtrsLsaAJoq N 5' 6 c =i x <a a E]J:caFO4) o. . a 6a Ha= z t- raaOO(\NU o\ \i -xOJaop0) (na'lIc. lo66o.O() .o0)c0 ! 6) o N!. (.) {a-q.: ^/ >, = \J > \oNNo\coOOc\ co(- )O \oNc\o\ coN L4)ZLC) r) \oNNo\coON oocaUO cooOO 17 0 oX str - l4 il0)uq)t-AJas o)saLaa)oraa dIrr -ilAJLqJLAJasora-a o NL > 5' < e <a a I!J:caFUc) E-o. . 4 ft l a q a= z $o\aa$$NOc. )(\I(- ) N.f ,o()EFNL(cIa. lo.CdOOJ -o0)00 0' ) t r N. 9 ,\ : 1G\L ) 2_z: ()N LOJ(. )Lq) qJ o ^L, aJ Eo<c . =o>a = st- -$-i -c.lOO rt r t- -$$(\OU .!o0)N $c-$$NOO ozU (.)oo.D 0)oo. 17 1 OoHI Ll o Sl{ \l s !- l c l5l : :I E {l $ULq) !6\ sIt\ilAJalLU!so14-o r-o\ 6; . C B N- a ,i ? e <6 6 ElJ\oFU O -- 2 . != L6; *a) > =l z, l OIOI cr lFl o r .l ! !t - -d lol -lolFl caNIO c. . l/-Ic'lq)Hono.6Jo0)0)m N. : -r ( !<5 A: 5 LoN o Oo ^L<= H L4)N- . i;4a i=LN>) ( ) c! c {cLL4J COE aN\oca(\(JU L4)zL()U .:0)N o\N\oN(JO 6N\o(\OO Ioo- oEoqo-3 17 2 sB\LGlr ) UsLOJao\Hx ssL0)asoq.o IilosLq)aaola.o No .. ' : 5sz j i? e <a a aCN()sf ,$(r-JC,) .\ z=:ozLz coa. lcaNIU c' I C', ) o\ ti .x0)ooaNILI()Edoc) .. o0.) c0 ooN. ; air C) dFL -o 4J o\ L@>, = \J > \oNNo\ooOa. l t- -o\@$N(JO \oNNo\@N L!zL()O \o(\No\coOoN t- -o\cocari -N(JO tr -o\coca$NUU doGf oEo6o- ) 17 3 oOX a)Str - <4 a)Uo)La)s s .s : ist\BQ q- aIEo!ET aLoas*oq-a cn\o<l()oU)aao.i - .i - (- - I(n-=0.) JId>()z2 N.i -oE()FNNLIt- tAoo-o{)ca(n No }Ez: L()N Lo,.q) -. ( ) ^L<E LqJN_ - i;1a -oii @. \oco L0)N>, c) <o . .! ^/ vc;@ () Q rooN No\ t- -NF-OO No\ t- -NF-OQ .!o!0)N o. lo\F-Nt- -U() Lz()U 0)CSoo"D 0)Goao-D str - ta ilo)aa)t-oHs OOx $sLQa)oVJaq Idt<lta)Uq)Lq)qJoq-a r+$ii o? Lv N- > i? c E' I c: <a a U)aos$tr -J(BOJ .vd::4)za. =lolpl - ol c n cl o \ blolPl coNIC.) o. . a) a'lIL(!-l0, )0- r- )o3OJq N. : -. ( E<5 AE \J t r f \ eo vo LC)N LaL o Oo ^Ld .o t <; I ooq o\ L4)N>, c.) :L<E .E c( () A (. ) ? .:o!0)N \oc!C)U .ho()N \oNQO Lo0,)N \oc' lO L(Jz()U oEoo-p 17 5 Exarupu Gnl-cuLAnoNs 176 Unit C-258, Run 1 Gas Analvsis - EPA F-factor r --l(C,ztnotxl*M,,,o1 x1*E,oix2+,Puro1x3+rB,,rotx4+N8,,roix4+./Arrolxs+NP[rorx5*l/111a1 x6.697155)x12.01115\.-^^ tiit Equation 1: Weighled Carbon Percentage of Natural Gas H-_=l(Mnotx4*Er,o1 x6+Piltotx8+/B,,rorx10+N8,rotx10+rP,,rotxlz+NPrtotx12.tHuro1x15.39431)x1.008\ \MW/ Equalion 2: Weighted Hydrogen Percntage of Natural Gas ^ - l(CoTnot x2)x15.9994\okr= (- Mry-)l xroo Equation 3: Weighted Oxygen Percentage ot Natural Gas N*" = 1(N''or x 2).x r+ oooz1 , ,oo\ Mrl/ ) Equation 4: Weighted Nitrogen Perentage of Natural Gas t06 x ((3.64 x r,.&)+ (1.53 x Cw&) + (0.14 x %N2w*)- (0.46 x Orw&)) IH HV\\p) Equation 5: Fuel Specific F-factor Nomenclature: Cu*: 74.5643 Total percentage of erbon in natural gas (%) Pm: 0.01903 Mole fraction of Propane (mol) Hu*i 23.4664 Total percentage of hydrogen in natural gas (%) lB-r: 0.00131 Mole fraction of l-Bulane (mol) Our: 1.1616 Total percentage of orygen in natural gas (0/6) NBmf 0.00184 Mole fraclion of N-Butane (mol) N;*.,, 0.8075 Tolal percentage of nitrogen n natural gas (%) lP.d: Cr 0!02: Mole lraclion ol l-Pentane (nrol) Fa: 8703 Fuel specific F-factor (dscf/mmBtu) Nnu: C.005 Mole fraction of Nilrcgen (mol) CO2*;. 0.007 l\.4ole fraction of Carbon Dioxide (mol) M^ri 0.889 Mole fraction of l,lethane (mol) Ea: 0.07681 Mole fraction of Ethane (mol) NPmd: 0.00021 Mole fraction of N-Pentane (mol) Hro: 0.04016 Moles fraction of Hexane (mol) MW: 13.072 [,4016 Weight of natural gas (g/mol) HHV: 1097.07a fiigl fis3ting value of natural gas (btu/dsc0 p: 0.018 Oensity of nalural gas (lb/scf) ar"= ( n**= ( (0.00521x1+0.88862x1+0.07681x2+0.01903x3+0.00131x4+0.00188x4+0.00022x5+0.0002'1x5+0.00016r6.697155)x12.01115 ) xroo ) xroo(0.88862x4+0.07681 x6+0.01903x8+0.00'131 x'10+0.00188x10+0.00022x'12+0.00021 x12+0.00016x'15.39431)x1.008 / 10-00656 x 2l x 15.9994 \ctua=( 18,z2 )xlco / 10.00521 x 2) x 14.0067 \NMa= (_-_-_-]8rZ- ) x100 1000000 x ((3.64 x23.4664) + (1.53 x74.5643) + (0.14 x) -(0.46 x)) I 1U9I.U|4 \\ o.o48 l 177 Unit C-258, Run 1 NOx Concentration Correction c,.user - [ ueq - "" l' fC- - C.) Equation 6 Bias Corectron Calculatron Nomenclature: C...: 5.76 Etfluent gas concentration (ppmvd) C^r: 6.51. Average gas concentration indicated by analfzer (ppmvd) r C": 7.!7 Average of inilial & final system calibration bias check responses for th€ zero gas (ppmv) I I.lt;,',l a" l90 Averageof initial &final systemGlibrationbiascheckresponsesforthespangas(ppmv) | '" I c-,, 2oo Actual concentralion ol the upscale calibration gas (ppmv)L".l C.., = (6.61 - 1.17) , ,,=101 ,=,' (190 - 1.17) T,taPs I TrrntnuolPual I tt l(tbltb - rnote)14r. 19)lI/'?\ \ser [ ('R)(rrr. H2o) 1 ) 17'J Unit C-258, Run 1 NOx at 15% Oxvgen Concentration Nox=Noxobsx 59 (20.9 - 0/60,) Equation 7: NOx Emission Correcled to 1 506 Oxygen Nomenclature: NOx: 2 Corected emission concentration (ppmvd) Noxobs: 5.77 Obserued emission concenlration (ppmvd) oAO2: 0 Obserued 02 concentration (%) Nox= 5.17 , ut (20.e - 0) 179 Unit C-258, Run 1 Mass Emissions Calculations E- = c, x r. x ---i93- , Q,, GCV- (20.9 - %Or) 10 o Equation 8: l\rass Emission Rate Nomenclature: E.: 0.08 Pollutant emission rate (lbihr) Cd: 0.0000007 Pollutant @ncentration (lb/sco: Cd = Cts. x conversion factor Fa: 8i\2.g7 Fuel specific F-factor for dry Cd measurement (dscf/106 Btu) %Oz'. 0 Orygen concentration in percenl (dry basis) Qr: 1 2466.67 Fuel rate from calibrated AGA sPecified meter (scJh) GCV: 1097.O7 Heating value of the fuel ai standard condltions (Btu/dscf) Cr.,: 5.76709:093 Etfluent gas concentration (ppmvd) 1.194E-07 NOx conversion faclor E. = o.ooooooT x 8702.37, ----J9!-x 12466.67 r-fg'gryz-(20.9-O) "----' 106 180 Unit C-258, Run 1 Mass Emissions Calculations 20.9 ^ GCV 453.6t-= L-YF,Y- YU.Y - - (20.9 - %Or) 10 u BHP Equation 9: Mass Emission Rate Nomenclature: HHv E.: 0 Pollutant emission rate (g/bhp-hr) Cd: 0.0000C07 Pollulant concentration (lb/sc0; Cd = Cg.. x conversion ractor Fa: A7O2 37 Fuel specific F-factor for dry Cd measurement (dscf/106 Blu) 'hOz. 0 Oxygen concentration in percenl (dry basis) Qr: 12466.67 Fuel rate from calibrated AGA specified meter (scfh) LHv GCV: 1097.07 Heating value of the luel at standard conditions (Btu/dscf) BHP 1G44.5 Brake horespower C$,: 5.767092093 Effluent gas concentration (ppmvd) 1.194E-07 NOx conversion faclor E. = o.ooo00o7 x 8702.3t , ---?3-rtzloo.oz , 1097:07 , -- j!!Ji- . (20.9 - 0) 1oo 1644.5 141 Unit C-163, Run 1 Gas Analvsis - Specific Gravitv, Densitv & Mole Weisht' ^^_ 0.99959 .. (Nn161 x56a *CO2n161x.tcco2 + MnlinxSGy *f,r,o1 xSGs*Plrol xSGp+ r8'rror xSCra+ ""---E;;E- ^ NE,,,o1 xS6a6 + /P,,ot x.t6,p *N4nor xS6rp lH1.e1 x561) Equation 1 0: Specitic Gravity of Natural Gas P= l/norxpy*CO2,,ro1xp6s2!Mrrolxpy*Errolxps*P,,t.1xpp+lBurolxfrs+NBt,r.1xpps*lPildxp1p1NP,uo1 xppl*H14xpv Equation 'l 1: Oensity of Nalural Gas .,,,,- NrrorxMWN+CO2trctXMwcoz+MntotxMWM+E,,rorxMWe*Pn14xMWp*18161 xMWlstNBnel '""' - x MWps + lPrtotx Mwtp + NPrtotx MWN1 + Ht,rclx MWH Equation 12: Mole Weight of Natural Gas ' Nomenclature: SG: 0.6253 Specilic gravity of natural gas p: 0.048 Oensity of natural gas (lb/sco MW: 18.07'16 Mole Weight of natural gas (g/mol) Na: 0.00521 Mole fraction of Nitrogen (mol) CO2md: 0.00656 Mole fraction ol Carbon Dioxide (mol) Mm: 0.8a852 Mole fraction of Melhane (mol) Emr: 0.070a1 Mole fraction of Ethane (mol) Par 0.01903 Mole fraction of Propane (mol) lBd: 0.00131 Mote fraclion of l-Butane (mol) NBnor: 0.00168 Mole lraction of N-Butane (mol) tP6: 0 00022 Mole fraction of l-Penlane (mol) NPmori 0.00021 Mole fraclion of N-Pentane (mol) Ha: 0.00016 Moles fraction of Hex36g+ (mol) SGr: 0.!67:3 Specific gravity of Nitrogen SG6q2: 1.51955 Specific gravity of Carbon Dioxide SG,, D:i:l-a: Specrfic gravity oi Methane SGE: 1.038?4 Specific gravity of Ethane SGe: 1.5:256 Specific gravity of Propane SGra: 2.o0a?4 Specific gravily of l-Bulane SGls: 2.00584 Specilic gravity of N-Butane SGrp: 2.49115 Specific gravity of l-Pentan€ SGlp: 2.49'1 15 Speclfic gravity of N-Penlane SGx: 1.3127 Specific gravity of Hoxane+ 0.99959 x(0.00521 x0.96723+ o.00656x i.SG = 0.S9746 0.00131x2.00684+0.00188x2.00684+0.00022x2.49115+0.00021x2.49115+0.00016x3.3127) 000521x0.074326+0.00656x0.11676862+0.88862x0.04256268+0.07681x0.07978117+0.01903x0.11699966+P=oootgtx0..r5421816+o.oo1ggxo.1s421Bl6+0.00022x0.19r4366s+0.00021x0.1914366s+0.00016x0.32145525 ...^,-0.00521x28.0134+0.00656x44.01+0.88862x16.04315+0.07681x300703+0.01903x44.0975+-"'-o00r31x581240+0.00188xs8.1246+0,00022x72.1s18+0.00021x72.1s18+o.ooo'16xs5.958 142 - 0.09959 Specific gravity corection faclor Comp: 0.S9746 Total comprassibility of natural gas pr: 0,074326 Density ot Nitrogen (lb/scf) pco2: 0.1 1676852 Density of Carbon Dioxide (lb/scf) pM: 0.04256268 Oensity ol Methana (lb/sc0 pE: 0.07078117 Density of Eihane (lb/sc0 pp: 0.'11699966 Density of Propane (lb/scf) prB: 0.15421816 Oensity of l-Butane (lb/scf) pa6: 0.1542'1316 Density of N-Buiane (lb/scf) prp: 0.191,13665 Densityof l-Pentane (lb/sc0 p^" 0.191I3565 Denaity of N-Pentane (lbiscf) pH: 0.32"1J5525 Densily of Hexane+ (lb/scf) MWN: :;.013d Mole weight of Nitrogen (gimol) . irwco2: {4.01 Mole weight ol Carbon Dioxide (g/mol) MWs: 16.04315 Mole weight of ivlethane (g/mol) MWe :il.;l'rjl Mole weighl of Ethane (g/mol) MWp: .l:1.0975 Mole weight of Propane (g/moi) MW|B: 58.124t1 Mole weight of l-Butane (g/mol) MWNB: 58.1246 Nrole weight of N-Butane (g/mol) l,lwrp; 7:. I513 l\,lole weight ol l-Pentane (gimol) i/W1p; r'2.1518 Mole weight of N-Pentane (g/mol) lr,lWx: 95.958 Mole welght of Hexa6s+ (g/mol) 51s55 + 0.88862 x0.55392 + 0.07681 x 1.03824 + 0.01903x 1.52255+ Bns GonnecrroN GalcutAnoNs 183 Bias Correction Calculations Station Mfr/NIodel Bluebell Gas Plant CAT G35O8B LE Unit Date c-161 11-Mar-25 Run 1 2 3 AVERAGE C2 Measured PPM (Cn,J 9.45 9.43 9.42 9.43 02 Average Low Gas Bias (Co)0.06 0.05 0.0s 0.05 02 Average Upscale Gas Bias (Cn,')10.65 10 77 '10.70 10.71 02 Calibration Gas Concentration (Cr")11 02 11.O2 11.02 11.02 3, Corrected PPM (Cgr")9.77 9.64 9.70 9.71 NOx Measured PPM (Cu)54.05 56.12 56.76 55.64 NOx Average Low Gas Bias (Co)1.26 1.47 337 2.03 NOx Average Upscale Gas Bias (C.)185.72 189.93 192.32 189.32 NOx Calibration Gas Concentration (Crr)200 200 200 200 NOx Corrected PPM (Csr.)57.24 58.00 56 52 57 25 CO M"asured PPM (Cor,.) CO Average Low Gas Bias (Co)1 .18 '1.08 0.98 1.08 O Average Upscale Gas Bias (Cr)192.31 192 43 188.62 191.12 CO Calibration Gas Concentration (C'"")197 197 197 197 CO Corrected PPM (Cs,.)4.39 4.41 4.29 436 144 Bias Correction Calculations Station Mfr/Model Bluebell Gas Plant CAT G35O8B LE Unit Date c-162 12-Mar-25 Run 1 2 3 AVERAGE 02 Measured PPM (Cu.,)9.65 9.65 9.63 9.64 02 Average Low Gas Bias (Co)0.05 0.06 0.05 0.05 32 Average Upscale Gas Bias (Cr)10.88 10.88 10.87 10.88 C2 Calibration Gas Concentration (Gn.,.)11.02 11 02 11.02 11 02 C, Gorrected PPM (Cgr.)9.77 9.77 9.76 9.76 NOx Measured PPM (Cu,J 66.50 67 32 67.44 67 09 NOl Average Low Gas Bias (Co)219 2.27 2.32 2.26 NO; Average Upscale Gas Bias (Cn,)95.30 96.'10 95.46 95 62 NOx Calibration Gas Concentration (Crr)942 94.2 94.2 94.2 NO1 Corrected PPM (Cg,")65 06 o3.J I 65.86 65.41 CO Measured PPM (Cu,,) CO Average Low Gas Bias Eat* : 32.98 1.87 32.99 187 CO Average Upscale Gas Bias (Cr)99.28 99 1I 99.25 99.24 CO Calibration Gas Concentration (Crr)97.8 97.8 97.8 978 O Corrected PPM (Cgrr)31.28 31.27 31.24 31.26 185 Bias Correction Calculations Station Mfr/NIodel Bluebell Gas Plant CAT G35O8J Unit Date c-163 11-Mar-25 Run I 2 3 AVERAGE C2 Measured PPM (Cr,J 855 8.51 8.51 8.52 C2 Average Low Gas Bias (Co)-0.09 -0.09 -0.09 -0.09 02 Average Upscale Gas Bias (Cr)10.72 10.59 10.68 10.66 O, Calibration Gas Concentration (C,n")11.02 11.02 11 02 11.02 02 Corrected PPM (Cs"")8.8'l 8.88 8.80 8.83 NOx Measured PPM (Cu,J 57.82 57.82 57 37 57.67 NOx Average Low Gas Bias (C")1.20 281 0.54 1.51 NO; Average Upscale Gas Bias (Cr)189.96 190.28 '190.56 190.27 NOx Calibration Gas Concentration (Crr)200 200 200 200 NOx Corrected PPM (Cs.")60.00 58.69 59.82 59.50 CO Measured PPM (Cu,,)5.48 5.72 5.61 5.60 CO Average Low Gas Bias (Co)0.37 0.68 0.71 0.58 30 Average Upscale Gas Bias (Cr)195.59 195 78 193.84 195.07 30 Calibration Gas Concentration (Crr)197 197 197 197 CO Corrected PPM (Cg..)5.'16 5.09 5.00 508 186 Bias Correction Calculations Station MfriModel Bluebell Gas Plant CAT 3516 LE Unit Date c-252 12-Mar-25 Run 1 2 3 AVERAGE 32 Measured PPM (Cr"J 9.37 9.41 9.44 941 32 Average Low Gas Bias (C.)0.04 0.06 0.06 0.05 C2 Average Upscale Gas Bias (Cn.')10.78 10.73 10.82 10.77 C2 Calibration Gas Concentration (Cr")11.02 11.02 11.02 11.02 02 Corrected PPM (Csr.)9.57 9.66 9.61 9.62 NOx Measured PPM (Cr"J 72 45 72.23 70.53 71 74 NOl Average Low Gas Bias (Co)0.70 1.73 1.49 1.31 NO1 Average Upscale Gas Bias (Cn.')93.03 91.45 91.36 91.94 NO; Calibration Gas Concentration (Cn.,")942 94.2 942 942 NOx Corrected PPM (Cs,")73.21 74.03 72.37 73 20 CO Measured PPM (Cor,)3.81 4.26 4.61 4.23 CO Average Low Gas Bias (Co)1.24 1.72 1.87 1.61 CO Average Upscale Gas Bias (Cr)98 03 97.90 97.89 97.94 O Calibration Gas Goncentration (C,n,)97.8 97.8 97.8 978 CO Corrected PPM (Cgr")2.60 258 2.84 2.66 187 Bias Correction Calculations Station MfrflVIodel Bluebell Gas Plant CAT 3516 LE Unit Date c-253 12-Mar-25 Run 1 2 3 AVERAGE 02 Measured PPM (Cn"J I 9.57 9.62 9.65 9.61 02 Average Low Gas Bias (Co)0.o2 0.02 0.03 0.02 02 Average Upscale Gas Bias (Cr)'10.90 10 77 10.89 10.85 02 Calibration Gas Concentration (Crr)11.02 11.02 11 02 11.02 C2 Corrected PPM (Cgr.)967 9.85 9.77 9.76 NOx Measured PPM (Cur,)60.60 61.85 63.89 62.11 NOx Average Low Gas Bias (Co)1.14 1.56 1.68 1.46 NOx Average Upscale Gas Bias (C,n)93.28 94 99 95.21 94.49 NOy Calibration Gas Concentration (Cn.r)94.2 94.2 94.2 94.2 \Ox Corrected PPM (Csr.)60.79 60.79 62.66 61.41 30 Measured PPM (Cn,,)17 19 17.13 17.18 17.17 CO Average Low Gas Bias (Co)1.'10 1.63 1.73 1.49 CO Average Upscale Gas Bias (Cn.')97.30 99.48 99 50 98.76 CO Calibration Gas Goncentration (C'n")97.8 97.8 97.8 97.8 co c"rr""t"o PPM tc l ro eo I rs.+e I 15 188 Bias Correction Calculations Station Mfr/Model Bluebell Gas Plant Waukesha L7044GSI S5 Unit Date c-258 11-Mar-25 Run 1 2 3 AVERAGE 02 Measured PPM (Cur,)0.00 0.01 o.o2 0.01 02 Average Low Gas Bias (Co)0.05 0.06 0.06 006 C2 Average Upscale Gas Bias (Cr)5.16 514 512 5.14 C2 Calibration Gas Concentration (C,,',)5.186 5.186 5.186 5.1 86 O, Gorrected PPM (Cgr=)000 0.00 0.00 0.00 NOx Measured PPM (CrrJ 6.61 6.38 6.02 6.34 NO; Average Low Gas Bias (Co)1.17 1.21 1.24 1.20 NOy Average Upscale Gas Bias (Cr)'190.00 1 85.1 5 184.31 186.48 NOx Calibration Gas Concentration (Crr)200 200 200 200 NOy Corrected PPM (Csr.)5.77 562 5.23 5.54 O Measured PPM (Cr",)9 '18 976 9.98 9.64 30 Average Low Gas Bias (Co)0.88 1.25 1.22 1.12 30 Average Upscale Gas Bias (Cr)194.93 193 85 192.84 '193.87 CO Calibration Gas Concentration (C..)197 197 197 197 CO Corrected PPM (Csr.)8.43 8.70 9.01 8.71 x 02 LOWER DETECTION LIMIT REACHED: 02 = O o/o f89 FTIRVOG Surulruanv 190 Oow> Eod3 tr (!r)Or .Eo& rf(c c oo . o ror)(oN c C| o.o- F- roaco .? 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'J ) EofEIJ J0) ,=0)o(!m0)(I o)xoU)o)6c oo)NE0)aa Cd) f=UI0)c0)aomaoIL cfY NCfN 1.clY oo) ,=oaFO E0)oJ)o)ocooGOJo Eoon2 o0)\lEq)o o)oO)c)ouEt-a o I nqlT rn+c!c!q I I I lr )Lr )q ()u?e qc? r) qc? olc? qn : I I I q 19 6 .9a(!?ooootEe(!oYo.at+ lJ -ooE'FoE(! rF 'oo (n l l .F , ll ol l ol l Fl l (E l l Ll l *, ll ol l ol l o- l l (, ) l l ol l o- l l El l (o l l (/ , l l o@O)oE.xq)N.>Gt cF ft L lz l lc l :l s l -t >t cl = l EI E I cl r L l !t I "l * l l# l (! t r o- o o tr E 6 o . l : oo u ) o(oNtr )N(E FTIR MDG/GTS SUMMARY MOC taroer Anarwe tmt C.H,O CF,H,O CO,c,H.CH"O Resid ua I (pPmw) -6.8180 -2.2389 ac40 o 2629 1 4110 3.3608 -2.2631 Minimum Delectibl€ REF,..5 0880 Oat€ 1 1-Matr25 Comoanv ---A[arjdL-L- staiion -Eiu€bel-lFefiiitE dFlan-l- L,nii C-161 FTIR Analyrer 00980 Minimum Detectible Concentration & Calibration Transfer Standard Minimum Detectible Concentration for NM NE VOC Constitutes NM NE VOC Equation Summed NM NE Voc 42.5U 41.14 R - Average response of lhe raw d6la RF - Resoonse oll[p|ed lhe FIO Resoonse Faclors cTs Cenitied Measured Ettot rre-t esr utrect ]UU OU t 01 .1,15 1.'t1% -1 !f"/" CTS utrec( 1It1 14 101 MDC I arqet analyte C,H,c,H,C.H.c,H. c,H," Residual (ppmvw) RUn I aV( 9.696C o.7 4 Run 3 avc .8709 s.5633 Minimum Delectiblo c.., 1 0.1 950 19.6090 L.J MDCT3 Constituant (ppmw)le (ml C,H,C,H,C.H-c.H-C.H.^ CH"O Run 1 {l t), HI s.1 1 o.21 Run 2 HT 9.51 0.2 5 31 Run 3 HI o27 37.16 o [.1KS FID Response Faclors t9 2.85 3 1 0.15 {98 tjnit C-162 FTIR Analyzer 00441 Minimum Detectible Concentration & Calibration Transfer Standard Minimum Detectible Concentration for NM NE VOC Constitutes NM NE VOC Equation SUMfrCd NM NE VOC R - Averaqe response of lhe raw dala RF - Response mullipled lhe FiD Response Faclors 199 MDC larqet Analvte (hl c"H,o CF,H.O C.H.CH"O Residual (ppmvw) Minimum Detectibl€ Concentration 10q 01 10 ll t REF,..1 10.4400 99 9570 11 0844 9.6/ cTs Cerlitied looml Measured loom I Error Pre-lest utrect 100 nn I 1n? !50 tuo (xl I t07 ll4 CTS urrecl Measured Error rre- r esr rysrenr 102.45rosl-tesl -0_12'1, MDC tat C'H,c.H. I c.Hr Residual (ppmvw) Hun I avc u1 35 Run J avc t5/31 I l5/14 Minim!m Detectible c,-t 1n q 1,., I 6/2 Constituant (ppmvw)larqet Analfle Iml C"H,:,H,C.H.c,H. c,H."CH, Run 1 x 4UU 63 6.69 HI ]UU Run 2 RI 098 Run 3 17.91xt 09s MKS FID Response Facior!1.9 2.1 2.85 1 0.15 MDC r arger anaryre (ml c,H,o CF H,O co,c.H,cH,o Residual (ppmw) o.1192 3.8374 10.3786 ?:t92 0 116 0 3136 2 0654 4 1362 1 0 2697 2.2611 Minimum Delectible 1 09.0't 10i 1 olm 10f 4 RFF .ss s570 I 1.0814 4.3 s7.1 490 L.-, t..9.6t2 MDC*] Oaie 11-Mer25comoanv ------7fia-mII- station Biuebell Facrlily Gas Planl Unil C-163 FTIR Analyzer 00441 Minimum Detectible Concentration & Calibration Transfer Standard Minimum Detectible Concentration for NM NE VOC Constitutes MDC c.H C,H,c.H"crH, I c.Hro Re!idual (ppmvw) 2 0615 9.51J / BUN J A\c.503u 3.8663 I o.93ro3alqa I oqan6REA."..:t 6400 Minlmum Detectible 9.U/5U 19.5490 10.8040 I 23.8150 HEF-.97.1490 9.6b0 NM NE VOC Equation Summed NM NE VOC 4U.t2 R - Average response ot lhe raw d6la RF - Response multrpled tha FID Response Facloas CTS Cenif red Measured loDm I Error l%\ FOSt- I eSt UlrecI 17'/" CTS Measu red Error rr€- I est Svstem ]U2 JUd I arqet Analvte (ml c,Hr C,H,C"H"C,H.c, H,"cH,o Run 1 RI Run 2 241 Run 3 6.96 MKS Flo Response Factors 1.9 2.1 2.85 I 0.15 200 MDC I aroel Anatvle tmt c,H,o CF,H,O co,c,Hr cH,o Residual (ppmw) Run 1 avc -5.9065 1 8158 27130 Run 3 avc 1 8150 2 7388 Minimum OetEctible 103 4390 1 1.0590 RFF 10 6aoo 5 U66U L,., I., Oate 12-Mar25company ------TlGmdjF station -Eiu;EAl Faii]l-/ia-i?Errl Unit C-252 FTIR Analyzer l\4AX lR 00980 Minimum Detectible Concentration & Calibration Transfer Standard Minimum Detectible Concentration for NM NE VOC Constitutes NM NE VOC Equation Summed NM NE VOC R - Average response of lhe raw dala RF - Response nrultplied lhe FIO Response Faclors 201 cTs c€nIred Measureo Errol Fr€-test ulrecl lUU ta cTs urect tMeasureot Errorr..-rlt..-tlt.zt MDC C.H,(c.H. I c.H.c.H,^ Resldual (ppmw) tu.0u55 Hun 3 a\1.4121 9.U/bU | 06019 | 2.8706 Minimum Detectibl€ 9,U /!U t90 t66' i0 .1 I 'AAA\ I '7)AA Constitu.nt (ppmw)I arqet Analyte (ml c.H,C,H,c.H.C.H.c,H." cH"o Run 1 X u 15)n o Run 2 U.U6 1.32 I 4.53 RF Run 3 -U.U I 12.11 Hh MKS FID Response Factors 1.9 2.1 2.85 t 0.15 O.te 12'Ma(25 comoanv ----TlEmdIIIe-- station ,fG5ElT:oiEEaI"lil Ljnir c-253 FTIR Anatyzer IiAX lR 00441 Minimum Detectible Concentration & Calibration Transfer Standard MDC I aro€l Anarwe ttr C.H,O CF,H,O co C"H. CH,O Resid ual (ppf,w) -1 2.26S6 Run 2 av! 12 1073 -2.6124 2 7975 REA,..2 Minidum Oetectible c.103.4390 REF_. t,9.OOU 9.612 Minimum Detectible Concentration for NM NE VOC Constitutes NM NE VOC Equation Summed NM Nt VOC Bl 1/ 62.42 R - Average responae ol lhe raw dala RF - Response nlultiplied lhe FID Response Faclors cTs genrlred Measured Errot 1UU UU 2.15Y! 1no nn CTS utrect Measureo Pre- I e3l 5yslefr -o_0s-/" JOSr- I eSt 5VSIen l(-0,25'h MDC rt Analyte (ml C,H,C,Hz c.H. C.H.c,H." Residual (ppmw) I .91 12 1.6504 1 g:tU/10. /5E6 3.0s01 Run 3 av(1.9152 :t 1.6090 3 {181 Minimum Detectible 97.7800 9.U/CU 1S 6090 10.8990 9.6/2 Constilu.nt (ppmw)I arger Ana c"H,C,H,c.H.c"Hr CH"O Run 1 HF 1 t\54.57 10. Run 2 H RF 4.24 51 02 10.( Run 3 H :t.i 0.44 8.22 1 0.53 l\,lKS FIO Response Faclors 1.9 2.1 2-85 3 0_15 202 M0c leroet Analvte tmt c.H,o CF, H,O co,c.H, cH,o Re.idua! .4112 -0.6046 0 4780 0.451 8 3.0788 -U.J55E I 8071 .0 5908 0.4544 o.1177 3.1211 -0 621 9 Minimum Detectible (1 ,I 5.1 tuu REF-. 1.72t6 I 0.6537 I 0.446S I 0.4340 I 2.9958 I 0.9305 Oate 1 1-MaL25 compa n y ------lfta oj-iTl-sration -EiGEafFadnitGEIFEnf unit C-25A FrlR Analyzer q4IlE !!999 Minimum Detectible Concentration & Calibration Transfer Standard Minimum Detectible Concentration for NM NE VOC Constitutes NM NE VOC Equation SUMMEO NM NE V9U {ppmvw) R - Averaqe response of the raw dala RF - Response m!ltiplied lhe FID Response Faclors CTS Cenif ied(ooml Measuted loom) Ertot Pre-lesl urrecl POSt- I est Utrecr cTs utrecl Measured Ertor 1 01.269 1{)1 14 -0 % MOC c"H,C,H,c,H.c,H." Residual (ppmvw) J U/66 1b.3/Cf, Hun z ave tsUN J A\14.3/11 -1.1742 -2.O17 5 0.6134 Minimum Oeleclible Concenlration 9.660 Lr, Consiituant (ppmw)C,H,C,H,c,H. c,H.c,H,^cH,o Run 1 H xl Run 2 R 138 Run 3 R t4 20 66 12S -5 50 6 -0.0 MKS FID Response Faciors 1.9 7.1 2.85 3 I 0.15 203 FTIR - ValronrloN Trsr SurvlrvlnRY AND QA/QG A8 204 G-{ 61 205 Date Company Station 11-Mar-25 Unit c-161 Altamont LLC Bluebell Facilitv Gas Plant FTIR Analyzer ValiOation Summary FTIR lnstrument Make Model Serial MAX IR OO98OMAXiR lnstrument Ghecks Readinq Soecification Pass or Fail Sional lntensitv 0.0936 > 0.04 Absorbance PASS Detector Linearitv 0.095 < 0.1 o/o PASS lnstrument Resolution 1.037 1 04 +l- 0 04 cm-'PASS I nstrument Freouencv Precision 3133.064 3133.068 +/- 0.020 cm-1 PASS Oriqinal Laser Fequency 15799.390 Calculated Laser Fequencv 15799.410 lnstrument Laser Fequencv Shift -0.02 +O flQ nm-PASS Direct Calibrations Readino Soecification Pass or Fail Ethvlene (CrH4) - L; lS 1.14%t 5% Certified Value PASS Acetaldehvde (CrHaO)-2.44%! 10% Certified Value PASS Svstem Response Times Readinq Soecification Pass or Fail CTS > 95% of FullScale 0.58 < 5 minutes PASS Svstem CTS 0.120 t5% Direct CTS PASS Minimum Detectable Concentrations Calculated MDC #3 Units Ethvlene (CzHr)1.8232 opm Acetvlene (CrHr\8.9345 ppm Propvlene (C"Ho)2.7416 ppm Propane (C.Hr)2.7075 ppm Butane (CoH.,n)0.9800 ppm Formaldehvde (CH,O)s.1846 00m Soike Comoound % Spike Recovery Soecification Pass or Fa Acetaldehvde (CrHaO 91.36%70 - 130%PASS Run Validation: Automated vs. Manua Taroet Analvte Specification Pass or Fail Test Run #1 Averaqe Spectrum Ethvlene CrHo !20%PASS Test Run #1 Outlier SPectrum Ethylene CtHr)r20%PASS Test Run #2 Averaqe SPectrum Ethvlene C,H,)t20o/o PASS Test Run #2 Outlier Spectrum Ethylene CrHo)x20o/o PASS Test Run #3 Averaqe SPectrum Ethylene CrHo)!2Oo/o PASS Test Run #3 Outlier Spectrum Ethylene C"H,)t20o/o PASS Test Run #1 Averaqe Spectrum Formaldehvde (CHrt !20%PASS Test Run #'1 Outlier Spectrum Formaldehvde (CH,O)!2Oo/o PASS Test Run #2 Averaqe Spectrum Formaldehvde (CH,O)!20%PASS Test Run #2 Outlier Spectrum Formaldehvde (CH,O)t20%PASS Test Run #3 Averaqe SPectrum ormaldehvde (CH,O)120%PASS Test Run #3 Outlier Spectrum Formaldehvde (CH,O)!20%PASS 206 (l hlM Arquiitiond.O v1 - [tAx-lR Fi fil. Edit $.N Jook lclp D.y 1 rut u 00980tlin I 8GP 2025-03\l l\cl Om-'erO,otQ +, C.rLmp. 190'9'C o.tftlor].mpr N/A Prcrrur., 1.39912 ATl,l Sign6l Sl"nglh: 29.3 i stt*r- I [.] Paur:5p*rrum(oil*tion i Mu H.ight 0.093a 1 Hlqhix, 99,8 l, RMS Noi! RMS Noi'XMo'tz) (mAU) licl 0.415 1.-!# 22CO 9.0i9{ 0.258 ji+l 0.0i93 0.301 t,il rj.:r: (r.tc6 -'* I I 215.s35 lJ 1.68305r Il r-\ l, /, ,'-\/ \--l V 2025-03-ll Altamont Bluebell Gas Plant Units C-161 & C-258 FTIR 00980 4-1 Pre-Test SNR 207 Date 11-Mar-25 Unit c-161 Company Altamont LLC Station Bluebell Facility Gas Plant FTIR Analyzer 00980 Appendix A8: QA/QC Procedures A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent 204 Pre-Test Post-Test Analysis Region 3'13'1 to 3135 3131 to 3135 cm-' Sample Spectra Line Position (Freq)3133.064 3133.062 cm-' Reference Spectra Line Position (Freq)3133.068 313s.068 -1cm' Sample Spectral Resolution (FWHM)1.037 1.050 -1cm Pre-test Spectral Resolution (FWH M)1.057 1.057 CM Line Position Shift -0.39%-0.57% Resolution Shift -1.89%-0.66% Hzo Ethylene cH20 Run 1 OJ (E Manual (ppm)10.320 1.s69 2.346 Auto (ppm)1 0.1 53 1.338 2.316 Error (%)1.64%2.30Yo 1.29o/o .0) fo Manual (oom)10.338 1.566 2.891 Auto (ppm)10.541 1.5'19 2.624 Error (ok\-1.93%3.08%10.16% Run 2 o)o)o o.) Manual (oom)s.660 1.290 2.119 Auto (ppm)9.1 01 1.360 2.213 Error (o/o\6.14%-5.18%-4.25o/o .q==o Manual (opm)10.335 1.705 2.733 Auto (ppm)'10.564 1.569 2.651 Error (o/o\-2.17%8.68%3.09% Run 3 c)o6 0) Manual (opm)10.554 1.560 2.533 Auto (oom)10.291 1.382 2.229 Error (%)2.56%12.89%13.66% .q f Manual (opm)9.004 1.230 2.005 Auto (oom)8.706 1.178 1.917 Error (o/o\3.42%4-41Yo 4.60% 2025-03-ll Altamont Bluebell Gas Plant Units Cr161 & C-258 FTIR 00980 4-1 Pre-Test Water Band Post-Test Water Band (. A&@!i.u!..s fkFhI.*h Orir,rriSmh6 I RtSBnMl l:l ). Ir-6b ,r,rt hwh ur hrE @re hhw:{ tZ'i,iEi1"l uum<.* lrdEe :trEH rhillxr* rirru !tx,"--.----t lWBtu ttElt '-',"-'lr IceheEn.r, I il+lF=**** l.t: IlEjd+Fu iiEu** ilItr:lut-u*l-l rl Gr T.mF le tO'C t).bdsTmp lVA iP.eG: o3zo7tATM $gndsts.ngth: 262 A ii l- s.utrrt:l ! ProrcSpctrunCollc<h. il I O MAx A<qui.irim 40 v1 - i,lAx-lt Rl filr fdit liw loo& lrlp Dry I m.riO(pSOhlnl BGPzozr{!\tl\fl i !$aT,' 1.",' ', I t!96dt-I F{ zrc roco smd. srurrumt:I H krurl Sanplr Spurumt: | [1] rrgrt rok Lertim I L:l ra* t"t t*un O o-.*."9..1.&.G Adul: 3,liA.H1! |. iTrrg* !.tl3P$Cti 209 Attamont Btuebetl Gas Ptant Unit C-161 FTIR SN #00980 Run 1 Average E] c2 - MAx-Anarlri(s 4.1 il rite r.lit ilfl.rfl TLrols H.rp M.nurl V.lir.iion VId . SF,drum '--.-" --' Run 10001095.1A9 sGn lime: 3/112025 16;51:02.0ruTC -05100) CommanB: i0jo'eqi9.Oee4'+i a B".r I . ArOragare M.ri6 fron 24.21 :--. .: . -' 9.. 1,, -$ / ;.--...-...-......-..-.--.-............. G.t ld rBi I : .iq ;;;ilDrn iND]Nol flD iNol NDi Nt)NDi N0i NDI Nol i A..rlldrhydr [191q rr5.0 I 4.eb/len! ll9lCl F4-85'2: Acralein Il91O ll07-C2.31 Ammoo,a [191ClP6a-.1] Bul.n. llS,xl i106-97-81 : Carbon oiorid. 0qrCl []2 I Carbon ,lonoxrd! l0-{000 airtun Mcnoride [1O:O-1 : Ca(bon T.kaf,uoride I?91( Q!.nt Qurnt -1.702 pprn 3.-oio ppm r{0 NO -1.92 ppm 5.525 % Nt) r{9 -0.1J4 ppm NDith.n. t191Cl rI4-8{'01 Fomrrld.hj'de {191C) l;0n 1.346 EFm IJD l,l{0.i61 lltm N0 N0 N0 Ni it0 I i.tO; CFnr 0 253 ppn, FID ID,UO A N0 u0 ilo NO ND fln ilc lrD NC uD ND IID Hldroqin ChlcriJ. l1;lCl V€tlri':e tl'"lCl [74.!] 3l \4ethrrol llt1l:l i67-55- Il N(n< Cvde ll9 r cj 110102 !i:.o9.n Dicride [0 4r]0 F 1;,iro9.n i r:rrr (l:',:r-;'li Nrif,olr5 orrde ll91cl 1100; 9rorin. l1 -o1(l 7l'93-ril 2rcq,.ler ll9iCi i1'5-07' Sulrur Haralluud. [l9]Cl Wnrrr llrlO J7732-18-51 €thvlere ll9lCI I74-B5.il r i oor-oil 1.3591 9pm 210 Attamont Bl.uebetl, Gas Ptant Unit C-161 FTIR SN #00980 Run 1 Outtier 8,,: r,;t: i.,.,,t, 't Frle Ed[ Vie$/ fool3 ,1.1p Mrnu.l V.lldillon Vl.w . So6rum -- .ii.s.,o-eq;9,oEerrfl$I eact i Run 1(801048.LA8 s(an]]m.: 3/11/2025 t6:14:51.4 (trTC -05rc0) CommanG: Aggregatc liorio Enof, 1 2. 17 Rt, . 0.990G rElr ori t", a, i".--,'-*.."-----,-iauro M.nurl Pr.(!ni l Qu.nl Qu.nt Dlff ] -1.565 ppm l{D i 4.362 ppm I'lO iNDNoINDuoI -1.45 oom tlo I 6rr ld Acetalo.hyde I191Cl 175-0 Aietrlcn. l19tC] 17{-36-li A.roleir i191Cl I107-02-al Amn,o.,i. i191Cj P66{-11 8ul.n. ll39(l 006-97-31 Crrbon Oiorid. 091C) I12 (arboo I'loilo{de [0'.1000 Cirbon l'lonord. 11000-l (arbon iernlluoride i19l( Erhan. Il9lCl ?{-44-01 5.744 % N0 NO ND NO NO '0.1J8 ppm t'JD W Form.t,lehyde lrglcll5!ra z.e-q pln llo I Hydroge,r ahlorid€ l;9lCl Methrn€ ll9l<l lr4.3l-81 [letnrnol [1{'iC lb7.5n ll Niri. oride lr9lcl lt0l02 lliirogrn li,rriae lf'-lL:0 p, i.,lr09.n Crn\ral: l:!rr. llrl l}ir6ut Ord, il9141 i100i Frcpife ll91:l i7-.9ii ol Propyl.n. Il9l(-l 1115-(]?- Sulfur H.(afloorrde il9lC) vJar.r ll9lCl [77]2-10-51 NO IID 1 ?78 553 ppm h0 itD rlo fro No\jD r:o ;j0 l:lr i{D llD ':i.ral pprn t;0 0.29t ppm tJo !D NC' 10!te % No i o.c.,c 1.555 ppn Erhll.n. i1913 P{-45-i; 211 e qi9 Attamont BLuebetl. Gas Ptant Unit C-161 FTIR SN #00980 Run 2 Average @.;' r:,.,.r,,',. , "", iile Edit vrev rcctt @[ Mrnu.l V!lldrtlon VI!w -Sge(lrum -'i Run 2oool l49.Lls | s<on nmc: 3/I112025 lB:17140.6 (UTC -0510,01 Cmdenta: r Aggr?9,rc M!tr(s I ,,.' 11.96 R" 09906 itsli i i l -;:; -- " ;;;- G.6 ld A(elsldehycle i19lCl [75-0 A..tyl?n€ l19tq l!4.e6-2j A.rcrcin I191Cl n0?.02-31 Anrmcri. il9lq F€6J-41 8ut.n. Ile9q (106-97-Bl Carbcn Dioxide [19](] ll2. Carbcn Monoridc l0-4000 C.rbon Mcnorrdr [10C0-1 Carbon T?lrafluonde ( 191( Eth.nr ll91CI i7{.S4.01 Quant ND IIO l.l0 l.JD -1.5€ ppnr ,.lD 5.387 ?i llC NO ND NO ND -0.180 ppn f,0 NO iID Fofln!ld.hvde [9lCI l5C{ Hydr.rrn Clrlaid. [ 9]Cl l'lehrie li9lQ Fr'82'81 l"lithrnol []9i ai [r]7-56-11 Nnri( olrd. il9lcl lr0lr12 fii:,o!en oiariaa lal.l00 p tirrro{rn a,idYiJr For--iil N,kour Oride Il!lCl i1'J0.: tron.r:e I I1 l!-l [71'!6.6] ftoprl.n. ll9i(l 11 l5-07- Sulfu' H.ur'lu./iC. (l!1Cl waier I191C 1773:.18-51 a 1 13 ppn I'lD ND I'D t.il! 19, ppnr tiD ilD flo NO t{D Nn l.t :iD l.f' r10 lrD :: [2] ppm N0 -0.:95 ppm l.lo i{0 l.rD 9.65J li, l{o 1.29) ppm 212 Attamont Bl,uebe[[ Gas Ptant Unit C-161 FTIR SN #00980 Run 2 Outtier E Fire Ed,! vi€r: tootr iileip l M.nu.lVrllddoh VI*iglm-eq9O&o.-,ttiJ$ -Spedrum Run 2C00ll2I.LAB son lime 3/11/2025 17:51:{4.1 (UTC -05100) Ccmmantr: Ag9reg.t. M.uics Enori 13.17 Rr: 0.9!A9 o:- * "-9:' G..ld Q!ant Manual Pcr(cnlQu.nt DIrt -1.8O+r'pm ND {.{10 ppm ND NO ND ND I]O 'l 50 ppnr UD 5.t'14't. NO tio ND ND lto '0.210 pFm liD I Aratald.hyde [191C] P5-C ' A.:tul.n. [191,:l l].{.36.11 A..olnin l19l(j {107-02.81 Arnmonia l19lCl O66J-41 gurrnc {le9cl 1106.97.81 : (-rbon Oiovide (ll:Cl [12 C.rbon fi{troiiidc 13.4000 Cerboil MDnoride llOO0 1 (ubon LU.tl!onde [19 1( Eth.n. l191Cl 17{.84"01 uoNDIrE!ilELi 2 7i? ppm llD I Emr,irffit?2r.I|ilr-i F6rmrldrhyd: [191C1 150-r Hvlrlgen aliloride ll9:Cl Mefi in. i19iCl lll.3J.e: ll:!hi0.l I 191C1 I.i7-5,i-11 Nilr'< Oxrdi ll9lCl i101Lr: lliilct.n l,cxi.l? ll-l0n c irraJ.r, ;ioifh llJLr-:..i lJinrur Ord. [9:C] ll00; Pr.t).ne ll'llLi i74 94.61 P.(iprlene 1191(l l' 15-07- Sulhr.{erafluc,ide ilt1,:l war.r I r9 r(-l i7n2. rs-51 rio No l,ir.(,0t6 ppi, llo ilo ilt) lro ),[, ND ND Ntl tic, f,o fiD 1: 7?7 pprn lic 11.27; ppm liD IJD NtI 10.315 9i ND 4i.C!0 I 7C5 ppm t:h./lele l19l(i ;J.8:.11 --- 213 Attamont BLuebel,t Gas PLant Unit C-161 FTIR SN #00980 Run 3 Average ft,,: .,.'..,,.,.r,, File Edit Ss Tocle H.lP M.nu.l Vrlld.tlon VIry Sp.drum , Run J000l256.lAB . SGn tlme, 3/11/2025 19r32r{0.( (WC -05$0) i co^ments: 9q rEt: . Aggragrra M.tncs Etror 10.01 n': 0.9927 Qu.nt Qq.nt -1.462 Fpm 4.{42 FDm ND ND '2.31 ppm ;909 * NO tl, -0.152 p[,m NO 3, oifl , NO t.lo 'l r{D il0 f.tD I flD : Noi frD Ii{o : riD Iil i FormilJEhyd. I19:al Ii(){ I H.;..lrcgrn aht!.rid. It9tClI Llertrn. i:9lal 17{-:?-3t I r.tPlhrn4l llrl(J:l:l.:6 rl i uiric c"ar ltltq lttrtt2' I jilil+o t'o!i l3 la.ltl D . lirrc(if a,o,.!.1: llii_.tti N'rroosO"ic. lr91ii l1t0: | lrrnane tl!,1C1 i7,l.rE 6) I ?t..rvr:n. l1)1Cl I1l; 0;- I suthil Her.lruo'i,J. l !:al 2.513 rrpm N0 ilo NO 1,:!S l:; ppm Ni ilD N' r.l o iJf ltD NC ilC lrtl Ntl ll 69, pfiri l.lD 0.1!9 prm i.lD !rirlen? ll9'Cl flr 85- ll i wir?, llol4l 17712-13-51 10.55{ i; \i0 t....... 0.000 I {r 000 ............1:.1!s.i eph gCIt(j'q4is, 214 Attamont Btuebetl Gas Ptant Unit C-161 FTIR SN #00980 Run 3 Outtier E.l ' ',.,;,,i,.r' l rire [iair i vicvr T!El5 Help M.nu.l V.lldilion Md io:n-ee , spetrum Eil I Iq ; RUD 300012-10.LAB Sc.n nmr: 3/11/2025 19:09:4!.9 {UTC {sici, Comnanti Aggrag!t! Mari6 ' Enor, I 1.12 RIi 0.9901 o* :,,_ LO i.Z YE : , Auto M.null Pcrcatrt I G'r ld Qurnt Qu.nt Dlr I Ac.bld.hyd€ llglcl P5-C '1.515 pph ND A(eryl.oe [19iC] F1.36.2i 1.550 ppm l{D A(rolein ll9l(l 007'02-81 l.iD ND Amm(lni. ll9lq f7561.11 N0 ND Bor.n. ll89cj 005-97-al -2 0l ppm ND (.rbon Diorid. []3lq i12 6 lLr] ). ND C.rbon Monoridc lG4!.C0 N0 ND C.rb.n Monor:ide ilmo.l ND ND Carbon Tetrrlluoride [l91( .0.185 ppm ND Ethan. l191Cl 174'64 foirar(.hyii. (MCI l5C-l Hydrogen Chloilde Il9lC) Li.inrn. {191C1 lr-,1.32.4.; (iei.0cl l1!lCt li:-36 il nliil,. Orid. ll9lCi t10102 l'lrr.grr io{.1: lf'.l0rl o l riil:,j.rt iiciiJe (.lirr.liI Nilrcur Oridr 09:Ll []C.i: P,ntr.ne [131Cl [7{-ie-a] P'ctryren. l19lCl !1r5.01' Sullu Herafluorrj. 1191f I W.r.r I191al I7712-18-51 2C05 ppm i,3t.i 5a! E.T ND i\iO i!t, ND il.:22 !'9'x 0-21-i ppm ND '! 00J ?r ND r.tcr r{D ii0 Nr' fi[' |rt' rio t.iD ND lit' tiD ^irhylene il91q F.l-65'il 0.0c0 19 000 LJlrl ppm 215 C-162 216 Date Company Station 12-Mar-25 Unit c-162 Altamont LLC Bluebell Facility Gas Plant FTIR Analyzer 00441 Validation Summary Table FTIR lnstrument Make Model Serial MAX iR 00441 lnstrument Checks Readino Specification Pass or Fail Sional lntensitv 0.0849 > 0.04 Absorbance PASS Detector Linearitv 0.0226 < 0.1 o/o PASS lnstrument Resolution 1.005 1 04 +l- 0 04 cm PASS I nstrument Frequencv Precision 3133.083 3133.068 +10.020 cm-1 PASS Oriqinal Laser Fequencv 15799.252 Calculated Laser Fequency 1 5799.1 78 lnstrument Laser Feouencv Shift +fl flA nm-' Direct Calibrations Readino Soecification Pass or Fail ttnvlene (U"H;) - U l5 2.45%t 5% Certified Value PASS Acetaldehvde (C"H,O)-2.39%x 10% Certified Value PASS Svstem Resoonse Times Readinq Soecification Pass or Fail CTS > 95% of FullScale 0.75 < 5 minutes PASS Svstem CTS -0.09%t5% Direct CTS PASS Minimum Detectable Concentrations Calculated MDC #3 Units Ethvlene (LlrHa)2.0653 ppm Acetvlene (CrHr)12.8999 ppm Propylene (C.Ho)3.6315 oom Prooane (C"H,)3.6091 oom Butane (CrH,rn)1.2042 oom Formaldehvde (CH,O)2.0888 oom Spike Compount % Spike Recoveru Soecification Pass or Fail Acetaldehvde (C,HrO)124.09o 70 - 130%PASS Run Validation: Automated vs. Manual Tarqet Analvte Soecification Pass or Fail Test Run #1 Averaqe Soectrum Ethylene (CzHa)t20%PASS Test Run #1 Outlier Spectrum Ethvlene (CrHa)!20%PASS Test Run #2 Averaqe Spectrum Ethvlene (C,H,)t20o/o PASS Test Run #2 Outlier Spectrum Ethylene (CrHo)!20o/o PASS Test Run #3 Averaqe Spectrum Ethvlene (C"H,)l20o/o PASS Test Run #3 Outlier Soectrum Ethvlene (C,H,)!20%PASS Test Run #1 Averaqe Spectrum Formaldehvde (CH,O)1200k PASS Test Run #1 Outlier Spectrum Formaldehyde (CHzO)t20o/o PASS Test Run #2 Averaqe Spectrum Formaldehvde (CH,O)t20%PASS Test Run #2 Outlier Spectrum Formaldehvde (CH.O)t20%PASS Test Run #3 Averaoe Soectrum Formaldehyde (CHzO)!20o/o PASS Test Run #3 Outlier Spectrum Formaldehvde (CH,O)t20%PASS 217 2OZS-03-12 Altamont Bluebell Gas.Plant Units G-162 & Unit C-253 FTIR 00441 4-2 Pre-Test SNR (] MAxA.quirilion.l.0vl ' ltlax-lP El Eil. Edii y'ielY Jcok Xrlg D.y 2 m.r i, ool4l rrin 2 66P 2025'03\12\e4 l- C.rT.mp: 131.1'C oct{lorT.mP lllA Prlrrur.: O 921-:9 ATtt srgn.l Strcnglh: 245 l7 It..i..,:.jg:rl Ll P.ut. sP(rrum coll.(tion | 5:.fr;.in..rit,':itlrryI r-- : l.Ms floi! RMS Noi :i * ,," x Nu l,;t) cro" .-ilor: sNR i : , lcuc 1:01 0.1 ll o.:?: -la 9ti I : I zroo :in] C.eEr? !.i55 1!l:91'r I. I , ! "* ii1:r o.oglt t.rc6 , torrgs -i r[*"_ '" :.:' "":' '.:: :i 214 Date Company Station 12-Mar-25 Unit c-162 Altamont LLC Bluebell Facility Gas Plant FTIR Analyzer 00441 A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent Pre-Test Post-Test Analysis Region 3131 to 3135 3131 to 3'135 cm-' Sample Spectra Line Position (Freq)3133.083 3133.088 _4cm' Reference Spectra Line Position (Freq)3133.068 3133.068 _1CM, Sample Spectral Resolution (FWHM)1.005 1.023 -1cm Pretest Spectral Resolution (FWHM)1.046 '1.046 cm-' . Line Position Shift 1.49%1.96% Resolution Shift -3.92%-2.20% HrO Ethylene cH20 Run 1 o)o)(o OJ Manual (opm)9.569 4.125 6.456 Auto (oom)9.724 4 002 6.293 Error (%)-1.59%3.06%2.59% .0) fU Manual (ppm)12.562 3.888 8.123 Auto (oom)13.000 3.768 7.919 Error (%)-3.37%3.18%2.58% Run 2 c)oo c) Manual (oom)8.995 3.896 6.225 Auto (ppm)9.057 4.019 6.125 Error (%)-0.68%-3.06%1.63% .q fU Manual (oom)10.008 4.112 7.003 Auto (ppm)10.518 3.893 6.665 Error (%)-4.85!o 5.62%5.08% Run 3 0)o)o 0) Manual (oom)9.220 4.690 6.325 Auto (ppm)8.849 3.999 6.458 Error (%)4.19%17.28%-2.06% .0) lo Manual (ppm)13.005 3.850 7.560 Auto (oom)13.144 3.730 7.378 Error (%)-1.06%3.23%2.47% 219 2OZS-03-12 Altamont Bluebell Gas Plant Units C-'162 & Unit C-253 FTIR 00441 4-2 Pre-Test Water Band () LIA,Y Acquirition,l.0vl - |/lA-i'lF' Rl !ii. ldir !'.r, I.ols i.lt Oly 2 m.r ;r 0/XJ1 b.i n 2 BGP 2025-01\llF5 ilt{lo a - e jQ .o tg $ !l: l,1l!.1.41: G.: r?mp: 191.0 'C o.t.(br T.mP: N/A Pr.r3!E: 0.85581 AIt Srgall sts.ngth: 22.0 f',liiiiEl'l [:] pru'! sp(trum corrd'on tri i u 1l"r'*r.*EI lga.r Lt{ri(' i i T6.k P..kAi: l13l C6giir-r,*"*", i,ioir i R.t..i I i,il;i!.tiH.ighr Nidth Hislory 1,005i iWEM:i - l..-s.q,_+.q!,Sllt..'; ! Odo$l tas.r F..qj 11799.252 | ; Co-ruea ut, r,<: 15.799178 1.9..d E zeo Filled ssnpl. g?.clrun ff Acurr srn,p c 9ptorum [I Targ?r Fe.! Lorsrior I Aaurl Ftrl rctrton nl.i:; Post-Test Water Band (' !ernu,it^:aJ Nrr-nr. :r Ii, J+ lA t.! 6/i.n rgI n$: u':o:}o]l|tt:\ oD- e 9,otr "r-9d6..rdi (r a)\ i nh-rr. l a].'.!-db-.,k.d r*j ; !.6v.& blLEr!: rrs, P roarrwtr"u,- : !.--r-"e*'-- r El'r""-""i [.:.1.1] ro u .*.*^ i I ) - Yr.tcr B.d P!![ Hido./ 220 ! Attamont BtuebetL Gas Plant Unit C-162 FTIR SN #00441 Run 1 Average ;qira-ER9oEo.rr"{h q. 1;- -,!'/q 6., ld A(cr.ldehyc. Il9rcl 175-c A(etyl€ne ll9'Cl 04-96-21 Acrol.rn ll9lCl ll0i.0l.8l Anmooia lt91q f/6il'41 8ut.n. 118-oCI IlOb-97-81 C.rbon Dioid. ll9:Cl i12 Carbon Mono):ide l0'4lro0 Carbon l{onolide 110i0-1 C.rbon Ter,Ruoride il91( Ouant Mdnral Pcr(.ntQu.nt Dltt -1.801 ppnr N0 3.450 p'pm ND NO NO ND NO 0.72 ppm ND 5.902% r{D i{0 No I{D ND -0 ICO ppm ND tihrn. l1 Forn ardehyde il91q [50-l Hydroiio (hloride il91(l t"leih.ile il3:al P{.82-gJl/.frn!l ll9lal 157.56-il Nilri( Oxid. ll9lC'l 00102 lJr) : !,.r liDri iE [11.]rlD ., lirx:!ei iirirdr llil-)ca flir.ui CYid. ll9 j (l I lC!r; Prctlr Il9lCI [:1-93.61 Prcpll.ne ll91al i1 15-CI' 5ulfur He*fluoillle l19lCl w.ter [19lCl t773:-18-51 6.{5r" pom N0 iio No : i62.J51 ppnr liD irt\ t;D ND IlOr:[) l.]fl i!0 :iD iID ND i;.gil fpnr llt) 0 17; ppm |iC, NO NO 9.569 ''i liD 4 lJS ppnr t r! gthyl.ne ll9lCl l7l-e5-11 221 g'E'9q.9,Ot9o.rh.$$ Attamont BLuebetl, Gas Pl.ant Unit C-162 FTIR SN #00441 Run 1 Outlier E "r l,l ','.'. rr:r'] 'r : ' Fil. tCil VieY, Tools H.iP M.nol V.lld.llon Vl.w , spfrum --" Run 100009e8,IAB , S(.n Tim.: l/12n025 1621i57.0 (UTC -05:00) , tot-:*' , Agor.qrl. Melri6 ':__ iF,1rp Ercr 20.5'l Y -1,"o 7 0.95 28 q I 6.r ld : A(eratdehyd. 119rcl lis-o : Acerylen. l19lCl 17{.e6.21 i A(ro)ein llglCl llO?-02 Sl i Ammoni. 1191O fr64-{1 i Butan. I189CI l106-9?'81 I Carbon D orid. 119iCl Il2 i C.rbon Llooatide i0-.{000 i Carbon l"lcnolide 11000-1 i C.rbcn rerafluo.ide n91(i Ethrn. l191Cl t7J-8{-Ol Aulo Quanl Minutl Par(lntQu.nt olfl -2.100 ppm IJD r.6o6ppm No tJo No I0 N0 C.91 pfm N0 5.lll ?r ND ND tiD ND ijo .0.365 ppm ND NO NO t(rm.tc.hid. lt9tCl 150.r i HTdroqeil Chlo.ide il9lCl , lJerr.n. ii:)1Cl Fl.8l.3j ll€llrr..l ll9ltl {67-55'11 i Nitnc oide ll9lcl Ilo102 ' lJrl.l.. l!4t:d. ll ltc ! l!rr..,ran )i.r, dr Jlllr'll( i Ninous Ctide {191(l lli:; r Prcpln. ll9l(l li4 ?8-61 Prcpyl$e 119!Cl i: l5-Cl- 5!llur llerrfluotiCe 1191(l i Waier 119lO fnil.18-ll e.l2-i cpm N0 NN IID I 85:.:C1 pprt I.C N0 tio u0 N0rl0 h0 rlD l.C N0 ii[i I 7.5:li ppnr flt' i l1l opm f.0 ND IiO 12.562 % liD ithylln. llclal {7{-3S.rl i 0.c00 1.803 ppm 222 Altamont Btuebetl, Gas Ptant Unit C-162 FTIR SN #00441 Run 2 Average @, r:,' :...:'it i.1:':): Fir. E,lir l-V;-;l Taols H.lp M.nurl V.lldrtlonvld SFm^rfl -,- - -- Rm 20001070.1A8 sc.n Tim.: 3/1212025 1?:22:28.5 lUTc -05:(r) CommanBl , Aoqreak lilatnc! l.CI,D- eq:9.OEe-&AC Erron 21.55 -Bl I Iqi - ;.;;;"i IDrff INDINolNolNolNolr{o ]Nol NOINDINol 6il ld A(?rdld?hydr [191c] [75-0 A(.Vler,. Il91O Ii4-85-21 Acrole,n l191Cl I107.02-el Amroni, i19lCl O6fl,{1 But.n. I89q (106-9/--81 C.rb6n oiorid. Il9lCl lli (..ban uoooxio. I0-40)0 (arbon Monoxld! ll00C-1 C.rboo T.!6rluoricc []91( tlhine l19lCI 174-S4.01 --i;;i Ou.nt -1.059 ppm 3.?52 ppm NO NO 1.12 ppm 5.896 9; NO NO '0.216 ppm ND t(rrmrld.lryd. [191C] lso{ H\drL.llen Chlc(d. ll9lal l.!.tlr!r,. 1191.:l l7l-31-gl 1,1?Ursnol ll9lCl 167-i6- ll Nirr. Oide ll9lCl l1Cl:1i lJif,,rcer Oio,:iili'0-{00 f j lir:iillrt I ro,.r,a r0:r-:Di illro!i O(iJe l191aj il0u: Pr.rpitre l19lCl ll4.93-61 fropyr.o? llr:Ci l1 15-07- Sull!. Builluorid. l:9ial Wate' llrlCl l77l:-18.51 5.225 ppm ND fJo tio i.015 oli Dtrn tltl NtI NO ND NO NO ti0 i,lD LC li0 19.!i5 ptrn l{o 6.?i0 ppnr lio fJo fro 8.995 1 fii)i 39ri ppm Elhilen. ll91(l f/{-6S-ll 223 Altamont Bl,uebel,L Gas PLant Unit C-162 FTIR SN #00441Run 2 Outtier 0 rr - i.t:., i,: , -r,'.. .: . : fil. Edir Vi.w ioclr H.lp Mrnu.! hlld.tlon Vlfl ' Spdltum ' i Run2oooIl18.LAB 1 Scan Tima l/12,/2025 18:04{9,8 itlT( -05J0) I Commcntr I Aggrcaatc Maris j rro" 16.55 R', 0.9728 g _, i" a; _-_;; ..1 : L--t-::a:l rEl q : - ,. - . . .. - . . - , . , - .. -,.. -.... - - * .. . ... - .i lrto M.nu.l P.rccntI Gtr ld| -''" ournt Qu'nt Dltt I tetabehyoe ltgtcl Ps.0 -1 6c2 pprn N0 i A(.til.ncll9:qFa-86'21 {.:lOPFm l: i Acrol.in il91q l1O7-02-Sl llD N0 i An,mon,!l1e1.lf/5.1-41 i? 1:i 8ulrn. llegal i:0t97-81 0.05 rp'n N0 | (rrbon Jrq'd. llgl(l I12 l.6cl % "lo I C.rboo llcncri,ie I3-{OOn ND (D I (arbon iuonoii,i. ilooo'1 ND l']D i c.rbon Terr.nuond. ['9!( -0 253 ppm l]o i Ett.ane !t91cl 174.6r{l No N0|;iEE:ffid-Eilil i F(rm.rd€r7d. I,gic l;0.t 7 0€J pnrn \0 I HrJilr{ren Chlc.iCe tMcl ND ND I M*lhane ll9lal tll-8l.eJ , Nlrlhlnol il9lCl !,rl-:6-ll i niri< olr" 1tlrc1 ltotczI lirli,!en froil,l. la.lc) rr LSO1.l0l ooil r.lD i1t DID \16 ilD ND NI r.tD NrroEen oinird. [rci']r'!' )l[) NriroujOilde llglal i100; ilo Prcpine l191Cl aa.!3-51 I Proflrl... [19]CJ llli'0?- : Sultur P.rrrlLcrid. ll9lal I w.t.r Il9lcl Ii73l.lr.;l 17.0i0 ppn ll0 0.61i ppm N0 10.00a:i Nt)i cooo 4.1 lzt pon tliyl.re tl9:Cl I74-85-ll 224 Attamont Bl,uebel,t Gas Ptant Unit C-162 FTIR SN #00441 Run 3 Average lfl r. r:'.r..r:,.r r , Fil. tdir Viw jools Help M.nu.l V.lld.don VIH ig.a'eq9OEa.-^tl{q tiiA! Run 3Oo0I2O7.LAB 'JJj S.rn Trm!: 3/12?2Q25 l9Ol:54,9 IUTC -05iCO) Commantt: rgOr.gii. ua* [rrcn 2125 Rr: 0.91.16 4 t;. -g1 17 q GI ld Qurni Qu.nt -1.502 ppnl 1.126 ppm NO NO 1.4.{ pprn 5.9fi 7:a l,lD ND -0240 prrm NO Pcr(anl Ditt r{0 NO NC' fro NO r,io NO t{0 NO NO tuerlldehyd. [9]cl P5'c Acettl.n. ll9!Cl P4-85.21 A(rol.in ll9lCl IlDT'02-3) Anrmonia llllCl f76l-11 gutin. t1egcl t106-97-81 Cnrbcil orcxide ll9t(l Il2 C.rbotr lJonoxid€ l0-{C00 Carbon Mono!:ide 110i10.1 (.rDon T.tenuoride [19]( Ethrf,.IMCl174-6t-01 Fcrm.ldehyd. ll9!Cl 150.r Hrdrnoen Chloridr I I9lq t.1eih.ne iil:fl (7i-32-gl tirlhril!l ll9lal 157-56-11 r,lxir oridc lr,lcl I10101 l{'r:cen iioxide I0.{00 t, iirx:qen Crordr (.1!f -10! flirroui Oxid? ll91Cj ilC!: I'!cp.il€ llrlCl Ii4.93-51 Prcpylrn. l19lil l1 l5-07- 9ultu Hernuorid. Il9lCl vr'iler ll9lCI (7?il.l8-51 6.315 ppm N0 NID ND 1 ?5;.253 ppil N0 tio tlD ND NDnlo r(0 iio ,i0 mo ftD ?0.021 fipn llt) 1.652 ppm |lt' NO ND 9.220 ?: tiD 4599 opn Ethylene il9 lCl [7+-85- l) 225 Attamont BtuebeLt Gas Pl,ant Unit C-162 FTIR SN #00441Run 3 Outtier E', ;.;" i.',.,r,,,,'r.i /- File ECil Viea Toclt Helf, [a.nml V.lid.tlon Vlcw -Spactum ----- i Run 30001203.tA3 i Scan lime, 3/1212025 18:58:23,2 OTC -Osr(rol I co.r"nr* :$rtr' e q 9JaEla.Irli/ts',| 8..k l I Aggr.gel. Mruics Ercr 21.61 Rr: 0.95t I I q ":-..:: :y :: ". G.t ld a<.tatdehtd. [19]cl [75-0 A(.tylen. (191(l 174-8€.21 A(rol.in l1-olCl Ii07-02-gl Amm.ni. i191C) F€44-41 Buene I189Cl tla6-97-81 C.rbon Dioxid. ll9lC'l ll Z carbon lJomroe l04tr00 Carbon trlo^oxid. 110Cl-1 Cr6on T.r.lluoriCe (191( Qurnt M.nual Par(mtQurnt Dltl -2.220 ppm ND 5.014 ppm ND NO NO NO ND 0.45 ppm ND 5.1611: u0 ND NO fro N0 -0.316 ppF ND H)Cregen Cnlorid. I9lCl Llelhani llllCl {71'32-gt Lletli3n,rl (191(:l [6:.:6'1 I firn( Oxid. [19tCl [l0101 tj,ilo{.n CiDr d? ll) {Cn P: l.,in:,tan :'io; Je llai-l:{: f:irrous Orid" (l9l(; iliO: 7.560 pnm ND lr t) NO \:o :tD flo ja ll3 t)pnr 0.502 I'pm NO il.0ct 96 N' NO N!l N] NO il) Ni, N', N1 IJD ND ; Fropri= llrlCl {jl i-1-:l I Prlpyltre I191Cl irli-07- I Sullur H.,rlu.ri4e ['91(l I w&r [191O t/7]: 14 51 o.cm 5l.oo0 3 85'l epm 226 G{63 227 Date Company Station 11-Mar-25 Unit c-l63 Altamont LLC Bluebell Facilitv Gas Plant FTIR Analyzer 00441 Validation Summary Table FTIR lnstrument Make Model Serial MAX iR 00441 lnstrument Checks Readinq Soecification Pass or Fail Sional lntensitv 0.0829 > 0.04 Absorbance PASS Detector LinearitY 0.0182 <0.1%PASS lnstrument Resolution 1.014 1 04 +l- 0 04 cm-'PASS lnstrument FrequencV Precision 3133.074 3133 068 +A 0.020 cm-l PASS Orioinal Laser FequencV 15799.252 Calculated Laser FequencY 15799.221 lnstrument Laser FequencY Shift 0.03 +0 OR r:m PASS Direct Calibrations Readinq Snecification Pass or Fail Ethvlene(C,Hd)-CIS 2.28%t 5% Certified Value PASS AcetaldehVde (CzHaO)-2.35%t 10o/o Certified Value PASS Svstem Response Times Readinq Specification Pass or Fail CTS > 95o/o of Full Scale 0.68 < 5 minutes PASS Svstem CTS 0.03%t5% Direct CTS PASS Minimum Detectable Concentrations Calculated MDC #3 Units Ethvlene (CrHr)2.1245 ppm Acetvlene (CrHr)1 1.3579 ppm Proovlene (C.Ho)3.6994 ppm Propane (C.Hr)3.8803 p0m Butane (CrH,n)0.9536 ppm Formaldehvde (CH,o)4.1954 ppm Soike Compound % Spike Recovery Soecification Pass or Fail Acetaldehyde (C2H4O)114.16Yo 70 - 130%PASS Run Validation: Automated vs. Manual Taroet Analvte Specification Pass or Fail Test Run #1 Averaqe Spectrum Ethvlene (C"H,)t20%PASS Test Run #1 Outlier Spectrum thvlene (CrHa)!20%PASS Test Run #2 Averaqe Spectrum Ethylene (CrHr)!20%PASS Test Run #2 Outlier SPectrum Ethvlene (CrHo)!20%PASS Test Run #3 Averaqe Spectrum Ethvlene (C"H,!20%PASS Test Run #3 Outlier Spectrum Ethvlene (CrHr)t2oo/o PASS Test Run #'l Averaqe Spectrum Formaldehvde (CH,O)t20%PASS Test Run #1 Outlier Spectrum Formaldehvde (CH,O)!20%PASS Test Run #2 Averaqe Spectrum Formaldehvde (CHrO)r2O%PASS Test Run #2 Outlier Spectrum Formaldehvde (CHrO)t20%PASS Test Run #3 Averaqe Spectrum Formaldehvde (CH,O)t20%PASS Test Run #3 Outlier Spectrum Formaldehvde (CH,O)!20%PASS 228 2025-03-11 Altamont Bluebell Gas Plant Unit C-163 FTIR 00441 4-2 Pre-Test SNR e LlA,\ A.quiition 4,0 vl -MAl-ln Al !rl. Edil Yi.il lcolr H.ip Drv 1 rux r 0o!{1 rrin ) B6P 2o2J-ol\!lr.r2 6t3T.np; 191.0'C o.lsbrT.mp: N/A Pr.taE: 096087AIL{ Srgn.l SbcrBih: 21,,1 l--i;n,;;;.:- l [:l P.u,! spdrum corrdon i-r .e'7ii x Mu Rfis Noi: RMs No! 229 Date Company Station 11-Mar-25 Unit FTIR Analyzer c-163 Altamont LLC Bluebell Facility Gas Plant 00441 A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent 3131 to 31353131 to 3135 Sample Spectra Line Position (Freq)3133.074 3133.068Reference Spectra Line Position (Freq) Sample Spectral Resolution (FWHM) Pre-test Spectral Resolution (FWHM) Line Position Shift Hzo Ethylene cH20 Run 1 (:)o)o o Manual (opm)11.125 1.750 2.365 Auto (ppm)10.898 1.642 2.483 Error (%)2.08%6.59%4.74% .c) f Manual (opm)1s.023 1.660 2.963 Auto (ppm)14.713 1.475 2.819 Error (%)2.10%12.57%5.11% Run 2 o)o)(o o Manual (oom)10.030 1.420 2.555 Auto (oom)'10.303 1.506 2.440 Error (%)-2.650 -5.70%4.73o/" ,e fo Manual (oom)10.258 1.601 2.362 Auto (ppm)10.909 1.706 2.213 Error (%)-5.96%-6.16%6.74% Run 3 4)o)(o o Manual (oom)11.254 1_751 2.512 Auto (pom)10.913 1.599 2.683 Error (%)3.12%9.48%-6.36% e f Manual (opm)13.363 1.250 3.127 Auto (ppm)12.993 1.389 2.914 Error (%)2,85%-10.00%7-29% 230 2025-03-11 Altamont Bluebell Gas Plant Unit C-l63 FTIR 00441 4-2 Pre-Test Water Band P s^@.o.r.ur{rrhFhH l''-i -!e rui lEh Uk-.trsDFsru Ail-H'rt:lbrffk Post-Test Water Band L-n ff.tt LEb hr* lm&hl*N Ai l{i.*E 231 Attamont Btuebetl, Gas Ptant Unit C-163 FTIR SN #00441 Run 1 Average $ ,,,, .,':r I ii..i. . .1 i Yi FirE Edi: Vis Trilr H.lD M.nu.l \hlld.don vlo . Spe@n -'- Run lOOOO477.LAB Scen Time: 3/ll/2025 11:45:04.1 ruTC -05100) : Commtnt!: Uo- eq 9.oUlo,I e*, -l Aggrcr,t! Matncs fncr 3022 4--t L;-;; R'r c.Blst rtrl-t 1ql | 6uld i Acet.rd.hydc Il9lCl 175.ei aicrylro. (l91Cl f7l-85-2j i Aoolen [19lCl tl0?-02'Sl i Ammonl.1191Cl 1760-41 i Sutanr Il69Cl tlcS-97-81 I (.t6on Diorid. llglCl 112 I (arbon l'1onoxd. IO.40OO i Carbon Moncxid. 1i000-1 I Cabon T:tr.fluoride Il91( i E(hane ll9lCl 17,1.8{-01 Qurnt M.nu.l Pcr(.htQuril! Oiff 0.9!9 ppm N0 1.955 ppm ND ND NO No ND l.ooppm ND ri 211 1: l.l0 fro NO ilD N0 .0.205 ppm No ND NO Formi[1.h!c. [191q lstr'! Hrdrog.n ChlLrnde Ii9]al [i.iI]3.2 l:91C| I:{-3:-il f;iril^cl 119lC I57-56-ll NInc Ord. t]91C| ii0l!2 l.litr.g.n lieri.l? [0.]0r-1 o, r.rr.lin :,D. rli lli0-' a.: Nitrous 016. [!9]al [14]0; P.it.ne llllal P.l.98-51 Pr(rfyl.n? 1191C) l1l5-0?- Sulfur Sar.fluo/ide (l91Cl : l'lst!. t191Cl i7732"18-51 ll 165 ppm ND I]D NO !!,).2i6 pp.nt N0 llo tio ND NO rJo ljo ij[; f,t' r,]c ND C 915 rph NO 0.90j pp'n ND i\JD lio 1 1,125 t; t'iD Erhyl.^e {l9lCj l7{-3;'11 1.790 ppm 232 Altamont Btuebett Gas Ptant Unit C-163 FTIR SN #00441Run 1 Outtier File ECil Vielr Tcolr Help M.nuil Vdidrtion Vi.w '0-,tr1 ' 9 ,-SpKrum i Eun l00o049l.LAg I kanTime: l/11/202511:58:18-4(UiC{5.m) II commenB r Aqqreeat. Me!ic! | ,uo. 31.93 Rl: 0.8861 io,,. 6{ ld Qu.nt Manu.l Pcr(.nl iqu.n! OItr : A(etalder,ydE []91(l [75-0 Ac€rylenr [1 9 l(] [71-8,5-2] A(rol.in l191Cl [107-C2.81 Amm.ni6 i1-olCl 17664.4 1 8ut.n. l189Cl 11116-97-81 r:arhon Dioxrde ll9lc) lli C.rbon fJcnorid. lo-.luJ0 . Carton totonoride ii000-1 Carbcn i.trrnuorid. ll9l( Ethan. I I9ICI I7!-3{.01 1.i10 ppm NO 4.9:"9 ppm ND N0 l.r0 ND NO 2.66 ppn N0 5.960 9i rJD N0 ll0 ND ND .0.228 ppm ND ND NOEllmt'ffirffiI-I@NL: Fcrn.tJehyd. (l)l(l [50r 2.96] ppm lJo Hrdr:gen Cnloride li9:Cl N0 I'jo 1,1:ln.or Il?i6 l7.i-31-31 f.l:rhr^(11 [1!1(] [i?.i0- ]l tntfl( OlCe []91C] l1Cl0i 9ts5.6ri FFnr l\0 T]O NO li,!Di€n Oioliii lC-.rI 11 f .,{,. !tirr ]o}r.;e lr0L. j0{. Nilrour Oxiil. iMCl ili0l Pr!9nrt llilCl !74 9e a, Prop!1.n. I l9l al l1 15.07- 9ulf!r Heriiluori,l. il;lC) Witer n9lCI [77]2-lB.5l NO !lD NI, 5.8i1 Dlm ND 0.755 pph NDi{0 ilo 15.023% ND Erhylen. [191L] l7{-45-il 0.coJ l.i5l ppm E' I .O E q. 4,;tb-l 233 Altamont BtuebeLl. Gas Ptant Unit C-163 FTIR SN #00441 Run 2 Average E] '^ r.t"'. 'r, i'-! ', ' . | :- fil€ Edit Via T@lt H?lP Mrnu.l Vrlld.tlon Vl.w - spdrum ------ ' -' ---- . Run 200005r2.U8 I scrn Tinr: 3,/! 1/2025 125152.4 ruTC -05:00) l" commcnt* A99r.gek M!tdG I ,.o. 25.E6 Rt, 0.91{8 6:s:Iq,I6ES.,r"]d, t) . iil--l o( i,\6 1> t;q G.r ld A(.r.ldehydr [19lcl u5-0 Acerylere r9lCl 171-86-21 Acrol.,n il9lCl [107 02-8t Amroni. Il9lC [766{.{1 But.n. 1139Cl 1106-97-81 Crrbon Oio:iid. n9lC ll2. Carbon l,lonorid. lc-4{00 Crfton Mondid.1100C-l C.rbon Tlrrnuoric. ll91( trh.nr I19l(l [7{.84-C] Qurnt M.nual P.r.Gnt iQulnl DIll I 1.021 ppn ND i -1.612 pnm N0 | NO r.l0 N0 l{o l 2.02 ppm N0 | 6.t61 % N0 : I'JO ND t'ro ND . -t).102 ppm f.lD i ND NO f orm!ldehyd! [19]Cl 150-( Hr.droq.n Chlcri.l. Il9lCl trlethrn. {l91il l7{-32-Bl Llellrinol Il9lil !o?-:,i.11 lJiin.Orid. 09lC 110101 lliilo(er CioYide lC-lon pi i::r,)!<n ! '..r3. i{:-:'la fiilrou!Oiide lr9lC l1!0: tllpi^E ll9lL'1 :71-9e'51 Pr.f,ylrne (191C: i1 l;.07- Sullu, tse)drluo.i(le [i91f I w.t.r I l-o1q f 712-l 3-51 2.555 ppm ll0 N0 N0 1,1157.{ll pim liD \lo f.lo NO ND tJD NO )ll, il4, ND NO 7,rra; pfm l.lD t1.'5{5 Fpm f'lD t{c ltt) I0.0t0 ii I'10 I i oooo I 39.tJO i ,l:0: ppm . Ertrvlene t191Cl 174-85-llj 234 i0:u'eql9.oPq+# Al.tamont Bl,uebeLt Gas Ptant Unit C-l63 FTIR SN #00441Run 2 Outtier E File Ec(t VierY T.clt H€lp M.nul V.lldrtlon Vl.w Spe(lrum --- -' Rur 2000061 l,LAg s(in nme: 3/11/2025 llrl9:07.7 iUTC -05:00) Commaolt: ,,,,,,,,',,,,',,'-.-':',i . r.Ell i l i i a,i orfr inolNDiNoiNDi fto iNDiuoifio iflD iNDi Aqor.qrte M.ri6 Eror 51.00 R'r o.7l5B I rj -u'z ,ft Auto ManualGat ld eurnt eu.nt Acrardehyde ll9lcl 175-0 0.906 Ppm a<etylenc [191C] 174'86-21 1.991 ppm Acrol€in llgtcl 1107-02-81 tiD Ammonia ilglcl 0561-41 ND gut.n? I189Cl [106 97'el 2.]6 ppnr CarbcnDiords[19](1 ll2 6.006?6 Carbon Nlonoridc lD-4t100 ND c.rtDn Mcnold. [i0J0-1 N0 Carbon r-?lra,luonde il91( -0-169 pp'n Elhiile t191<l P{-84-01 ND Foilnoldehyde (19!Cl 150.( Hydr.,len Chhride l:9:(l Llrurne Il9lC t;1.92.81 Nlrthriol ll9lCl t(7-5i:-ll Nirri( Ordc 091(l li0lL12 tl i,o!:n Di,)viai l0-f00 pr l,,rr,igen :'irtiJe lla'C-:ar: tilcus Oirdr l19lCl il00: I'Lip.re llrlal t7{-nE.6l FroFrl.re llrral 1115.07- Sulhrr H€x.fluoride il91tl !v.i.r Il91Cl 177i2- I8-51 J.162 ppm tlo tiD N0 i.()1CCj-) tjpo\ FtD tiD fio ND I{D \lD Hi) \i, l,ir irD flD 6-135 Fprr fit, 1.51e ppri NO NO NIO io.25a% N0 lZ.('00 1.6)l ppm 235 ALtamont Bl,uebel"l, Gas Ptant Unit C-163 FTIR SN #00441Run 3 Average B ri il..r,:,,..:rri.''.- l"i File Edii Vie* TotlJ He P M.nual V.lldidd vld $:r-9qgJalc,a4|J,S- -Spdrum DI I I I o.l "..:;lDrH I NDINol*oI.D IrJD INDINol NDINDI ND Run 3060073{.LAB S.an fimq l/11/2025 t4:41:12.7 iWC -05:00) Comm!n15: A99re9ate M?ld(r Enor: 28 19 Rt, 0.9085 e- i. t" ,; ' Y", Qu.nt ---M;i Qu!nt 0.195 ppm 4.r)0r ppm NO ND 1.52 pFm 5 910 i; I.JD il0 -0.209 ppm NO Ai.t,ld.hyde [191C] F5'C A(.lvlrn. il9lal 17{-36-ll Arrol.in 119lCl n07-02-Bl Amhonia l19lCt P66r-41 8ur.ne lt69Cl 1105-97'81 Csrbon Daotide II9iCl i12 Ca.bcn Mondidc i0.4(O0 Carbsn Monorid. 11!Q0 1 C.rbon T.tr.lluoride [19]( Erh!n. I191Cl r7{.&-0] Fom!rdehyde n91C) 150.r Hvdnrgen Chlo|de il9:Cl [i.fi !.e i:9:C] l-i.l-3:-|..i Milhli.r Jr9lcl I3i-5,i-iI Niln. Oxrdt I191,:l I101li? Flirrc,lir i,otil? lr'-l0i P Lrri.)ej, i,,r( J+ l.llr0-rit Ni!rc!r Oxldr 091C'i 1101: t(rnrnr IlSIC: t7{-99-dl P'cp,!.ne I19!Cl i: l5'07' Sultur qeidducriC. 09lCl \Yale' I19 lCl i7rl2-19-51 2.512 ppm ND IJO NO l,1l1.id5 Fpnr il0 flo tio tJD Nt) tio fin |r0 lt, ftD u0 7.152 PPm liD 0.757 DNil llD i,O I'iO .. 1i1.1 l?. li ; o.ooo 48.000 1.751 ppmii 236 Attamont Btuebetl, Gas Ptant Unit C-l63 FTIR SN #00441 Run 3 Outtier E ' .,.''ii':-i :r : File Edt Vriw ir)oh Hel9 Mrnu.l VrlH.tion Vls Spectem - ----. Run 1000075.{.LAg scanTrme: l/11/2025 l5tro:51.6 ruI( -05:00) Commants: Aqgr{ltc Mdri6 Ero. t9.5! R'?r 0.9617 lgjn'eq9.O&q.4'#i ,ot .i Lolt f- -- **'----- I cilld i o.",u,u"nro. r,r,at ir,-o I Acerrl€ne l191Cl F1-36-21 I Acrcl.in llglCl 1107-02-81 I Amoonii l191al [561-1] I Bur.nc l189cl F06-97-81 I C.rlion Oioride ll91() I12 I c.rtron lronoridc Ic-4OOo q Ournt M.nu.l P.r(.nl Qulni Olft 0.500 pprn NO d.421 pFm N0 ND NOr{D ruo 1.56 Fpm NCI 6.1?0 9i NO NO NO (.rbon Monoride IIC00- j ftD -0.251 ppm NO r,t0 NO NO Teranuorid. il9i( Ethan. il9lCl [71.9{-01 i F6'm6ldehrdr Ii9:q l:0r i Hydn:nen Chlorid. il9lCl I Hflhsne l191Cl 17l-3:.el, tut.lh.nol 091O ia?-t5-11i ttilricorioe lt;tcj Itoto:' Nr!otlen nro..iJe [C'100 p i!,i!.!€n I rrd]. llL i.)tLi i rrro!ro\rde lr9ral ir00: Prsprre ll9lll if{.99'51I Pro!:;l.ae {l91Cl l1 l5-07' i Suli!r H.irnuofid. I'9ral i waler l1'ilCl lI;i:-1e.5j i.117 pFm Ni) :{D ND 'la, \11 il0 6 75i ftm 0 3g; Hrm fiO ll.16l;i NO r'to tiD ND NC i.r il t{0 Nr' NO NO ND I I 25ir ppm 237 c-252 238 Date Company Station 12-Mar,25 Unit c-252 Altamont LLC Bluebell Facilitv Ga? Plant FTIR Analyzer MAX IR OO98O Validation Summary Table FTIR lnstrument Make Model Serial ilR 0(MAX iR !nstrument Checks Readino Specification Pass or Fail Sional lntensitv 0 088s > 0.04 Absorbance PASS Detector Linearitv 0.0436 < 0.1 0a PASS lnstrument Resolution 1.028 1 04 +l- 0 04 cm-'PASS I nstrument Frequencv Precision 3133.071 3133 068 +l 0.020 cm-1 PASS Oriqinal Laser Fequencv 15799.390 Calculated Laser Fequency 15799.377 lnstrument Laser Fequencv Shift 0.01 +0 OR r:m-'PASS Direct Calibrations Readino Specification Pass or Fail Ethvlene (C Hr) - CTS 0.85%t 5% Certified Value PASS Acetaldehvde (C,HoO)-2 53o/o t 1jok Certified Value PASS Svstem Response Times Readinq Soecification Pass or Fai CTS > 95% of Full Scale 0.55 < 5 minutes PASS Svstem CTS o 370 t5% Direct CTS PASS Minimum Detecta e Concentrations Calculated MDC #3 Units Ethvlene CcHt 1.7583 ppm Acetylene (CrHr)9.2541 DOm Propylene (C.H.)2.6845 ppm Propane C"H")2.7284 ppm Butane CrHnn)1.0532 oom Formaldehvde (CH"O)2.6434 pom Soike Comnound % Soike Recoverv Specification Pass or Fail Acetaldehvde (C,H,O)121.360 70 - 130%PASS Run Validation: Automated vs. Manual Taroet Analvte Soecification Pass or Fa Test Run #1 Averaqe Spectrum Ethvlene (CzHa !20%PASS Test Run #1 Outlier Spectrum tthvlene ((-;,H,!20%PASS Test Run #2 Averaqe Spectrum Ethvlene (CrHr)r2O%PASS Test Run #2 Outlier Soectrum Ethylene (CrHa)x20%PASS Test Run #3 Averaqe Spectrum Ethvlene (C,H,)t20%PASS Test Run #3 Outlier Spectrum Ethylene (CzHr t20o/o PASS Test Run #1 Averaqe Spectrum Formaldehyde (CH:O)!20%PASS Test Run #1 Outlier Spectrum Formaldehvde (CH,O)!20%PASS Test Run #2 Average Spectrum Formaldehvde (CHrt !20%PASS Test Run #2 Outlier Spectrum Formaldehvde (CH,O)r20%PASS Test Run #3 Averaqe Soectrum Formaldehyde (CHrO)t20o/o PASS Test Run #3 Outlier Soectrum Formaldehvde (CH,O)!20%PASS 239 2025-03-12 Altamont Bluebell Gas Plant Unit C-252 FTIR 00980 4-1 Pre-Test SNR C MAX A(qui3itim.a.O vl - MAt-lR Rl !il. Edit !i.Yr Iooli lctp O.y 2 rux ir 009t0 tai^ I BGP 2025{l\lA.l :,;, : ,,.; i ;v:r:.itJE.'919.6t961 G.rTcmp l8&5'C oct*torT.mP N/A Prrron: 1.03200AIM Sgn.lSb.ngthr 28,1 t-"G;;-t n P.6r spcmn corlsbn tzg I S:.E,r iin{!n? -Ltrry x Mu - Rr;ls HoiJ ffisfr.t sxn 1 lq) 0.115 0,628 691.130 2200 00.175 0206 2 105.755 lt00 0.0701 0.10f 1.125.561 41C0 0.i02 0.{j1 991.985 240 12-Mar-25 Unit c-252 Company Altamont LLC Station Bluebell Facility Gas Plant FTIR Analyzer MAX IR OO98O epp.nai" nS, qelqC P A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent 241 Pre-Test Post-Test Analysis Region 3131 to 3135 3131 to 3135 cm-' Sample Spectra Line Position (Freq)3133.071 3133.064 cm-' Reference Spectra Line Position (Freq)3133.068 3133.068 _1CM, Sample Spectral Resolution (FWHM)1.028 1.036 cm-' Pr6-test Spectral Resolution (FWHM)1.057 1.057 -1CM, Line Position Shift 0.29%-0.39% Resolution Shift -2.74%-1.99% Hzo Ethvlene cH2o Run 1 ooG 0) Manual (oom)10.51 1 1.306 4.810 Auto (oom)10.341 1.270 4.732 Error (%)1.64%2.87%1.66% .o=lo Manual (opm)11.669 1.329 4.812 Auto (oom')11.535 1.295 4.777 Error (%)1.16%2.35%0.74o/o Run 2 oo)(! 0) Manual (opm)10.444 1.285 4.358 Auto (oom)10.214 1.253 4.464 Error (%)2.25%2.53%-2.38% .g lo Manual (opm)11 117 1.410 4.896 Auto (ppm)11.365 1.338 4.754 Error (%)-2.18%5.36%3.00% Run 3 oo)G o Manual (oom)9.770 1.305 4.603 Auto (oom)9.684 1.291 4.506 Error (%)0.89%1.12%2.15% .q=lo Manual (ppm)10.807 1.406 4.551 Auto (oom)'1 1.086 1.382 4.596 Error (%)-2.52"/o 1.72%-0.97% 2025-03-12 Altamont Bluebell Gas Plant Unit C-252 FTIR 00980 4-1 Pre-Test Water Band {} tilAtA.q(;iilion{.C v1 - MAx-lP 83 fih lCir !i.w looli !.lp Dly2 h.r ir 00980 uain I BGP 2025'03\12\rl 0 fn -'9.i9".O1S,4" Gr.T.mp 187.7'C o.tftrT.mP: N1A Pr.r5ur.: 0.82122 Ani Signtl str$gth: 25.3 i "tl'!rl-l ll PM. sP<1ruo Coll.(tjon t7t; ii Wlt r e.nd , lgr.m M.lricr . . .. i TE.kPakAt 1133C68 i P..k Loorionr 3.131 071 |FWHM: 1,028 i Origill lrtlr ttlgr 15,799390 i CohFut dtar.rFr.q: 11799.37 \,\:t.r E.nd F..i Hinory \ V i f, Zto Filtrd SrmPlc Spc*um : El Aftll S!sF'. sp.dNd ; [-;]r"rg.t n.rt t*rrl- i []a<roalPcekLxrtion .!i,lt< t 61:J $11;ff{$ Jrii,I1e:' 4>t{n !/l.quinng Post-Test Water Band t{ i& r+ P-; F5 l*llr,lC]'9.0rlti; i:*g!5rrumll}(};rg' :{.,it{ii!$iiyr.ri}i:wwt$:ffi.&ffi ffn[{f,rtpiltr9lwffiillrriww I-Esr+ !ri.t toid4 &r rpsqu r!, {)) i-l!:il,l l:tua.*c.u^ i:a-r,,ru ri: ii ti I I flr.-nar*r.o Ipr."r*r- :Ery**-' il...lh"rhrt-nh I l i+tt H.igrr waa lirory A i\^tv ! 242 Attamont Bl.uebetl, Gas Ptant Unit C-252 FTIR SN #00980 Run 1 Average Fil File Edil Vievi Tools Hlrp M.nurl V.llddor Vld 'g,rtr-eq9CItao.4*#i -Sp&tum Ruo 1C000477.LAB Son lime 3/12,12025 11:50:464 ruTC -05$0) CommenEi A99re9rt! M.Eict Efio[ 29.46 Rt, 0.9c28 q ii Gr.ld , ltcratocnyce llgtq Fs-c I Ac.lvlrnc l191Cl 17{-46-21I Acrol.in 119lCI il07-02.81 i Ammon'.1191C|F6il'41 I 8ut.ne nEgCl n06'97-t) I (rrbon Oioride 119:Cl 112 i Carbon l{ondid! Io-d&loi C.rbon MonordE ll0tr0 1 : C.rbo. Tlfrfluori.lE 091( Erh.n. ll9lCl 17{.84-01 1 rililE+tEll-ftrfirilI i Formaldehrd. [191C] 150-r Hldr+g?n Chlord. il9lCl h:.rnine i19-al f l-32-i j I,l.rnr,:.1 i1 9l(l I,i;-5,;- 1 l tlilrr. Oride 1191C] i1Ol02 flinctin i,arrd. l1-l0rr o i! rir c!l<r r il,o<!il? llt0' :rf aI Nrtrour Oxrde 09i(] l10C: Pr:f rna ll9l,:l i7i.9?-61 Pror.,yl.n. ll9lC) l: r5-07- i Sultur .lei.fluc'ide ngial : $/.t.. I191(l i7ll2-13-51 Auio M.nu.l P.r<cntQu.nt Qo.nt Oltt -2.17, pfrm ND 4.210 ppm tlD ND I]D ND }IO -1.66 ppm N0 s.in * ND u0 N0 uD N0 -0.198 ppm ND NO NO 4.310 ppm ND lr0 lio 1,501.210 ppm llO NO }lD llo Nt' uD fto i\Jt' l:o ND IlD ll.g',.C aFn lio C.14{ pph ll0 fJo ilo 10.511 * N0 , t*,ylen. ll9lCl 171-85-l! 0.00('i.:co pprr 243 Attamont Bl,uebel,l, Gas Pl,ant Unit C-252 FTIR SN #00980 Run 1 Outtier El 'r r"r,,,.\!i.t ..t ,: Fil. Edir Vi*/ -_iool3 Halp M.nurl Valldaion VIil . Sp.ctrum ' i Run 100C10448.LA8 I S(.n lim?: l/12/2025 l1:25:11.5 ruTC -05ic{l , Comnrents: l{jjn- eq 9JaEo.rb# Aggca.te lr.ui6 Eaor 16.87 R: -*;;,;- Qurht 0.9673 ;Erll I . I a.iqt':r -.Lo 1)r G.. ld Mrnull Pcrccnt iQuant Dln i-2.1 13 ppm NO I 4.910 ppm llD ii{o No iiID NO .1.J0 ppm ND i 5 ?13 l; NO ItJo ND iiloNDl -0.262 ppm NO iNDNDI AGt.ld.hyd. l19iCl P;-0 A.etyleoe II-oiC] P{-3$21 Acrcl.;n ll9lCl ll07-02-gl Ammoni6 Il9lCl P664 41 8ur.ne I139cl (106.97-81 C.6on Oiorid! l191Cl 112 Carbon Monorad. i0_40c0 C6rlFn M.noridc 11000-1 Carbon T?tdlluorida [1S1( Ethanc I191Cl I74-94-01 Formard€hy4. 09 lcl 150-i Hydrolen Chlorde Il9lCl l,leihine i191al fl.S2-tj L1.rh]n6l l19l(l It7'56-:l Njrn. Orid. tl9lC il0l02 llitr !!f r !1r^ri.j? !(!-101,^ o l.,trrrqar Orod: :li0-l:'C l{[ro!r Cride (19!'a] l1C3; P,(1,aie l1!lCl il1.!r.o 6l Pr.fyrlni l191Cl :l?5.0;- Suli(r Herdluo.ide ils1Cl !v.r.r l1 -olal P712-1 8-51 4.812 ppm N0 ND H0 l,5jl -1:; per ti0 ND iIO NDN0l lltt lif' ilt' iir, iJD l{o il.l.r5 pli llo 3.19i ppm ilo lJo tlt' 11.a6g1i fro l 1.329 ppm 244 Attamont BLuebel,t Gas Ptant Unit C'252 FTIR SN #00980 Run 2 Average E Fiie Edil View Tools Hllp M.nu.l Vdldrll6 Vl.w sp.dNf,r - - Rln 20000599.1-A8 i 5o6 Tim.r !/122025 l305:a0.0 (UTC -05:00) , Commantt I Agqr.gat. Mrtria I Ero" g.14 R', . 0.9399 ,i$a-eRgnute+$Bact i o q GE ld Acet.ld.hyde ll91Cl [75-0 A..b/len. il -o1Cl I7{-BG:I Airol.in l191Cl tl07.0Z-81 Ammo^i! l191Cl 17661.{1 Eutane llE9Cl It06-97-81 C.rbon Dioxid. [19]Cl l1l Ca.bon t{onoride i0{00 (6rbon Monorid. {1000-1 Carbon Ter.lluorid. (l9l( Elhan. l19l(l f.?4.8{.01 Auto M.null P.rccol Qurnl Qulnt Dltf -1995 ppm ND 4.298 ppm ND ND ND ND ND -1.35 ppm NO 5.707 % N0 NO NO ND NO -0.217 ppm NO ND ND tc.mlldehrd! l19rcl l5rr-l F/drcgen Chloride []9:(l f.:.tlun: i191Cl I74-42-gl f,lethan.l llrlCj l6;-5i. ll Nirn( Ondr ll91Cl ll0l02 llair(,!en : icride lr.l0! o llif, oqtn i:rorida Ilrrl;-lL:,1 liiro!s Orid. ll9lCi ilaoi Pr.p.n. ll?1Ci 174.90-el Prcpuen. ll9lq :l l5-07- Suliur Herafluoiid. tl!lCl 1.358 ppm ND NO ND 1,51j 95i [Fm NO ND I{O ND IIO iJD IID N0 r{o 11-ii5 ppt't tlo 0.1!C ppnr fltr , Eliylcnc {19:C} 174'35'llt_-_ ln^I rv.r.r Il9lCI 17732-16-51 !0.44{ 9t NOL t.13i ppm 24s Attamont Btuebel,t Gas Ptant Unit C-252 FTIR SN #00980 Run 2 Outtier R : -.,., ,.- ..,, FJe Ed{ V,.r, l@ls .lalfj M.^u.l Vrlldrtlon Vltr Run 20000614.1A9 S<.n Ii6e: l,/12/2025 13:18:14.0 ruTC -05$0) Coilnlents: ' A99r.9rt. M.ri(j . Enor 9.31; --,', ^-. - ---Y' -u'-o 7 ; c$ld R':0.9895 qi Qu!n! M.nual Pa.clnl Qu.nt Dltt -2.{56 ppm NC) 3.9e0 ppm N0 I{D ND ND ND -l.2oppm u0 5.550 9/, NO ND IIO ND NO -2.780 ppm N0 ND NO i A(errrd.hyde (l91Cl 175.0 ; Accq-l!^e 119lO nl'36-:: I A(n)lein fl91Cl t1C?-02'81 i Ammonh l191Cl 176A-41i 8ut?n. Ils*:l tl06-9?-Bl i Cirbcn Diox,d. Il9l,:l I12 : Crrhn t'lonoxld. l0-J000 I Carbon I'lonorid. I10OO-1 i Carbon T.ilafluoridr I19l( I E!1i.6? ll9lCi f/.{-81-01 i rornrldlhyrie []9lcl lilr : H'ldrog.n Chloride [!9ia] Meth!,te li9lil F4.31-Sl M.rh.rol ll9lr: la,7-56' ll : Nirr.Ox'de IrglCl l1o102: r:t!,.r.r 0iil d. [0'lfl ! \rl:oJin lFr .1. F ,ri j(t : ilrrroilr Oirde il9lCl ilOC; i Fropine Il9lal I:{--n8'-.1 I Prop,il.n. [191C] l: l5-o;- Sullur Her.tiu..(de llglCl i VJ.ld lr91Cj pTlZ-13'5j r.e96 ppm N0 ND NO 1.54C.120 ppm N0 tJA I:D ND ND il:, !_a ND f:o r.i, uD r J.l6-o ppnr NO 0.217 pp6 N0 i',J f:D lllll* "o 1.1.t0ipPm e qi9 ,G [2 A. 4ru 246 Attamont Bl,uebet[ Gas Ptant Unit C-252 FTIR SN #00980 Run 3 Average ts lrte j ro-ir ] vrev To.tr H.lp Mrnul VrlBrrlon Vlar .SpR1rum .-- -- .- -.,-., Run !0000682.1A8 k.n Timd 3/1212025'1h18:.1j.6 ruTC -05:CO) CommanB: iBi I l A99re9ri. Eroi ;--: -- Mrril(t 22.i0 Rt, o.9r7t Iqi Gri ld A(.t.ld.h)d. it9lcl 175-0 A..Vlcne [191C] I71-86-21 A.rolein [191q 1107-02-Sl Ahmc.,ia i191O f76A-41 8ut,n. ll89al 006.97-81 (orboo Dioxidc [19lfl 112 Cirbon lvlonoilde [r-4000 C3rbon lJon6rid. 1100!r-1 C.6on i€rinuoride {191C Q0anl M.nu.l P.r..ntQu.nt Oltf -2.097 ppm ND 40C9 ppor N0 ND IIO ND NO -1.1 I ppm tlo 5.962 * ND NO NO NO ND '0.2:1 ppm llo Ethanr llglcl I71-84{l ND NOntt6Efrlrz:lrEtl - llrfi+tlEl Eil: tormaldehyd. t191(l I5o{ 4.601 pFm l{O I HydrcAer ahlo,id! ligicl NO I{Cr ]lvlerhlne0rlC)F!-8:-gl :,7010:lFFm i{O I Llethrilol []g:Cj l6i'56 ll flD tlD Niri(oxide {191|:| ti0r02 frD No Nllrogen Oi)raa. lC-nC0 p 10 fin N,!og.o 3L)r,J: lii0-j0i )rua ,\l N,ro(s Od. (1911:l i100; ND ll0 ProDin. l191al I?.1-95-61 ProFll?ne lI91C, l1l5-Ci r2.5t) ppil l'10 '0{9.9 Fpnr ll0fto flo s770% NDI sullur Heiailuord. 09lcl I vJarer (191(l P7l2'18-sl 37.000 .l.r?: eem 247 ALtamont Bl,uebett Gas PLant Unit C-252 FTIR SN #00980 Run 3 Outtier EI -.i .1.1r .... ,t),,r: .: : ,. r ;ire air ivii;ri'l T.ols !{elP Manu.l Vllldrtloh Vl.w _Spdum Ron 30000667.tA8 ScnTim.: 3/12n0f5 14:23:00.1 (UIC-0500) R', Io.i G.s ld a(errld?[d. 091c] [75-0 Ac.Vl.ne [19:C [r4-36'2] A.rcl.in lt -o l(l 007-02-81 Ammo.i. Il91CI U664-,11 8utsn. Il89q l106-97.91 C.rbon oioiide {191C| il2 C.6on Mondide 10-4000 C.rbon tlonoridc 110C0-1 C.rbcn T.triiuoriJ! l19l( Eth.nr ll9lCl [74-84 0] Auto Qu!nt -;;;i- Qurnt -2290 pph 3.99O ppm ND I.JD -135 ppm 5.r66 % ND ND -02{9 pPm ^rD oif ND tiD trD ND NO NO NO nio NO ND Fom.ld.hvie Il9l(l [50r Hr.irog.D Chloride [:9:il [,ethailr i:9lQ (].{-d:.Cl lJetfa:r.l ll ll(l li7-56 1, Nird( OxiJr [19lCl l]0102 llilm!.r Dr:rde l0'20C n ii:rar:r lr:.rdi llil_laa Nilrous Orid. 1191(l ill0i ft.pin. Il9lCl Fl.9e-61 P,3pllene llrlCl i1 l5-07- 5!liur HeY3lluorid? [l9lCl wrter l191cl [77i2-13-tl 4.551 pFm flo uD litr l.'-0t.i05 ftPm flD ND Itr) I'JD I l.0lt ppm 0.1{! ppm ND 10.807 ?! tiD NO ND NO ilD |i0 tio NO ND ND '^ irii'-rx r'^ : Elrylrne ll91Ci [i{ 95 ll - -* - - - - I 406 pFm 244 E A.0 o Eo. r"lltl G253 249 Date Company Station 12-Mar-25 Unit c-253 Altamont LLC Bluebell Facility Gas Plant FTIR Analyzer MAX IR 00441 Validation Summary Table Serial 0044 250 FTIR lnstrument Make Model MAX iR lnstrument Checks Readino Soecification Pass or Fail Siqnal lntensitv 0.0849 > 0.04 Absorbance PASS Detector LineariU 0.0226 <0.1%PASS lnstrument Resolution 1.005 1 04 +l- 0.04 cm-'PASS I nstrument Frequencv Precision 3133.083 3133.068 +/- 0.020 cm PASS Oriqinal Laser FequencY 15799.252 Calculated Laser Fequencv 1 5799.1 78 lnstrument Laser Fequencv Shift 0.07 +O O8 cm-PASS Direct Calibrations Readinq Specification Pass or Fail Ethvlene (CrHa) - CTS 2.45%t 5% Certified Value PASS Acetaldehvde (C,HoO)-2.390h ! 10% Certified Value PASS Svstem Response Times Readinq Soecification Pass or Fai! CTS > 95% of FullScale 0.72 < 5 minutes PASS Svstem CTS -0.09%t5% Direct CTS PASS Minimum Detectable Conceritlat!qnS-Calculated MDC #3 Units Fthylene (CrH+)1.9805 00m Acetvlene (CrHr)10.3624 DDM Propylene (C.Hu)3.4738 ppm Propane (C.Ha)5.1514 ppm Butane (CoH.,n)1.6472 ppm Formaldehvde (CH,O)2.8001 p0m Soike Gompound % Snike Recoverv Snecification Pass or Fail AcetalOehyOe (CrHoO)126.2104 70 - 130%PASS Run Validation: Automated vs. Manual Taroet Analvte Soecification Pass or Fail Test Run #1 Averaqe Spectrum Ethvlene (UrHa)t2O%PASS Test Run #1 Outlier SPectrum Ethvlene (C,Ha)!20o/o PASS Test Run #2 Averaqe SPectrum Ethvlene (C,H,)x20%PASS Test Run #2 Outlier SPectrum Ethvlene (C,Ho)t20%PASS Test Run #3 Average SPectrur1 Ethvlene (CrHa t20%PASS Test Run #3 Outlier SPectrum Ethylene (CzHa r2O%PASS Test Run #'l Averaqe Spectrum Formaldehvde (CHrO)!20o/o PASS Test Run #1 Outlier Spectrum Formaldehvde (CHrO)t20o/o PASS Test Run #2 Averaqe SPectrum Formaldehvde (CH,O)t2OoA PASS Test Run #2 Outlier SPectrum Formaldehvde (CHrO)t20%PASS Test Run #3 Averaqe Spectrum Formaldehvde (CHrO)t20%PASS Test Run #3 Outller Spectrum Formaldehvde (CH,o)x2O%PASS 2025-03-12 Altamont Bluebell Gas Plant Units C-162 & Unit C-253 FTIR 00441 4-2 Pre-Test SNR e &lAj(a.q!ilition.l.Oe1 - MA-X-lR Bl E,l. ldit g.s/ Jooh lclp 0.y2 m.r n0OH1 t.io 2 66P 2025-01\12\t4 t'- G.rT.mF 191.1'C D.tdorl.mpr N/A Prsrurt; 0.92149 ATM sign.l Sr.rElh: 245 l---t-i1u?.{l [l P.wc spdirum colldtion @tr*il 58..m ttl.lri.t Ll.r H(igai: 0.0852 i ;;i;;;i I F.igl1t ?;: 99.1 iL H.ight 0.08J9 L,iGyitI C.0226 ',1, 3:.!rr :-in..ri!,,.irtc.l x rtrift x Mlx Ffls rroi! ljisj"" sun 10t0 1io rl.ll'i c.i97 ll5.9t7 I 251 Date 12-Mar-25 Unit c-253 Company Altamont LLC Station Bluebell Facility Gas Plant FTIR Analyzer MAX IR 00441 epp""ak eS' aA/aC P A8.2-A8.3: System Performance Verification - Dry Ambient Air Pre-Test Post-Test Analysis Region 3131 to 31 35 3'131 to 3135 -1 CMSample Spectra Line Position (Freq)3133.083 3'133.088 Reference Spectra Line Position (Freq)3133.068 s133.068 cm-' Sample Spectral Resolution (FWHM)1.005 1.023 cm-' Pre-test Spectral Resolution (FWHM)1.046 1.046 CM Line Position Shift 1.49%1.96% lesolution Shift -3.92%-2.20% A8.4: Spectral Comparison of Difference Spectrum - Effluent Hzo Ethvlene cH2o Run 1 ooG o) Manual (ppm)10.480 4.5'16 15.203 Auto (ppm)10.510 4.431 '15.367 Error (%)-0.29%1.92Yo -1.A7% .q lo Manual (oom)12.509 4.219 15.870 Auto (ppm)12.325 4.317 15.569 Error (%)1.50%-2.27%1.93% Run 2 o)o)6o Manual (ppm)9.904 4.466 14.007 Auto (pom)10.172 4.321 '14.309 Error (%)-2.64%3.s6%-2.11% .q = Manual (pom)12.203 4.111 15.720 Auto (ppm)I 1.860 4.217 15.381 Error (%)2-89%-2s2%2.20y, Run 3 o)o)6 o Manual (oom)10.443 4.701 15.001 Auto (ppm)10.034 4.329 14.613 Error (%)4.07%8.59%2.65% .q .fo Manual (pom)10.456 4.757 14.009 Auto (opm)9.917 4.503 14.433 Error (%)5.43%5.64Yo -2.94Yo 252 2025-03-12 Altamont Bluebell Gas Plant Units C-162 & Unit C-253 FTIR 00441 4-2 Pre-Test Water Band e lrlAxA(quirition,l,O vl . MAI-IR M !il. Edit Yiar Iml5 ii.lp Oay 2 mrr ir 004,{l lr.in Z gGP 2025-01\1 2\*5 G.rT.mp; 19'1,0'C O.t6brT.mF N/A Pr.!!!c: 0.86581 AIl, $gnrl sts.ngth: 22.0 illliir,lri. I n F.ur. spdrum corrmbn ' :acb.t; l,r3l.c3t3 Targ.L' I lll.rctcl I - I lgGir lvldriB _ Ijr*tr.rnr ..11.3i.06s.... l_gr.* 1 1 :-lpc.kLo(.uon: t.ll!o8l l.lru*.r.***",o*lrw**, l.m; r - I SrtrrcqurncY il ^,u,rr.lI CignrltucrFrcq: 15,799.252 I '--l A: Compubdtr(rtrcq: 15.799.170 I l.t \ F!liHaqhl Width Hirtory i tcg.nd I !ZcrcFiltcaSrnrpl.Sp.(t,umi ff ra",sr.po sp..*,n I | -- I TrrccrPratLost;ont:I f1j A<turl Prok txrtron Post-Test Water Band :i :r !q !..r r., r- ortrrr !tll< Lrtr'@ NI H!n+ 'tt t\l.-lstJ ilr-t.^-.d.* I**".8 . ! hllqr j idbds l,'il.!b I Silur rr rtts l<*pv.-r,q 'rrrrr j :"FiPr",r-rcrao". . ts&dI49'f' I Lj ur"u,-.- li [:t{,",r,,6,.'- i ,/ ,/ i I'/i/i/i/i/i 253 Attamont Btuebel,t Gas Pl,ant Unit C-253 FTIR SN #00441Run 1 Average El' rr",,,.i.tt" '..'t ' il Fil. tdit Vju/ iiols Ha,P M.n0.l Vrlldfiion Vl* - Spmrum I Ruh 100@474,148 , k.nTimri 3/112025 I1:14i43.5nIC -05:001 I CommenE iUD - e tl.O .O tu o +18't-;;l A99r.9ata M{ns Emr 27.95 R', 0.m52 *l 1 o.i: -,.'ru !.v r", t- Ooanl Quant 4.167 pFm Parccnl Ditr ND NO |r0 NO ND NO NO NO NO NO Git ld A(etildetryd! Il9lCl 175-0 A(.t/|.'r. [13iC] P4-8&21 3 710 ppm A..ol.in llglcl [107-C2-8] rlD Ammoni. l19lq [766,1.{] ND Sutrne 11899 l1c5-97-81 2 31 PPn) C.rbon Dioride tlgicl ll 2 5.151 e; Cnrbon lJlonoxid. i0.4000 ND Carbon Monoxid. i1000-1 NO c.rbco Tenanuorc. l!9t( _0.21c pFm Ethane ilglci [i4'&{.01 NDEEmrlffirdffiirmlfiIil tormildehyCe ll9lCl I50-{ Hydrog.nChldidi ll9lCl l,lelr.nE ilrlal i74.e2.€: [,!e]rnol n9l(l 167-56-r: Nirr. Oxid. il9lq llOl0? fliligen lErili. lo_J00 o' l:iir3tEr: :,roii,,l. (tir0'il:i Nrrous Oide Il9 ICJ l1C0: ffiffi;-i lND] t,:i51 210 ppm flo iut) rl0 I NO ^t0 nJ t) i\tD ND r.lt) rD N0 : prtfene llglc) I7l'?il'al 10C02 ppm rli ii picFyrsn? l19l(l :l'5 ol- 0.rc2 Ftra ilD I Sulfu H.tailloriile tl91al IJD ND i : \'rar.r (191(l t7712-le'5) Io.leJ 9i ^lD I,-. -] 4.516 ppm E$yl?ne il9l,:l 174.g5-ll 254 Attamont Bl,uebetl Gas Ptant Unit C-253 FTIR SN #00441Run 1 Outtier @, r',,...,,,:. ,ir:! . Flle J Ecrr vrerv Tools il.lp Mrnul V.lldillon Vhw spdrum - .gE- 9q 9,o[tq4'..rr-, Run 10000i96.1"A9 Scan Timcj 3/12/2025 12:02:08.1 (LlIC -05:00) nggicaate Mctics trof, 2834 R:: 0.9017 II I ui jrls I q 6rt ld Accr.ld.hlde [191C1 175-0 Ai.trlen. (191q F4-86-2j A.rolein 119lq 1107-02-Al Arinrcnia i191Cl [7664'11 8ul.oe l139Cl []06-97-81(.rbon Oioride (l9lCl 112 Carbon hicno&de 10.4000 C3rbon l'lnnotida 1r000-1 Carbcn ie(rnuorid. r9l( Ethan. Il9lC) i74-4.{-0t Qu.nl M.nu.l Plrclnl Qu.nt Olrf -4.195 pp'n NO 4.279pp6 ll0 ND T]O riD u0 2.60 ppm IID 5.561 ?. flD r!0 N0 NO NO -0.301 ppm IIO ND ND Formaldehyde ll91(l l5Lr-l Hydrcgei ahlcride li9lCl tierhrre i:tl() F.-3i-91 [ierh.!ool tMa 167.56 l] Nilrii Ol de ll9lCl 110102 Nrlroqen oio\rlie [0.!00 P riilrc!er, ]nilr: lrlLr.iqr llrirout Crdi ll91Cl ll)0: Propir:e ll9lCl Pl.9u-61 15.670 ppm N0 NO l{0 ',!0r.;ll fpm t.0 nlo tlo Ntr ND \D ll0 ^ ir ND I.O '7.9!3 pprn Ir0 0 624 ppm uD iJo fto 12.5C9 % t{D Erhylene I19lO 17{-85-ii -' --------I 0,""r,*.ir'.irit-oi I Sulfur HejatlN(de ilgrCl I v/.rer i191(l ti7l2-10-51 I 0.000 l.:l) ppm 255 Attamont Btuebetl Gas Ptant Unit G-253 FTIR SN #00441 Run 2 Average ffi ",; rt..,..,,':r',.:.r,,: tile Edi. Vrvr Toolr .lelp M.nul V!lldrllor VId -Sp.@m *,i I i Run 20000614 LA8 5..n Tim.; 3/12,/2025 l3:17112.7 OTC -05!0) Cohments: A99rag.te M.td6 Errcn 20.6f Rr: 0.9458 9,.,. 3r- io .t zi- --;..;'yrr ;;i; Qurni q ---------------lMrnu.l P.ra.ntQu.nt Dlft -1.320 ppm ND 1.990 Dpm ND ND TIO ND IIO 225 ppm ND 5.761 9i ND ND NO ND ND -0 225 ppm ND NO NO I I Acerrldehyd! I191Cl f/5-0 I A..tyrens tlglcl I?4-e6-21i A(ot.i6 Il9rcl il07-02-al I Ammonia !l91Cl f654-.11I B!r.n. lleg(l (106.97-81 J Ca.brn Diorid. tl9lCI lrZ r C.bln Monoxida l0-40O0 : carbn Mcnolrd.ll$0-1 I C.rbon Tet.fluoria. il91( I Erh,n.t191Cl i/,1.84-01 f LYm.ldehyd. ll9lCi [r0{ HrCrogen ihlorid? [:9iC] I I'lrlhane li91Cl I?l-3:-81 [1.tha..l l19l(i [5r-55-tl , N,!'( OrCe Ii9l(] i1010?' tiir4J.n Oi)t:d. Jl.4nl p l.,inrlin Or)1.c. llgn-lot- Njious Olide ll9iCl il0i): Prop.n. [19lCl F].99-!l Propyl€he ll9lCl li l5-tr;- Sullur Hexaflx!id? []9iCl: W.l.r t191cl frTll-18-51 l{.007 ppm ilC Nn flo ?.000.016 p!nr llD ilo ll0 I]D NO rJo ilc i10 lrD iro lr0 I-?.C.:13 ppfi ilo 0 667 ppm flo I]D ND gqg 1 ilo 37.000 4.466 ppm I q;9 .O tS S rblJ'S 256 Attamont Bl.uebel,t Gas Ptant Unit C-253 FTIR SN #00441Run 2 Outtier E) ,,, ,i,..:.1 ,, ' i,.i Frtc lg!-j vrer Tccl, H€lp lU.N.l V.lldrtlon Md Spcdrum ' Run 2OO0O591.LAB I Scrn Timr: 3/1212025 l257:15.1 (UTC -O5]OO) i Commcntl ' e99a9"," tl.tna, [ror ]2.{l R': 0.8882 tX ii ',o i t !", gn. eR 9JAEs.-lbk-l EI I lcl Qu.n( Manual Q{.nt .4.$6 ppm 1.119 ppm NO NO 2.5! ppm 5.S15 9: ND NO -0.301 ppm ND olft ND NO ND l.l0 ND A(er.tdehyde li9lcl [75'0 tulrylene Il9lCl 174-86-21 Ac,ole,n l191Cl 1107.02.81 Ammoni. l19lCl 8664{1 But.nr l189Cl 1106-97-81 Carbon Dioride (19lCl 112 Carbon Mcnorid. [0-4(80 C.rbon Mcnorid. l00C-! C.rbon Tetr.flvoride l19i( Ethinr [191C1 f{.8{.0) NOi Nol NDi NDi NolEil Form.ldrhyd. (i91(l l5C{ Hrd'coen Chlond. It9]Cl lr'lelhine fi -o1Cl lt+.31.3: f i+rh3r,Ln Il ri CI 67.i6-ll Niid( Orade Il9lCI l10lii2 Nrirgeo 0'crd. !r:r-10) pr i!,n{rrin irr.{{e ii00-iC.: lirrour OriCe il91(l I100: Frop.n€ ll9l{l 174.95.51 15.720 ppm tiD ND }O i.9(,!.974 pprn f.tl l.it' lr[l NO ND iro ilD : )l 1.0 Nc'r fro :7 5:a ppm n,0 0.777 ppn llD IJD I:O 12.2019. h'D | ".op,;r.n. Irg,Cl (r rSA:- i Sultur Her,rfluo,ide ti9iCl i Wrt.r l19lCl (i73:-18-sl 10.000 4,111 ppm Elhyl.ne ll l1(l l7{.35-l I 257 Attamont BLuebel.l. Gas Plant Unit C-253 FTIR SN #00441 Run 3 Average ts i_) .til! i tdr View l.!ir H.lp Mrnurl V.lfdrilon Vlew .SpdIUm --- i 8a(k Run 30000641.1A9 S.anlime 3/12nO25 13:11J8.0 ruIc'05:00) CommcnlS: A!9rcgatc Metris Errcr 16.26 7- "t.."tt I r 6.r ld Aretrld€hyoe l191al 175-0 Ac.tyl.ne 119:(l P{-85'21 Acrchin l19lq 00?l]2-Bl Amnlooia ll9lCI 176&-41 8ubn. {189q 11c6"97-Sl Carbon Diorrle []91CI ll2 C.rbon lrloncrid. l0-1000 C.rbon Monorid! ilOCo-1 Carbnn Ten.fluo.id? n91( tth.n. llrlCl U4-84 01 Aulo Mnnu.l P.r(.nl Qurnl Q!.nl Dlfr -4.101 Dpm ND 4.2m ppm l.rD ilD N0 I.JD ND 2.12 ppm ND 5.80i I' ND ND I]O ND NO -0.229 ppm NO l.to N0 Fcrm.liehv:e l191Cl [50-l Hr'lro-.€n Chlori.le [19 ICI l,l.dl.ir! ilrlCl [74-3]-3j t,'erhaf cl Iiila] 1.17-56- 1 I Nird( O{iJ. llr1Cl i10102 llit^!in Cirlida lD-l0r fi f .rrc g:rr :r,r{d< lllto.lci liirouJ Oric. I 191(l I l3C; ProDrn. Il91Cl i71.90.61 Propvletre ll')tCl 1115.07' Sullur Hrritluofid: il9lCl l\,,aler l191Cl 17712-13-51 IJD 2.0i,/-.: I5 tinm l.tt) NO Nti i JL. iJ0 17.95J prm c.70i ppnr NO 1041{ il0 fro frD ti0 t(0 tiD t:c' ND ii0 tiD ri0 ND i 0_000 i 47Cl ppm 258 Erhylen. l191Cl I74-t5.ll Attamont Bl,uebetl, Gas Ptant Unit C-253 FTIR SN #00441Run 3 Outtier @,,: r',,:r ...,,-,.,.1:..1 rite I rcii'l Vuv Tcors i{.lp MrrulV.llddlon Vllw .' Spdrum - I Rlo l(lOOO65r.LA6 I S(an Timei 3/1212025 13:t0:27.4 rurC -05rc0) I co...nt, . lggrcaaic Merrici I Eno. 1.1.76 Rt, 0.8755 ig,m' q qiQ o lg o, 4:4d Is*ti Ac.rald.hyde {l91cj 175-0 -4.005 ppm ND 4.158 ppm NO ND NO ND ND 222ppn I'lD 5.8t8 % frD NO NO NO ND Areiyl.tre 09lC) F1-06-2i Airolein Il9lCl 1107-02.81 Ahmc6ia l191Cll7fl-41 8utrn. l189Cl 006'97-31 C.rbcn Dioxid. [19!C] il2 Cntbon l"lonoxrde [0-40t10 C.rrbon lJonoridc i:000- 1 Carbon ittr.iuorid. ll9lC '0.2J0 ppol ND i Erh.nr llgl(l !-7{.a4-01 nlo NO iE@il-Eilil toh.ldehyd. il9l(l l5ol 14.G19 ppm ND i Hydrcaen (hloride [i9if] lu.rn.ne lll lCl F4-A:-gl Llerhrnol 011:j 15i'i6 l) Nird. orid. It9rcl ir0l02 r:;rr.9e^ Din!rr. [!,]fc o, N0 Nar i r,3."9 155 Fpm No lnlD lrD NO ND ilD I:D r.ilr('gen:tr,irr:Frla.],.{ f\a' l.:l liivous Oxrde il91f1 il00; ND IJD trop3ne llgl(l 17r-96-Bl its.i.ir)pFrn IJo ProDylen. []91O 11 15.07- 0.501 Ppm llo sutfur He<aflulalde llgtcl No NO \\r.rer 119l(l [77]2-1S-51 10.456 % ND 17.000 4.75t- PPn 259 G258 26(J Date Company Station 11-Mar-25 Unit FTIR Analyzer c-258 MAX IR OO98O Altamont LLC Bluebell Facilitv Gas Plant Validation Summary Table FTIR lnstrument Make Model Serial MAX iR 00980 lnstrument Checks Readinq Soecification Pass or Fail Sional lntensitv 0.0936 > 0.04 Absorbance PASS Detector Linearitv 0.095 <0.1%PASS lnstrument Resolution 1.037 104 +l- 0.04 cm-'PASS I nstrument Freouencv Precision 3133.064 3133 068 +/- 0.020 cm PASS Oriqinal Laser Fequencv 1 s799.390 Calculated Laser Fequencv 15799.410 lnstrument Laser Fequencv Shift -0.02 +O OA nm PASS Direct Calibrations Readinq Soecification Pass or Fail tthvlene(UrHr)-Ul5 1.14o/o + 5% Certifled Value PASS Acetaldehvde (C"H,O)-2.44Yo x 10o/o Certified Value PASS Svstem Resoonse Times Readino Specification Pass or Fail CTS > 95% of Full Scale 0.58 < 5 minutes PASS Svstem CTS 0.12%t5% Direct CTS PASS Minimum Detectable Concentrations Calculated MDC #3 Units tthvlene (UrHa)2.9958 ppm Acetvlene (CrHr)15.2479 ppm Propylene (CsHo)4.4046 ppm Prooane (C"H")1.8463 ppm Butane (C,H,0.5784 ppm Formaldehvde (gH,O)0.9305 oDm Soike Compound % Spike Recovery Soecification Pass or Fail Acetaldenvd€ (UoHrU)95.71Yo 70 - 130%PASS Run Validation: Automated vs. Manual Taroet Analvte Specification Pass or Fail Test Run #1 Averaqe Spectrum Ethvlene (C,Ha)t2004 PASS Test Run #1 Outlier Spectrum Ethvlene (C,H,)x20o/o PASS Test Run #2 Averaoe Spectrum Ethylene (CrHr)120o/o PASS Test Run #2 Outlier Soectrum tthvlene (CrHa)X20o/o PASS Test Run #3 Averaoe Spectrum Ethylene (CrH+)r20%PASS Test Run #3 Outlier Soectrum Ethylene (CzHa)t20%PASS Test Run #1 Averaqe Spectrum Formaldehvde (CH,O)L20o/o PASS Test Run #1 Outlier Soectrum Formaldehvde (CH,O)t20%PASS Test Run #2 Averaqe Spectrum Formaldehvde (CH,O)t20%PASS Test Run #2 Outlier Spectrum Formaldehvde (CH,O)t20%PASS Test Run #3 Averaqe Spectrum Formaldehvde (CH,O)!20%PASS Test Run #3 Outlier Soectrum Formaldehvde (CH,O)t20o/o PASS 261 Pre-Test SNR () hlAIAcquiiliond.C vl - MAx'lRR3 lil. Edii licvr Icols !e!p O.y I m.i ir00960 tr.in I B6P 2U25"03\t l\!l illoo- eig.otp A G.rT.npr 190.9'C Dttdtor]tmPr N/A Pr.rrurc: 1 39912 ATt'l Signll Stcngth: 29.3 i s.,l:,!g l [l P.ur.sP(lrumccll(tion SBr.m lltelriat Mu H.ighi 0.0933 H.i-oht tL 99.8 % Hqght 0.0936 0.it5 l,ut c.0r94 c.258 0.0693 o.lcl i.11: 0..136 ..,A,,/\/\,,---^ 2025-03-11 Altamont Bluebell Gas Plant Units C-161 & C'258 FTIR 00980 4-1 262 Date Company Station 11-Mar-25 Unit FTIR Analyzer C.258 Altamont LLC Bluebell Facility Gas Plant MAX IR OO98O A8.2-A8.3: System Performance Verification - Dry Ambient Air A8.4: Spectral Comparison of Difference Spectrum - Effluent Pre-Test Post-Test Analysis Region 3131 to 3135 3131 to 3135 -1cm' Sample Spectra Line Position (Freq)3133.064 3133.062 -lcm Reference Spectra Line Position (Freq)3133.068 3133.068 -'lcm Sample Spectral Resolution (FWHM)1.037 1.050 cm Pretest Spectral Resolution (FWHM)1.057 1.057 crR-' Line Position Shift -0.39%-0.57% Resolution Shift -1.8S%-0.66% Hzo Ethvlene cH2o Run 1 oo)(! 0) Manual (ppm)16.827 0.885 -0.109 Auto (ppm)17.156 0.802 -0.1 02 Error (o/o\-1.glo/o 10.36%7.O3Yo .9 lo Manual (ppm)19.954 0.805 0.016 Auto (oom)19.639 0.791 0.015 Error (%)1.610/o 1.81%8.03% Run 2 oct)G 0) Manual (opm)17.991 0.745 -0.074 Auto (ppm)18.020 0.728 -0.083 Error (%)-0.16%2.34%-10.57% .d) fo Manual (oom)18.995 0.505 0.054 Auto (pom)18.665 0.518 0.050 Error (%\1.77%-2.58%7.10% Run 3 0)o)(! 4) Manual (oom)17.113 0.740 -0.035 Auto (oom)16.980 0.726 -0.032 Error (%)0.78%1.88%9.24% .q fo Manual (ppm)20.230 0.847 0 023 Auto (oom)19.888 0.817 0.027 Error (%)1.72%3.66%-15.32o/" 263 2025-03-11 Altamont Bluebell Gas Plant Units C-161 & C-258 FTIR 00980 4-1 Pre-Test Water Band (> t'tAX A<quirition 1.0 \'1 - lnAl'lR R3 lile Edir Vew lool, lielp 0!y 1 mu ir 00980 trrin 1 8GP ?025-01\.1 1\r1 A(u.l: l,1l!.f6i I :ilrr?(: I lli:Ctl! G.r T.mp: 191.0 'C Dctedor T.mP N/A Pr.!*B: 0.9e075ATL,l 5i9..1 SE.nglh 26.2 i-*Pfgil [l P.ore spxhh coile-on t7,i IwrtcrBrnaW lgnm Mdric! .......-. ___ - ITr.ckPlltAt l1li.c68 " :tt'c'rl I Pclk tord.nr 3.11J.064 - | . F#HM: 1.017 ,r-.----,II S.rFro3u.no ! I Giga.l Lt3d Frcq: 15,799 390 ComFUEd L.r.r Fr!q: 15,799410 I ilster gso Peai Hirtory L.gr.d E z!6 Frll.d slnrpl. sp.Elrum E A(tu.1 s.mPr. sP.,rrufr E rrrSet Fcak Locrtion E Aed P"st le.tion UA.qu dnq Post-Test Water Band l: ur(:ftdEir.n -Rrtr rr ii i lir lr.n f.r'f'to'9,0.oL n a:Y!r,"Yx:Hill?i{$!!!@f,$tl|j:i'E fi*f?.Itlr- tu-- aEt.D brcd lri :Vj'iiil..i'.-r tt.!9fu<.g* l;;;;cl' ir,*\Hr i L!4 :ihtu.fi- 3.,3u6r I .@rrnb rltE 264 Altamont Btuebett Gas Ptant Unit C-258 FTIR SN #00980 Run 1 Average E) *2 - klM-Analyri$4.1 !4 File Edit VG|Y Tcc,r delp L.nu.l V.lld.tion Vi.w - Spe(trum .-- i Ruo 10000592LA9 i S.rn nmr: 3/11/2025 1 lr51:19.0 iUiC -0;:00) j con mrntt, Valid.tinq A(elald.hyde l19lCl fr5-07-Ot l --iBil L A99r.9.t. M.tict I Errcr: 40.19 R', I 0.8142 G.r ld A.etald.hyde il9lcl (75-0 Aietlen! tl9lCl 171-86-2j Acrolrin ll91Cl 1107 02.41 Anmoni. {l9lCl P66r.41 8ut.ne llS9q 1106.97-81 Carlron oioiid. [191C] 112 C.rbctr lvlonorrd. lD.1000 r:.rbcn Mcoorida llG)11. I Carbon,tehalluondr il91( Erhrne Il91() t{-3{,ll Qurnl Quant 0.809 ppm 6.112 ppm NO ND 2.60 ppnr 9.961 !; qi -----,^-iP.r.hi JOItr INDIr.ro INolN0 INoi t10 I NONOi -0o29 pprn I'lD ]r{o r.ro I@@IEEilNEIFcnrl!ld.hyd. (r9rcl l5r-( Hydroqcn Chloride [191C] l,!irtr,a:l9ral I;r ill ':l t'lerhri,ol I I 91 il lr;7-56. 1 I Nitri( Or,Ce (l9l(l IlOl02 tuiro!en oioridr l0-100 pi liirrog.n Oioridr 1400.im -0 109 ppnl l.JD INoNol :i.1.'{ !tr1 1.0 TJD TIO NO NO N0 rio i , t.'tcu: Old€ lMcl I1O0: IJD ljC ,I Fropln. ll9lq l7l-96.d) .2.d0 ppn IJD I Proprlenr IlglCI 1115.07- -0.{87 ppm ND .. I Sulrur H.(ailuond. Ilgrcl NO NO iI vi.rrr tlglcl l77li.l8.Sl 16 917 % NO it__..i Ethylme ll9lc| fI4-85-ll i 0.c0c 54.000 08aS ppm 265 Al.tamont Btuebel,t Gas Pl.ant Unit C-258 FTIR SN #00980 Run 1 Outtier @ ,,.: ,r,:l i,,,,..;,..r i: y,: File Ed;t Vr${ Tools i{elp M.nu.l V.lld.tlon Vl.w . Spa@m . Run 1m005?t.LAB . s<anTime l/11/202511132:47.3UrC'05m) CommanB: eq entqs4*,hl Bi'I i 1 Aggregrt€ t$enics attor 13.71 "; :; ;; ;i; . crt ld A(.t.ldrhyd. (191C1 I;5-0 Propylen. n91Cl Ii 1 5.07- Propant l191cl [74-98-6] Nrlrolt Orid. il91Ci l10C; Nitr.!,rn Diotid. 1400-3OC llilro!.n Dilrrid. [C-{06 F, NiUr. Or5. ll91:l iit)l : Llethanrl l191Cl Ii7'i6-1i Llethan. ll9iC) I14 82'81 Hld169.n ihlnride 119-1cl iu lilr ilii-i:u,:tidi ll ) i Fom:ldehr,l. llrl(l [;.]-t Erh!ne l191Cl 7J-8{{l (r.b.n T€tailuo.iCe Il9li (srbDn l,lonoxid. 11000-l c.rb.n Mcoord. i0.4c)0 Carbon oioxid. ll9lCl [12 gLrzn. I199q ll05'97-31 ailmon6 il91Cl {i654-41 A(rolejn 1191C i107'01-el R', 0.3315 Auto M.tru.l Qu.nt Qu.nl 0.485 ppm -0.1 20 pph -2 ?10 PPm IJD ND N!a u5 NJi 65.rYJl Fprnilc.Jl 0.016 fpnr lll -0.,)S'; I,rrm Ni, s.509 % 2.12 ppm I'D N' ql - ---- )Plrr.nl iDiff : NONDi NO. Noi ilol NDI Nol ilD lNDi l:D NO NO. Noi NDl flDi Noi Noi NDi NOi Elhyl.ne 119lCl 174-85'1i I191Cl P4.86-2:7.556 pDm o.eOS pp, Wilrr I191C fn32-18-51 19.9t1 % 266 Attamont BtuebetL Gas Ptant Unit C-258 FTIR SN #00980 Run 2 Average E I.:.,,. .rl Fde Edi: vra* Tool. Helf M.nu.l V.lld.Bon Vitr 5p<uum R0n 2000069{.tAB Sc.n lme: i/l 112025 12157:02,9 (UIC -05:00) Commentgl -0.:n' 9 q I A U! a. "^t:'1td Eack ! A99r.gata I'letk! tnce 8 66 EI I I l Iqldrr- -.'. -dJ / 'el Auto6nr ld QU'Nt A.et.idehvde IMo 175-o Prcpylenc l191Cl ll i5.07' Proprn. I l91q 174-99-6) l{ruour Oirdc ll9l Cl (100; Nilrcren Dior,de llr0-30C Njncgen Sroxde l0-,100 p Nir,. Oride ll9lCl 110102 l,l.tharol l19l(l 167-56- 1l L1eina6. (19iCl Ii4 82-8j Hldrcsro Chlo0de [19]Cl 5!llur Herrnuorid. ll91Cl f orn,.rldeht/ile I I 91( I Iir.r-l tth3ne l:?lal 171.5{.tl (.1,D.n T€!afl!c,i:le ll! li (3rb:n tlrrio..i!'. i lirD-1 C,rbon Mono):ide i0'4000 ':ilf.: ircr!:1" t11'C) il2 aui;nE,l:iCl lil!.9;-":l Anlmonid i 191(l [76.;4.r1 A.otslr ll! lil Iln7.0l-el 1(et,l:n. tl9lal 174 56-l --ltri",.t - P...."i Qurnl Oltf C.595 pIn l'lo -0 -rg9 pprn N0 .2.001 ppm ND IJD ND NO NO NO uL\ tJo Ntr I'Jo Nt) 9:.101 ccm llD ND }iD -0 07J plrn ll0 ro lrL) -0 0i:) ptnn flo llD t,t, NO ND ti.?c. j1 t;c l.i: i.t:rr llt flo liofrD rlD I lO.99U pprr l.O ]ril,lTGilNDI' I7.9t 9; frD I I tihyl€tr? ll9lCl I7{.85.11 """i!lll'll":l lo'l 57 100 0.r-{5 pFrn 267 Attamont Bl,uebel,l. Gas Ptant Unit C-258 FTIR SN #00980 Run 2 Outlier s'.,. Fil. Edir Vie/ ioclr Felg M..!.lhlid.lion Vifl - Srctrum Run 2m007l9.LqS s<anTlma 3/11205 1l:i6c5 1 rurc -05:00) ' Comfian[g: Aggre!a!. Mltri6 Edon 15 05 Rr: 0.9745 Q- ,,r !o .'.t Y.q Manu.l Par(ant Qu.ni DlttG8 ld Acerildehyd€ l191cl i75-0 Propylen. l191Ci 1115-07- Prop.n. l19lCl fr4.93-61 l.li.rous oxde [191C] i1 00i iliiloqen 0iovjde 1.100-:C0 Nrtogen Droidr I0.400 Pi tiirric Oxid! Il31(l [10102 Ni?fianEl l19lCl 167-56'11 tvlethsn. Il9lCl 04-82-Sl Hjdrog.^ Chlcride 119 lCl Sulfur Har.fluorida Ii9iC] F(im6ld€hy,lr [:9ia] l:Cr Elh.ne il?rCl [j-a-Ea-i1) aarlror iit3,iu({;aa [9]( ailbon Y.{lctridi ilaa!- I (arbon f,lononida l0-J000 aarbof 1i1i,le l191il l!l Eui.6e il5;:: i,:,;i;'Ll Amhonij I:i::l t76'j4{ I A(.cl.in Il9la !107-0:-gl A(elvlen. It9:<l F!'95'2i Auto Qu.nt 0.655 pFN l.lD -0.299 ppm N0 -2222 ppm NO r]D N0 I]D NO flD r.lD : NONOi ,.lD l.lD 54.016 opnr llD N0 lto i.lD NO r.r.O5{ Fp'n fJD NO NO .U.l 111 pFm l{0 :{i rll ND NO !:r6'i \c .).ll I FPI il; :!o ilo rl, rlo 2r).120 ppnr flDEEEIil 18.995 tr NO 0.505 ppm Water l1 91q t7?ll-1 8-51 i 0.000 €hyle6e 1191Cl [74-s5-ll 268 Attamont Btuebett Gas Ptant Unit C-258 FTIR SN #00980 Run 3 Average El 12 ' vl,x-anut,i., c.t ,,1 File Edil Vi.'e T.ols Help M.nq.l V.lldrtlon VIGW -Sp<irum -----Run i00O0799.tAg S(anTime l,/li12025 1419:11.4 ruTC {5:00) Comm4nB: &qreg.te Meri<s [nor 29.3] Rl: 0.9959 tDl t,a 1-'a ' , Iql 6ir ld A.rtatdehydc il9lCl 175-0 Froprleo! l191Cl [1 15-07- Propane l19l(l [7.]-98-6) Nruous Crde [191C] l10C; N(rog.n Diorior l{00-lCC tlirogeo Oioxidr [C-{00 p! NIri. Oxid. I19tCl Ir0102 Methinol ll9lCl [67-56.11 Mrlhan. ll9lQ f/4-82-61 Hrdrg.n Chlorid. l:9141 Sullur H.x.ilu,)rid. ilrl(l formald?hrd. {19lCl [501 tihlne l19l(I 14-34-01 C.rbon'er.fluo(d. il91( (rrbcn Ll :ilc,$i: Ir0C3-1 CarbLrr lvlcnorrde lD- 4000 i.tr.n 0,.{id. l19lCl ll l eulrrr ii;f-l i ,-'. il.:l An,E!nra il9lCl Ui,5l-41 A(roleio l191il i1 )7.:,Z.el Qu.nt Monurl Qu.nt 0.560 ppm -0.599 F.pm .1.693 ppm ND ND ND ND IJD 80.0S9 ppm NO ND -0.015 ppm ND -11.0:2 rpnl N!i ND ic.1a I 9al.li tprn r!0 NO 8.9€l cDm Pc(ant oin NO ND l.lD NO mo NO NO NO t{D flD NO ND NO l.l0 NO TJD fiD t.0 NO N' NO i Wrter t191Cl t77j2-18-51t-...--_-.----..-,, .Erhyrene nolCl 171-85-ri ---- --- -. 0.1'01)53.000 0.?{0 ppm 269 Al.tamont Btuebel,t Gas Ptant Unit C-258 FTtR SN #00980 Run 3 Outtier B +2 - t'!A,{-Anilytic5 4.1 v4 iile Edil vierY T.olt iltlp M.nul V.lH.llon Vid Spr(rum --_'- Run 30000BJZLAE knn nm.: 3/ll/2025 14140:18.3 (UiC'0i:001 Commanls: r=;l I A99r!9,ta Mall<3 I g*o, 29.31 R', 1i.--.. ..-... -.-...-.. ior + -o:z n, 0.8959 GE. ld A(.raldehyde il9lCl [75-0 ProF)l?n. l19lCl [115'07- FropEn. Il9lLl 174-9S.O tJirrous Ori,l. ll9lCl ll00: Nirrogen Dlctide [400.]00 lJruogen Dio:ioe l0{00 Pi liitri. Oride 119lCl ll0l02 t'l.thinol []91C1 167'56-1, Mdhane il91q [7i-32'31 Hydrca.n Cnlor-de ti9!Cl Sultur H.rsfluoridr il9rC) Fa',n!ldehyd. fl 9lal 150{ Eth.n. I191q i4-4.1.!.1 f.rbon ;rk;fl ooridi il9l( C,rbon l/3turr,Je !loiC-l Cirbcn l,lonoxrde I0-J0Lr0 C:rt'.n c)i.\ia? rlllcl ,11 Bu.r. il;!al irf a'rl'il tntrcnir 1191(:l Oir6t- l1 A{rcleir l191Cl IlC7.i2-61 Quahi -1.595 ppm N0 ND ND N0 I'lD ND I'r0 ND NO ND l.l0 40.121 ppm IID N0 fro NO ND 0.02,r ppnr N0 ND I'JO '0C93 ppn, llC irc l.lo ND ND 9.ii:1': ilo i 59 Dtn htl I]O NO iiD fiD A(eryl.nc [191C] [i4-86-ai 7.]51 Fpin t'lD@i@IE@il 0.9.17 pprn wrier tl9lq l77l:-18-51 20.210 v. ND 270, FTIR PRe.TeSr QA/QG 271 Aooendix AL: Test Plan Requirements - MAX-iR SN 00441 ZnSe DTGS Test Run No. 1 Test Run Duration 1.00 hrs Background Scans 100 Sample Scans 50 Spectral Averaging Time 1.00 min Compound Formula lntertera nts ExDected Concentration MDC#1 MDC#2 MDC#3 Accurac!Precision Acetaldehyde c2H1o Hzo 0 to 50 ppm CH2O 0.1615 0.4909 0.6454 +l- 30oh Carbon Dioxide uUz 5 to'15%0.002'l 0.0'187 0.0648 Ethane C2H6 Coz 0.0172 0.1407 0.5269 Ethylene CzHo CO,0.1 557 +l- sok Formaldehyde cH20 Hzo 0 to 100 ppm 0.0213 0.0000 0.0000 +t-30% Propane C:Ha Hzo 0 to '10 ppm 0.0717 0.8159 0.4492 +l- 3004 Water Hzo 5 lo 20oh 0.001 2 2.7758 0.0639 272 E =E Lq :O9o !, ii sl6glo ,t; <l E.:t > El ec6 oll F'.llaI or ll(,ll sll .-., ll\r ll\fll 3ll zll(, ll 04 ll'i ll IllfI allell6J ll!ll UII dll Ell!lltrlloll(Jlltrllolloll,ll Eil <-l ll oJ ll cl ll ?ll Ell dll EllNll<ll Elltrll6r llp.ll qt Appendix A3: FTIR Reference Spectra Reference SDectra Daie Conc Path Length Conc Resolution lcm-l) Temp ral Press (atm) Spectral Fledl6n Appodiation Function Acetaldehvde 11t18t21 10.u / 3 q86 99 320 1.0 19? 766 1 011 987.110 to 1,218.434 Cosine54 995 9.86 qa) )s1 l0 '193.204 1.012 109011 986 1.0/4 64U 10 1S3 120 1.010 Ethane 1t512021 6 700 9.E6 65.062 10 192.194 1.01U 2858.000 to 3054.000 cm-1 Cosine 8.300 c86 81 838 10 191 919 1 006 16 000 9.86 1 57.750 10 1 91.E62 't.006 51.000 s86 502.860 10 1e? a2a 1 003 127 000 9.86 I )5) ?20 1.0 192.915 o c96 203 000 986 2.001.5Ur 10 192672 0.9c4 500.000 9.86 4 930.000 1.0 192 395 0 s94 4t112021 9,860 000 985 t0 188 452 0.999 1.088.303 to 1,156.747 cn-1 Cosine 1 952.00U 946 19 246 720 1.0 , aB 761 0 99S )4 2BO OOO 9.86 21q doo 800 !0 189 E94 o qqq lt) 1 /t) {nn)s86 297 .4 t6 .20t)10 189 325 0 999 35 990.000 9.86 354 861 400 t.o 189.130 0 ccc 41 740 000 986 41 1.556.4UU 10 189 374 0.999 41.420.000 9A6 d67 561 200 1.0 188 699 0 999 53 030 000 9.6tt 522,875.800 10 189.44E 0.989 64.060.000 986 631.631.600 10 189 230 0 989 74 840 000 9.86 737 9)) AOO 1.0 189.575 o qnq 85,370.000 s85 841.144.201)10 149 762 0.990 95.660 000 046 e43 207 600 LU lAq 878 0 990 100 720 000 9.86 993,099 200 10 1 89.58ti 0.989 1 1 0.ti /u.uuu 986 '1 09'1 206.20{J 10 18C 32S o 990 1 20 410 000 9.86 t 1a7 ?t2 600 189.377 o q8g 12q q30 000 986 1.281 .1 09.UOo 183 140 0.989 't39.250 000 ca6 ! 373 005 000 1 Aq 607 0 98S 148 370 000 9. tsti 1 46) 9)B )OO 189.2E3 o qac 57,300.000 986 1.550.9/6 0U0 IBB t22 0.989 t56 050.00u 9.86 I 637 253 000 1qo o2B o c8c 172 9)O OOO 986 1 . /04,991 .2UU 0 1 88 967 0.990 I 92.650.000 qa6 1Aq i78 0 s90 207 1 90.000 9.86 042 893 400 1.0 1u9.134 0.990 c02 7n 12021 I 0.36 3.93 1 oa6 102 385 560 1q2 053 1 006 874.700 to '1.1 34 600 cm-1 Cosine 20 554 405 9.86 202,666.433 0 191.952 '1.006 10 51 7 q?7 985 300 906 859 192 045 I 006 40 280 780 986 307 164 491 192.079 1 005 \1 A?S 109 986 50/.u51 5/5 0 192 023 1.006 60.773.403 c86 599 225.754 i0?011 1 006 71 44S 890 9.86 70d d05 915 0 192.O{J4 006 80,409.088 986 /92.833.6rJ6 19? 126 1 006 90 645.834 L86 893 757 923 1.O 1q2 ns7 1 006 100 657 156 9.8ti 992.479.558 192.O20 't.0u6 I 10.450.421 s86 1 089 041.151 I S2 004 1 006 120 032.685 9.86 1 183 52? ?74 192.144 1 006 130 734 085 986 1.289.03U U/6 0 192 032 006 141.1 /6.31U 986 't 3s2 018 137 1C2 104 150 113.248 g.a6 1 d80 1 16 625 1 92.094 160 099 606 LA6 1 57A 5A2 1 15 1 92.09 /1.06 171,057.366 9.86 1.68ti.ti25 629 0 '1S2.01 I o0ti 180.560.289 986 1 780 324 450 19) O37 190 S93 926 9.86 1 AAi ?OO ',l10 0 1 92.03ti .u05 200,047 870 946 1 912 .41 1 .994 192 073 21 1.083.815 9.86 2 081 285 416 1.0 192.200 ?20 759 131 986 ? 176 685 091 10 1 90.O90 ].UUb 230,199 998 946 2.269.t t1.9ts1)10 t92 080 1.006 240.425.O52 9.86 2 370 5Sl 013 1,U 192.165 I 006 254 292.0 t2 c.66 , 507 319 830 1.O ],UUb Ethylene 6t22t2021 49.03U 9.86 483 515 {l 1 91 820 o gss Cosine 96 499 9.86 951.480 10 191.t t9 000 )ao 736 986 2.3t3.651 10 1 91 760 0 996 4C8.ts23 9.86 4 918 395 '1.0 191.777 0 9s2 776 204 La6 7653d11 't0 0.992 998.249 9 442.t35 1.0 191 850 0 s92 1494.2t9 14 773 031 1.O 1St 7't0 o 9c3 1 998 913 9. Ett 19,709.282 10 191.693 u.993 2.525.484 986 24 901.2t2 191 717 o s92 3.UO1,UUU 9.86 29 589 860 1,U 191.755 o 9s2 Propane 114t2021 1 U,UU4 sa6 203.991 ],U 1C2 81 1 I O09 2,751.51 1 to 3,074.960 cm-l Cosine 23.668 986 305 987 1.0 193 192 1 003 50 261 9.86 305.987 ,0 t92 636 1.000 99.4r r ca6 305 987 1q3 309 0 s97 244 513 985 407.982 0 193.132 0.996 d97 300 c.E6 509.978 10 1 93.384 u.996 Fomaldehyde 4.20{)96b 41 4t2 'L0 l9u.lbb I U4U 2723.84 to 2935.39 cm-1 Cosine 10500 9.86 1 03.530 10 1S0.052 040 1 3.800 985 1 36.068 '1.0 1C0 268 1 4. /00 9.86 144 942 1.0 1 90.204 1 040 21 000 9Ab 207 060 10 1 90.1 41 1.U41 34.500 986 340.1 /U 10 190 242 1.041 46.300 9.86 476 234 1.0 1 qn 2al I O41 69.000 96b 680.340 1.0 1 9U.U26 1.u41 274 Appendix A4.4: Determination of sample cell absorotion oath lenoth CzHo Quality Control Checks Absolute Temperature (K)T,464.929 0.85 </ (fs/Tr) >/ 1 15 YEST.464.234 Absolute Pressure (torr)Pr 760.000 0.85 </ (Pr/Ps) >l 1.15 YES P.73S 515 Concentration (ppm)96.499 l(Ls-Cs)-(Lr-Cr)l </ Factor of 2 YES c.102.210 Absorbance Ratio A"/A,1 .013 Path Length (m)L,9 860 Ls 9.672 +p""ai" e+t Pt.t.t :Sec Measurement System Capabilities Gas Concentration Path Length Response Time (min:sec) Dilution Factor Recovery ("/") System Zero - Moisture Analysis (A4.3)N2 0.62 Path Length (A4.4 CzHa 102.21 9.67 Mechanical Response Time (A4.5 CzHo 101 aa 053 Equilibration Response Time (A4,6 c2H4o 101 33 1.46 Analyte Spike Recovery (A5)c2H4o 829 008 98 74% System Zero (A4.8 Air a.a1 275 e.o o ou J{a st a so "1o o @ s(s6q? @o j-No o sm N a9,.saIUo of, c @qo N o oqo o o 6 o olo "E(Jq Nqo ooq6 qo o\ \ \-No o\ .E(-) oq t d co6 oq @ €o @ co ooi oo "Eooo ao 6 Nm o o;mo @1o rqo -qEEdi5e c ric oc o oq o I o @ CJo Nqoo N rio oo -c--oJo q o o o 1o ooo qo 1o , oo =o:Gi5L o o occ qo cc o o oqo o OE4a!qLYo 6oo !Ic qo Fq dlo q ,Il rq O^LC Oorq o \o o o N\N\o tsro cPc oqo @\o "E:)o Ix:o o o oao omc @so @c?o =Eo;=EOhs oo- 6 o o i @U?ts c.,lo oc?o No pf oof! u3 o- N ci @ @€c oao o o nod r u1o t"o D !o'aEU)GqZ!o>=rIo!Goo I 5 @N oooo o o I 5 Nooooo o 6 m ). @N oooo o:o I 1 5srcccc q: e ; cccc c 'a dI ooooo o'o @ J.i o oo o'd I *il =tlzlall cll !ll ,^.tl Ell CJ IIlr lluil b0ll Ell "Blloll Ell fll<tl #ll Fo oootr qa I tr o >cq @a sx tr otso 69,.!alDo @c?@qo N o roc, 6 C oolo N o NNci .E(Jqg o ol di II o':@ @ di N ooq N\@ q6 01 @ 6N o @g€ ,:?di cr ao E N\@ @\@ o N F:6 ooq @ F @ -qE€di5€ o ilio oq o on c aio @ o Nooo :oo oa o --OJd o ci N c N o C @ ryo o oo ELOOEE i5L !-qo c !?5 c 6o o dF4a!O (J Nqo o1oqoqo 6 o o oo qo o LC Oqro o \o oqo N\o N\o N\o oqo o6 @\o fo o :o @ao o1o @.!o ao f,' .i l E,gfi9 oo- o @ o oso 66 o No .!o ,c ac!o ef oo:!E'aruE o- o @ Nqo F(,c C c (, c c @ o =.o !oqEo6ozEO>=ELo =Goo o JdN oooo o:o to ),NN ooo o T 5 @N oooo o,6 @) oiN oooo o:o ! lo moooo c EU. dI o oooo o .E I 5 N ocoo o oa 276 Appendix A6: System Parameters - MAX-iR SN 0044L A6.1 : NEA See Appendix A2 calculations. A6.2 & 46.3: Line Position and Resolution - Zero Air 46.4: Detector Linearity Siqnal Avq. Below Cut-off (averaqe from 100-500 cm 1) 3rHo Direct to Cell -0.0009 Allowed Performance Ranqe -0.'1 to +0.1 \nalvsis Reoion 3130-3'137 lm' Sample SDectra Line Position (Freq)31 33.0670 :m' Reference Spectra Line Position (Freq)31 33.0680 lm Spectral Resolution (FWHM)1.046 -1CM, -ine Position Shift 0.10% 277 Appendix A7: Yerification of Quantification Algorithm Reference Spectra Daie Temp Press Certilied Conc M€asured IDoml 0ifference (DDml Etto( l%l Acetaldehyde 11118t21 192.766 10?10 073 0.073 0.0 0.00 r93.204 I 01 54 995 54.710 0.3 0.52 193.120 t.01 109.011 1 08.204 0.8 o.I4 Ethane 1t5t2021 192 194 1 010 /u0 6.81 0.'1 170 191 S19 1 005 8.300 8.408 0.1 130 1 91 .8ti2 1.006 16.000 o2 l.3ti 192.428 '1.003 1 000 51 419 05 0.94 19) 91 o 995 121 DOO 127.179 0.2 0.14 192 5 o 994 203.000 203.000 0.0 0.00 1 92.395 0.994 500.000 500.149 o1 0.o3 4t1t2021 188 45 0.999 9.860.000 9.860.000 o0 oo0 188.76 0.999 1 9,502.000 19 505 754 3a DU2 o ccs 24 2AO OOO 24 204.t61 0.31 18q 33 0 s99 30 1 /0.uoo 30.106.906 63.1 o)1 189 13 0 999 35.S90.000 35.923.227 668 ol 189.3 0.999 41.740 000 dt A3d 855 105 1 o25 188.70 0.999 a7 t)o ooo 47 343 854 36 1 0.08 1 89.58 o 98S 74 840 000 4 609 8/9 230.1 0.31 149 76 0 s90 85.370.000 85.08 1.256 2AA 7 o3d 183.83 0.990 95.660.000 95,31 5.505 344 5 o36 '189.59 0.989 100 7?o oo0 100 3sa 952 321 0 o32 8S.33 o cco 110 670 000 110 413.441 25b b 0.23 189 38 o 989 1 20.4 10.000 1 20.078.636 331.4 a9 14 0 s89 1 29.930.000 129.645.294 284.7 o22 89.6'1 0.989 13q r50 000 13P, 743 ?94 506 7 o36 o c8c 147 941 15t 424.4 029 1AA 7? o s8s 57 300 000 I 064.542 235.5 0.'15 1SO 03 0 989 '166.050.000 165.34'1.700 708.3 0.43 189 38 0.990 1 92.850.000 192.372.545 471 5 o2 189.13 0.990 207,'190.000 206 839 522 350.5 U,1 7 t7 t2021 't92.05J 1 1 763 830 1 1 253 830 oo ooo 191 .952 006 ? 276714 22 241 553 4.8 0.02 19) r]46 I O05 33 046 946 33 047.380 0.4 0.00 192 019 oo6 3 582 457 43 580.0'r1 24 0 01 192.O23 55.587 335 55 5C0 913 36 0. o1 192 011 1 006 65 639 895 65 645 70/0.01 192 004 1 006 /.100.693 77.088 583 12.1 o.o2 192 126 't . outi 86.702.763 86,701 850 0.9 oo0 92.057 .006 97.655.6s0 97,662.560 69 o. o1 1 006 108 348 912 104 336 922 12.1)0.01 9? OO4 oo6 118 /91.6/3 1 1 8.404.031 12.4 0.01 192 144 006 1 28.992.634 1 28.967.331 o.02 192.O32 006 1 40.365.426 1r'0 371 764 oo0 1.006 151.445.O22 151 424 420 206 0.01 1q2 ocd o06 160 907 970 160 893 563 14.4 0.0'l 152 091 .o06 1 /1.46/ 551 71 .451.27 5 16 3 o01 192.0 18 183 033 7S4 143 047 31 1 13 5 0.01 192 037 I 006 't93 04/.0s1 1 93.053.447 6.4 0.00 1 92 036 .00tt 204.022.604 204,029.830 oo0 1 92.073 006 213,530 936 213,521.103 92 o.o0 192.200 225 030 453 1.1 0.03 1SO 090 235.22t.4U)235,208.9s1 18.9 0.01 1 92.UEO 006 245.O92.773 245,078.389 144 001 1 92.1 65 255 759 539 255 6e8 882 60. /0.02 '191 952 t.ofti 2 /0.'t 69.349 270.245.511 76.2 0.03 Ethylene 6t2t2021 o 999 49.O38 49.03U 0.0 0.00 1.T I9 1.000 96.499 96.594 o1 o 10 0.996 240.736 239 97 5 o8 0.32 91 777 o ss2 498 423 498.855 0.0 0.0'1 191 748 0.992 776.208 771.089 o56 191.850 998.249 ccl 545 o.6t 191.7'10 0 993 1 494 ?79 1 48S 975 a3 0.55 191 6S3 o 993 1 S98 913 1 .96 /.titi 1 1 1.3 0.56 191 t1 0.992 2.525.484 2.508.699 16.8 t9t./b5 0.992 3,001.000 2.980.362 206 0.ti9 Propane 1t412021 192 A1 '1.009 1 0.804 1 0.804 0.0 000 1 93.1 92 1.003 23 668 23.509 o2 0.67 1 92.636 '1.000 50 261 4S 434 o4 0.85 193.309 0.997 99411 9A 122 l3 '1.30 193 132 996 244.5t3 245.300 132 I 93.364 u.9cb 497.300 490.560 61 Formaldehyde 2t1812022 190.',]ti6 1,U4U 4.2,J1)a )oo 0.0 o00 190.052 1.040 1 0.500 to 502 oo 0.02 190.268 1 041 13 800 13 402 0.0 0.01 1SO 204 1 040 14 /O0 14. toz 0.0 0.01 19U.141 1 odl 1.000 21.013 oo 006 190.242 1 041 34 500 34 505 o0 U,U 1 1S0 281 I 041 48.300 4a 303 0.0 0.01 1 9U.UZb 1.04't 69.000 6S 074 o1 o 1'l 274 NN 6 o o o o o l - o6 s @ o o $ 6 1 @ NN N t < $ O O I O --- - . - l F cj o c i d o o o c i l c i I f6 6 t o N - 9 1 6 @* @ O r @ O O l o @ - o o O O O v l N TN N N N N N N I N ci c i c i c i c i c i c i c i l c ; I s t o N o - - ol - @ N i t @ @ N N l d o i r r N $ + $ l $ as l a 9 a a t l a 66 6 6 6 0 6 6 1 6 I 6o 6 N - o - - 1 . @o o N o o @ o l @ N6 N 6 6 O N N I 6 qq q q q q q q l q o o o o o o o o l o I rN o o a - - - l - < N O S S A - <l ! <N 9 0 0 0 0 N | o ts F \ \ \ \ \ \ l \ oo o o o o o o l o I -N N N - o - - l * -N - @ O O F O I O 6N O O I O .. { c l c! c ! .. q a? ql . , l @@ @ @ @ o @ @ l @ I 6N 6 N o - - - l - r6 O @ O O F N I O NF O - O N O @ l @ @q o l q q o l 0 9 q l e sr s r < t 9 s l < oo o o o o o o l o I N6 N o . - o - l o oo s O O F - N l g <N 6 0 0 0 @ F l t s NN C ! c ! q q c l c ! 1 . ! 66 6 @ @ @ 6 @ 1 6 II oo o o . . - - l - 66 0 * O N O i l o NN - 6 N @ @ : l F c. i q c ! q \ c a : ( l a .6 * 6 N r r o : l N I o6 o o N N @ ' _ l { NO O N O O O @ 1 6 o6 o ? - O t s < l F !9 c l c ? c ? c ! q . ! l n oo o o o o o o l o "' t ' I ^- ^ * l - N- @ O O N O O I O o6 0 N F O N @ l O \o q \ o 9 \ \ o q \ l o q oo o o o o o o l o II s3 5 3 X 3 € 3 1 3 6N o F 6 o L ! @ l r +< o o o t 9 0 l o d c j o o d o g cjl c , II 66 o r o o o < l - rs s Q @ q o o l o oo o o o o o o l o 60 0 0 0 0 0 0 1 o ;- ; - - - - ' _ l - 6$ o @ o o - o l - No o o N n F o l s oo O r N - o o l F oo o o o o o o l o -6 r r - - - - l - oo o o o o o o l o :-- - F F - F l - -- * - l s N i O F O t O N l d 3; s s B B s s l i 6o o 6 @ @ @ @ l < oo o o o o o o l * + r r s s s gl NN N N N N N N I 6o o o o o o o l NN N N N N N N I 66 0 0 0 6 0 0 1 FFF F I oo o o r . - - l IIII 3 -. . . . -. -l -) ) ) ) J J ) ) l q - ^i di r r i d N d i l NO O O O O O O O I io o o o o o o o l (io o o o o o o o l Fo o O O O O O O I -o o o o O O O O l I o, o, ot ot ot ot or ot l E F F F tr F F F FI o 6 E 6 i l i l 6 6 6t a 6 6 b 6 6 6 6 h l >> > > > t aa a a a a a Q a l a@ a a a a a a a l FF F F F F F F F I oo o o o o o o ( J l NO O O O O O F N @ N O6 O t O O T N O @ f o- $ t 3 @ @ N o e O o@ @ @ 6 $ 9 0 N N N ci c i o c i c i c i o d c i c i c i oo F N o o @ @O N - S S O ts @ @ @ @ @ @ qq q q q q q oo o o o o o N6 r @ - - * - l - NF @ N - o - - l - oo N + o N t 6 l N @t o N o @ N N l o 6@ @ O T N O N I O O@ N O O @ O N l t s :: : . : : . : ' : ' : l ' : ol q qo l q q 9c l o l ". _ - _ = - - 1 , -" " - : ^ - - l - :E B E E B s ; l E B[ : E E g B E I B gq P g g o g g l ? -- ; ; - - - - l - N6 o 6 - - - - l - @o F < - - . . 1 o @- o o F o o O l 9 @O N O S F @ O l d o6 6 @ N O O F I O r6 0 0 0 $ o $ 1 6 rv + t $ g t t l t oo o Q o 6 6 0 1 6 ri r ; r i r i r i r j r j r ; l d d c, c i c i c , c i d d l c ; _1 . ^ o o 6 - - _ - l * o @ F N @ t @ Nl@ .!a HH g i i E E h l j I E Eg E E S E E B I E ci ci d ci c i d c i c i l d 99 q q q I 9 g l e €o N 6 - - - * 1 . o o o i . - o - l * oN @ o o O @ O l o 9F @ O F O V S I o ro ? < o $ { O t t -F @ N N F T O t F :: : : : : : 5 1 : 33 . q 3 3 3 3 . q F nR $ t t h n B I $ $H ; F E x $ E I I d d ci d d d @ dl , i q ! T q s q q tl c ' o I o I \ C "9 el l ? + o - - o - o -. 1 = Fs B E $ B E E I H *e s $ $ $ $ q l | i 3 S 3 3 3 3 3 Bl g o ci cj c ; o o oo l c ; N@ o o - - - - l o o6 6 F - - - - l - HS ; f ; E H H E I t s EE E E E E E F I S 9 I q I q p p "g l 9 ci o o o c , c i c j o l c i tt 6N 6 6 - = - . 1 * o< @ N o . o - 1 . <F @ @ O O - r l t s OO 6 O r € t - l O <@ o t o @ @ @ l o oo @ @ 6 6 N t l @ 6 6 o o o 6 '4 ol r 4 9. 1 a a 9 s. aa l a oo o o o o o o l o oo o o o o o o l - 6 6 N o - - - -l - tr gE B E x e E E I s Hg E E B E E E I E q9 9 9 9 q 9 9 1 q go g o 9 o o 9 l 9 66 O o @ O @ @ 1 6 @N F O F 6 O $ l @ o6 6 F 6 N o N l N '_ @ O t O N N O I O oq o c o q oc e oq e oc l q q qq q q q qq l q 60 0 0 0 0 0 0 1 o o o o o o o o o l o | 6 o o F - * o - l - oo 6 6 N @ o F l N to 6 o 6 o F o l @ &'_ F 6 6 o - o l @ OO 6 6 t s f - O l @ @6 o O O O - @ l F -O O O F O { S l i oo o N N - a o l c ? di + r j c j c t r j e j a j l r ; oo o o o o o o l o oo o o o o o o l o -- ^ - l - 6r @ o - . . - l - dN N o o o o o l o oo o o o o o o l o NN N N N N N t s I N t s t s F t s F T T F I t s o o o ol q ot ol qlc c q q q c q q c l q -- - - - - " - 1 " "- . - " - - - 1 " Nd + 6 6 o < o l o o@ o N ' _ o o o l o 6N d N N 6 @ 0 1 6 oo @ o r v - o l @ qc c c q q q . : l c cq q q q q q c l q F-- t - l - -F r r l - 6O O O O O O O I o OO O O O O O O I O -- - - l : -- - - l ; 6N 6 r O O r N l 6 FF O @ O @ N 6 1 0 66 o d t o - N l 6 O'- O t N O O O 1 6 xx n n p p s s l E nn n p s s s E l e gB g g E E s s l a BB s s g g g g l " +< < r o = o o l r r v s o o o o l Nd N N N N N N I NN N N N N N N I 60 0 0 0 0 0 0 1 oo o o o o o o l && N N N N N N I NN N N N N N N I ;b 6 b 6 6 6 6 1 A6 6 6 6 d d d l - F r F l - r !_ - l da 6 6 6 6 a ; l ba a 6 6 ; 6 d l lrtt1. . . . , r , . 1 I ;5 5 5 1 s 5 i 5 1 ac o o ( D o o o m o l Eo @ N @ o o - q r l :3 3 5 5 3 3 3 3 1 SH H E E g g E E I :t s s s 5 $ s $ g l €8 8 8 8 8 8 8 8 1 -o 6 o 6 o o o o l -o t o t o , o t o t o t o l o t l 38 8 8 8 8 8 3 8 1 So o o o o o o o r 6 8, 8 , 8 , 8 , 8 , 8 , 8 , 8 , 1 85 5 5 5 5 6 3 5 1 a a a a ' a ' a ' a ' a al 5 a a a !2 ! 2 M9 l FF F F F F F F F I or l ! r ! ! r r l oo o o o o o o o l <o o o o o o o o l Foc;NIo oN@qor\o OO F N F - F N O r @ts o @ t @ o o N @ tN - O O t s O N N O o@ o @ @ o F o s o -- - - - - ; c i c i d @N $ O O O O O T @ 6O 6 N @ N N O O N o6 0 0 r o s a o o vla 9 c ? 6 l c . J q \ q q OO O O O O T o $ $ TO T O N O F O O O @3 $ - O @ N @ @ r NN N - N @ O N N N qq , : c ! a q q - . o l q OO O O O N F F O O {O O @ N - O O @ O 66 6 6 d 6 6 N O $ oO F O t 6 O N - @ 6t s F O S O S 4 @ @ cid d c i o c i d o c i c i ts O O o 9 O . _ - - 6 3E 3 5 S 3 x s 3 g NO S @ O - N 6 6 S s! $ . ; . ; 5 o o s o ss : H S ; & ! 8 8 6 S S O V S -. \. _l' . ct c j c i d c i o : R R E 6N N 6 t s @ r : I ! - o E ER E s s i q s e ; do c i c i c j o $ S q t oN @ t @ o s @ o 6 g$ N @ o @ r @ o o r@ t o o o o @ $ N d{ 6 6 r 6 6 O - O i@ - d o d - d r j @ NN o d O F - 6 9 O NO N - $ t - r O $ $N O O O N O O O O OO T N N T @ - < O \ oq -: !q oq . . ! q \ c! a oo r - o o o 9 o e oo @ o o N N t s @ o @r o @ o s $ @ N s so @ N o 6 t s o o 6 o6 6 6 @ N F @ @ @ do o c i o o o c i c i d oN;NqooNoqooqo 6N ! 9 o a o @ NN U O @ @ N $- f O O N O oo 9 0 0 0 0 cic i 9 c j c i d c i @@ o o o o o @o s o @ o o NN N N N N N qq q q q q q oo o o o o o t1 4 6 6 o F N qr ! ? N o o o N 99 0 0 0 0 0 qq o o o o o ?9 c j c i d o c j {O @ O O F @ to 6 N r o o os 9 t o s t qc c q q q c oo o o o o o Nt s d O O @ @ ot ; t s @ 9 0 oo ; o r @ ' _ or i j o l o q ?9 c i ? 9 ? ? NO O O O N N ON 6 - 9 F F OF o O O O T dc i o o c i c i d oo $ N o N o @@ F T O O O oo o N o o o Fr N O O $ 6 cic i o o c i c i c i NL s o S $ @ -: < N O O O -- O N O O T Oo O o O O q o^ o o o o o @@ r 9 F O O @ Nr : q Y l ! q 9 ! 2 O@ N 6 @ O O r FF N N (b i d ( b b @ @ ( d i o oo o o o o o o $9 $ 9 9 $ $ 9 NN N N N N N N oo o o o o o o NN N N N N N N oo o o o o o o 66 6 6 6 0 0 0 od ) m ( I ) ( D o o -J J J J J J f !c i F C i o i c i ; 6 i qN d N N o o o -6 o o o o o o oo o o o o o o io o o o o o o :o o o o o o o 'o o o o o o o 't t t t t t l u u.l uJ tl J tlr ul uJ ul zz z z z z z z coJdYo "i 3 eOeO,o o ElohGO g) c D ootsc;@Nu?@cN oqooo NqtsoooNoood oNNdoocoNoNc;rqoo@tsqo NOoodc i @tsNroo@qo t@ O F @ N oo @ o r @ @o 6 0 0 0 NN N N N N ci ci c i c i ci c; ss N t s o o 66 6 0 N F NN O $ 6 r -F N O O N cic i c i c i d d oo @ N 6 0 v$ t s o o NF t s t s N F oo o o o o c, o o d d o @o O @ F F ot o o o @ OO O F T N qq o ? o l q q -F o o - F oo o o o o @Fooc; 6O F < N r ^ N-6 C 6 0 ; Fo - o r x e oo o o o o 6 99 ? 9 ? 9 0 oootlJz $.+za ot s qq@9@o NO ooqq NT T F F O O N ^ . 60 6 N : l 66 e o o N N @ ) . l qq c ? c ? c o c q o i 6 6@ @ F ; o) @ 6 t s $ O o - u ' oN 6 N @ O @ { S O< O O t s N @ O - oo @ 6 @ o o o o oo o o o o o o o cid d d c i d c i d ; oooNocoo@Iod.,doNoNoo @Eocoo @N@@@@ooci oooo9Y] C ci ci ooNNooNNoo66 d] IairaooooIoEi:ocooodU)FO rD-., ]NtsooooIo.EFocoootaFo OO $ N O r @ O S -3 - O O @ N O t s ON @ T T N F t s T oo o o o o o o o cid c i c i d c i c i c i d 60 0 0 0 0 0 0 0 Ft s N r N @ O @ $ r'_ N N O O S S O Gi G i Al d i 6 i n i 6i c i a i q? 9 s 2 s ? e c ? q ? q ? s ? 6@ @ @ @ @ @ @ @ oo o o o o o o o $s s s s $ $ $ t NN N N N N N N N oo o o o o o o o NN N N N N N N N oo o o o o o o o oo o o o o o o o om o m @ c o m m o d ) OIJ J J ) J J J ) ,o d o i c , - o i e i s d d ., @ @ N t s N F F N f =o o o o o o o o o Eo o o o o o o o o i: o o o o o o o o o ' oo o o o o o o o oo o o o o o o o o or t t l l l l l l co o o o o o o o o 9E E E E E E E E E fl - t r i : t r t r t r t r t r i : oo o o o o o o o o ta q a a a a q a a -c c c c c c c c c do o o o o o o o o d o o o q o o o d d cd i o d o o o o o o yd . 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' . c? c' l . ! c? cl i A q' : c? q q q \ q? oq . : q \ 9 q cl u) - - ^i .i - - d - ct c i d d o ci o o d o ci o o o o o o o o o o o o o - o Q o o o o , , -i 'i ' ' - ' - i . I i T f f f f i I - I r . I - i I I e3 s 3 8 P r 3 6 3 P & e 8 3 8 i 8 3 8 E ! 3 3 8 E & q E s s : B p p R e b : Ra 6 3 s s R e 3 3 3 3 3 P 3 ! 3 3 s 8 3 f r €6 q f i qE E r e ; K s l e g* ; ai o i qr q i !! ri fj 6i oi + o N + + $ cj r, 6i - - - ci e p g e g ; ; ; ir i ; "; .l . l ; ; -O O 4 O N O N N - F - es 3 5 R S R 3 € 5 3 3 5 3 S P P 3 3 3 S g3 b R R R 3 R 5 R 3 E 3 3 5 3 g3 = .- i 6 A i d ' s b + o o ; n : o 6 o @ 6 N o F F F r o o o o @ { F @ @ r - s o o o d C "! C "l i C \ q q'l a al o? c? . ! . . i . : q q. : . : ^l c! . . { c! 6{ ry . : ' : . : . : ' : ' , sl : : c! ' . . : ^ + < ei - ci c i 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 o o o o o o u i i i r - f i - - -. f i - -- . -. - I r I NN r + N o o d o O N @ @ @ @ g O O @ @ O S - t $ $ t s O t s O N O @ @ S O O O O sE B s s s E g R gS t s 3 e E K e g R E s 3 s B P 3 3 3 3 ? 3 5 E e D B R 3 3 ai : ; ; ci o i o 6 c j 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 ; ; - - : d c j o : ci c j d c i o ; - - d - - o o o ci c j c i o d c i - ci ci d ci o o ci d c; 5 Eq ! 3 E gf E S : g oo e F FN t s o $ o o ! o Fo o oo s o @ 6 o o @ o 6 o ;B R q R q E q g f r EH f r $ I P E E H E E gH E f r $H E E H H H i l E H S H H E g 3 E 3 $ E I P @ s ej a i - - ; - - cj c j d ci d ci - d d d ; d d ci ci - ct cj c j o o 9 o'_ N $ O o t s o - @ O o o S go O V $ 6 6 S t S t O O { $ $ O O @ @ @ @ O O O ir i o s .i + s v + o ; ci 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 d 6 .6 . 6 cd d d i o o i o o o o o o o o o o o o @ o o o o o o o g) o o @ o o o o 66 6 6 oo o o o o o o o o o o o o oo d ) o o o oo o o o o o o o o o o o o o A ; ; ; c i ci c i d o d o o o ci d c i c t c i o ci ci ci d o o o o ci c i c i d d o c i c i ci c i o c ; ots - N @ $ Nt O O @ o Oo o N @ @ N b r s O O ts Q O@ o $ Q F t Q ( Q O @ O @ a: iro O r & ; i! : n @ N @ 6 N ; O O r O ts - E Q E l o N r o @ @ O O @ @ O ts O O O o di oi o oi o ij - o o o o o o o o o o o o o o o o P 3 e I I I 8 I I I 8 I I I P c q q c q. : . : . : . : ' . q q q -: ' : ' : q' . ' . q q q q' : . oo 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 D F@ F N NN N@ o o 9 O { O o O o E( 9 - F N F N @ O 6 $ O $ @ O O O E @r N ri o 6 s $ ui o o o ; a N N o I I o o o o F - N N o o $ $ o o o o F N N o o t s 66 6 6 o 6 o O o O O O O O O O O O - r TF N N N N N N N N N 6 Fi 6 nt rt ci o < < < < r i q a n r v $ s s i $ s w s t v s s v $ s $ s t $ { $ ii i : I a * a a ^: N * N N N N N N N t s ts N F N F F F r r F F ts F ts F F F N F t s ts bb b b o b o b o b 6 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 o o r $ $ s $ $ t I 9 $ v v v s I s l t { t $ 9 9 4 $ i St { q9 V V S S :f $ t q s8 8 3 S s 3 3 3 s 3 3 3 s 3 3 s s s 3 8 3 3 8 s 3 3 s 3 3 3 3 3 3 3 3 E S S -.i N N N - N -N N N N N N N N NN N N N NN O { N N N N N N N N N N N N N NN d d d d d d d d d d 6 0 0 0 0i o oi o t o o o ot o o o o o o o o o o o o o o o o o d d d d o i o o o d o i o o i 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 ^ m 6 0 m m m o m o m o dl d) d ) c0 d} co m m o d) co co o o o d) o d) d ) E) d) d) d) 0 m G) d] d) sl l r l f - l - l + l + + - l - l - l ! i - l + i - . 1 - l i - . 1 - . { - - l + - ] - l - . 1 - . 1 - . 1 - . 1 - l - . 1 + - - l - - 1 - . 1 + + ra + 6 @ N @ o o r N o s o @ F @ o o r N o t o @ ts @ o <) - q{ O j q) @ \. q, Q) Q = ry , d c i 6 i o @ @ F r r N F N F N t s r @ @ @ 6 @ @ @ @ 6 @ o o o o o o q, o o) o o o o o 6 6 6 6 o o iD i9 a, o o o o o o o o o o o o o o o o o o o o o (! o (! o g o * v 9 E ij c i 5 ct 6 6 aj 6 c t o o o o o o o o o o o a o Q o o o o o o o o o o o o o a o o E6 6 6 6 6 o o o o o o 6 6 a 6 6 6 6 6 6 o o o o o o o o O q O o o O Q o o o o : E, E , E , g , E, E , g, g , E, 8, 8 , 9, 8 , 8 , 9 , 8, 8, 8 , 3 , 8 1 81 81 8 1 81 81 8 1 8 1 8 1 81 8r 8 1 8 1 3 1 8 1 8 1 81 8r 8 1 8 l O T. 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F F F F F F F F F F F I - F F F F F F EE tr t r t tr (. t d tt E tr t r g. tr t t t tt t t tr u u t d d t t t t d d t d t t t 6. , , ' q, 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 EE E E E E E E E E il ; - d d 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 b b b b b 6 b 6 6 6 6 6 d 6 6 A 6 A a 6 6 A A A A A A A A A q A A A A A E a a a a a a a a a a a a a a a a u) a a a a a a a a a a 6 a a a 6 a a a a @ a a .j : 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 g I I I i6 6 o o o o o o o o o o o o o o o e o o o o o o o o o o o 0) o o o o o o o o o o N N N N N N N N N T] 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 24 2 N r o o - o ^ ^ l - N6 O N T O N - l @ oo o N N o @ o l o '_ - N N I F '_ - '_ -tF I 6h o N - - o o l - 6 0 N O O @ O @1 6 { o o o 6 r o ol o -N r r y q : q q l ' : -- - - t - I o o F 6 - o - - 1 . 6i 6 0 @ o @ o l @ .6 6 6 0 0 0 0 N l @ - ': ' . .. .: '. -' . 1 ' : oo o o o o o o l o I <- o o * - - = l - 6 < F O { F N N l o N6 O N N N F O I N q oq oq oq oq o q oq qlq NN N N * - - * 1 . NN . o 6 - - * = l * sN N O 6 - O @ l $ 6 0 @ o o o o o l o q . ! c ! q . ! . ! a'l c'l lf ! o o o o o o o o l o I oN N t s - - * - l - 66 @ O 6 @ N @ l N 66 N o N o o 0 1 6 e? t , c ? q q q l q l a o o o o o o o ol o I 6 + 6 o o = * -l- {Q O O F @ O N I N o o o < @ o t 0 1 6 o6 0 0 0 0 @ @ 1 6 .i . i c i . i d d d d l c ; II 6 N r - - - - ol- or o o O o F r l o 66 6 0 6 0 6 t s | N - - F F I F cid d c i d c i d c , l c ; II { 6 - 6 * - s -l - + s 6 6 0 6 : O I F 6O O r r O - ! 6 l F :o o : 0 C q ! e l l t N N N @ @ @ = @lFI 6N N o N o F o l o N6 N 6 N O N N I O - s 6 r ! < !u 2 q u 2 ! q q c ? v l l 9 6 6 6 < - - -. 1 - 6O O N O N N N I O r o F o O t @ O l t o o o o o o o o l o ci ci ci d c, c i dd l c ; I co € 6 - - - - l - d o @ @ r @ o N I F s o N o 1 6 ,:n , c ? q c ! c ! c ? q l c ? o 6 0 0 0 0 0 0 l o ,. . . . , | ' I 6 6 6 o o - - -lo N N N N O O O O I O 6 0 0 0 0 0 0 0 l o 6 6 0 0 0 0 0 0 l o c; d d c i c i c i c i d l c ; I 6N N 6 m o o s l c Nt< r t @ O N I S c6 @ @ t s @ O O I N :: - q : : - c - e - c E o o o o o o o o l o -- - - t - so 6 r * - - - l B , 9! : t Y? :9 ! S. Y? T: l E no 6 @ @ @ @ r l . ! oo 6 o 6 o o ' O l t NN N N I < oo o o o o o o l r< s r o o o = l NN N N N N N N I oo o o o o o o l ss s s s s l s l 66 6 6 0 0 0 0 1 --F - l oo o o o o o o l II 3l "? l :l 'l m o m m o o o ol tr i I I ) J J ) J t 9 r i d N d i d c i - 6il i@ @ @ @ @ o o o l H3 3 3 3 3 3 3 3 1 _o o o o o o o o l oo o o o o o o o l co o o o o o o o l =l l l l l l l l l Q ar nr o o o o o o l E I tr 3 3 3 ff i 3 3l u o m @ o m m g) cn l - - * - -l a a 6 a a a a 6 0l o o o o o o o o o l cc [ [ c c I L c l o- 6 @ - . * - l o o o @ o - t @ $1 6 oN N F @ @ F O I O oo o o c ! q a q l a ? -- - - t - I 6N r o - o - - l t oo N o o @ o 6 l o oo o @ @ O $ r l F FT O O I F -- - - - - - - t ; I -= - - l o @@ o o o o 6 N 1 6 o o F O O O O O I O q q . j .! c! c.l (1 nl ^ l oo o o o o o o l o I 6o 6 o o a a a l o N6 0 @ @ o N o l $ 6N N O O O O N I d ul u2 u 1 u? u? q s. qlu ? NN N N N N N N I N I s o + 6 0 - o o l o 66 r O @ O O O I O N N @ < O $ @ 6l @ oo o o o o o o l o .i d . i d . i d c i c i l c ; I o N 6 r - . . o l . rr N o @ N O 0 1 6 66 N N O N r q l d \\ o q \ \ o q q o q l e oo o o o o o o l o I ${ - 6 6 - - - 1 . $ F O O A O N FIO 6N N N < O N @ I t s @q q q q q q q l q ci o o o o o o o l o II m6 @ N o * a - l - o@ @ o o o o $ l @ 6< @ t s O o F 0 1 6 rr ' : - . - : ' . - - l - o o o o o o o ol o I 6 < 6 o o o * -1 . oO O - f O O O l O o o N o o o @ olF o q c2 c! q q q -l c ? ts t s F o 6 N @ @ l N r N + o - o * -1 . os 6 6 F O O O l t NF + r O @ ! _ V l N \q q q a q q q l c F-F F I F I dN 6 F - . - - l - rN @ @ O t A O l O FO N O O T O F I F qq q q q q q c l c Fo o o O O O O I O I 6N ( o r ^ * - - l - oo o o @ t s N @ l o .o e 6 o N @ @ O l o c'l c.! 9 c'l .: .: u1 .! lc ! :" " " " - - . 1 = s$ r s s 9 9 9 l { 66 0 6 @ @ 6 @ l @ 66 6 6 0 0 0 0 1 o ci c i d d o o o d l c ; o6 o o - - - o l - oN - N 6 O - N l o oo o o o o o @ l o ': c l - . . : ' . 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J . -- l l 6o N 6 O O - N l dN N N N O O O I oo o o o o o o l oo o o o o o o l oo o o o o o o l 60 0 0 0 0 0 0 1 oo o o o o o o l rr l t t t t l t d) o o o o o o o l YJ I I I dd d d d d o d l aa a a a a a a l $.tzailIXrlaI()+raOF- tOtrI({((el- roC, )aCd& o6 6 o 6 o 6 6 l - NN o o s s N o l - oo o N o $ @ o l o @o o o @ r 6 6 1 6 N{ 6 O O < - N l t O@ O S N F F Q I N NN N N I N OO O O O O O O I O cj o d o c; o o c; l a o o ci ci c ; o oo l c ; N6 o o o - - - l * ro @ r - o - * l o N- - O $ F O $ l @ -O O O O O 6 O I o 66 r o o - N O 1 6 O@ t r F N N N l r s a n 9 9 9 9 9 1 9 c? o ! a. q A ng l a oo o o o o o o l o o o o o o o o o l o tt 66 N 6 o - * o l - 6o @ o - * o - l o oN o o N o o o l o o@ s o o o @ o l @ 66 6 6 6 6 r 6 1 6 @N N N t s @ N N I F oq q q q q q q l q qq q c c c q q l c oo o o o o o o l o o o o o o o a o l o tt 6N r 6 - ^ - - l * -@ o o o - r a l * No o 6 $ N 6 o l o rN S - O O O O I N oo o o o o o o l o oo Q o o o o s l o 66 o o o o o o l q qq C q q q q q l q oo o o o o o o l o oo o o o o o 0 1 6 6o o o * - - o l - Fo o o @ @ s @ l o 66 O N t O $ O l - 6o S o N O O - l O FO r ' _ e O F r l - FO N N N N - N l N .: .: ,: , . , . .: . : .: l' : .: .: ' . .: ': . . . . . . 1': oo o o o o o o l o oo o o o o o o l o tl d6 o 6 - - o - l - , ^ 6 - o - - * ^ l - $f l $ H E I H R I E B: S g E E : E I E 99 9 ? 9 ? ? ? l e c; d d 9 ' 9 ' 9 l o +o 6 6 * - * * l - ot N - . o o - o l * 66 o o F o 6 o l N @F F @ O 6 O O l N 6N * 6 r o d - l e 6@ N r @ o O @ | t s r N q q c ! . : ' : ql c ! .! . . ! . . J c l . ! c l q. ! 1 1 oo o o o o o o l o oo o o o o o o l o rl .6 N o 6 - o - - l - 6@ o o o o t o l o oo t ' _ O @ O @ 1 6 6O . _ N O N V O I o oN o t s O N @ S l t s O- @ O O O V O I N o: o q q r q q l g C': q q q q c C l q oo o o o o o o l o oo o o o o o o l o t, ro @ o - o o o l o 35 3 5 R F E f , l P No o o o $ o e l o Er : = 6 : o i o i l k r l o r r 6 o $ 6 r Ol o ;'_ ; i ; ' i A . o + l i r i A a a q oq \ q q l e d e j 6i s i ^i 6i Ni o i l o . i R R R R N N R N I R F( o 6 o - - - - l - s - o o - - - - l o 6N - N - N O @ l N ON o O o S N 0 1 6 o< F O r r @ r l F {O @ 6 O N @ - l < oo o o o o o o l o Nt s r N t s t s t s N l t s eq e + q P 9 9 l + ee s q q Q q e l 4 tt oN N 6 o r a a l - @@ o @ - - ^ - l * NN O t s { O F O I @ ON N @ F N O O I @ NF o 6 o 6 6 O l o Nt s - O O O t s @ l O 9r l q 9 9 a a a l a @ q q q q 9 u? u ? l q oo o o o o o o l o o o o o o o o o l o tt I ER E S E E E E I g RE E E E $ : E I ! eQ 4 q e . a e l e oe e o o < j d o l d oo o 6 * - - o l * $@ @ @ - ^ - - l o o< q o o o o o l o @@ o @ N o @ N l 6 oo o o o o o o l o @@ @ o N N N N l o 66 6 0 0 0 6 6 1 0 oo o o o o o o l o cj c ; c j c ; c j c j d c j l c i o o c j d - - ; '_ l - 66 o o - - - - l - oo F @ o . - * l - N6 O @ @ O @ O l @ @t N O N N @ O l r Fo o 6 F @ @ @ t 6 oo - - o - F F l - q q ot q ot 01 q o t l q q q c c q q q ql q '_ r 6 6 o o o o l o -F F r l F 60 0 0 0 0 0 0 1 o oo o o o o o o l o to - O s O e o l N ON o o O N $ 0 1 6 55 s $ s e e s l ! EB S S s s s s l ! NN N F F t s F T l < oo o o o o o o l < oo o o o o o o l -F F r l $s s s s : r r s l XX X X X X X X I NN N N N N N N I .; . ; i j i j c ; i j i j c j l oo o o o o o o l NN N N r S ! l ! S ! ! ! ! ! ! S ! ! l d6 6 6 d d 6 6 l RR R R R R R R I ;; ; 5 ; ; ; ; I E= F P P F F F I lltt lr mm m o o o m m l I 15 1 5 5 5 5 5 1 I ri d N o d o i c i - s i l P I @6 6 6 6 6 0 6 @ l - I :g E E H E E E H I [t t e ? P ? P P I - o o o o o o o o l u, ) ) ) ) ) J ) ) l i :, : ' : , : , : ' : . : , : , I -T E E E E E E P EI q o o o o o o o o l E o o o o o o o o l : -e g . - s - E i - E - E E l 3E 8 8 33 I I8 l 8d ,6 6 , ; 6 6 6 6 . 1 -i o, o , o, o, o , o, o , o, l 3' b b b b b b b bl u u u ul u u u u ul 6' n fi n 'n n n n nl du t t t E ct t t . l EE!o oo r o o - o - l - @$ o o @ a @ 6 1 6 oo o o o o o o l o oo o o o o o o l o ci c j d d d ci cj c j l c ; 6o N 6 = - - - l - oo $ 6 = @ o @ l o O- F O O O - O I O qq q q q q q q l c 60 0 0 0 0 0 0 1 o I 6 F F 6 - s < < l + @t s t s @ O O F @ l O o6 o o o O O F l 6 o@ @ @ o @ o o l o ir + + + + t + l + F!- - ! - l - - - - -t - I 6F 6 o N N F o l o 6N O t s O O O O l @ 60 0 N N @ o N l f OO r < O O - N l N YY Y Y g Y Y Y I Y I F6 N N - - - - l - F6 o O N - O N l @ N@ 6 N N O 6 @ I N NN N t s \ \ \ \ I F : NN N N N N N N I N sr $ o - * - o l - Ft N @ N t s @ @ I O N* 6 O N N t O l e oo { $ $ N o o l { pq q q q e e e l q 6o @ N - - - r l * OO - @ O O O r l F $- 6 t s @ @ 6 6 1 @ @@ o u ' l o q o v ? 1 9 -" " " - ^ - - 1 . oo o o o $ N @ 1 6 NN O < < N $ F l < qq q q c q c q l c oo o o o o o o l o 66 d s , . - - - l o OF - 6 @ O O N I O 60 0 N @ o o @ l N oq q @ 9 q a 9 l q FF F - l e - '- - - tFI 6N o 6 - - - o l - 6N O N O T F N I F Ns s O r O 6 0 1 6 \q u 2 u l 9 v l 9 q l q -- - - t - I o 6 N 6 - * - ol - O@ F O @ N < @ l @ OO O N @ - V @ l @ 6N r 6 N @ \ \ l F : :" - _ " : " _ l : 6@ 6 @ 6 @ O N I O OO @ F N O @ 6 l F @@ o @ @ q o q l q "" - - - " " - l - 6r O F i O @ F l O O6 6 + 6 d N F l O u? e ? c l a c l a q a l a -- - - t - =o 6 N - - - * l - N N 6 O O O r OI O (o 6 6 o o 6 < o l F \q o t q \ o l o l C l o l F - - - tF oo o o o o o o l o 6 6 6 6 _ _ * _ l- oN o F N O N @ l = oo o o 6 o @ 6 1 0 .: q q ' : q ' : q q l q +$ s € s t ? t l n I 66 6 F - - - - l o NF F N o @ 6 O 1 6 NO N O T { O @ 1 6 qq ' : ' : q . : ' : q l q o F F r - - - -l- rr o o . . - - 1 . o6 @ @ @ o o o l @ NN N d N N N N I N oo o o o o o q l q -; ; ; ; ; . ; l ; oo o o o o 9 0 l o oo o o o o o o l o ci d d c j c ; c j P d l o I NF O S o O O O A F N @o @ o o o @ 9 0 t @ O6 @ @ N O F O O O O .. 1 . . ' : . : ' : . : ' : q q q q oo o o o o o o o o o o6 6 N O 6 0 @ @ O O t< o { $ N @ o @ @ @ oo @ o 6 F F N r @ O .: c ! c ! q q q c ? . : ' : q q oo o o o o o o o o o o6 N O F O @ t @N O @ V F $ N o$ t o t $ o o eq q q q q q q oo o o o o o o EP E * E g R $ S E f , 6i -- - J , \ i H F 3 u E FO O F @ V @ - 66 F r N @ O @ OO O F N O t t s oq o q \ q \ \ \ q o- o + - L @ O O t r sp ; i R e N 3 3 R E ': i \ q 6 6 i i i \ a q q q o; o ; A ; o N o o o oO ^ N @ F $ N ot s x @ $ @ o o -N X t F O O t s qu ? i i q ' . q C 1 a ? oo ^ o o o o o o@ r o 6 O O @ @ e QO N N F @ N @ N O ON r O 6 6 o r O @ .q \ q c 2 q \ . ! o q c 2 a OO - - N N FO N O O @ @ F O N oN @ F r o o - @ F 60 r o @ o r @ a @ NN N F F N O F 6 O ci c i c i c i c i c i d c i d c , tF F O T F o o F O N NO O @ - F N 6 0 S N 6N O $ N O 6 0 0 N O NO T O N O O O 0 0 N s ci. i d i . i - - ci d c i c i o@ s t t s @ N @ $ 9 @ @@ S @ F F O O O O O oO @ $ t s F r n O r $ u? q q \ . : q o 9 . t c ? . . . 1 NN N F F - O O O O O oO O F O @ N O SO F N F @ f r to @ N F o o @ N@ T N F t s t s F cid o c i o o o c i -F o N F O @ 6 oN o - s 6 0 0 NO O O N N N O q. ! . ! c ! c ! c ! . ! q oo o o o o o o @O F @ O { o$ O F @ F NO 6 t s S O oo o o o o o@oooo6i 6i 6N @ @ O N 6 N ts o N 6 0 N 6 N Nt@ o N N O O \9 q q 2 q l q 9 r : oo o o o o o o 6o 6 < * - ^ . 1 * No N o o o o o l o so o O s O O @ l o So o O o F O @ l @ FF - - l e oO O o O O O O I O oo o o o o q o l q qc q c q ' : 9 q l q oo o o o o o o l - oo o o - - o o l . aE E E E E E E I E =E g B E E E B I E oq c i d 9 9 9 9 l 9 99 9 d ? o 9 o l 9 I * 6 N 6 6 o * -l o Fo o o N o N o l o os o - o o o @ l < NO N O O N F O I O NN @ @ S r O F l N 66 N - o F t O l F O@ O O N O @ N l @ c2 9' q n q A a al a d + + + ri + s ri l e oo o 6 O O O O l o r- F - l F _l :- - " - - - : 1 " EE B S e s s B I g Eg $ 3 g H f i E l E dc i I cj oc i oo l o Yq ? 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F3 } F 9 E ; g I E XE H H * + H H I H 53 3 5 e 5 3 : 1 3 vu u @ 6 i { V l , i ci o d ci o9 ci dl d 99 I 9 9 9 9P l g 6+ 6 F - - - - l - @ r F N . . * * l - 6+ @ $ o $ @ F l o -o o s N o $ N l o -F r F l F NN O N N N N N I N qq q q c c c c l q qq q q c c q q l c -o o o o o o o l o oo o o o o o o l o tt E8 : E g E E E I E EE S E E E : g l g oe c i d " " l " ": ' _ - - " 1 ^ EH i i s n n R I H x$ a H E E H E I : ci cj d d o ci ci ol d oi d e d P P o 91 3 o@ o N - . . - l - N 6 6 6 - - * - l - ON @ t O 0 o S l o oo 6 o O @ O O l @ $- @ N O @ @ O l s 66 o N l o OO O O O O O O I o +i o 6 6 6 + + 1 1 6 C 9 9 9 Q e qq l 4 ci d o o cj c j d ol d NN s 6 - * - - l o @ o N @ - - - - l - NF o @ 6 - O N I O @@ $ O O N O @ l @ o@ F @ O o O o l o -'_ @ O O @ F O l @ -F N T I F NN N 6 6 N 6 N I N ci c; c i c i o o do l o ai di od d; d @ do d l o o ' N+ 6 o - - o - l - o6 o s - * * * l - o< o ! @ @ @ q l 6 o9 { N o N - 6 1 6 No N q v o o F l N oN @ @ O @ O @ l S oo o 9 o o o o l o @@ @ @ @ @ o @ l @ cj c j o g o ci d d l c j ci c i d d d d o o l c j so o o - - - . 1 - s t s o @ - . - * l o ro 6 @ ' _ o o @ l F @o o O t o ' - s l t N6 6 6 N - t s l o -F - r @ O N O I - N.! (\ l c! c! o ! q c l l q q q a a e? q c? 9l a oo o o o o ' o l ' _: - : " : - _ l : SE E E S B E E I E H9 & & q F E i l E ;6 6 ; ; ; 4 4 1 ; Es 3 3 s 3 3 s l s _ oN 6 _ * * _ l - ": = : : : : _ 1 " 6@ N 6 0 0 F @ l @ o@ $ @ o o o o l N i@ @ @ N N @ @ l @ @@ o o o F N o l o oo o o cc qq l c I q. : . : . : - : . : . : l ' : oo o o o o o o l o $q s s e s s e l { tt :H s e : E E E E FE E E E E E F I E ci I ci o o ci go l d -; ' i .; : 5 : - ; 5 1 5 -6 o o - - . . 1 - @t s @ s - - o . l - n+ 6 0 t o t 0 1 6 FF N N t s N @ @ l F oo o o o o o o l o oo o o o o o o l o oq q q c q q q l q qc q c q q q c l c oo o o o o o o l o oo o o o o o o l o eE E E E e E E I a EE e E e E e H I e g ci c i d o ? gc j l o ' 9 cj d I a o a9 l c ; N6 6 @ O , ^ 6 O O F oo o o o = o N $ v @N @ o 6 ; O F + O o@ o @ o 5 N < 9 @ 6o O O O ; r O t $ OO F @ O N O r t N N6 N O @ O O { + O OF o @ O F N O O t s a\ ! q a o q ' : u ? q c l q NN N N F N N N N N NO @ t s O N 6 O F O @F O F r O e @ O O @@ r o o o @ @ @ 6 ol a u . l 1 n c ! 1 q o l q oF - - r - ! _ - o o N@ @ O F O r r @ O -O A $ N O N O @ 9 O@ @ N @ N @ F @ O OO @ r O 6 O N O @ dd a i d i + d s d d r i NN N N N N N N N N oo @ o r @ N F $ F @@ o @ o @ s @ $ N o@ @ t s s o t s o @ o OF O T N O O O @ N dd + d 6 i 6 i + r t + t s$ o N t s a o o N o f@ N F O - N O o N @N - $ O O @ O @ O ol q o q \ \ q q \ c \ oo o o o o N 6 N t s {h O O @ F N N N - +F O N 6 6 0 0 6 N oO @ O @ N A F N W NN O < 6 0 0 0 @ @ -- - - - - - . i d d OO @ r N F @ @rr O O O o O@ O N @ F A F@ @ F @ N N ci d o o o o o Nr - F O O O to O - N t s t s @@ r o o $ @ 66 6 6 0 6 6 cic i d c i o o o O9 @ - F @ 6 rr r $ O o O @o o o t s o o qq ' . q q ' : q No O F O @ $ o 6 t s oN @ o F N O 6 $ 6 O@ r @ A o N F O @ ': o t o l e o q q q ' : q c ? -O O O O T - r - F gE a e S ; 5 3 3 9 P: 3 X : E 3 F : 5 9q 9 ; 9 d E E 3 8 oo o o N r o r o t s oo O N O O N T @ @ -o O F O O N o t O 6r r @ $ q o t s o @ ci c i ct c j c i d - o , , i d a i ooqo0oq@oc;Nc?NoqoNci@@@dooaotsho @r F 9 O O O NO 6 @ O N 9 NO 9 0 0 S O oo o o o o o do o c t o c i c i N$ o o @ N - r0 @ o O N F Oo @ O q r r qc q q q . : q oo o o o o o FO 6 O O O O Or O @ @ < - Fs @ $ O @ O qo t q q q o l q <6 0 0 t o n oN@qooooci@oqoF@oqo@oqoNoo o@ N O - O O N- O @ - ! _ F 6O O - @ N o oo o o o o 6 ci- c i - c i d c i NO N @ O F V @o @ @ @ o o 60 < o o N 6 NO N O N N O cio o c i o c i o oo r o F o @ -o t r $ O N t{ $ o o o 6 @o @ @ @ @ @ ct o o o o c i c ; @o $ r a @ e FF F T O F S NO @ S @ @ S OO N N O N O oo o c i o c i c i @c'looo6c;ooao v6 t s @ 6 i o or @ N r @ @ a@ @ N @ N r @@ @ @ @ @ @ e+ + i + + { 28 4 oEo=GoF!do 6F o O O O N - N O @ @ F N O @ N6 6 N - @ O @ O O F O O S S @ oo o o F @ o o - o N o N o o o q r q q . : . : ' : n. ! q c, { o! n. ! . ! n oo o o o o o o o o o o o o o o on 6 N o r 6 0 r o o o N N N o d6 . d 6 0 6 6 N O O N O N @ O O o6 r o N O O 9 O O t t o t $ S qq q c q q q q q q q c q q q q oo o o o o o o o o o o o o o o :; & 8 9 - P I : o N @ N s @ N @ oF d 6 = I X = t s r @ O n N O N tu N N o Y l : = : N 6 F N O o N N :: : : s H N I ; ; 3 i * r R 3 3S : 3 3 8 8 8 3 3 5 3 f i n s 5 6F o o o @ @ O 6 6 S @ S N 6 t s @o o N @ N s { . i q . : q q a j ; Y Y" 9 Y + f 9 9 q + 9 + ? a c i ? @6 0 N N @ O O @ t s F 6 t O N O oo o r N t s N $ O @ t s 9 @ @ O O 6N O N @ N 6 N O O @ N O N O O \\ o q \ q q \ q q q o l q q q c q NN N N --T N N N N N r6 o < O t O O f N O N O O O @ N6 N N { o O F O O @ F O N - O <6 o o o F 6 @ O O @ O @ O @ O dN 6 0 @ @ 6 0 @ o h @ o o N @ ri r i r i d r i - - ci ci c i o ci o o ci o NN N F O N O @ @ O @ N @ r t s O 6r o t s t 6 t s N O V t s @ @ O @ F d6 6 6 0 6 @ F @ @ @ @ @ @ @ o tq g q s s v s s q v g v Y s s ci o o o ci c i o o d d c i o o o ci c i ON N F O N N @ F ^ F - N 1 6 4 F oN @ @ O i @ @ @ ; O N r = F O FN 6 O N O O - O : - - N N N s qq q C C q q q q o q q q c j q q ?? ? 9 9 ? q g g c j 9 9 ? c j 9 9 oe Q ! o o 6 @ @ @ o @ $ o t s o N Y: : : : { O 9 0 @ O O S O O O S NO O N - 6 @ @ N O F - ': ' : ' . 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O O O oO N S O N O F O O F O T O @ O 6 o @ @ - @ O - @ O O r N @ $ @ @ O O Q N t s t s NF o o - N Q N t q @ O O 9 O @ S O @ @ r @ @ 9 6 O O @ o or @ O @ O @ N O O o d c i o d c , o c i o c i c i c , d d o o o c i o ci c i c i c i d c i d d o o o d ci d d d c i c i d c i 6B E $ s P f l $3 3 E q f l ES S B R B B I E g E e € B ? p s ; E B B l R t E f , - o N N o Y ) 1 : ! : : y Y = : o N @ - N N o - O @ @ r O O F @ O O @ O ts N o o - oN o t o a Y Y !, v l t s a o s 9 N o o F o o o F ' _ o o o o @ @ o @ @ @ @ ai 6 i 6 i a i "i : : : P I I p P P + v + + $ s s s s + + s ci 6i ^i - - ; ; - - - - - - OO A O O 6 t s O t s o @ S N \ @ o F o 6 o o r @ T O N N O T o N N @ r O $ o O o -O O @ @ ' - O N O @ t s 9 o @ 6 F $ vo @ < o i -: O 6 i N o o N - r N O @ @ - n F@ N @ @ @ N - 6 o @ 9 6 t ( i N N o o N @ < o o o F o o o o 6 o r o @ s o o o a q s. q q q q e oq ' : q c! o' ! n o @ o o o F @ N 6 N o o ; o o o @ o @ N o t s o o q ry 9 g g I T 5 1 T I I d I ; - '- ; 6i 6i .i 6i 6 i ^i 6i 6i d - - ; - - - - 6i .i ; - - oT O O F F O - O @ @ @ t O O { O $ N - r 6 O F O 9 $ F O O 6 @ O @ N O N O N @O q N @ N o O o N @ t S r @ O @ @ O @ - o N o N o @ O O O O o @ @ o o o 6 o OO O @ @ O O O 6 6 6 N O @ - @ O O n O O O O O @ O N t s O F O O @ - O < o @ O a q c? q q \ q c oq \ .: \ q n I q a c? c ? oq q' . u? o q o c .! . ! q \ 9 q q e? u ? c? q . ! ul .: OO t s O t s O N 6 O O N N O $ N O O O - A - - F N - N N N N N N - N O N O O O @ @F @ t s @ @ @ @ @ @ @ @ @ @ O @ O 6 0 0 0 0 0 0 @ o $ 9 s s$ $ 9 $ 9 s $ o o @@ N O O O @ N @ @ O @ @ r - O @ O O O - $ O T N T S F O O O N N N O : ) ; ; ; < F o o t @ @ $ N N o - - '_ @N o o o o N No o oo No o r o $ - 6N o :, x , x x 6 o N 6 N $ s $ s o N o o t o F N o @ r 6 o o o o t - oo @ o o o o @ in 6j i. i t u' l u? c2 .: oq q q . ! t ot u2 '4 u2 q a q' : q oi q \ q c? .: u? oq q q \ q \ q oC ul \ ;;^ i -N r N N r r - N N F F - Nr e N - N O O O O O O O e O O O O O @@ @ t s 4 @ O N 4 O @ o O o r V O o N @ $ r o o o F @ F O O @ S S o 9 o F o @ o@ a o $ o a s o o @ o o s o N o @ o @ o o @ o N N 6 o N @ N t s o s o - @ v o $O o O @ @ 6 O N 9 @ 9 @ @ e o O o r O O O $ N @ @ N V F N @ N O @ S F o F - c! ": q q \ oc oq I e \ q q q q q q q q q a n 9 a u2 a a') c'l c? c ? c ? c! . , . | q c! n. ' l .. q 61 NN N - N 6 o N o F o o N r ! o 6 (q o \ O O < Q 0g :l O - \ ! ! \ w - : @ N o @ S 6 o - r @ SE s 9 R R P I R X E R : 5 t s i : R P E E N f f i l E E g g N E R 9 3 R 5 9 R 3 } @ F o 6 t N F o o - I o': ' : I 9 ' : o': 9 q o o 9 9 I - o 9 o - - o o r o F o o o d o o ci o o o o cj I d 9 ? ? 9 I d I I ? ci o 9 ? I d o I o o ci c i c i ci c i d o o 6O N N O t s S O @ t s O O S { N O @ @ O $ @ N F O t s N @ O @ O @ @ N F - f OO f OO @ O @ F O O O $ N 9 O V N O @ O S O @ N @ N @ @ @ @ O O F @ O @ @ 9 O O @ N@ N O N O O O O O O $ $ $ O O T S N N O @ @ N O @ 6 r S @ O N @ N $ r N f < @O O - O O O t s O t s @ @ @ o r r r r F N F O O O F O @ O O t s @ @ O f f O @ f O - - - - - d c j c i d c j c j c j o o - - - - - - - ; ; ; '_ - d c; o c j o o ci cj c j c i cj cj c i N @ !q o s o N 6 q) N s a ! @ $ @ F s \ ts I o ._ N o @ \ o @ ts I o 6 o I o @ o o o - 6 s v 6 s 6 @ o @ o u) o @ o $ @ !l @ l: @ @ @ o N J N N r !? o o N !', 1 N F o r N oo E t @ < { o F O O E i O N @ - 9 @ ! 9 O @ S N 9 O 6 O : - O O Y O @ i O O N o o @ r f ) o N I N o 9 N o N o - 9 o 9 o o o - o 9 F - NU - ' _ o 9 o o - o e o o ? o o o c i o I o o I c; c j o o o I o 9 o o d c i d I o o o 9 c; c i c j 9 cj c i d o o @N @ F N - N o o O W F o o N O O o N O o o o o N o @ O @ 9 o o O - O N S O o N- F F O @ NO O rO O O N @ n O O @ NO O O t s F @ @O O O O 6 6 @ O F @ (g O @6 @ @ r O r O 6 @ i N F F N O T @ @ O o F - o o t s o s r @ 6 t s 6 S o N o O o q a a a q c! n c! q' . ' . -' : ' : ' : q q q q q q q q q q q ol q q oq e oq oq oq oq e \ oq oq Fr r o F o o o o o o o o o o o o o o AO @ O O 6 @ @ O O @ O - F @ 6 - t s @ N F F @ O O - @ r O O 9 O @ @ N O O O @ FO F O @ O t s 6 O O r @ - F F O @ @ @ N O O A T N N N O - O S N O O N @ O O O O- O N O N A O O O S S O O @ O o N @ @ O O N n 6 - O O @ O @ N @ N o N 9 O F q u'l a q i n q q q': q q ": q. . q q' . ' . .. ' : ': q q ' : *: ' : ' : ol ': q' . c! c ! o? . ! ' . q q oo 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 FF F O T t s S @ N - r o - O N o O O O o o @ N $ N @ N o O $ @ N S O @ N s t s - @9 O 6 6 @ o o O t o o t s O O S @ t s @ $ S O N @ @ - @ Q @ O @ o 9 o N t s @ @ O OO @ t s @ O o 9 O - @ r N N Q S t S 9 9 $ i O $ S o N N F O O O O o O O o o O aq a c ! q c . , l \ u 1 o ? c ' l c \ l q c ! c ! q c ! c ! c : q c l c . ' 1 c ! q . j o 1 q c ! q c ! c ! 6 l c ! c ! . . i c ! 6 { c . J q c ! No o o N F O O O O O O O O O O O O O O O O o O O O O O O O O O O O O O O O O FN N o N o O n O - N - N @ N O F F @ N N O O @ f @6 @ S @ @ O O @ \ h N O O n o o o F@ F@ N @O O O N F oN O @ r I I - N N O o o o tF @ O O ! ? N @ or N$ $ O @ @ t O - r O O O @ O O O N e - r r F O O O - ' _ O O O O S F H A O O O n2 C oq q e? a a oC q c2 c! ' : q q q q q q q q q q q q o o o o o o o o o o L? o o o o e @ ts t s 3 N F o o o o o o o o o o o o o o o o o ci c ; o c, o o o o d c; I ci c i d ci 6@ 6 6 - - - o l - h o r $ - - - - l - 6o o o o N { s l o o d D 6 ( a @ $ o o l s on N o N o o o 1 6 6N 6 d 6 6 6 0 1 6 NN N N I d -r - - l F -- " " " - - " 1 - -. . - - " r - 1 " 66 N O 6 0 ! _ @ 1 6 6@ O 6 N V 6 o l F oN < o @ < @ @ l e @@ o o 6 N @ o l N N6 @ @ r s - @ l @ '_ F r N N o o t l N N d d d d d ; N d l d r i r i r i r i r i r i r ; r i l d 6@ N 6 * - ^ - l - N s 6 6 . - o - l * 66 { 6 6 N 6 o 1 6 o6 N N o o 6 6 l F oF @ @ 6 6 6 0 1 6 -6 N N O F 6 0 1 6 6 o 6 6 r o o q l q ? I l : a '- c! qq l . ! :" - " - : : T :: " - : : : . 1 : 66 6 @ 6 X : = l o 6o o @ t - o - l F 66 t - F X : : l F o6 o o o o o r l N q ry q': o: i -; l q u2 e? . : ' . q. : q ' . l c ! oo o o o ; A A l o o o o o o o o o l o os o ' - - - - - l - N o o 6 - - * - l * NF O + N F N @ l F @tO O @ @ @ @ l t NN o N 6 6 N F l o @o N o o - o o l o :: : : : : : i E : : : : : : : : l : oo s o = * - - l - s o F F . - - - 1 . OO N O O O O O I F Ot s O O O O O T l O @o N o s o @ F l F ON @ t s O { - O l $ N6 6 N l 6 N6 6 6 6 6 6 N | N ci d d d c i c i d c i l d d o o d c i d c i c i l c i rr o e o o - - l - o@ N @ * . - - * l * {+ 6 l Y l I 6 s l 6 so o @ N o ' - t s | @ o$ o I i H x - 6 1 @ o@ - t s - o N @ l @ 66 6 v : v i Y O r l N 9r 6 6 @ @ @ @ l O ;; ; ; i l i l 1 ; ;; ; ; ; ; ; ; l ; o @ @ q I \ 6N l - o ci d o o o I 9l c ; @r @ s - . . . 1 - N@ e o - . . - l - Fr - o O r r @ l O @O @ t O @ @ O l t tN N t @ n q v l o o6 - N $ N o o l @ @ o @ o @ o o @ l t i c' l u l I c2 u'l 0C s.q l q ? No 6 { o t N t s l N @@ F F o o F o l o 6N N N I N od 6 6 1 6 mp H s l e a s l x cE f i g a s : ; l s d 6i 6 j ci o I 6i ; l . i ei P @ oi 9. I 9 1 " , o6 t s o o o . . l . Ne o o - * . - 1 . NN @ o 6 o N @ l N <O $ @ N s O @ l F {6 F s 6 O 6 O l - O@ { O O O - $ l O t o o N N q oN l c ? q q q !1 q q ' : ' : 1 9 :: : : - : : : l - :: . : . _ : : l : 66 N o o o @ F l o -o @ r F N N @ 1 6 -6 o 6 o o o O l i -- @ N t s O O O l o -F F O l r -- O O O - O O I o ci d c i d c i d c , c i l c t c i d c i c i d c i c i c i l c i oo N + - - * - 1 . o o @ $ . - * - 1 . -O N N $ O @ O l O N@ S r O - O @ I N 6- N o N r o o l N r@ 6 N O @ @ O l o a a 1 a c? .l .q t. l a .: .: ' : ' : q c! a . l . q l c ! :: - : - : : : [ :" - : . - _ : 1 " @t o @ t o N o l o No @ o - o t o l s 6€ o N < N N O I @ @@ O 6 - v O O l O c2 c! q q . ! c2 6! c 2 l c ! '.' . ' . ' . cl q c? ql n "- - - - - ^ " 1 = .- - - - " . - l - s< @ o N F F F l d -N 6 F @ S O O I S NN 6 o F - N O I F r< N 6 = @ 6 6 1 0 66 6 6 6 6 @ t s | @ t$ t s s t q $ 1 9 -- - ; - - - - l - -- - - - - - - r - N( o h 6 - - - - l - o s - - - . * - l * No r o N o s @ l o -@ o @ N N @ r l t 6+ o O N 6 N v l N FN O 6 @ 6 - @ l N c! c? q a a s. c? c? l a ? c ' l c l c ! .: . : q .: . : l ' : 99 s 9 9 9 9 9 1 e ? 9 9 9 9 9 ? g l e II @o 6 N o - - - l - oo o @ - a a a l - -6 6 6 - o o N l 6 6b @ O F N O O I N $v @ F O O o t s l @ OO O - - N N s l r @ @ @ @ @ \ qq l q c? a,l I c1 c? c ? c1 e l " ? oo o o o o o o l . oo o o . o o o l . 6O @ @ O O @ 6 l q OS N O - t s O N l O -O - @ N O @ @ l O @O f $ O @ N O l @ F- - o O O - O l - OO O O - O O O l o oo o o o q q q l q qq q q q q q q l c oo o o o o o o l o oo o o o o o o l o 24 7 podaoo .\ oQ, E iB = EE r! ld& i: cos od o9 O- a coo=dccCC oE'i.9ocooo:-Z = ol l .2 t r ooZo 't rz3 opotocoo GE= po c_ r'ao5 UC ccpoE I6NEo: coo oEoJ6oFco6o @o a N N o r s o$ N @ N O O N tv t s 9 $ $ v q9 q q q q q c oo o o o o o o $@ @ 6 0 0 0 O$ N S O N - NF o O O O O qo l q o q o q o q q oo o o o o o 66 6 N O F t NS @ O S @ O o$ 6 $ N O N '. q q c q 01 q -F F r o o F oN o O @ . _ @ F oF o o r o o @ NO F - O 6 6 S ON F O N N O O dd o c i c i d c i d @6 0 Q O O O O o6 N O 6 6 @ O $@ s $ o o N N oo o o o o o o ci d c i c i c i d o o oN N t o q t s o 6@ @ O I P @ O 66 0 0 @ u @ o o- o - . : t : o o oo o c i 9 9 o o @N @ O c? c ! a ? n rO O O N @ @ NO O N O O @ S-@ N N N - oo o o N t s @ ci; c i ci c i c i o O- N O O O O F o@ N $ o @ N o @< o o o 6 0 $ c! c? cl q' . q q q NN N N NN N N N N N N @o s $ @ 6 0 b 66 0 0 6 6 0 0 @O O O F O @ F qa ? e c ? a a a v l oo o o o o o o 6@ F S F N - O oO @ N - N O O oo r t s @ @ @ o @@ q q q ! q q q q oo o o o o o o Fb d O t t O F $N O S S T T O oo o t o N @ o @q \ \ q q \ o q NN N N N N N N O'_ @ @ O N @ N o@ N 6 6 S S N $ts O N 6 . _ N O @o o 6 0 0 @ o c, c i c i d o d c i o 3b B 5 5 3 E R q@ @ ! N o Y l r 9O O q O O 9 O 9c i o 9 o o 9 o @9 0 0 t @ o o ts $ O O S N ' _ N ts o @ r @ @ @ @ oo o o o o o o do c i c i c i d o o -@ F r @ s r ^ ^ @N r @ - t i ; X sr @ o o r : + oO O - O O ^ 6 .ic i d c i c i c i = : N@ V t S $ O @ @o 9 9 N @ r @ oo o o od o c i d c i c i d -o - O o O O O ON F F F O - - oo o o o o o o cq q q q q q 9 oo o o o o o o N{ @ F - o . . 1 - N6 N 6 N @ O I I F so o o o o o o l d -o o o o o o o l o ci d d c i o o o d l c i I oo o N ^ - ^ a l - +@ 6 - - O N @ l N 60 6 N O r @ O l N N@ 6 @ @ O O 6 l @ ci c i d c i c i o o c j l c i I 66 N 6 0 - - - l - No o @ @ O - - l @ o6 6 N o F N - l F N 6 @ q q \ q qlo q oo o o o o o o l o I $E f l E H g E e I E ci g P d g 9 9 c i l g I oF r @ - . o = 1 . oF o @ o e o @ l o 60 0 @ | t s Od N N N N N N I N .i . i c i c i c i c i d o l c i I -6 6 6 - - - - l - 60 0 t t @ @ N l @ NO 6 0 0 0 N o l o au 2 q a ? a a c ? n l n oo o o o o o o l o I oo o F = - - . 1 . @r r O O q O t s l o O6 O O T O O O I O :3 : : : : 3 : l : I -6 N o - - o o l - ds N o N @ @ o l N os o o l N -r . r q q q q q \ l q '-- - r l - I oo r { - - a - l - r( o 6 N O @ O F I O oO o O - O O - l O No r @ @ O - O l O ri r i s r ; 6 r i r j l + NN N N N N N N I N N* 6 o * - - ^ l - @O @ N O O F O I o NO r o 1 6 q' : q 9 \ e o l q l s l oF r - - - - N l F N6 N N - - ^ - l - -O O t $ @ O t s l O 66 t s @ O $ N - l N 6+ < + $ t < t l s -- " - _ - " . 1 " 6N $ r O @ @ - 1 6 6@ N @ O t - $ l $ oq q q q c c q l c oo o o o o o o l o I oo 6 F - - - o l - NN S O q O O O I @ oo N ! _ f N N 0 1 6 s{ 6 o { ! c ? Y l 1 do o o o o o o l o I <o o < o - - ^ l - os ' _ O O N O X l o @N O @ S @ r H l O oo o o q q q c r l q qq q ? 9 9 9 o l q I 66 6 @ - - o . - l * -o o @ O O t - l $ €N F O O @ @ @ l o c1 c 2 c 2 c? c. l c! c ! c! l" ? oo o o o o o o l o I o6 N o - ^ , - o l o Nr o o o ; ^ o F l d N< N O O x O 0 1 6 qc q q q s . . q l q c9 ? g 9 o g q l 9 II ts - o 6 - o ' _ o l - o@ o N O O - N l i NO < O @ @ F F l 6 r : : ': '. '. ': ' : l ' : oo o o o o o o l o I N6 6 o - - o - l o !_ N 6 0 0 0 @ N l 6 oo o o o o o o l o qq q q q q q q l 9 oo o o o o o o l o "' t ' @N - @ eF O O c! . ! q ' . EoaGFco!6o 2A A MAX.|R MAX Basic Validation Report Ana ly l.icar I -l ech rrolor-; ie:; part of Thermo Fisher Scientific Validation Status: Unit Model: DTGS Spectrometer: Detector Model: StarBoost Filter. Attenuator Screen: Gas Cell Model: Pressure Transducer. Gas Cell Wndow Material: PASSED l 0 l -0343 DTGS None None 101-0324 20 psia ZnSe Viton S/N: S/N: S/N: S/N: 00441 184t377 18253s2 N/A S/N: 1426177 O-rings: Voltage:120VAC Laser Frequency (water band@ 3133.068 cm-1): At water band 31 33.068 cm-1 (+/- 0.02 cm-1) FWHM: 1.046 cm-1 (1.04+10.04cm-1) \'r,)a-r- 9 LOL r t- p'.ra,. Lu@lAtB strrslrngh l!o '7:;;;,;.. L r*n!x$*.clrr- 9!..j.:lj:nlrn td' @i. . hrril{:L ltlirrr : &i.:h I IWNi." tU , a,!Yru.-I:q rs_eqraj ! CFrlkd !.2, r.q: rj r9.r* : l.c.ad H:.roltrl:.trd. sa..hr H &i,. nirL spdr-- [j19r.tL-o- f-:lm.e-'L*-.,. CTS check at temperature (191'C): Ethylene certified cylinder # CC106195 exp: MAX-|R measured ethylene: 102.299 ppm 08-19-202s conc: 101 ppm (t 1%) l(102.299 / 101)-11* 100 = 1.29% difference Specification: < t 2% ceftified value ,'/ .,,, ,,,, --"rt"' l(]!l ]1 l:::, z' /-i 'l'r/,-\\,/ \\ '\,/' , \ t..t\'--"- I \ '-'-.\\ ------'- t\ \_1 289 Signal @ 191"C: 0.07 (0.04) Linearity: 0.0113o/o (<0.I %) Resolution = 1 cm-1 Scans = 10 Detector Gain = 27 (),.. 'ni. n1 !i. ti: i.t ,, ;I.-6:L'! rtl.a'< Etl@L'p tr ,,.rtu. lm.Alu iDd SuS Al 7:_lE ;..J t...1,M.'F&ndkbEfdffillfH I.ri @ I .i8: i-i.ti-qi..l rsthri %a t:iBh. oo?$ /'^\"//\I u-/ i/'l Johndunn Johnston Print Signature 09-05-2024 Date I/ ,l) {\ft li;i.3-;;Srniiti:ri 290 Appendix Al,: Test Plan Requirements - MAX-iR SN 00980 ZnSe DTGS Test Run No. 1 Background Scans 20 Test Run Durationi.-66-hrs Sample Scans- 10- Spectral Averaging Time-- 1.00 min 291 Compound Formula lnterferants Exoected Concentration MDC#1 MDC#2 MDC#3 Accurac!Procision Acetaldehyde c2H1o HrO 0 to 50 ppm CH2O 0.0644 0.2057 0.2879 +l- 30o/o Carbon Dioxide CO:5 to 15%0.0013 0.0071 0.0445 Ethane c2H6 Coz 0.0181 0.0756 0. 1 638 Ethylene CrHr Coz 0.0419 0.1 048 0.3731 +l- 50k Formaldehyde cH20 Hzo 0 to 100 ppm 0.0156 0.0385 0.1 909 +l- 3Oo/o Propane CrHe Hzo 0 to 10 ppm 0.0621 0.1 145 0. 1 487 +l-30% Water Hzo 5 to 20%0.00'15 0.0224 0.0299 3oIoE,E,s EEEtrgEo I I- , ll ol l #l l sl l ol l oo ll o. ll ol l ol lei l 04 ll ,i ll +i l ^l lEi l !l ldr ll ul l e. l l dl l ol l !l tdI !l lEl l ol l tr l l ol l (J l l c, ll -o ll (6 ll El l fr l l al lEl lEI .r ll tr l l El lLl ai l .x ll rl l tr l l ('J l l o. l l a. l l <l l Appendix A3: FTIR Reference Spectra Kelerence Date C onc lDoml Path Length uonc Resolution lcm.1l Temp lal P ress latml Spectral Appodization F u nctio n Acetaldehyde 12111t20 1U.U/3 9.86 99.32U 192 166 I Ul/ 987.1 10 to 1,218.434 C osine54 995 986 542 251 193.204 l09 01 98t 1 074 448 1 93.1 20 254.342 98t zv 192.411 100ti Ethane 1t5t2021 ti. /0u c.8ti 66.062 192 194 1 .0't 0 2858,000 to 3064.000 cm-1 Cosine 8 300 986 a1 438 I 191 919 I 006 l6 000 986 1 191 457 1 000 9.86 502 860 1 192.428 too 12 1 rl0fj 9.86 t,zat.zzu I 192 915 0.996 Water 41112021 c 460 uoo 9.86 c /.219.ti0u LU 1AA 452 1 088 303 to 1 156.747 cm-l Cosine l9 oo0 I8ti 192 249 720 1t)88 761 o 999 946 10 89 894 35.990.000 9.86 354.861.400 10 89.1 30 0.999 41.740 000 9.86 41 1.556.400 1.0 89.374 0.999 47,420.000 9.86 467,561.200 1.0 88.699 0.999 64.060.000 9.86 631 ,631.600 1.0 89.230 0.989 74.840.000 9.86 737.922.400 1.0 8S 575 0.989 85 370.000 9.86 441.748.200 '1.0 89.762 0.990 ooo I8ti 943 20l tiOO 1tl 149 428 0 990 100 7 986 993 099 200 10 189 546 0 sag L86 10 '189 329 o 990 2U.41 0.O0t)9.85 1 .1 A I .242 .hut)'t.0 189.3/ 0.989 1 23 930 000 I8ti 1 2at 109 8U0 10 149 140 0 989 39,250.000 9.86 1,373,005.0c 149 607 o 949 8.370.000 9.86 1,462,928.200 1.0 1 89.283 0.989 57.300.000 9.86 1.550.978.000 '1.0 188.722 1 66.050.000 9.86 1.637.253.000 t.0 I 90.028 0.989 92,850.000 9.86 1 ,901.501.000 1 89.378 0.990 207, 1 90.000 9.86 2,042,893.400 1.0 1 89.1 34 0.990 Carbon Dioxide 7t7t2021 ?2 ?7F 714 9.8 19 191 952 I 006 874.700 to '1,134.600 cm-1 Cosine 43,582.457 9.8 192 079 I 006 55.587.335 9.86 548.091 123 192.023 I 006 65.639.895 9.86 647.209.365 1.0 192.01 't I OO5 77.'100.693 9.86 760.212.833 1.0 192.126 t.006 86.702.763 9.86 854.889 243 1.0 192.057 1.006 97.655.650 9.86 962.884.709 1.0 192.020 1.006 108.348.9'12 9.86 1.068.320.272 1.0 92.104 006 8 791 673 986 1.171.285.896 1.0 92 004 006 2a 9S 634 986 I 8ti/ 3/1 10 92 144 006 140 426 946 1 384 003 1 10 192 032 006 1.445.O22 9.86 1 4q3 247 91 10 104 ooti 160,907.970 9.86 't,586,552.584 1.0 9? O94 oo5 171 .467 .551 9.86 1.690,670.053 1.0 92.097 006 '183.033.794 9.86 1 .804.713.209 1.0 92.018 006 193 047.091 986 1.903 444.317 1.0 92.O37 006 2lJ4 604 sa6 2 U11 titiz 8/5 10 92.036 .006 1 I 2 1t]5 41 192 |Jt3 006 ??5 1r)1 5F,4 I 2,219,501 421 92 200 100ti 235.227.806 9.86 2.319,346.'167 190 090 oo6 245.O92.773 9.86 2.416.614.7 42 t.0 I 92.080 oof 255.759.539 9.86 2.521.789.055 t.0 I 92.1 b5 1 006 270,1 96.349 9.86 2,664,136.00'l t.0 191.952 1 005 Ethylene 6t22t2021 4.020 9.86 39.637 191 244 1 019 2.940.000 to 3.064.000 cm-1 Cosine 20.400 9.86 201 144 1.0 191.267 ola 25.600 9.86 252.416 1.0 191 271 1.0 34 800 9.86 343.128 1.0 191.214 .013 1 aoo 986 12 144 1.0 191.294 .o12 52 200 986 514 692 10 sl 25s .011 69.700 9.86 647.24?10 19'l 210 010 1 04.600 9.86 '1,031.356 1.0 91.2 oo9 240.700 9.86 2,373.302 10 91 760 o 99ti Propane 118t2021 10 ao4 946 203 C91 10 92.E1 1.009 2,751.511 to 3,074.960 cm-1 Cosine 23.667 986 305 9a/ 10 93.1 92 't.003 50 761 9.86 305 987 10 92 636 1 000 99.411 9.86 305.987 10 193 o 99/ 248.573 9.86 407.982 1.0 '193.13 497.300 9.86 509.978 '1.0 1 93.384 0.996 Fomaldehyde 1t2112016 4.2Ut)21 .4bZ '190.166 040 2723.84 lo 2935.39 cm-l Cosine 1 0.500 5.11 53.655 '1.0 1 90.052 .040 '14 700 5 7 5.117 't.0 190.204 .040 I,UUU 1U /,J 1U 1 90.1 41 1.04 34.500 5.11 176.295 't.0 190.242 .04 48 300 245 813 190.281 .04 tig u00 l 352.590 190.026 04 293 Appendix A4.4: Determination of sample cell absorotion path lenqth CrHo Quality Control Checks Absolute Temperature (K) T,464.427 0.85 </ (Ts/Tr) >l 1.15 YEST.464.116 Absolute Pressure (torr)P,766.840 0.85 </ (Pr/Ps) >l 1.15 YES P.769.807 Concentration (ppm)cr 104.600 l(Ls-Cs)-(Lr.Cr)l </ Factor of 2 YES G"100.827 Absorbance Ratio A./A,1.006 Path Length (m)Lr 9.860 Ls 10.244 Appendix A4: Pretest Pto..drt.t - MAX-iR W Max. Equil. Time 1'.20 Min:Sec Measurement System Capabilities Gas Concentration Path Length Response Time (min:sec) Dilution Factor Recovery (%\ System Zero - Moisture Analysis (A4.3 N2 -0.01 Path Length (A4.4 CrHo 100.83 10.24 Mechanical Response Time (A4.5)CzHo 97.23 0:53 Equilibration Response Time (A4.6) c2H4o 101.02 1.20 Analyte Spike RecoverY (A5) c2H4o 325 0.03 99 61% Svstem Zero (A4.8)Air 1:03 294 e.ooooe. $nItr sq6 oo N@ao 3to, 6soo @FNo ao i0o,, ol , .g a Oq reo No 01 nilc No , NIo qc "Eoo q oN c! ( @c! rto N{ c9 Na D "Eoo o @q s NN os a o o a q c or q o N @q \o € qN qN I o 6ri r. E E di 5 e rro oo NNGio ooa Neo @qNo oooio NNo qNo -" o JG o\o @ao 6o oo N@o 6o €qc a oo ELOo :6i5 r $oci {qo too o o q qo ?f oOF q- dro uvo o:o Nc?o c'lo o c!o ND Nryo Dlf, \ oLCOoioo ((o @ qo qo qo !qo qo qo ff "E o oNc oc; oo Nqo E!c , @ao aod 'n= =o:=EOh. e oo- \ @q'lo 4c oao N\o @o @@c o aa oo flEE c \o ci c i ta qo oq?o @4c C; bqoc'a E o) 6qZEo>=ELo=Go coJ.ioNooooo m5rioNoooo m)+oNoooo=o gl56oNoooEo o)@oNooooo'6 !):NoNooooEa mJoNoooo'o @1ooNooooo'6 oE(0 ll Rl l ol l ol l ri l ll lEl l ci l sl l ol l gl lEl l ?l l cl l !l l .H ll o. l l $i l {i lEl l -l l tooou EE soot6 s@qoo soqoo ;\FFuo aeulo sQ\No Dq: l0,, ot r , .E a d) q o 6 o o @oo \ff a o o o o (J e o q @u?o mN @t @6oi q lri a .E or q d + \ (r rar ' C @\ (N @oqN "E (J o oai c?o @ei oqo aN N a N 6ni ;q E E di 5 e N\o ooo NNoi o Neo It o6io qNo cGc -'dJd 6 oo oaO (rC qo a o 5 a6 g!OO =6i5 L ; co mo Nqo No No Nqo qo oqF (a a rdLvo Nqo oclo !\ll oNd Nno NNo Ni No oO^ icOorqo !(c qo ff qo (f @o C o c, f, o o o@o No o oq 4o o ao Et a :l !o:: EOhe o& qo @ N -c o cc @c c DIf oIc oo=!Ea 'r r Io- Nqo ci a u?o ao D:!f, @s.o 6to coao!ooE 6@ozEO>= ELosEoo c0)oioNoooo'6 d)IooNooooo: d)4oNooooo:a co5doNooooo'6 d))doNooooo'6 T)NoNooooo6 I1i,icccccE crIooGCcccq'a o6o 29 s epp""ai" eAt SVtr"* A6.'t: NEA See Appendix A2 calculations. A6.2 & A6.3: Line Position and Resolution - Zero Ait A6.4: Detector Linearity Siqnal Avq. Be,low Cut-off (averaqe from 100-500 cml 2Ha Direct to Cell -0.0025 \llowed Performance Range -0.1 to +0.1 Analvsis Reqion 31 30-31 37 cm Samnle Soectra Line Position (Freq)3133.0740 -1CM Reference Spectra Line Position (Freq)31 33.0680 cm Soectral Resolution (FWHM)1 041 -1tm Line Position Shift 0.58% 296 Appendix A7: Verification of Quantification Algorithm Reference Spectra Date Tempral P ress Certitied Conc loom) Measured D ifference Error (%) Acelaldehyde 12t11 t20 192 166 1 01 10 073 1 0.073 0.0 0.00 '193.204 1.01 54 995 54 '110 03 0.52 1 93.1 20 1.010 't09.0't l 108.204 oa o74 19? 411 1.008 254.342 252.3 t 2 J_)0.79 Ethane 1t5t202',1 192 194 ulo ti. /u0 6.804 0.1 155 191 91 1 006 8 300 8 396 0.1 1.16 l9'l 1 006 16 000 1ti 194 o.2 1.21 192.428 1.003 1 000 51 401 o4 0.80 192.915 0.996 127.000 / ooo u.u 0.00 4t112021 188 452 0 c99 9.A6U,UUU 9.860.000 0.0 0.0 148 761 0 999 1 9.502.000 19.505.754 3.8 0.0 189 894 280 000 24 204.161 75.2 0.31 1 89.1 30 0.999 35,990.000 35 923 227 668 0.19 1 89.374 0.999 41.740.000 41 634 856 't05 '1 o.25 188.699 0.999 47.420.000 a7 383 454 36 1 008 189.230 0.989 64.060.000 63,893.660 025 189 575 0.989 74.840.000 74.609.879 230.1 0 31 18S 7t o 990 85 370 000 85.081 .256 288.7 0.34 18C 82 15 660 000 95 315.506 344.5 0.36 '189.586 0 ooo 1 00 398 952 32't.0 0.32 a9 329 o 110670000 110 413.441 256.6 o.23 1 8g 377 o gas 120 410.OO0 1 20.078.636 331.4 0.28 18C 140 1 29 S30 000 129.645.294 284.7 o.2 lAq 607 0 )89 13A.743 294 506.7 0.36 I 89.283 0.989 148.370.0r 141 941'151 428.8 0.29 188.122 0.989 1 57.300.000 157 r]64 542 235 5 0.15 1 90.028 0.989 r 66,050.000 165 341 '170 704 a 0.43 1 89.378 0.990 1 92,850.000 192.372.545 o.25 1 89.1 34 0.990 207. 1 90.000 206.839.522 350 5 0.17 Carbon Dioxide 7t7t2021 191.952 1 006 22 27F, 1 14 22 216 t14 0.0 0.00 1 92.079 1.006 43,582.451 43 570 545 I l.c 0.03 192.023 1.006 55,587.33s 578 839 85 0.02 192.011 1.006 65.639.89s 631 449 a4 0.01 192.126 1.006 77,100.693 77 0't1 P,Af)249 0.04 192.057 1.006 86.702 763 86,683.01 o.o2 192.020 1.006 97.655.650 97,641.348 14 0 01 192 1tJ4 1.006 08.348.91 2 108,3'13.391 003 o04 1outi 18.791 .673 118.778.227 '13.4 o o'l 144 28 992 634 1 28.939.320 53.3 0.04 192.032 40 365 42ti 140.341.280 24.1 0.02 192.104 ! 006 !51 445 15'1 395 530 49.5 0.03 1 92.094 1.006 60.907.9i 160 458 618 49.4 0.03 192 097 1.006 1,467 551 111.414.031 535 0.03 192.0'18 1.006 1 83.033.794 183,007.555 26 0.01 192 037 1.006 1 93.047.091 193.01 L5'17 35 0.02 100ti 204 022.604 203.985.5 1 6 37 .1 OC 073 1 213 530 936 213.47 5.327 55.6 0 192.200 ,!225 101 564 224.581.578 120.0 0 '190.090 '1.006 235,221.406 235.157 865 69.9 0.03 't92.080 1.006 245.O92 773 245 025 160 67.6 0.03 192.165 1.006 255,759 539 17 .2 0.05 191 .952 1 006 170,1 96.349 195 a1 u.5 0.00 Ethylene 6t22t2021 191.284 1.019 4 020 4.O20 0.0 0.00 191.267 1.018 20.400 20 384 0.0 0.08 191.27',|'1.01s 25.600 25 51 01 0.32 .274 1.013 34.800 34.605 IJ 0.56 191 294 1 012 41.800 41 .51 0 0.68 t91 259 tl 52 200 51.799 0.4 0.7 191.210 10 6s 700 69.099 0.6 0.86 19't 277 1.009 I 04.600 103.597 1.0 0.96 19'l .7 60 0.996 240.100 235.020 5.7 2.36 P ropane 1t8t2021 1C7 81 1 009 10 804 10.804 0.0 0.00 1 93.1 92 1.003 23.667 23.509 0.2 0.67 1 92.636 1.000 50.261 49 834 04 0.85 133 309 0.997 99.411 98.1 22 13 1.30 1C3 1 32 o 996 24A 573 245.300 132 1 93.344 u.99b /,JUU 490.560 6t Fomaldehyde 1121t2016 1 90.1 66 4 ?OO 4 20lJ 0.0 0.00 190.052 1.040 1 0.500 10 502 0.0 0.02 '190 204 040 '14.700 '14 7fl2 00 0.01 190.14'1 041 21.000 1 01 00 0.06 19rJ 242 1 041 34.500 34.505 0 0 0'1 tco 781 1 041 48 300 48.303 0.0 o 01 190.026 1 U41 69.000 69.074 0.'1 011 297 .- " - - - l 6o @ o 6 l I I I I q q q q q q q e t \ r: . : l t \ "" " " " " t .. . . - l Fv 6 6 6 6 F N 6 6 @ 6F l 6;- r - oo o o o - l :: d d d d d d c i d ci d c; d d d do l cj d =- . . - . 1 @ o d 6 F F q ts o N o F O N o @ @ ol :. - q q r y c n c e n l a a a ( 1 l qq -- - - - - t 6o 6 O O 6 l 6 6 N F o O O O O 6 ql - qq q q q -. i e 1 . ' l q r: \ q. ! l q \ "" - " - t o o F @ o -l qn q q a a q a a a l : a q 1 r l 1: "" " " " " 1 o N - N @ O r o N F 6l @@ o @ 6 F l qo ! ;; J; J J J ; : J ; : : : JJ _= . " . " t " : oN o { o F l 6 6 F o O 6 0 6 F O Ol d d d d d d d ci c i o o d o cj dc i l a a I 6@ r @ o t o@ O o - o o o F r o l ro - - - F l r: d d c i d d d d c i c ; c ; d ci c i c i d o l a a rF O O @ O t 66 6 0 6 @F F F @ I ?? ? 9 ? 9 ? ? ? g e q q g e e l cic i oo o o o o l 6 6 6 d 6 * O o @ - 6l tl l l ; q s ! 1 r y + r y i r : : l :r @o + s r 6 0 N N 6 6 l ro 6 o r l !! d d d d 6 d d d d cj d cj c j c i cj c j l d d I -- - - - - l o F Fo o { t o t ;- ; ; - . = ; ; ; - ; - ; = . 1 ,; - q r q q a 1 a ul (] q q q t ': @l 99 9 9 9 9 P 9 9 9 9 9 9 F ! I l !e "_ - . - . t :: o@ o o o l r\q \ \ \ r : t t \ \ \ i i t F r dd d d d d o o o o o o o o o d l cic ; I .- . - - - l qq r r \ \ \ \ \ \ r : r t q r : \ l qq oo o o o o l -- - " - - l !q dF N d F 0{ 6 @ @ 6 1 Y l 6@ 6 O 6 6 t :X d; d d i l d c i . i ci + d a i d o ; ; r l e I ": : : " " : = " " _ : " : = " 1 :: oo o o o o l olc l ;; ; : ; : ; J - - - - - - ci< ." " " " t _ " { o N o o o l oo o o o o t qq d d d d d d d ; d d ci c i c i c i d o I 66 0 0 6 0 6 0 6 0 :: : : : " - : " - : ; : : : - 1 . -: +o 6 o o F - N N o o l ; 9c ; ; ; ; ; ; : ! d d N c j ^i. i ilN l A Oo o o o o l l ee P e g : P 9 9 9 9 : P 3 = P l - aa -- - _ - : t * :: NN N N N N I , : oo o o o 6 l E . a! N A e ! (! t C S ! ! A q q ee l . . qe PQ e !P e e ee Q e P e Qe e ee l ; ce Er r r r { i i { i "l e :t r El c .t1t E o o o o o a a r r a a, " " rr l Er 5 5 5 t 5 5 5 5 5 5 5 5 5 5 1 1 o d d d d : a i d = d ci F d ci c i -6 i l 6 @ EE g E E E E E E E E E E E E E B I Ed ; :io o o o oo o o o o o l >:l : r I I I I I I I L I I I I I n O X X EF F F F F F F t s t s F F F t s F F F I ., X X E: : : T ii i : \ i i \ i i i i l F: , : ' ;o o o o o o o o o o o o o o o o l !o o =o o o o oo o o o o o l !o c ! +: : + * * + * : * * : =: * + l 6 l : Eo d a d ao d o d e o l ua a a a 6 a a a a a a a a a 6 a l <6 4 ci c i d o o d d c?oi qq q q . . - 6r- 6 ! t s O atf ia 9 a ! ' l ++ e 9 e e P qq t r : r a a u l ro o N - 6 0 NN N N N d O ci c i c i c i ci c ; c i rF { @ F N N o@ 6 t @ o F oo o o o o o ci dd o o d o e ql . 9 91 9 661IEE tr t r EEFF < oo o o o o o s5 5 1 5 5 5 5 nd d c i J . i . ; i ; -t _ t - t _ t - l - l - l qo o d o o o o aa a a a a @ a aa a a a @ a @ FF t s F F F F F oo o o o o o o 90 0 0 0 gc j c i c i c i c ; c j d d c i Po o o - gc j c j c j c i c i c i d c i d 9q 9 q 9 q c c q c .id d d c i c i c i . i c i € i NO O F O c! i . ! q q . ! . . ! . ! . q 9q ! q q q e t 9 . q dd c i c i d d d c i c ; c ; ?9 ? ? ? 9 9 + + ? 61 eP ; 9 R 3 3 9 9 :x t s - @ 6 @ - = oo ? C 9 ? ? o o 6F t s N r 4 @ O O cic i c i c i d d o d d .q ! q . Q a q a =6 6 6 o 6 t s F o ;q - . ! e : e q e -'e o o F - o o o qo l q \ 1 " ? c q 1 u l cic i c i d d c i d c i c i EE E E E E E E E i dd 9 ? ? ? 9 c j d 9 @o o @ 6 oo c i c i c i c i c i d d d nd i .i oo o o o o o o o 46 6 6 6 6 6 6 6 o 51 1 1 1 1 5 5 5 5 , ad i d d d J c i . i c6 0 0 0 6 0 0 0 0 o6 0 0 0 ot t t t t t t t t QE E E E E E E E E ;F F F F F F F F F -q o o o o EG d d d E & E V e ea a a a b @ @ a a OF F F F F F F F F Eo o o o o o o o o 29 8 o6 6 O 6 @ F N oF - F @ @ o F o6 N o F O F O dd d d d d c i c i oN - 6 o o o o NN N r F - 6 O . 33 3 3 3 E 3 3 go o d c i g d d . EE g E g E E 9c ; o c i 9 g c i " EE E g 3 E S E -e @ o E - o . 5E 8 5 € 5 5 cj 9 d d g d d 3E : S 8 f r 3 . Et s 3 E E 3 3 dq d c ; g c j c i oo o o o o o . EE E E g E E 9c t 9 o c i d d ee q q q q e do 6 6 0 @ F @F 6 N @ 6 @ ee 4 4 q n + oe r N F o t s ^ oQ - o9dg c j c j c j d o ?9 ? 9 + 9 9 .- . - . - - . t " NN 6 t s @ O F F I @ N d N N N N N N I d dd d d d d d d l d ". . " " . 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" t " .Q q q q - q : l : I -- - - * - . - t - 99 o o o q q q l q -- - - - - - - t - -* - - - - - - t - 66 F F - ! r 6 l @ o@ @ @ F r t s @ l @ qq q q q q q o l l q -^ - * - - - - l * ? o f o 6 o N ot6 6 I i t i ; o < i ; d l : 6e f l 9 e | 1 C ? e l t -- - - - - - - t o o o o o o o o l s s $ ar ! s s sl a € e a a e e Ql -' " - " ' " - l III f - - . . . - r al :5 5 5 I I 1 1 5 1 I { * { + r i e * l u o o o o o o o o l ! o o o o o o o ol i ^'- t .l -l - l ,'a ' a t l F F F F F F F F FI o o o o o o o o o l N6 6 6 6 n N co - o o 9 o ^ 9O O - N ! F ed c i o c ; g o od @ 6 r o i " od q d d o o eo q c i d d d lA C . ! 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I gl I -. ^ - =. o -l NS S g R S g g g i r s E i !l d d d F d d d d ; A d o @l _ 6 @ o st @ - 5tI ,. - . ^ . . . - l sq E i E E q E E s Q s P I L 4 o; F - O O l I - o * o F @ o @ t 6 O F o o @ F 6l n . q q q q :9 q q q a alI Hi H H = ; ; $ E E H E E I d d d + +; + 9: ! ; d cjl I ^- - - - " - - t 6 @ @ 6 @ i o N l o P o e P q q q @ q. . , i ql "" ' - - - l -- - - - - - * t F { @ o o F e ol o o o o o o o 6 l d d d d d d d d d d d d d l 6 6 6 0 0 0 0 6 0 0 6 6 0 l .- - . - - - ^ l g -e 9 P 9 9 e r : q l I 9 l J FF F N F F T t s I 6 r i I { < + r r l - do o d d o o o o c i o o o l - -- - - - - - - l - - - - - - - -t : oo o o o o o o l i e € a Q e e € e e e a e at6l*l#I o o o o o o a o o l E 5 5 r 5 5 51 5 5 51 5 5l N d; ; ; ci t s <; d ci :. i d {l ! o o o o o o o o o o o o ol '" o, o , o, o , o , or or o, o, o t ot o t oil 9 F F F F F F F F F F F F F I I n n t & t d d d d d E E & t x ' , , ' , ' , , , ,t ? 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' : 1 iE E E E E E B E I , i E c c c E e a E , E E , E , E , E , E , a E I fr F i : i : i ; : t r F i : F t r t r i = l :F 96 6 6 o d d 6 o d o o l .6 o o o 6 6 o 6 l *F F F t s F F F F F F F F F F F F I Eq A q q q q q 4 4 q q l - I I I I I I I I EE E E t r t r t r C & E E & E d E t E l EB * B H ' B t s B B B B B I gE E E E E E I E I €u { $ i u E E s B E s E s * s s l I# d e e e e # e d e & l d6 6 6 6 d 6 6 6 1 E: : : : : : ? : : : : : , : : : : l eA A A A q @ a A a a A l aA @ A A A A a a l :I : : + I I : I + ! ! : : + ! + l OF F F F F F F F F F F I FF F F F F F F F I Td O O d O dd d d O d l >o o o o o o o o o o o l oo o o o o o o o l u@ a a a a a a a a a a @ 6 a a a l 30 0 or ; s d ; N N o6 q o C e ?9 d ? 9 d ? ? . 33 9 3 3 3 E 8 ?9 d 9 ? d 9 ? or - ! r Y o t - s3 3 S g i ; : i cic j d c j c j q c i ? +n n + e + + -F ; 6 r o N nc i i e l l e d9 d 9 ? 9 9 9: r : 3 P E lN : o 6 @ 6 dQ i i o e C . :o : o o o o do o d . i c i c i +{ o - o F o qe q q c q c oo o o o o o 6o t r - o r o cic i ? c j c j c j c j *-Q F @ @ 6 -d a o o - o oo q o o o o oc i 9 d c i d d -6 o - - 9 o :3 8 3 3 ' d : oo o - o 9 o cic j o c i c i 9 c ; oo o o 6 6 6 ?? ? ? c i c i c i EE E E E E ! 99 9 ? c ; c j c i ei i P + + + @-- o E 6 o c; c j c j d q c i c i 6o o { ! F o F@ q o N oo 9 0 0 c; o c i d g c i c i I t: 9 C Y l l : I 9 9 C 9 9 9 9 o oo oo o o o p P! - o € ! 9 ! 9 Q C i i { @Io "1 N :3 ^5 5 5 5 5 5 J 'a !i l d d d ; d J : n -6 = i J o o o o o o o I b 'o ' o ' o ' o ' o , o ' o t -; UU U U U U U U @ o z z z z z z z z aoFCJI6CNa!odJ NN 6 F o F 6 9 NN N N N N N q cic i c i c i d d . i ? o6 - N @ o r Q oo r o o o o 9 oo o o 6 6 0 q dd c i c i c i c i c i ? .!. . Y f l . i : c l c l @ ts @ o 6 a F n qq ! 1 q q 9 v ? q cid d d d d d d .. { a l a c ? . ' t . ? No o t s @ F o @ ::: . ! - . ! : q qa Q . e 9 Q S :l: 9 4 : r f oo o o o o o 6 66 6 6 6 6 6 ;1 1 5 1 5 1 1 El t t t t t t 90 0 0 0 0 0 0 !II I I I I T 60 0 0 0 0 0 0 :6 0 6 6 6 6 0 ;II I I I I I <o o o o o o o aa l a ! 1 1 . 1 60 N @ d f 6 o@ 6 6 d F @ od d d d d d .! dd d o c i d d d 60 6 0 0 6 0 dd d c i c i c i c ; <o o N o a 6 NN d < O = F r-F F r : r 33 3 & 3 E 3 oN o 6 0 a o dc i c i d c j 9 c j 66 o F - ! @ F6 0 0 6 ! 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N o 6 t s o l d ci d d ci dc i d l d ci d d d d d cj c j c j d; ci dl EE : F f r a E H I E NE i E E : F i E g E E E I NF N 6 6 6 6 6 1 6 46 o o r : : ^ l -- _ _ _ ^ - _ t - - - - - ^ . _ - t 66 6 6 r d o - | t s r6 6 0 ; ; - N o r - E ; O l n@ @ 6 F 6 F @ l @ 6o 6 o ; @ o @ r - ! H N l YY i r i r Y Y l i Y T Y Y . ' , Y f f f x " i 9 l "" . " . " . - t " " " " " " _ - t Fo r @ r o o e l r o@ o @ = N d - 6 6 - b N l ?? ? ? ?? ? ? l ? I I ? ? o e q eq e d -e l EE B * 3 H s ; l e gg E H F r : E E S H N E I :: ; r: : : : l ? r F r F i; ; J; J . l 9 cjl tt lE E S B i E g l q eE E 3 l l : E E E I E E I d? c i ? 9 9 c i ? l ? d o ? d 9 d d d d d; g dl -" . - . - " " 1 " . - - . - , . - l 1^ t q F 9 q : t l 9 \ q: c \ q: q : td q ql { r i 6 @ 6 o o l -" _ " - _ " - 1 " "" " . - ; . " 1 6o @ o f o N l l a 6@ 4 F o 6 F O l .l .l An \ t s 9 . 1 . ? ql 9 q : q e r q n d aq l oo N N - - - o t F -6 r @ F ! o F l as s E r N r E l s gF H E H $ g $ E $ $ n ; l EE P ? F + E F I T if i E E E q E H E $ = ; l i: : i F l e i | i fr i ? f r E l i g : H E E s I "- . " " " . - 1 . . . * - - - u n l ;; ; ; ; ' i l l ; ;; ; ; ; ; i l ; ; ; ; ; l !S 3 3 : E E : 1 3 ES S E S I l i e ; g t r l -- _ - - - - - l - - . . " . ^ - " 1 e: P: P: i : l B F S R 3 R p R: 3 3 Bf i 3 l : r f r : : -: 1 9 - 5 T -: : : Tq l5 d 9l -. - - . " - - l - . - - - , * . , 1 6r F N 6 + ; ; @ l F l o o i ^ N o o - ! o 6 ; o l o o oo o o 6 o l o 5. q 6 o c9 a 9 n e o ql "e " " e " d e l " de ? . j P * r " = t : . " 1 .@ o o N o o N l 6 N@ o 6 @ F a N l .. r y . r q r q l - - - q e q: 9 qn q; q1 l d- o o - o o - l o oN N N N - - o l "_ _ _ " " " " 1 " ^ - - . . = - ^ l oo o @ o 6 F o l o 6€ < F F 9 0 0 l q q ee r qe t l q I - q q q q I I q q: 6 0l 6 - o o o Y o o l -- - * - - . - l * .- - . - - - " l s . o p 9 t9 9 . 1 6 e r: 6 n c P: - l s e 9l; {i- 6 6 6 6 6 1 : FF t s N ( F F F 1 6 96 6 9 o 9 9 o 1 ; af S i s { { { r ! ! . * l ; oo o o o o o o l < oo o o o o o o l -- - - - - - - t - - - - - - - - t " NN N N N N N N I ' NN N N N N N N I A oo o o o o o 6 l oo o o o o o o l i ;; 6 a ; a E a l ;; ; ; Q e e E E i E EE l s + +; + + ; +i l i + i i i ; + n + + - i +lE ll J g I .. . . . - . . . 1 i I i5 5 s 1 1 5 1 1 1 r 5 1 1 1 6r @ 6 0 - N o r l rE 6 o 6 6 6 6 O l o-- - 6 6 - 6 6 d 6 o o o l *E E E E E E E E I ! ;, ; , ; ' ; ' ; ' ; , ; , ; ; , ; ' ; ' ; , 8 ' l oo o o o o o o o l X ' ' ' ' ' ! , i ! , i i 'l J i ' e e E E E E E E E E E 6 El t s e s s s g s gl ; g # g g; g # g * S ; ; #l o @ d o o o o o @l x a a a b a a a a a a a a al '. n - - n - ^ 6 6 a 6 1 ; e I I I I I e e I I e I9 l o o o 6 0 0 0 0 0 l o o o o o o u o o l CL T I L [ [ C C I ON N N N N N N N N N N N N I sB qn . l . , j c ! 3S .! q+ocisdq9Y : q rici qR : E q i l ? i: E P E E H B3 ; x E E e 3P 3 N ! 3 3 o6 € o @ 6 + @ q1 9e : q 99 Q 9 9 6IIo'd :q : . ! lq q {! r: . ' i q r . J ai * 9 . i : dc i c i d 6 o S 6 ii l i - ; i ; @@ @ m @ @ o 55 5 1 1 5 5 dd d ; d ; + io - d d - - 6 -o o o o o o o 6- r _ t - t _ t - t _ t _ t EE E E E E E E ia a a a a a a ;e e e 9 g e e AN N N N N N N !98 6 6 6 @ 6 o it 5 5 1 5 5 1 : d d ; ; d i l d 96 0 0 0 0 0 0 :t t t t t t t d! + ! I + + : <a a a a a a a o655 o6 .1I o6 6 0 0 E< < < < < 6o o o o @ @o I1Iooa'6 r1 : : : n 60 @15 r tt t oo o dd a 30 1 o:fi l _, !dsdi ( 1! oe no 2 ;! oo Zo zl d = :!o E : -'- E ooFoI<n!(dd!!o(., 1oaB6d Etrc MAX-|R MAX Basic Validation Validation Status: Unit Model: Spectrometer: Detector Model: Report PASSED 101-0343 /\rralytir-a I Tech rtolog ie:; part of Therino Fisher Scientific SiN: 00980 S/N: 1825312 DTGS None None toL-0324 20 psia . KBr w/MgFz Viton 12OVAC S/N: 1825312 StarBoost Filter (P/N : -----): Attenuator Screen: Gas Cell Model: Pressure Transducer: Gas Cell Window Material: O-rings: Voltage: S/N: S/N: 1426512 15799.354 cm-1 0rL CTS check at temperature (191"C): Ethylene certified cylinder #XC0241,228 exp: 01-19-2031 conc: 99.93 ppm (+/- 1%) MAX-;R measured ethylene: 98.93 ppm [(98.93/99.93)-1] * 100 = 1.00 % difference Specification: < +l- 2% of certified value Resolution = 1 cm-L scans = 10 Detector Gain = 27 302 Signal @ 35"C: 0.122 (> o.o8) Page 1 of 2 \ilr-l-e 9trl-:' rl ): ir--- --r' ii t,: I I. L.lllil n1 ii I ll" /,\ /I i \ l, t\ iI I \,',\/ \ 'i r i ', r \I \,i \/ ",'' t ---.tl--::-.-T-. -:..--.1.- ."a- -T:* .::-' Signal @ 191'c: 0.094 (> o.o4) Linearity: O.OOT% (< 0.1%) Resolution = L cm-1 Scans = 10 Detector Gain = 27 t\ HIPOT test (Chroma Model 1"9070): Pass Ground Bond test (Chroma Model 19572): Mikavla Bonanno Pass Reviewed by 07-24-2023 DateSign atu re 303 Page 2 of 2 SpTCTRAL RETENENGE 304 .l : €' ,* q I 3 r ! sl ,< = g,t,E, -; !! iia F l l l ra i cri . i d i- l [ - l ]- i i- l lit:aEa "- liI1 Er :tE. 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( r{. r < -l, , - ! . : - ! - l - l ., l.i -, t E EE 3 d J E e g 6 E de ge i i 8 ii g t ? t ? ? ? ?? ? ? ? ? ? ? ? ? ? ? ? ? ? ? .r o io !,: 1 . n 9 q 1 1 !,9 , 1 a o: 9 e 1 q e D ri i - t . t i- : a jr ] :l il i- l i: i- -j ri .L l! l: i il : i l t - 30 8 Eg .J i t :?tr :3 { t-r !.4 I ti i ? -. p a3EHt :,i 1t r 6 6 ! l. l T $*$" ) Li . i i ] i i= ! ! - t: , , :> , ? ! j i r ,i -. i i: i : "( ; : Ii ; i" r !r = E ! i: : yi :o - - - ,. t i: lqooE:r te Ee .t: ,: - ; 3 . 5 ;r 19 0 u li ? ! h t I l t Y ; ll ii i : r i l i EE l i i i ; : ! >il >i ai ,!I:6=Uq f_ _ r 11 _ 'r F_ - ol sl () li ,r r r = - r r r . * = r * , E l ' i" $[ u Ea E E E $ l $ E H I r r r 3 5 i 31 1 i 31 * I , sd ; ; n l E l l u r d i H l, i E l i i s l l l l f i i $ H ji : .: r - r ' r i - ' 'r r r r , . r r ll €' 2s E EE E =- g LJ I,5I iE 30 9 l; l]l ro l Sx$5 ei:nt 3< E TE ?i a. !- I 11 ; i: E; . 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" ' . j n U s Ei E; i i ; ') r lj i- l l > I I c t' 31 2 I E il s t iE E !e!!:3Ug I ib.i E 7.E'ced aeo !c*I rY 1 rt ; 31 3 -i i E t i g i ! . u ; - - qe " r 9 n 9 q ol. t v , r , r t N r r .2 a ! 1 . : r i . r h t irl1 t €! 9 t,;{ ;-p E'<E IeaEB!-6!E{t Gt s S i l t t ; i gz t g $ a g s i do d d d o d 5a 6 6 6 6 8 iq 9 i , i 1 ! r EE E I E E E ,n T 9 , l Y i l ,) gg g 9 9 s l I ;' r ' l - a i . } r ' ii i z t i i EE E E E E E r- l i ii - l f i l :- l al IE ri i 31E ;eo: t t i :.. 1 7 PIfi E ri : r; l l: l 4 I it > i l E l i. - i lJ l : ! i li l O $E 6& , ', , E t ' .: E -a ! i E ! i : s ! -s i , P i d u_ ' r ! ts . 5 ! u; I i9 e l t j r ! i* i ' 3 E ; . 1 .i F " ? r : 5 r .: ! i> : _t l) , Il ; b3E!.,T8HIg- ! : 1l Er , L: l "' 31 4 SECTION 4: RAW DATA 3{5 G-{ 61 O27 NOxAND GO 316 Company Station Unit TimeStamp Altamont LLC Bluebell Gas Plant u- to I 02 1 031111202509:05:02 0.00 O31111202509:05:'12 0.00 031111202509:05:22 -0.0.1 031111202509:05:32 0.01 031111202509:05:42 -0.02 031111202509:05:52 -0.01Average -0,01 0311'112025 09.24:14 20.88 o311',12025 09.24.24 20.88 O3l1'11202509.24:34 20.88 03111t2025 09.24.44 20.88 O3l'111202509.24:54 20.88 0311112025 09:25:04 20.88Average 20.88 031111202509:3'l:16 10.96 O31111202509:31:26 10.95 O311112025 09:31:36 10.94 031111202509:31:46 '10.96 031111202509:31:56 10.96 O311112025 09:32:06 10.96Average 10.96 031111202509:43:45 20.73 0311112025 09:43:55 20.74 031'1112025 09:44:05 20.70 031111202509:44:15 20.71 0311112025 09.44.25 20.71 O31111202509:44:35 20.7'lAverage 20.72 o3l11l?ozs 15.O4.52 0.07 03/1 1/2025 15 05:02 0.05 o3111t2025 1505.12 0.06 03111t2025 15.O5.22 0.06 0311112025 15.O5.32 0.06 0311'l/2025 15.O5.42 0.06Average 0.06 03/1 1/2025 15:06:57 0.04 o3111t202515.07.O7 0.05 o3t111202515.07.17 0.04 0311112025 15.07:27 0.05 031111202515:07.37 0.05 03t11t202515.07.47 0.05Average 0.05 03i 1 1/2025 'l 5:08:46 5.09 03/11/2025 15:08:56 5.11 03/1 1i 2025 '1 5:09:06 5.1 .l 03/1 1/2025 '15:09:.1 6 5.1 1 03/11/202515:09:26 5.'12 O311112025 1 5:09:36 5.1 3Average 5.11 o3t11t202515.37.11 10.56 0311112025 15:37:21 10.53 0311112025 15:37:31 10,56 o31111202515.37.4',t 10.55 031111202515.37.51 10.47 03/11i2025 15:38:0'1 10.48Average '10.53 o3111t2025 15.40.17 9.57 0311112025 15.4027 9.56 O3l'1112025 15:40.37 9.54 0311112025 15:40:47 9.51 0311112025 15 40 57 9.50 031111202515..41.O7 9.49 o31111202515.41.17 9.48 o31111202515.41.27 9.46 0311112025 15:41:37 9.42 0311112025 15:41:47 9.42 0311112025',t5.41.57 9.39 0311112025 15:42.07 9.40 0311112025 15:42.'17 9.39 0311112025 15:42:27 9.36 0311112025 15:42:37 9.38 O311112025 15.42:47 9.34 Group name Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial 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 Bias 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 Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Stratification Traverse Stratification Traverse Stratif ication Traverse Stratiflcation Traverse Stratification Traverse Stratiflcation Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stralif ication Traverse Slraiification Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stratification Traverse Run name Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Mid Cal Check lVid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NOx_1 Bias NOx-1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO-'l Bias NOx Zero NOx Zero NOx Zero NOx Zero NOx Zero NOx Zero O2_1 Bias O2-1 Bias O2_1 Bias O2_'l Bias O2_'l Bias O2_1 Bias #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'l Stral Check NOX-1 0.01 0.01 0.01 0.o2 0.02 0.01 0.01 461.42 461.44 460.85 460.61 460.73 460.77 460.97 196.02 1 96.07 1 95.84 '195.75 195.68 195.66 't 95.84 40.72 40.63 40.60 40.64 40.66 40.63 40.65 1 85.1 4 185.03 '1 85.1 7 185.26 185.24 185.23 1 85.1 8 63.78 22.69 12.45 5.21 3.42 1 8.29 't.07 1. 10 1.12 1.00 0.96 0.9'l 1.03 30.58 21.46 19.12 17.50 16.89 '16.50 20.34 37.70 41.86 43.07 43.93 44.80 45.34 46.32 46.97 47.67 48.12 48.43 48.53 50.05 51.05 51.45 51.91 co_1 0.1 9 0.17 0.14 0.12 0.13 0.16 0.1 5 453.00 452.40 452.00 452.00 452.00 452.00 452.23 196.00 196.00 1 96.00 1 96.00 196.00 196.00 1 96.00 0.64 0.68 0.68 0.65 0.63 0.63 0.6s 1 .'18 1.17 '1.17 1.16 1.'16 1.17 1.17 1 86.60 190.80 192.50 '194.00 1 94.00 194.00 191.98 1 02.80 51.53 24.03 12.O7 6.28 2.90 33.27 3.44 2.59 2.04 1.74 1.60 2.17 4.72 5.17 5.38 5.37 5.37 5.37 5.38 5.28 5.26 5.29 5.28 5.27 5.20 Ambient 34 34 34 34 34 34 34 34 34 34 34 34 34 35 35 38 38 38 38 38 59 59 59 59 59 59 60 60 60 60 60 60 50 60 60 60 60 60 60 60 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.2s 24.29 24.29 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.21 24.21 24.21 24.2'l 24.21 24.21 24.20 24.20 24.20 24.20 24.21 24.21 24.21 24.21 24.21 24.21 24.21 24.21 24.21 24.20 24.20 24.20 Humidity 58.6 58.7 58.9 59.0 58.8 55.6 56.5 56.5 56.5 56.4 56.3 56.5 54.1 54.3 54.6 54.7 54.7 54.8 54.5 51 .1 51.0 51 .0 51.1 c t.t 51.2 5'1.1 ))? zJ. I 23.1 22.8 aao 22.8 21.8 21.4 21.3 21.1 22.0 2',1.5 21.4 21.1 20.8 21.2 21.2 18.3 18.5 19.0 19.0 18.7 18.3 18.6 18.3 18.1 I /.O 17.4 17.4 17.2 17 .O 16.8 16.7 16.8 lo_5 16.4 16.4 16.7 17 .4 178 bU 60 60 60 60 60 60 60 60 60 60 60 60 60 bU 60 60 60 60 60 60 60 60 317 Company Station Unit TimeStamp 0311112025 15.42:57 0311112025 ',15.43.07 0311112025 15:43:17 0311112a?5 15.43:27 0311112025'15:43.37 0311112025 15:43.47 o311112025 15.43:57 0311112025 15:44.07 Average 0311112025 15.44:28 0311112025 15:44.38 03111t2025 15.44.48 0311112025 15.44:58 03/11i2025 15:45:08 0311112025 15.45:18 03111120?5 15.45:28 03/1 .1/2025 1 5:45:38 0311112025 15:45:48 03/11/2025 15:45:58 03i1'1l2025 15:46:08 03t11t2025 15.4618 0311112025 15.46:28 03i 1 1/2025 '15:46:38 0311112025 15.46.48 03/11/2025 I5:46:58 0311112025 15:47.08 03111t2025 15.47.18 0311112025 15.47:28 0311112025 15"47:38 0311112025 15.47.48 0311112025 15.47:58 03i11/2025 15:48:08 O311112025 15:48 18 Averag e O3l1'll2o25 15:48.47 0311112025 15.48.57 0311112025 15:49:07 o311112025 15:49.17 03t1112025 15.49.27 0311112025 15:49:37 0311112025 15:49.47 0311112025 15.49.57 03/1 1/2025 '15:50:07 0311112025 15:50.17 03111t2025 15.50.27 03/1 1/2025 15:50:37 0311112025 15:5047 0311112025 15.50.57 0311112025 15.51.07 0311112025 15:51.17 0311112025 15.51.27 0311112025 15.51.37 0311112025 15:51:47 0311112025 15:51:57 0311112025 15:52.07 o3t1112025 15.52.17 0311112025 15:52:27 O311112025 15:52.37 Average 03/1 1i2025 16:13:16 0311112025 16:13.26 03/11/2025 16:13:36 0311112025 16.13:46 03/1 1i2025 16;13:56 0311112025 16'14.06 O311112025 16.14:16 o311112025 16:14:26 03/1 1i2025 16:14:36 0311112025 16.14'.46 03/1 1/2025 16:14:56 03/1 1/2025 '16:15:06 03i11i2025 16:15:16 0311112025 16.15:26 03/1 1i2025 '15:15:36 03/1 1i2025 16:15:46 03/11/2025 16:'15:56 03/1 1/2025 16:16:06 Altamont LLC Bluebell Gas Planl c-161 02_1 9.33 9.31 9.34 9.36 9.38 9.43 9.4'1 9.43 9.43 9.44 9.46 9.46 9.49 9.51 9.58 9.62 9.43 9.1 3 e,41 9.59 9.66 o qt 9.63 9.73 9.70 9.69 9.68 9.67 9.65 9.61 9.62 9.56 9.56 9.41 9.38 9.36 9.33 9.33 9.37 s. Jb 9.38 9.38 9.36 9.38 9.36 9.38 9.36 9.36 9.36 9.39 9.39 9.41 9.43 9.41 9.43 9.48 9.48 9.39 9.33 9.30 s.31 9.3 1 9.31 9.29 9.31 9.36 v.Jo 9.39 9.39 9.39 9.39 9.42 9.44 9.43 9.48 9.48 PBaro 24.?0 24.20 24.20 24.20 24.20 24.20 24.20 24.20. 24.20 24.20 24.20 24.20 24.20 24.20 24.20 ?4.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.?O 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 ?4.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 24.20 318 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 Run name #1 Stral Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Stral Check #1 Strat Check #1 Strat Check d1 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Slrat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #3 Strat Check #3 Strat Check #3 Stral Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Slrat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check 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 Test Run Test Run Test Run NOX-1 51.34 51.00 51.21 51.29 51.35 51.38 52.39 53.04 48.34 52.98 54.00 54.58 56.25 57.42 5 / b5 57.76 58.65 59.1 3 59.41 59.27 74.49 84.85 7 4.57 70.60 65.20 61.26 57.21 53.76 50.62 48.30 47.24 46.3 1 44.64 58.59 43.54 44.20 46.77 48.45 49.54 50.22 51.76 53.27 53.88 54.43 53.88 53.51 53.1 2 52.88 52.90 ta o) 52.11 51.56 52.46 53.01 53.53 53.88 55.25 51.23 54.24 54.02 53.60 53.33 53.26 53.1 4 53.42 53.74 53.35 53.09 53.49 53.72 53.59 55.29 56.37 57.2s 57 .87 co_1 5.09 5.09 5.14 5.22 5.34 5.25 5.43 5.47 5.54 5.60 5.64 5.71 5.78 5.86 5.88 5.88 5.86 5.82 5.83 5,84 5.80 5.78 5.74 5.69 5.68 5.63 5.54 5.6I 5.37 5.29 5.26 5.18 5.18 5.22 5.25 5.28 5.28 5.23 5.23 5.26 5.25 5.25 5.23 5.24 5.35 5.39 5.27 5.19 5.22 5.25 5.25 5.18 5.1 5 5.1 3 5.13 5.13 5..16 5ll 5.23 5.27 5.29 5.34 5.42 548 Ambient 50 60 60 60 60 60 60 60 60 60 60 60 60 60 bU 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 61 ot ol 61 bt bt OI bt 61 60 60 60 60 60 60 60 50 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 bU 60 50 60 60 60 60 60 60 16.4 16.4 16.5 16.5 16.4 16.2 16.2 16.3 to.J 16.3 16.3 16.3 16.4 16.7 17 .1 17 .2 17 .2 17.2 Humidity Group name 18.3 StratiflcationTraverse 18.7 Stratiflcation Traverse 18.7 Stratiflcation Traverse 18 4 Stratiflcation Traverse 1A.2 Stratiflcation Traverse 18.6 Stratificalion Traverse 1 8.9 Stratification Traverse 18.8 Stratification Traverse 17.6 1 8.6 Stratiflcation Traverse'18.4 Stratiflcation Traverse 1 8.4 Stratification Traverse 18.1 StratiflcationTraverse'17.8 StratificationTraverse 17 -9 Stratification Traverse 18.3 StratiflcationTraverse 18.6 Stralification Traverse 18.4 Stratiricalion Traverse 18.0 StratlflcationTraverse17.7 StratiflcationTraverse 17.8 StraiificationTraverse 17.6 StratiflcationTraverse 17.3 StratiflcationTraverse 17.4 StratificationTraverse17.6 StratificationTraverse 17.8 StratificationTraverse 18.1 Stratification Traverse 1a.4 Stratification Traverse 18.4 Stratification Traverse 18.1 StratiflcationTraverse 17.9 StratificationTraverse 17.9 StratilicationTraverse 18.6 StratillcationTraverse 18.0 1 8.7 Stratillcation Traverse 18.0 Stratiflcation Traverse 17 .6 Stratification Traverse 17.3 StratilicationTraverse 16.8 SlratificationTraverse16.4 Stratification Traverse 16.2 Stratiflcation Traverse 1 5.9 Stratiflcation Traverse 15.9 Stratiflcation Traverse 15.9 StratiticationTraverse 16.0 StralificationTraverse 16.2 Stratiflcation Traverse 16.4 Stratiflcation Traverse 16.4 Stratification Traverse 16.3 StratificationTraverse 1 6.4 Stratiflcation Traverse 16.5 Stratification Traverse 16.6 StratilicationTraverse 16.7 Stratiflcation Traverse 16.8 Slratiflcation Traverse 17.o StratificationTraverse 17.O StratificationTraverse16.9 StratificationTraverse16.9 Stratification Traverse 16.7 Company Station Unit TimeStamp 03/1 1/2025 16:16:16 03t't112025 16.16.26 03/1 1/2025 16:15:36 03/1 1i2025 16:16:46 03/1 1/2025 16:16:56 03/11/2025 16:17:06 0311112025 16:17:'16 0311112025 16:17:26 03/1'1i2025 16:17:36 0311112025 16.17:46 . U311112025 16:17:56 03/'l 1/2025 16:18:06 03/1 'l /2025 16:18:1 6 0311112025 16.18:26 03/1 1/2025 16:18:36 03/1 1 /2025 1 6:1 8:46 03/1 1/2025 16:18:56 03/.1 1/2025 15:19:06 03/'l'112025 16:19:16 0311112025 16.19:26 03/1 1/2025 16:19:36 03/1'l12025 16:19:46 03/1 1/2025 16:19:56 03/1 1/2025 16:20:06 03/1 1/2025 16:20:16 0311'112025 16:20.26 03/'1 1/2025 '16:20:36 0311112025 16:20.46 0311112025 16:20.s6 03/1 1/2025 16:21:06 o3t1112025 16.21.16 O3h112025 16.21:26 0311112025 16:21:36 03t11t2025 16.21.46 03111t2025 16.21.56 0311112025 16:22:06 03t11t2025 16.22.16 0311112025 16.22.26 0311112025 16:22:36 031'1112025 16:22:46 03I1112025'l6.22.56 0311112025 16:23:06 0311112025 16:23.16 0311112025 16:23.26 03/1 1/2025 '16:23:36 0311112025 16:23:46 03/-l 1/2025 16:23:56 0311112025'16.24:06 0311112025 16.24:16 0311112025 16:24.26 0311112025 16.24:36 0311112025 16:24.46 0311112025 16:24.56 03/1 1/2025 16:25:06 0311112025 16:25:16 03t1112025 16.25.26 03/'1 1/2025 16:25:36 0311112025 16.25:46 0311112025 16:25.56 03t1'tt2025 16.26.06 0311112025 16:26:16 0311112025 16:26..26 O3l'l'l12025 16:26.36 0311112025 16.26:46 0311112025 16:26.56 0311112025 16:27.06 03I1112025',16.27.16 0311112025 16.27.26 0311112025 16:27.36 0311112025 16:27:46 0311112025 16:27:56 03/1 1/2025 16:28:06 O311112025 16:28:16 0311112025 16:28.26 0311112025 16.28:36 o311112025 16.28.46 0311112025 16:28.56 03/1 1/2025 16:29:06 0311112025 16.29:16 0311112025 16:29.26 Altamont LLC Bluebell Gas Planl u- lo I 02_1 9.50 9.52 9.54 9.57 9.61 9.6'1 9.6'l 9.59 9.64 9.61 9.64 9.6'1 9.61 9.64 9.59 9.59 9.56 9.57 9.50 9.48 9.46 9.42 9.43 9.39 9.36 9.38 9.34 9.36 9.34 9.31 9.31 9.30 9.28 9.31 s.33 9.29 9.33 9.35 9.41 9.38 9.39 9.40 9.44 9.40 9.44 9.45 9.47 9.50 9.51 9.57 9.64 9.63 9.64 9.63 9.65 9.61 9.62 9.61 9.61 9.61 9.60 9.59 o qi 9.48 9.45 9.41 9.39 9.39 9.37 9.38 9.36 9.35 9.36 9.34 9.33 9.33 Ambient PBaro 60 24.20 60 24.20 60 24.20 60 24.20 60 24.20 60 24.20 60 24.20 60 24.20 60 24.2060 24.2060 24.20 60 24.20 60 ' 24.20 50 24.20 60 24.2060 24.2060 24.20 60 24.19 60 24.19 60 24.1960 24.1960 24.19 60 24.1959 24.1959 24.20 59 24.20 59 24.20 59 24.20 59 24.20 59 24.20 59 24.20 59 24.24 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.1959 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.1959 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 58 24.1958 24.1958 24.19 58 24.19 58 24.19 58 24.'19 58 24.19 58 24.19 58 24.19 58 24.'19 58 24.19 58 24.19 58 24.1958 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 l #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6.1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run'- 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 6'1 #1 Test Run - 6 1 #1 Test Run - 61 # 1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 Run name Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test 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 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOX-1 57.87 57.86 58.4'1 58.85 59.89 60.69 59.84 59.28 56.98 55.46 55.63 54.98 54.17 53.73 53.39 al 20 50.1 3 48.24 47.00 46.45 46.04 46.28 46.33 48.36 49.72 50.44 50.93 51.91 52.54 51.65 51.12 50.88 50.70 51 .48 51 .97 52.O7 52.14 52.01 5'1.92 53.35 54.02 54.7 5 54.99 55.1 3 56.39 57.22 58.1 5 58.79 59.25 59.5 1 61.29 62.42 61.29 60.73 58.41 56.88 55.73 54.48 54.64 54.78 54.70 54.70 3Z.J I 51.15 49.05 47.76 46.1 5 44.41 45.1 0 45.75 47.06 47.90 49.20 50.1 1 50.72 5'1 .03 51.67 52.38 co_1 5.50 5.54 5.53 5.56 5.56 5.56 5.60 5.65 5.69 5.71 5.70 5.70 5.67 5.63 5.59 5.50 5.43 5.36 5.23 5.23 5.24 5.25 5.28 5.27 5.26 J Zt 5.25 5.24 5.24 5.21 5.22 5.19 5.19 5.16 5.1 8 5.18 5.'19 5.26 5.36 5.39 5.41 5.46 5.50 5.65 5.71 5.80 5.86 5.90 5.91 5.86 5.83 5.76 5.71 5.68 5.66 5.65 5.61 5.55 5.46 5.38 5.34 5.29 5.22 5.20 5.1 I 5Zl Humidity 17.? 17.2 17 .1 16.8 16.8 16.9 17.O 16.9 '16.8 '16.3 16.1 15.8 15.7 15.8 '15.8 1s.7 15.6 15.5 15,5 '15.6 15.4 15.4 15.5 15.4 l3_J 15.3 't5.2 I a.l 15.2 15.1 15.1 15.1 1 5.1 15.1 1 5.1 '15.0 15.1 15.3 15.4 15.4 '15.4 15.6 15.4 15.6 15.6 15.6 1 5.6 15.6 't5.7 15.7 15.6 15.5 15.4 15.4 15.4 15.4 1 5.5 15.5 15.4 1 5.4 15.5 '15.8 1 5.9 15.9 15.8 15.8 15.9 16.0 '16.0 16.0 16.0 15.8 15.7 15.4 319 Company Station Unit TimeStamp 03/1'l12025 16:29:36 0311112025 16.29.46 0311112025 16:29.56 03/11/2025 16:30:06 03/'11/2025 16:30:16 03/'1 1/2025 16:30:26 03/1 1/2025 16:30:36 03/1 1/2025 16:30:46 03/1'112025 '16:30:56 03/11/2025'16:31:06 03/11/2025 16:31:.16 o311112025 16.31:26 03/1 1/2025 '16:31:36 0311112025 16..31.46 03/11/2025 16:31:56 O311112025 16.32:06 o3111t2025 16.32.16 o311112025 16.32:26 03/1'1/2025 16:32:36 O311112O25 16:32'.46 0311112025 16.32:56 03/1 1/2025 16:3s:06 03/1 1i2025 16:33:16 03/'l 1/2025 16:33:26 03/1'112025 16:33:36 03/11i2025 16:33:46 03/1 1i2025 16:33;56 0311112025 16:34OG o311112025 16.34.16 0311112025 16.34.26 03/1 1/2025 '16:34:36 03i 1 1i2025 16:34:45 03/1 1/2025 16:34:56 03i11/2025 16:35:06 03/1 1i2025 16:35:16 03h1/2025 16:35:26 03/1.1/2025 16:35:36 03h 1/2025 16:35:46 03/-l 1/2025 16:35:56 03/1'112025 16:36:06 03/1 1/2025 16:36:16 O311112025 16:36.26 03/11/2025 16:36:36 03/1 1i2025 16:36:45 03/11/2025 16:36:56 03i 1 1/2025 16:37:06 0311'112025 16:37:16 O3111120?5 '16:37.26 03i '1 1/2025 16:37:36 0311112025 16:37.46 03/1 1/2025 l6:37:56 03/11/2025'16:38:06 03i11/2025 16:38:16 03/1 1i2025 16:38:26 03/'11/2025 16;38:36 0311112025 16.38.46 03/1 1/2025 16:38:56 03/11/2025 16:39:06 03/1 1/2025 '16:39:15 03/1 1i2025 16:39:26 03/1 1/2025 16:39:36 03/.11/2025'16:39:46 03/1 1/2025 16:39:56 03/1 1/2025 16:40:06 03/11/2025 16:40:16 0311112025 16.40.26 03/1 1/2025 16:40:36 0311112025 16:40:46 03/11/2025 16:40:56 0311112025 16:41.06 0311112025 16:41.16 0311112025 16:41:26 o311112025 16:41 36 03l1'112025 16:41:46 03/1 1/2025 16:4'1 :56 0311112025 16.42.06 o311112025 16.42.16 0311112025 16.42.26 0311112025 16:42:36 o311112025 16.42.46 Altamont LLC Bluebell Gas Plant c-161 o2_1 NOX_1 9.35 s.33 9.32 9.32 9.36 9.39 9.39 9.39 9.38 s.39 9.43 9.44 9.4 5 9.43 9.46 9.50 9.50 9.56 9.61 9.64 9.63 9.63 9_ bb 9.66 9.66 9.53 9.61 9.61 9.61 9.62 9.60 9.60 9.59 9.56 9.54 9.48 9.45 9.46 9.41 9.40 9.42 9.40 9.38 9.37 9.36 9.34 s.36 9.31 9.32 9.31 9.29 9.31 9.35 9.33 9.35 9. Jb 9.41 9.39 9.4 1 9.44 9.44 9.45 9.46 9.49 9.51 9.5'1 9.57 9.63 9.63 9.66 9.63 9.66 9.64 9.60 9.63 9.57 9.60 9.6 1 52.1 8 52.03 Et oo 5 1.96 52.59 54.04 s4.81 53.91 55.47 56.81 60.06 59.85 59.71 59.68 59.69 60.57 61.03 59.70 58.63 56.1 3 54.39 55.35 56.01 55.1 2 54.53 54.55 54.73 53.80 53.34 51.45 50.20 48.28 47.03 46.92 46.78 47.53 48.00 49.48 50.42 51.28 51.88 51.77 51.70 51.92 52.03 52.59 53.01 52.3 1 51.86 52.66 53.05 52.93 53.45 53.75 54.06 54.26 54.26 56.36 58.48 58.80 59.00 59.38 59.63 60.09 60.51 61.51 62.33 58.73 56.35 54.90 53.96 53.26 52.77 53.47 co_1 5.28 5.28 5.30 5.31 5.J I 5_J I 5_33 5.34 5.36 5.41 5.41 5.42 5.43 5.44 5.47 5.49 5.56 5.63 5.74 5.83 5.86 5.84 5.83 5.8'l 5.80 5.79 5.78 5.76 5.76 5.7 4 5/t 5.68 5.60 5.54 5.48 5_J/ 5.34 5.30 5.31 5.J I 5.31 5.34 5.31 5. ZO J_ZO 5.25 5Zl 5.22 5.1 9 5.20 5.17 5.16 5.15 5.16 s.22 5.27 s.42 5.48 5.65 5.67 5.73 5.83 5.87 5.88 5.92 5.95 5.95 5.94 5.87 Ambienl PBaro Humidity Group name #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 d1 TestRun-61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 58 ?4.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.1958 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 s8 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.1958 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.'19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.',19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 58 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.19 59 24.1959 24.19 59 24.19 320 Run name 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 Test Run Test Rln 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 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 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 15.3 1 5.4 '15.6 to. I tb_J 16.1 1 6.1 to_ I 15.9 15.8 15.8 16.1 1 6.1 16.0 '15.9 15.8 15.8 15.9 16.0 16.0 '16.0 1 6.1 16.0 15.9 15.9 16.0 16.2 16.5 16.8 16.5 I O.J 16.2 16.1 16.0 16 16 tb to '16 16.6 16.5 '16.5 16.4 '16.4 16.4 16.3 16.4 16.5 16.7 16,8 to.o 16.9 16.9 I O.6 16.7 16.6 to.o lo.o 16.5 16.s 16.4 16.4 16.5 16.6 16,6 to.o 16.6 16.6 16.5 16.4 '16.4 16.4 16.2 to.J 16.3 16.3 16.3 Company Station Unit TimeStamp 0311112025 16:42.56 03/'1 .1/2025 16:43:06 0311112025 16:43 16 031't112025 16:43.26 03/11/2025 16:43:36 0311112025 16.43:46 03/1 1/2025 16:43;56 0311112025 16:44 OB O311112A25 16:44.16 O311112025 16.44:26 03/11/2025 16:44:36 O3l'1112025 16:4446 O311112025'16:44.56 03/11/2025 16:45:06 03/1 1 /2025 1 6:45:1 6 0311112025 16:45.26 03/1 1/2025 '16:45:36 0311112025 16.45.46 03l'1112025 16:45:56 03/11/2025 16:45:06 03/1 .l /2025 16:46:1 6 0311112025 16.46.26 03/1 1/2025 '16:46:36 0311112025 16:46.46 03/1 'l12025 '16:46:56 0311112025 16.47:06 0311112025 16'.47:16 O311112025 16:47.26 0311112025 16:47.36 0311112025'16.47:46 0311112025 16.47.56 03/1 1/2025 '16:48r06 03/1 1i2025 16:48:16 0311112025 16 48 26 03/1 1/2025 16:48 36 0311112025 16.4846 03/'l 1i2025 16:48:56 03/1 1/2025 16:49:06 O311112025 16.49:'16 03111t2025 16'.49.26 03/1 1/2025 '16:49:36 0311112025 16.49"46 03i 1 1/2025 '16:49:56 03/1 1/2025 16:50:06 03/1 1/2025 16:50:16 03/1 1/2025 '16:50:26 03/1 1/2025 16:50:36 03/1 1/2025 16:50:46 03/1 1/2025 16:50:56 03/1 1/2025 '16:51:06 03/1 1/2025'16:51:16 0311112025 16:51.26 03/11/2025 16:5'l:36 o3111t202s 16.s1.46 03/1 1/2025 16:51:56 03/1 1/2025 16:52:06 0311112025 16.52:'16 0311112025 16:52.26 03/1 1/2025 16:52:36 0311112025 16 52:46 0311112025 16.52:56 03/1 1/2025 16:53:06 03/11/2025 16:53:16 03/1 1/2025 1 6:53:26 03/1 1/2025 16:53:36 03i 1 1i 2025 16:53:46 03/1 1/2025 16:53:56 03h 1/2025 16:54:06 03/1 1/2025 16:54:16 0311112025 16:54.26 03/'l 1/2025 16:54:36 03t1112025 16.54.46 03/1 1/2025 '16:54:56 03/11/2025 16:55:06 03/11/2025 16:55:16 03/'1 1/2025 16:55:26 03/1 1/2025 16:55:36 03/11/2025'15:55:46 03/1 1/2025 16:55:56 03/1 '1i2025 '16:56:06 Altamont LLC Bluebell Gas Plant c-161 02_1 9.61 9.58 9.57 9.54 9.50 9.48 9.42 9.41 9.41 9.37 9.34 9.36 9.34 9,36 9.34 9.31 9.3'l 9.29 9.29 9.29 9.30 9.28 9.31 9.30 9.31 9.35 9.38 9.39 9.36 9.42 9.40 9.42 9.40q rq 9.44 9.46 3. tz 9.59 9.61 9.61 9.61 s.56 9.57 9.57 9.61 9.58 9.60 9.54 9.54 9.48 9.43 9.40 9.37 9.38 9.36 9.34 9.34 9.31 9.32 9.32 9.29 9.31 9.33 9.28 9.27 9.31 o at 9.31 9.35 9.38 9.38 9.39 9.39 9.40 9.44 9.44 NOX-1 54.67 55.50 54.14 53.38 50.1 3 47.93 47.60 47.39 47.42 47.39 48.80 49.73 50.95 51.78 51.88 52.26 52.67 52.93 53.1 1 52.7 5 52.40 52.96 53.33 53.25 53.1 6 54.69 55.93 56.06 56.86 57.38 58.56 59.33 59.4 5 59.54 60.47 60.99 62.42 63.44 61.41 59.55 56.00 53.56 53.75 53.81 54.57 55.1 0 54.09 51.74 50.30 47.64 45.82 46.64 47.10 47.97 48.56 49.55 50.17 50.51 50.74 51.90 52.15 52.90 53.27 54.17 54.77 54.1 6 53.76 54.05 54.28 54.86 55.43 56.1 I 56.65 57.62 58 56 co_1 5.84 5.80 5.72 5.63 5.44 5.36 5.38 5.36 5.30 5.27 5.26 5.28 5.28 5.29 5.25 5.21 5.'t6 5.1 5 5.1 3 5.13 5.14 5.1 8qaa 5.28 5.38 5.42 5.47 5.47 5.51 5.55 5.59 5.66 5.70 5.73 5.77 5.78 5.78 5.77 5.70 5.65 5.62 5.57 5.51 5.44 5.38 5.28 5.24 5. 16 5.09 5.09 5.09 5. 17q )a 5.22 5.19 5.18 5.17 5,16 5.16 5.'16 J. tc s.17 5.19 5..18 5.26 5.37 5.37 5.34 Ambient 59 59 59 59 59 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 57 57 57 57 57 57 57 57 57 58 58 58 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 Humldity '15.9 15.7 15.7 15.6 15.6 15.6 15.4 15.5 15.4 15.4 15.3 15.4 15.4 t3.J 15.2 1 5.1 15.0 15.0 15.0 15.1 1 5.1 t5.J 15.4-t5.4 '15.4 15.6 15.7 15.7 15.8 15.8 15.8 15.8 15.7 15.7 15.7 15.7 15.6 15.6 1s.6 15.5 15.5 I J.5 15.4 15.4 '15.5 '15.6 15.7 15.9 16.0 16.0 15.9 15.9 16.0 16.1 to.z 16.2 16.0 15.7 15.7 15.7 15.7 15.8 15.9 15.0 15.9 16.0 I b.J '16.5 '16.6 16.9 17 .0 17.0 17 .0 16.7 16,4 Group name #1.Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 # l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Tesl Run - 61 fl1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 6.1 #'1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6-l #1 Test Run - 61 #1 Test Run - 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o3t11t202s 17'.01.16 031't112025 17.01 .26 0311112025 17.01'.36 0311112025 ',17.01.46 o311112025 17 .01 .56 0311112025 17:02.06 0311112025 17.02:16 0311112025 17.02:26 0311112025 17.02:36 O3l1'112025 17.02:46 o3l1',|12025 17.02.56 0311112025 17.03.06 03l'1112025 17:O3:16 0311112025 17.03:26 O3h1l2O25 17:03.36 0311112025 '17.03:46 03/1 1/2025 17:03:56 o3t1112025 17.O4.06 0311112025 17:04:16 0311112025 17.04:26 o311112025 17.04:36 0311112025 17:04.46 0311112025 '17:04:56 0311112025 17:05:06 03/11/2025 17:05:16 0311112025 '17:o5.26 03i 1 1/2025 17:05:36 o3t1'U2025 17.05.46 o3t1112025 17'.O5.56 03i '1 1/2025 17:06:06 0311112025 17:06.16 o3t11t2025 17.06.26 0311112025 '17:06.36 0311112025 17:06:46 0311112A25 17.06:56 0311112025 17.07:06 0311112025 17.o7:16 o311112025 17:07:26 o3t11t2025 17.O7.36 03t11t2025 17.07.46 o3111 12025 17 .O7 .56 0311112025 17:08:06 0311112025 17:o8.16 0311112025 17 ,O8.26 03/1 1/2025 17:08:36 0311112025 17:08:46 O311112025 17:08:56 03/1 1i2025 17:09:06 0311112025 17:O9.16 0311112025 17:09:26 Altamont LLC Bluebell Gas Plant c-16'1 02_1 9.48 9.50 9.58 9.61 9.61 9.64 9.66 9.64 9.64 o<o 9.61 9.61 9.57 9.56 9.59 9.57 9.56 9.54 9.52 9.48 9.43 9.41 s.41 9.36 9.37 9.35 s.31 9.31 9.33 9.29 9.29 9.31 9.25 L26 9.27 3.ZO 9.25 9.32 9.26 9.32 9.35 9.38 9.39 9.38 9.39 9.41 9.40 9.44 9.46 9.47 9.50 9.56 9.59 9.63 9.63 9.61 9.60 9.58 9.60 9.58 9.58 9.58 9.59 9.59 9.56 9.54 9.52 9.48 9.46 9.42 9.39 9.34 9.36 9.36 9.34 9.35 9.34 9.33 9.31 9.35 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 ?4.19 24.19 24,19 24.'19 24.19 24.19 24.',19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.15 24.19 24.19 24.15 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 aA 10 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 322 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #.1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 # 1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 6'l #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 dl Test Run - 61 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 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 Test 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 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 Tesl 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 NOX_1 59.35 60.15 61.24 61.89 62.54 63.1 0 60.56 58.04 56.25 54.38 54.32 54.27 54.17 54.11 54.1 0 54.12 53.37 52.95 50.76 49.41 47.68 46.49 47.04 47.34 48.68 49.56 49.82 49.99 50.9.1 51.84 52.45 52.38 52.31 52.56 52.73 5J. tO 53.43 53.88 54.36 54.21 54.03 54.41 54.6'1 55.81 56.59 57.14 57.47 59.08 60.09 61.24 62.03 62.64 63.24 60.84 59.39 57.08 55.52 s4.77 54.22 54.57 54.82 54.73 54.71 53.87 53.38 51.29 49.94 48.33 46.71 46.76 46.70 48.27 49.28 50.37 51.08 51.59 51.94 52.63 53.34 co_1 5.36 5.J / 5.41 5.54 5.61 5.70 5.78 5_ /b 5.78 5-/5 5.78 5.77 5.7 4 5.68 5.64 5.57 5.54 5.47 5.39 5.34 t_J I 5.31 5.32 5.31 5.28 5.29 5.30 5.28( ,1 5.1 8 5.1 3 5.13 5.11 3.tJ 5.1 3 5.1 1 5.12 5.13 5.17 5.20 5.23 5.29 5.33 5.41 5.44 5.47 5.47 5.47 5.53 5.59 5.64 5.71 5.75 5.75 5.77 5.76 5.73 5.67 5.62 5.57 5.51 5.43 5.40 5.36 5.29 5.27 5.25 5.28 qra 5.16 5.16 c_ tJ 5.14 5.1 3 Ambient 58 58 58 58 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 11 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 Humidity 16.3 tb_ I '16.0 16.0 16.3 16.6 16.5 16.4 16.4 16.4 16.5 16.6 16.6 16.5 tb.J 15.3 16.0 15.9 15.8 '16.0 to J 16.4 16.4 to.2 to.u 15.9 15.9 16.1 I o.z 16.2 16.1 16.0 16.0 16.0 '15.9 .< o 15.9 16.0 16.0 16.0 16.2 16.4 16.6 16.8 16.8 16,5 16.7 '16.8 16.7 16.7 tb.b 15.4 16.3 16.2 tb J 16.4 16.4 16.3 16.2 to I 16.2 16.0 15.9 15.9 '15.9 16.0 '16.1 16.4 16.5 16.5 16.7 16.6 16.4 16.3 16.3 16.4 16.4 '16.4 Company Station Unit TimeStamp O311112025 17 .0936 0311112025 17.09.46 03/1 1/2025 17:09:55 o3l11l?o25 17:10:06 0311112025 17:1O:16 0311112025 17.10.26 0311112025 ',t7.10.36 03111t2025 17.10.46 0311112025 17:10:56 O3l1'll2O25 17:11:06 0311112025 17.11:16 0311112025 17:11:26 0311112025 17 .11:36 0311112025 17.11.46 0311112025 17.11:56 O3l1'112025 17.12:06 O3l1'll2O25 17:12.16 0311112025 17.12.26 o3l'11t2025 17.12.36 0311112025 17:12'.46 0311112025 17:12:56 0311112025 17:13.06 O3l1'll2O25 17:13.'16 0311112025 17:13.26 0311112025 17 13:36 0311112025 17.13:46 0311112025 ',17.13..56 031'1112025 17.14:06 Average O311112025 17 .17:11 0311112025 17.17:21 031 1 1 12025 17 . 17 :3 1 0311112025 17.17:41 0311112025 17.17:51 O311112025 17:18.o1 Average 0311112025 ',t7.19.1I 03111t2025 17'.19.28 03/1 1/2025 17:19:38 o3t11t2025 17.19.48 03/11/2025 17:19:58 0311'l12025 '17:2O:OB Average 0311112025 17.20:51 0311112025 17.21:01 0311112025 17:21.11 0311'll2O25 17:21.21 0311112025 17:21:3'l 03t11t2025 17.21:41 Average 0311112025 17:24.13 03t1112025 17 .24:23 0311112025 17.24:33 031111?025 17:?4.43 o3t11t2025 17.24.s3 0311112025 17:25.03 0311112025 17:25:13 0311112025 17:25:23 0311112025 17:25.33 0311112025 17:25:43 0311112025 17.25.53 03111t2025 17.26.03 0311112025 ',17.26:13 O3l1'112025 17:26:23 0311112025 17:26.33 0311112025 17:26.43 o3111 t2025 17 .26.53 0311112025 17.27:03 O3I1'l12025 '17 .27:13 0311112025 17:27:23 O311112025 17:27:33 0311112025 17:27.43 o3t1112025 17.27.53 o3I11t2025 ',t7.28.O3 0311112025 17.28:13 0311112025 17:2823 Altamont LLC Bluebell Gas Plant c-161 02_1 9.29 9.31 9.31 9.32 9.34 9.36 9.36 9.36 9.41 9.40 s.43 9.46 9.46 9.44 9.50 9.54 9.59 9.61 9.61 9.63 9.6'l 9.59 9.58 9.58 9.56 9.56 9.45 0.04 0.06 0.04 0.05 0.04 0.05 0.05 0.05 0.02 0.04 0.03 0.03 0.05 0.04 '10.75 10.77 1A.77 10.79 10.77 10.78 '10.77 9.38 9.34 9.36 9.33 9.33 o 20 9.2S 9.31 9.29 9.27 9.30 9.31 9.32 9.33 9.35 9.36 9.36 9.37 9.36 9.39 9.42 9.46 9.46 9.45 9.48 9.54 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 323 Group name #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #'1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name 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 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_l Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_l Bias NOx_1 Bias CO_l Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_'1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_'l Bias 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 Tesl Run Test Run Test Run Test Run NOX_1 53.22 53.1 6 52.67 52.1 I 52.21 52.20 52.68 52.93 54.17 55.00 55.72 56. '16 57 .41 58.22 58.49 58.77 58.87 58.96 60.69 62.41 62.55 58.75 56.23 55.36 54.77 54.72 54.67 54.05 186.07 186.05 186.25 186.44 186.39 186.36 1 86.26 46.76 20.44 13.72 6.35 4.38 3.02 15.78 1.73 1.72 1.53 1.41 t.Jz 1.22 1.49 48.46 48.76 49.36 49.74 50.42 50.88 51 .20 51.52 51.49 5'1.45 52.37 52.95 52.79 52.72 52.92 53.00 54.06 54.72 5s.70 56.29 58.1 9 5S.41 60.28 60.92 60.77 60.63 co_1 5.'13 5.1 0 5.08 5.06 5.08 5.12 5.17 5.20 5.23 5.27 5.29 5.31 5.28 ' 5.31 5.40 5.45 5.50 5.64 5.69 5,76 5.76 5.78 5,81 5.78 5.79 5.43 1.21 '1 ..1 I 1. 18 1.17 l. to 1 .15 1.18 188.80 191.70 193.00 193.90 1 94.30 1 94.1 0 1 92.63 66.1 I 32.11 14.9S 7.89 3.54 1.78 21.08 5.29 5.29 5.27 5.23 5.21 5.20 5.18 J. lo 5.18 5.20 s.24 5.30 5.33 5.42 5.48 5.54 5.65 5.71 Ambient 57 57 57 57 57 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 59 59 59 59 59 59 59 59 <o 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 Humidaty lo_J 16.5 16.8 16.8 16.7 16.6 to./ 16.8 16.8 16.8 16.9 16.9 16.8 to. / 16.4 15.3 16.3 16.3 16.3 16.5 16.7 16.8 16.9 16.9 16.7 16.4 '16.4 16.3 16..1 17 .3 17 .4 't7.4 17.3 17.3 17.2 17.3 17 .4 17.3 .17.3 17 .3 17.2 17.2 17.3 17 .0 17.0 16.9 16.8 tb.b 16.7 16.8 16.7 16.6 tb_o 16.6 16.7 16.7 to.o 16.6 16.5 16.5 16.5 16.4 16.4 16.2 16.2 16.1 16.1 15.9 '15.8 15.8 15.9 15.9 15.8 15.9 162 Company Station Unit TimeStamp 03i1112025 17 2833 0311112025 17:28.43 0311112025 17:28.53 0311112025 17.29.03 0311112025 17:29:13 o311112025 17 .29 .23 0311112025 17'.29:33 o311112025 17:29:43 o3t11t2025 17.29.53 03i11i2025 17:30:03 0311112025 17:30:13 0311112025 17..30.23 03/1 1/2025 17:30:33 0311112025 17.30:43 0311112025 17:30.53 0311112025 17.31:03 0311112025 '17:31:13 0311112025 17:31.23 0311112025 17:31:33 O311112025 17:31:43 o311112025 17 .31 .53 0311112025 17'.32.03 O311112025'17:32:13 031111202s 17.32.23 0311112025 17.32:33 0311112025 17:32.43 0311112025 17.32.53 03/11i2025 17:33:03 o311112025 17:33.13 o311112025 17..33.23 0311112025 17.33.33 0311112025 17'.33:43 03/1 1/2025 17:33:53 o311112025 17.34.03 0311112025 17.34:13 o3l1'll2o25 17:34.23 o3t11t2025 17 .34.33 o3h1l2o25 17 .34:43 0311112025 17:34.53 03/1 1/2025 '17:35:03 03/11/2b25 17:35:13 o3l't 112025 17 .35.23 0311112025 17:35.33 0311112025 17.35:43 03/1 1/2025 17:35:53 03/11/2025 17:36:03 O311112025 17.36:13 0311112025 17'.36:23 o3I1112025 ',17 .36.33 O311112025 17.36:43 0311112025 17 .36:53 o3111120?5 17.37 .O3 0311112025 '17:37 .13 o311112025 17.37'.23 o3h1l2o25 17 .37:33 o3t1112025 17.37.43 O31 1 1 12025 17 :37 .53 03/1 1/2025 17:38:03 0311112025 17:38:13 0311112025 17:38.23 03/11/2025 17:38:33 0311112025 17.38:43 0311112025 17:38.53 03/1 1/2025 17:39:03 0311112025 17.39:13 0311112025 17.39.23 0311112025 17:39.33 0311112025 17..3943 03i 1 1/2025 17:39:53 O3h'l12025 17:4O.O3 0311112025'17:4O.13 03111t2025 17.40.23 o311112025 17.40:33 O311112025 17:40:43 0311112025 17:40.53 0311112025 17:41.03 0311112025 17:41:13 0311112025 17:41:23 0311112025 17:41 .33 o3t1112025 17 .41.43 Altamont LLC Bluebell Gas Plant c-1 61 02_1 9.57 9.63 9.63 9.64 9.62 9.61 9.63 9.57 9.56 Y.5b 9.56 9.56 9.54 9.56 9.53 9.51 9.48 9.44 s.42 9.40 9.38 9.32 9.36 9.34 9.32 9.34 9.30 9.31 9.29 9.28 9.30 9.27 9.26 9.26 9.31 9.31 9.34 9.36 9.35 9.35 9.38 9.39 9.39 L42 9.43 9.46 9.48 9.53 9.6'1 9.61 9.63 9.61 9.61 9.59 9.61 9.62 9.56 9.54 9.58 9.58 9.58 o<A 9.52 9.48 9.43 9.41 9.39 9.39 9.34 9.33 9.32 9.32 9.32 9.29 9.27 9.29 9.29 9.27 PBaro Humidity 24.19 16.7 24.19 17.1 24.19 17.1 24.19' 17 .1 24.19 17.0 24.19 16.9 24.19 16.9 24.19 17.1 24.19 17.2 24.19 17.1 24.19 17.124.19 17.3 2419 17.5 24.19 17.6 24.19 17.6 24.19 17.7 24.19 17.4 24.19 17.2 24.19 16.9 24.19 16.8 24.19 16.824.19 16.924.19 16.9 24.',t9 16.9 24.19 '16.9 24.19 17 .O 24.19 17.O 24.19 16.9 24.19 16.7 24.19 16.6 24.'t9 16.6 24.19 16.6 24.19 16.4 24.19 16.2 24.19 16.0 24.19. 1 5.9 24.19 16.2 24.19 16.6 24.19 16.7 24.19 16.6 24.19 16.5 24.19 16.4 24.19 16.2 24.19 16.124.19 16.224.19 16.5 24.19 16.9 24.19 17 .0 24.19 17 .0 24.19 17.O 24.19 16.9 24.19 16.8 24.19 16.7 24.19 '16.5 24.'19 16.3 24.19 16.4 24.19 16.5 24.19 16.6 24.19 16.6 24.19 16.5 24.19 16.4 24.19 16.4 24.19 16.6 24.19 16.9 24.19 16.8 24.'19 16.4 24.19 16.2 24.19 16.2 24.1q 16.1 24.19 15.8 24.19 15.6 24.19 15.4'24.19 15.324.19 1 5.3 24.19 15.3 24.19 15.3 24.19 15.4 24.19 15.4 24.19 ',15.2 24.19 15.1 324 Group name #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 NOX-1 61.98 bJ.Jb 61.91 60.59 56.62 54.00 53.43 52.93 53.49 54.82 55.04 54.80 52.90 51.74 50.32 48.84 48.60 48.37 49.38 50.05 50.64 51.02 52.01 52.64 53.04 53.30 53.54 53.72 53.36 52.99 53.02 53.05 53.27 53.47 53.93 54.20 55.02 55.57 56.50 57.42 57.96 58.29 59.00 59.43 60.30 61.17 61.87 62.52 63.24 63.91 60.45 58.1 I 56.57 55.45 56.1 8 56.02 55.94 55.43 54.92 54.32 54.05 51.83 49.60 48.72 47.78 48.14 48.44 49.86 50.83 51 .07 51.29 53.43 53.55 53.50 53.44 co_1 5.75 5.80 5.79 5.1 I 5.7'l 5.68 5.69 5.70 5.71 5/t 5.66 5.64 5.59 5.55 5.46 5.39 5.24 5.21 5.'1 I 5.1 8 5.1 8 5.1 3 5.14 5.11 5.09 5.09 5.10 5.1 5 5.1 6 5.1 I 5.26 5.30 5.33 5.42 5.44 5.47 5.45 5.46 5.47 5.49 5.55 5.59 5.59 5.60 5.61 5.68 5.75 5.83 5.83 5.80 5.79 5.76 5.75 5.69 5.63 5.59 5.51 5.46 5.36 5.24 5.1 I 5.14 5.1 3 5.17 5.17 5.1 1 5.06 4.95 4.91 4.88 4.88 4.91 Ambient 59 59 59 59 59 59 59 59 59 59 59 59 59 59 <o 59 59 59 59 59 59 59 59 59qo 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59.59 59 59 59 AO AO 59 58 58 58 58 58 58 58 58 Run name 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 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 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 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 Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp O3l1'112025 17:41..53 0311112025 17:42.03 03111t2025 17.42.13 03111t2025 17.42.23 0311112025 17:42:33 0311'll2O25 17:42.43 0311112025 17 42 53 03/'1 1/2025 17:43:03 O311112025 17:43:13 0311112025 17 43.23 O311112025 17 .43:33 O3h112025 17:43:43 O311112025 17:43:53 03t11t2A25 17.4403 O311112025 17.44:13 O311112025 17:44:23 O311112025 17.44:33 0311112025 17:44.43 03111t2025 17.44.53 031'lI12025 '17 .45:03 0311112025',t7 45',t3 o31111202s 17.45.23 O311112025 17.45:33 o3l't112025 17 .45.43 03l11l2O?5 17:45..53 0311112025 17.46.03 031't't 12025 17 .46:13 o311112025 17 .46 .23 0311'112025 17:46.33 03t1112025 17.46.43 0311112025 17.46:53 o311112025 17.47:03 0311112025 17'.47:13 0311112025 17 47 23 03t11t2025 17.47.33 031't112025 17.47.43 o311112025 '17:47 .53 0311112025 17 .48:03 0311112025 17.48:13 0311112025 17:48.23 o311112025 17 48.33 O311112025 17 48:43 03i 1 1/2025 '17:48:53 0311112025 17:49.O3 03111t2025 17.49.13 0311'112025 17:49.23 0311112025 17:49.33 0311112025 17:49.43 O311112025 17:49:53 03/11i2025 17:50:03 03/'11l2025 17:50:13 O311112025 17:50'.23 03/1 1i2025 17:50:33 0311112025 17:50:43 03i 1'1/2025 '17:50:53 0311112025 17.51:03 0311112025 17.51:'13 0311112025 't7:51.23 03t1112025 17 .51.33 o3t11t2025 17.51.43 03/11/2025 17:5'l;53 0311112025 17:52.03 o3t11t2025 17.52.13 o3t11t2025 17.52.23 03tI112025 ',t7.52.33 0311112025 17:52.43 o3t1'12025 17 .52:53 03/1'112025 17:53:03 O311112025 17:53:13 0311112025'17:53.23 03/1 1/2025 1 7:53:33 o3t11t2A25 17.53'.43 03i 1 1i2025 17:53:53 0311112025 17:54.03 0311112025 17.54:13 0311112025 17.54.23 o3t11t2025 17.54.33 0311112025 17:54.43 o3t111202s 17.54.53 o3t1112025 17.55.03 Altamont LLC Bluebell Gas Plant c-161 02_1 9.36 9.34 9.35 9.36 9.36 9.36 9.36 9.39 9.40 9.40 9.44 9.48 9.50 9.54 9.58 9.58 9.61 9.57 9.58 9.59 s.57 9.58 9.56 9.57 9.54 9,54 9.48 9.43 9.39 9.38 9.37 9.36 9.32 9.33 9.31 9.31 9.29 9.34 9.30 9.29 9.29 9.3'1 9.29 9.29 9.33 Y. J5 9.36 9,35 9.36 s.39 9.38 9.39 9.41 9.41 9.45 9.46 9.48 9.50 9.56 9.59 9.58 9.60 9.60 9.61 9.59 9.56 9.58 9.54 9.58 9.56 9.59 9.54 9.52 9.48 9.46 9.44 9.41 9.39 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.',t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19)n 10 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.',t9 24.19 24.19 24.19 24.19 24.19 24.',|9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 32s Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name 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 I ESt 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 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-1 53.73 53.92 54.87 55.81 55.70 55.58 56.23 56.62 57.95 58.81 59.56 60.05 61.19 61.80 65.20 67.53 64.87 63.28 60.89 58.45 57.55 56.63 56.24 55.97 55.49 55.24 52. tb 50.09 48.71 48.1 3 47.67 48.61 49.20 49.92 50.65 51.60 53.40 54.33 53.88 53.58 53,63 53.62 54.37 54.89 54. S5 55.01 54.68 54.41 56.08 57 .14 57.81 58.26 58.81 59.33 60.76 61.71 61 .86 62.02 63.05 63.76 61.15 59.51 57.99 56.95, 55.99 55.33 55.59 55.7 4 56.63 56.92 56.65 54.88 53.1 0 51.41 50,32 49.62 49.09 co_1 4.92 4.93 4.97 4.96 5.06 5.14 5.29 5.26 5.29 5.30 5.34 5.40 5.45 5.49 5.56 5.64 5.71 5.72 5.75 5.72 5.70 5.69 5.66 5.61 5.54 5.49 5.42 5.37 5.27 5.1 I 5.09 5.07 5.12 5.17 5.20 5.19 5.1 8 5,1 3 5.12 5.10 5.09 5.1 1 5.08 5.06 5.07 5.07 5.12 5.15 5.24 5.43 5.47 5.50 5.58 5.58 5.64 5.71 5.76 5.80 5.82 5.81 5.82 5.84 5.84 5.78 5.71 5.66 5.60 5.60 5.60 5.54 5.50 5.47 5.44 5.4 3 Ambienl 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 58 5B 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 Humidity tJ.z l5.J 't5.7 15.8 '15.9 16.2 16.4 16.5 I O.3 '16.5 16.4 16.4 16.4 16.5 '16.6 to, / 17 .0 17.2 17.4 17.4 17 .0 16.5 16.3 to. I 15.7 15.5 16.0 16.4 16.6 16.9 17 .4 17 .7 17 .8 18.3 18.2 18.0 17.7 17.6 17 .7 17 .8 17 .8 17 .3 17 .'l 17 .1 17.2 17.2 17 .0 16.7 16.5 16.4 16.3 16.4 16.6 16.7 16.7 16.6 16.4 toz lb.z 16.2 16.0 15.8 15.9 16.1 15.8 15.6 15.6 15,8 15_9 15.7 tc_c 15.6 15.6 15.7 15.7 Company Station Unit TimeStamp o311112025 17"55.13 o311112025 17:55.23 03i 1 1i2025 17:55:33 o3t11t2025 17.55.43 03h 1/2025 17:55:53 0311112025 17.56:03 0311112025 17.56.13 0311112025 17:56:23 O311112025 17.56:33 o3t1112025 17.56.43 03/'1 1/2025 17:56:53 0311112025 17 .57:o3 0311112025 ',17 .57 .13 0311112025 17:57:23 o3t1112025 17.57.33 o3111t2025 17.57.43 0311112025 17:57:53 0311112025 17.58:03 03t1112025 17.58.13 o311112025 17:58:23 0311112025 17:58.33 0311112025 17"58.43 03/1 'l /2025 17:58:53 03/1'll2025 17:59:03 03/1 1/2025 17:59:1 3 0311112025 17:59.23 03i 1 1i2025 17:59:33 o311112025 17"59.43 03/1 1/2025 17:59:53 03/11i2025 18:00:03 03i 1 1/2025 18:00:1 3 0311112025 18:00.23 03/11/2025 18:00:33 03/.11i2025 18:00:43 03/1 1i2025 18:00:53 03/1 1/2025 18:01:03 03/11/2025 18:01:13 0311112025 18.01.23 03/11/2025 18:01:33 0311112025 18.41:43 03/11/2025 18:01:53 o3t1112025 18.02.O3 0311112025 18:02'.13 0311112025 18.02:23 0311112025 18'.02.33 o311112025 1a:02.43 0311112025 18.02:53 03/1 1/2025 1 8:03:03 03/1 1 /2025 1 8:03:'l 3 03/1 1i2025 '18:03:23 03/1 1/2025 18:03:33 03/'1 1/2025 1 8:03:43 03/1 1 /2025 '1 8:03:53 03i 1 1/2025 18:04:03 o3t11t2025 18.04.13 0311112025 18:04:23 03/1 1i2025 '18:04:33 0311112025 18:04.43 O3l1'112025 18:04.53 03/11/2025 18:05:03 03/11/2025 18:05:13 o3t1112025 18.05.23 03/1 1/2025 18:05:33 03/1 1/2025 18:05:43 03/1 l/2025 1 8:05:53 03/11/2025 18:06:03 03/11/2025 18:06:13 O311112025 18.06:23 03/11/2025 18:06:33 0311112025 18.06:43 03/1 1/2025 18:06:53 03/11/2025 18:07:03 O311112025 18:07:13 0311112025 18.o7:23 03/1 1/2025 '18:07:33 0311112025 18.07.43 O311112025 18:07'.53 03/1 1/2025 18:08:03 03/1 1/2025 18:08:1 3 0311112025 18.08.23 Altamont LLC Bluebell Gas Planl u-tot o2_1 9.40 9.35 9.35 9.36 9.34 9.31 9.29oro 9.29 9.27 L27 9.25 9.26 9.28 9.23 9.27 9.26 9_26 9.29 9.34 9.36 9.35 9.36 9.38 9.39 9.40 9.42 9.44 9.46 9.47 9.50 9.56 9.57 9.59 9.58 9.61 9.56 9.57 9.56 9.54 9.56 9.58 9.54 9.53 9.52 9.46 9,43 9.39 9.39 9.34 9.31 9.31 9.33 9.27 9.27 9.30 9.29 9.29' 9.26 9.27 9.31 9,26 9.29 9.32 9.34 9.34 9.35 9.34 olo 9.39 9.39 9.41 9.44 9.46 9.48 9.53 9.56 9.59 PBaro Humidity 24.19 1 5.5 24.19 15.6 24.19 16.0 24.19 16.0 24.19 15.9 24.19 1 5.9 24.19 16.024.19 16.'l 24.19 '15.9 24.19 15.8 24.19 15.5 24.19 15.3 ?4.19 ',t5.2 24.19 15.7 24.19 16.0 24.19 16.3 24.19 16.7 24.19 16.924.19 16.9 24.19 16.8 24.19 16.6 24.19 16.s 24.'19 16.5 24.19 16.6 24.19 16.6 24.'19 16.5 24.19 16.3 24.19 16.2 24.19 16.324.19 16.3 24.19 16.3 24.19 16.4 24.19 15.5 24.19 16.5 24.19 16.4 24.19 16.4 24.19 '16.3 24.19 16.3 24.19 16.2 24.19 16.024.19 16.1 24.19 16.3 24.19 16.3 24.19 16.1 24.19 16.0 24.19 16.0 24.19 16.0 24.19 '16.0 24.19 .16.0 24,19 16.2 24.19 16.3 24.19 16.3 24.19 16.4 24.19 16.5 24.19 15.7 24.19 16.8 24.19 16.8 24.19 16.7 24.19 16.7 24.19 16.6 24.19 16.7 24.19 16.8 24.'19 16.8 24.19 16.8 24.19 '16.8 24.19 16.7 24.19 16.6 24.19 '16.4 24.19 16.4 24.19 15.5 24.19 16.7 24.19 16.7 24.19 16.7 24.19 16.8 24.19 16.8 24.19 16.7 24.19 16.7 24.19 15.624.19 16.5 24.19 '16.5 326 NOX-1 49.50 49.88 50,41 50.95 51.93 52.56 53.30 54.06 54.42 54.29 54.1 5 54.12 54.02 54.66 55.40 54.91 54.35 54.83 55.08 56.22 57.02 57.68 58.0s 59.45 60.83 62.02 62.84 62.70 62.60 62.65 62.60 64.11 65.'16 63.46 62.46 60.62 58.77 58.23 57.59 57.61 57.70 55.75 55.86 54.21 52.59 50.80 49.50 49.72 49.74 51.09 51.97 52.60 53.46 54.29 54.70 55.'18 55.36 55.5 1 55.74 56.00 56.06 56.09 56.07 56.07 56.1 I 56.1 7 57.90 59.05 60.1 8 60.87 62.20 63.1 0 63.90 64.43 64.57 64.63 65.25 65.89 co_1 5.40 5.34 5.28 5.1 8 5.15 5.12 5.09 5.0 3 4.97 4.93 4.89 4.88 4.91 4.97 5.00 5.04 5.05 5.07 5.13 5.1 8 5.18 5.15 5. tJ 5.13 5..18 5.23 5.29 5.34 5.38 5.45 5.50 5.54 5.56 5.56 5.60 5.6'1 5.64 5.66 5.66 5.63 5.55 5.47( ao 5.30 5.1 1 5.05 4.99 4.99 5.03 5.03 5.04 5.03 5.00 5.00 4.99 4.97 4.98 4.94 4.92 4.93 4.93 4.97 4.S8 5.00 5.06 5.1 3 5.20 5.27 5.35 5.34 5.36 5.39 5.48 5.55 Ambient 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 59 59 59 AO 59 59 59 59 59 59 59 59 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 fl2 Test Run - 6'l #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 6'1 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 f2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 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 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 Tesl Run Test Run Test Run Test Run Tesl Run Tesl 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 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 Station Unit Altamont LLC Bluebell Gas Plant c-16 1 Timestamp O2_'l 03/1 1/2025 18:08:33 9.61 03/11/2025 18:08:43 9.61 03i11/2025 18:08:53 9.59 03/1 1/2025 '18:09:03 9.62 03/11/202518:03:13 9.58 03/11/2025 18:09:23 9.60 03i11/2025 18:09:33 9.56 03/1 1/2025 l8:09:43 9.56 03/'111202518:09:53 9.56 03/11/2025 18:10:03 9.54 03/11/2025 18:10:13 9.55 o3111t2025 18.10.23 9.56 03/11/2025 18:10:33 9.50 03/1 1/2025 '18:10:43 9.52 03/'11/2025 18:10:53 9.51 03/11/2025'18:11:03 9.44 03i11/2025 18:11:13 9.41 O3l11l2O?518:11.23 9.43 o3t11t202518.11.33 9.38 o3t11t2025 18.11 .43 S.35 0311112025 18:1'l:53 9.39 03/1'1/202518:12:03 9.35 0311',1202s 18.12.13 9.34 o3t11t2025 18.12.23 9.35 0311112025 18:12:33 9.34 o3l'1112025 18.12.43 9.32 031111202518j2:53 9.30 03/11/2025 18:13;03 9.31 03/11/2025 18:13:13 S.32 o3t11t2025 18.13.23 9.31 03/1112025 18:13:33 9.31 o311112025 18:13.43 9.32 03/11/2025 18:13 53 9.36 03/11/2025 18:14:03 9.32 03t11t2025 18.14.13 9.35 o3t1112025 18.14.23 9.38 o3t11t2025 18.14.33 9.38 0311112025 18'.14.43 9.38 0311112025 18.14:53 9.41 03i11/2025 18:15:03 9.38 03/11/2025 18:15:13 9.41 o3t11t2025 18.1523 9.43 03/11/2025 18:15:33 9.42 0311112025 18.15.43 9.46 03/11/2025 18:'15:53 9.52 03/11/2025 18:16:03 9.61 03t11t2025 18.16.13 9.63 0311112025 18.16.23 9.63 03/11/2025 18:16;33 9.53 O3/1 1i2025 18:16:43 9.64 03/1'112025'18:15:53 9.61 0311112025 18.17:03 9.64 o3l1'120251A.17.13 9.63 0311112025 18.17:23 9.60 03/11/2025 18:17:33 9.59 031111202518.17.43 9.57 o3l't112025 18 17.53 9.54 03/11/2025 18:18:03 9.57 03/1 1/2025 18:18:13 9.55 03111t2025',18'.',t8'.23 9.54 03/1 1/2025 18:18:33 9.52 03/11/2025 18;18:43 9.51 03/1 1i2025 18:18:53 9.49 03i11/2025 18:19:03 9.47 O311112025 18:19.13 9.43 031111?025 18.19:23 9.39 03/'l 1i2025 18:19:33 9.39 03/11/2025 18:19:43 9.38 03/1 1i2025 18:19:53 9.36 03/1 1/2025 18:20:03 9.37 o3t11l2o2s 18.20j3 9.35 o3t11t2025 18.20.23 9.34 03/1 1/2025 18:20:33 9.34 0311112025 18:20:43 9.33 03/11i2025 18:20:53 9.37 O3l11l2O?5 18.21:03 9.32 0311112025 18:21:13 9.36 0311112025 18:21:23 9.34 0311112025 18.21:33 9.36 o3t'11t2025 18.21 43 9.34 NOX-1 64.62 63.91 62.17 60.41 59.41 58.71 58.21 57.87 57.91 57.93 58.85 57.45 56.61 54.46 53.02 52.O4 5'1.07 at,zl 52.44 53.20 53.58 54.58 55.25 55.25 55.36 55.39 55.66 55.82 56.38 56.76 56.72 56.68 57.21 58.33 58.86 59.86 60.83 61.70 bz_5v oJ l/ 63.5 1 65.35 66.58 63.83 61.30 59.22 57,03 56.69 56.45 55.98 55.51 56.25 56.96 57.43 57.88 57.82 57.84 56.44 55.59 5J.bt 51.61 51.12 50.57 51.58 52.'19 52.62 52.96 53.23 54.'1 I 54.99 55.43 55.72 55.08 co_1 5.67 5.76 5.81 5.85 5.85 5.77 5.72 5.68 5.66 5"63 5.53 5.44 5.34 s.34 5.36 5.34 5.26 5.21 5.1 8 5.1 5 5.10 5.'1 0 5.06 5.05 5.06 5.06 5.03 4.99 4.97 5.01 5.03 5.04 5.06 5.1 1 5.1 I 5.27 5.38 5.43 5.48 5_5/ 5.70 5.84 5.89 5.91 5.90 5.87 5.90 5.94 5.93 5.82 5.78 s.76 5.7 4 5.77 5.76 5.68 5.60 5.51 5.45 5.40 5.33 5.30 5.23 5.20 5.17 5.16 5.16 5. tJ 5.14 5.1 '1 5.1 3 5.17 5.17 Ambient 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59(o 59 59 59 59(o (o 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 Humidity 16.5 16.4 16.4 I O.J 't6.2 16.2 16.2 16.3 16.3 lo-J 16.5 16.5 16.4 16.4 16.5 to.c I O.J 16.2 16.2 16.4 16.6 16.6 16.6 16.6 16.7 16.7 '16.8 16.e '16.9 16.8 16.7 16.7 16.7 16.7 16.7 16.5 16.4 16.3 to.z to. I 16.2 16.2 to.J 16.3 16.3 to.l 16.2 16.2 16.1 tb. I '16.0 15.9 15.9 '16.1 to2 16.2 16,1 16.1 16.1 16.2 16. 1 to. I 1 6.1 to.z 16.2 1 6.'1 15.9 15.6 15.4 15.2 tc.o 1 5.8 '16.0 1 6.1 1 6.1 161 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.',|9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 327 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tes't Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name 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 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 Tesl 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 Staiion Unit TimeStamp 03t11t2025 18.21.53 0311112025 18.22:03 0311112025 18:22.13 o3t1112025 18.22.23 0311112025 18:22.33 o311112025 1822.43 0311112025 18'.22:53 0311112025 18:23:03 o311112025 18.23.13 0311112025 18.23:23 03/1 1/2025 1 8:23:33 o3t11t2C25 18.23.43 0311112025 '18.23:53 0311112025 18:24.O3 031'1112025 18.24:13 O311112025 18:24:23 031111?025 18:24.33 0311112025 18:24.43 o3111120?5 18.24:53 0311112025 18:25:03 Average 0311112025 18:27:10 o3l1'll2o25 18:27.2o O311112025 18.27:3O O311112O25 18.27:4o 0311112025 18.27.50 0311112025 18.28:00 Average 03t1112025 18.29.16 O311112025 18.2926 o3t11t2025 18.29.36 03t1112025 18.29.46 03/1 '112025 18r29:56 03/1.1/2025 18:30:06 Averag e 03i11/2025 18:31:13 0311112025 18..31.23 03/11/2025 18:31:33 03/1 1i2025 1 8:31 :43 03/11/2025 18:31:53 O3l'1112025 18.32:03 Average 03/'1112025 18:36:36 03i11/2025 18:36:46 03/1 1/2025 1 8:36:56 0311112O25 18:37.06 0311112025 18.37:16 0311112025'18.37:26 O3l1'll2O25 18.37:36 o3h'112025 18:37'.46 0311112025 18.37.56 03/1 1/2025 1 8:38:06 03/1 1 /2025 1 8:38:1 6 0311112025 18:38:26 03/1 '112025 '18:38:36 03/1 1i2025 1 8:38:46 o3i '1 1i2025 18:38:56 03/11/2025 18:39:06 03/1 1/2025 1 8:39:1 6 03/1 '112025 1 8:39:26 03/'1112025 18:39:36 03i11/2025 18:39:46 03/11/2025 18:39:56 03/11/2025 18:40:06 0311112025 18:40.16 031111?025 18.40.26 03/1'1l2025 18:40:36 03h112025 18:40.46 03/11/2025 18:40:56 03/1 1 /2025 1 8:41 :06 0311112025 18.41:16 03111120?5 18:41 .26 03/1 1 /2025 1 8:41 :36 O311112025 18.41:46 03111120?5 18.41.56 0311112025 18.42..06 Altamont LLC Bluebell Gas Plant c-'r 61 02_1 9.35 9.35 9.38 9.38 9.43 9.40 9.44 9.46 9.46 9.55 9.61 9.6'1 9.61 9.60 9.59 9.57 9.58 9.59 9.59 9.43 0.04 0.03 0.04 0.04 0.05 0.04 0.04 0.04 0.03 0.02 0.03 o.o2 0.03 0.03 10.76 10.77 10.79 10.77 10.77 10.76 10.77 9.29 9.33 9.35 9.37 9.34 9.38 9.38 9.38 9.41 9.42 9.43 9.47 9.52 9.61 9.64 9.65 9.66 9.66 9.53 9.56 9bt 9.66 9.59 9.58 9.57 9.57 9.56 9.56 9.52 9.49 9.47 9.43 PBaro 24.19 ?4.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 a^ 10 24.',t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24,19 24.19 24.19 24.',19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 324 Group name #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 fl3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 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 Test Run Test Run Test Run Test Run NOx_'l Bias NOx_1 Bias NOx_1 Bias NOx_l Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Blas CO_1 Bias CO_1 Bias O2-1 Bias O2_1 Bias O2_1 Bias Or_1 Bias O2_'l Bias O2_1 Bias Tesl 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 Tesl Run NOX-1 55.45 s5.80 56.23 56.67 58.29 59.24 61.22 62.57 62.65 62.7 4 62.83 oz.d I 63.87 65.00 62.01 60.09 58.02 56.59 56.70 56.74 56.1 2 191 .88 '193.14 193.83 194.30 194.24 194.20 1 93.60 82.02 38.98 23.88 13.35 8.69 5.51 28.74 t.oo 1.58 1.46 1.38 1.31 1.23 1.44 53.9 1 54.39 54.60 54.82 55.01 55.1 4 56.04 56.63 57.50 58.01 59.1 8 59.95 60.81 61 .6s 63.28 64.30 64.14 64.25 61.11 59.0s 57.10 55.77 55.84 55.90 56.12 56.27 56.48 56.57 57.7 4 58.94 58.26 57.93 55.83 54.5 1 co_1 5.1 I 5.1 I 5.16 5.16 5.1 8 5.20 5.24 5.27 5.38 5.48 5.55 5.51 5.50 5.49 5.56 5.36 0.98 0.94' 0.96 0.96 0.97 0.98 0.97 '188.20 191.60 193.00 '193.10 1 93.50 194.00 192.23 17.30 8.41 3.88 1.74 0.71 0.25 5.38 5.00 5.00 5.00 5.05 5.12 5.1 8 5.26 5.28 5.J I 5.34 5.46 5.52 s.57 5.64 5.71 5.81 5.92 6.01 6.05 6.09 6.06 6.04 5.99 5.97 5.96 6.00 5.99 5.98 5.96 5.87 5.84 5.77 5.68 Ambrent 59 59 59 59 59 59 59 59 59 59 59 6q 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 EO 59 59 59 59 59 59 60 60 60 60 60 60 bU 60 OU 60 bU 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 Humidity 16.1 16.2 16.1 16.0 15.8 15.7 15.8 15.7 tJ 3 15.3 15.3 15.4 15.4 15.5 15.7 15.9 tb.u 16.4 16,6 16.5 16.3 16.3 to.c 16.4 16.2 16.0 15.8 15.6 15.5 1 5.3 15.7 14.9 15.5 15.7 1 5.9 15.9 15.5 15.7 15.7 15.7 15.7 '15.8 '15.6 15.1 15.0 15.1 15.1 tc. I 15.0 15.0 '15.0 15.0 14.9 '14.9 14.7 14.7 14.8 14.9 14.I 15.0 15.1 15.4 15.6 15.7 15.9 '16.1 16.1 '16.0 15.9 15.8 Company Station Unil TimeStamp 03111t2025 18.42.16 o311112025 18.42.26 0311112025 18:42.36 0311112025 18:42.46 O311112025 18.42:56 03/11/2025 18:43:06 03/1 1 /2025 I 8:43:1 6 0311112025 18:43:26 03/1 1/2025 1 8:43:36 03111t2025 18.43.46 03i11/2025 18:43:56 03i 1 1/2025 18:44:06 0311112025 1844:16 0311112025 18.4426 0311112025 18'.44.36 0311112025 1A:44:46 0311112025 18:44:56 03/1 1/2025 1 8:45:06 0311112025 18 45.16 O311112025 18.45:26 03/11/2025 18:45:36 0311112025 18.45:46 031111202s 18.45.56 o311112025 18.46.06 0311112025 18:46:16 0311112025 18:46:26 03/1 1/2025 18:46:36 o3t11t2025 18 46 46 03i 'l 1i 2025 18:46:56 03il'l/2025'18:47:06 o311112025 1A.47.16 0311112025 18.47.26 0311112025 18:47:36 0311112025 18:47.46 03t1112025 18.47.56 03/1 1/2025 18:48:06 03i '1 1/2025 18:48:1 6 031'1112025 18:48:26 03/1 1/2025 18:48:36 0311112025 18'.48.46 03i1'1i2025 18:48:56 03/11/2025 18:49:06 03/1 1 /2025 1 8:49:1 6 0311112025 18.49.26 03i11/2025 18:49:36 0311112025 ',tB.49.46 03/1 1/2025 18:49:56 03/1 1/2025 l8:50:06 03/11/2025 18:50:'16 03/11/2025 18:50:26 03/11/2025 18:50:36 03/11/2025 18:50:46 03/11/2025 18:50:56 03/11/2025 18:51:06 03/1'112025 18:51:16 0311112025 18:51:26 03/.1 1/2025 18:51:36 03/11/2025 18:51:46 03/1 1 /2025 1 8:51 :56 0311112025 18:52.06 O3111120?5 18:52.16 o3t1112025 18.52.26 o3l1'U2025 18.52.36 0311112025 18:52:46 0311112025'18:52.56 03/11/2025 18:53:06 o3t11t2025 1853'.16 03/11/2025 18:53:26 03i 1 1/2025 '1 8:53:36 03i11/2025 18:53:46 03/11i2025 18:53:56 03/11/2025 18:54:05 03/1'112025 18:54:16 03t1112025 18.54.26 0311112025 18'.54'.36 03/11i2025 18:54:46 03/1'1l2025 1 8:54:56 03/11/2025 18:55:06 03/11/2025 18:55:16 o311112025 1A 55 26 Altamont LLC Bluebell Gas Plant c-.161 02_1 9.42 9.34 9.36 9.30 9.33 9.31 9.30 9.32 9.29 9.3'l 9.33 9.36 9.37 9.36 9.34 9.36 9.39 9.38 9.41 9.39 9.42 9.49 9.53 9.63 9.59 9.58 9.58 9.58 9.6'1' 9.56 9.58 9.54 9.56 9.56 9.56 9.52 9.49 9.44 9.39 9.38 9.34 9.35 9.29 9.29 9.29 9.31 9.30 9.31 9.28 9.31 9.31 9.29 9.31 9.32 9.34 9.33 9.34 9.36 9.40 9.44 9.42 9.44 9.46 9.47 9.52 9.58 9.59 9.63 9.64 9.61 9.58 9.56 9,54 PBaro 24.19 24.'19 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'l.9 24.'t9 24.19 24.19 24.19 24.19 24.15 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.',t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 ?4.19 24.1s 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 329 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 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 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 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-1 52.03 50.37 50.29 50.1 9 50.93 ) t.Jo 53.81 54.42 55.1 0 55.20 55.23 55.66 55.95 56.44 56.92 56.90 56.87 57.87 58.45 59.49 60.22 60.74 60.99 63.42 65.80 65.88 66.29 62.49 60.0'l 58.84 5/ 5 t 57.56 57.64 57.99 58.03 57.9't 56.08 54.34 52.53 50.67 50..12 49.72 50.24 50.58 51.13 51.45 52.87 54.27 54.73 54.99 54.80 54.87 54.88 55.36 55.48 55.29 55.28 55.20 56.46 57.24 58.78 60.28 62.28 63.61 63.40 63.22 63.19 63.12 64.2s 65.4 5 63.00 61.51 58.28 56.1 7 55.27 54.61 co_1 5.66 5.62 5.58 5.56 5.40 c. to 5.19 5.18 5.15 5_ I5 5.13 5.10 5.09 5.13 5.13 5.28 5.32 5.44 5.49 5.s4 5.60 5.69 5.86 5.89 5.81 5.79 5.75 5.75 5.6-8. 5.57 5.51 5.36 5.31 5.26 5.17 5.09 4.99 4.93 4.88 4.88 4.88 4.88 4.88 4.86 4.88 4.89 4.91 4.89 4.88 4.86 4.80 4.79 4.80 4.78 4.80 4.8'l 4.85 4.89 4.99 5.03 5.'10 5.'t7 5 2l 5.38 5,44 5.50 5.51 5.46 5.37 5.37 Ambient 60 60 60 60 bU 60 60 bU 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 Humidity 16.0 to_z 16.5 16.5 16.4 lb J 16.2 16.2 to. I to. I 16.2 't6.2 16.2 16.1 15.9 15.8 15.7 15.6 15.4 15,4 15.2 15.0 14.9 14.8 14.7 14.8 15.0 1 5.1 1 5.4 15.6 15.6 15.5 15.3 15.4 15.5 15.4 tf,.J 15.2 15.3 15.7 15.7 15.8 15.9 15.9 15.9 15,9 15.8 1s.7 15.7 15.7 tJ o tc.c 15.5 15.7 16.0 16.2 16.4 16.5 16.3 16.1 16.0 16.0 16.0 16.0 1 6.1 16.2 '16.4 tb_o 16.7 17 .1 17.3 17.2 17 .O 16.9 16.8 Company Station Unit TimeStamp 03/'1 1/2025 1 8;55:36 0311112025 18.55:46 03/1'112025 18;55:56 03/11/2025 18:56:06 03i 'l 1i2025 1 8:56:1 6 03/11/2025 18:56:26 03i11/2025 18:56:36 03/1 1/2025 '18:56:46 03/11/2025 18:55:56 03/1 ',/2025 18:57:06 0311112025 18:57.16 03h112025 18:57:26 03111t2025 18.57.36 O3h1l2O25 18.57:46 0311112025 18:57:56 03/1 1/2025 18:58:06 0311112025 18.58:16 O311112025 18.58:26 03i 1 1/2025 18:58:36 03/1 1/2025 1 8:58:46 03/1 1/2025 '18:58:56 03/1 1/2025 'l 8;59:06 03/11/2025 18:59:16 0311112025 18.59.26 03i 'l 1/2025 18:59:36 03/1 1/2025 '18:59:46 03/1 1/2025 1 8:59:55 03/11i2025 19:00:06 03/1 1/2025 19:00:16 03t1112025 19.00.26 03/11/2025 19:00:36 03i 1 1/2025 19:00:46 03/ 1 '112025 19:00:56 03/11i2025 19:01:06 03i1 '1i2025 19:0'l:16 0311112025 19.01.26 03/'1 1/2025 19:01:36 03/11i2025 19:01146 03/11/2025 I9:01:56 03/11/2025 19:02:06 0311112025 19.02:16 0311112025 19:02:26 0311112025 19.02.36 0311112025 19.02.46 0311112025 19.02:56 03/1 1i 2025 1 9:03:05 03/11/2025 19:03:16 0311112025 19:03:26 03/11/2025 19:03:35 03/11/2025 19:03:46 03/11/2025 19:03:56 03/1 1/2025 1 9:04:06 03/1 1 /2025 1 9:04:1 6 0311112025 19.04:26 03i11i2025 19:04;36 o3l1'l12025 19..04.46 o3/11/2025 19:04:55 03/'l 1/2025 19:05:06 03/1'1i2025 '19:05:16 03/1 1/2025 '1 9:05:26 03/'11l2025 19:05:36 03/11/2025 19:05:46 03/'1 1i2025 'l9:05:56 03/11/2025 19:06:05 03i'11/2025 19:06:16 0311112025 19.06.26 o3/1 1/2025 1 9:Ci6:36 03/11/2025 19:06:46 03/11i2025 19:05:56 0311112025 19.07:06 03/1 1 /2025 1 9:07:1 6 0311112025 19.O7.26 03/1 1/2025 19:07:36 03/1 1/2025 1 9:07:46 03i11/2025 19:07:56 03i '11i2025 19:08:06 03/11/2025 19:08:16 03/1 .l /2025 .l 9:08:26 03i 1 1/2025 '19:08:36 03/11/2025 19:08:45 Altamont LLC Bluebell Gas Plant c-l61 o2_1 9.56 9.55 9.56 9.56 9.54 9.52 s.48 9.48 9.43 9.39 9.38 9.38 9.38 9.36 9.34 9.33 9.31 9.31 9.31 9.30 9.27 9.27 9.27 9.25 9.25 9.28 9.25 9.29 9.27 9.31 9.32 9.31 9.36 9.35 9.36 9.36 9.39 9.42 9.42 9.50 9.59 9.63 9.59 9.59 9.60 9.59 9.61 9.60 9.54 9.56 9.53 9.58 9.54 9.54 9.52 9.49 9.46 9.40 9.38 9.36 9.32 9.33 9.31 9.31 9.29 9.29 9.29 9.27 9.27 9.25 9.25 9.25 9.23 9ZC 9.27 9.27 9.26 9.3't 9.33 9.33 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 fl3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 NOX-1 55.62 55.26 56.68 57.01 56.29 55.60 52.89 50.88 49.54 49.88 50.06 50.80 51.48 52.84 53.44 53.83 54.61 54.65 s4.72 54.40 54.'16 54.57 54.99 54.71 54.41 55.1 0 55.73 56.39 56.83 57.08 57.29 59.04 60.1 6 61,79 62.86 63.56 64.00 64.83 65.31 64.95 64.93 61.81 58.57 57.75 56.88 56.89 56.9 1 56.80 56.68 57,01 57.39 56.83 56.34 54.17 52.78 51.09 49.32 49.74 50.25 51.44 52.28 53.01 53.'1 3 53.21 54.01 54.53 54.28 54.04 54.45 54.84 55.94 56.69 56.23 56.47 57.1 I co_1 5.32 5.36 5Jt 5.27 5.17 5.1 1 4.97 4.86 4.78 4.73 4.77 4.78 4.80 4.85 4.85 4.88 4.86 4.78 4.72 4.67 4.66 4.63 4.65 4.65 4.64 4.67 4.66 4.66 4.72 4.79 .4.884.95 4.97 4.57 5.00 5.00 5.06 5.1 1 5.'t2 5.20 5.25 5.29 5.39 5.38 5.38 5.34 5.34 5.38 5.36 5.30 5.20 5.'1 5 5.1 1 5.06 4.98 4.91 4.82 4.7s 4.76 4.72 4.66 4.60 4.53 4.54 4.54 4.54 4.59 4.55 4.58 4.63 4.63 4.61 4.57 4.59 4.62 4.64 471 Ambienl 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 PBaro 24.19 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.1e 24.19 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.19 24.19 24_19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'19 a/ 10 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 Humidity 16.7 16.1 lb 6 16.9 16.9 17 .O 17 .2 17.2 17 .1 17 .0 17.O 16.9 16.6 lb_5 16.6 '16.6 16.8 16.8 16.9 17 .1 17 .1 17.O 16.8 16.7 16.6 16.5 16.5 16.5 '16.3 lo. z to.z 16.2 16.2 '16.2 16.3 16.5 16.6 '16.8 16.9 16.8 '16.8 16.7 to. / '16.9 16.9 17.1 17 .3 't7.4 17 .3 17 .1 17.O 16.9 16.9 16.9 16.9 16.9 '17.0 17.1 t/_J 17 .1 17.1 17 .O 17.O 17 .O 17.1 17.2 17.2 17.2 17 .3 17.4 17.3 17.3 17 .2 17.2 17.3 17.5 17 .7 17 .7 Run name Test 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 Test Run Tesl 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 Tesl 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 Test Run Test 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 Test Run Test Run Test Run Tesl Run 330 Company Station Unit TimeStamp 03i'1112025 19:08:56 03/1 1/2025 '19:09:06 03/1 1/2025 19:09:16 0311112025 19:09:26 03/11/2025 19:09:36 03i11/2025 19:09:46 03/1 1/2025 1 9:09:56 03/1 1/2025 '1 9:10:06 03/1 1 /2025 1 9:1 0:1 6 0311112025 19.10.26 03/1 1/2025 19:10:36 03/1'l/2025'l 9: 1 0:46 03/'1112025 19:10:56 03/11/2025 19:11:06 0311112025 19:11:16 O311112025'19:11 26 03/11/2025 19:11:36 O311112025 19.11:46 03/11i2025 19:11:56 0311112025 19:12.06 o311112025 19:12.16 O311112025 19.12:26 0311112025 19.12:36 0311112025 19:12.46 o3t1112025 19.12.56 03/11/2025 19:13:06 03i11i2025 19:13:16 O311112025 19:13.26 03/11/2025'19:13:35 0311112025 19.13:46 03/11i2025 19:13:56 03/1 1/2025 19:14:06 o3t1112025 19.14.16 0311112025 19 14:26 03i 1 1/2025 19 14:36 03111t2025 19.1446 03/.1.1/2025 19:14:56 03/1 1 /2025 1 9:1 5:05 03i 1 1 /2025 1 9:1 5:1 6 03/11/2025 19:15:26 03/1 1 /2025 1 9:1 5:36 03/1 1/2025 l9:15:46 03/1 1/2025 19:15:56 03/1 1/2025 19:16:06 03/'l 1/2025 '19:16:15 03/1 1 /2025 1 9:1 6:26 03/1 1/2025 19:16:36 03/1 '112025 19:'16:46 03/1 1/2025 '19:'16:56 03/11/2025 19:17:06 03t1'il2025 19.17:16 O311112025 19:17:26 03/11/2025 19117:36 03t11t2025 19,17.46 0311112025 19:17:56 03/'l 1i2025 19:18:06 03/11/2025 19:18:'16 03/11i2025 19:18:26 03i11i2025 19:18:36 o3t11t2025 19.18.46 03/1 1 /2025 1 9:1 8:56 03/11/2025 19:'19:06 03/.11i2025 19:'19:16 O311112025 19:19:26 03/1 1/2025 19:19:36 03/1 1 /2025 1 9:1 9:46 03/1 1 /2025 1 9:1 9:56 0311112025 19:20:06 O311112025 19:20.16 0311112025 19.20:26 03/'l 1/2025 19:20:36 O311112025 19:20.46 03/'11l2025 19:20:56 o311112025 19.21:06 0311112025 19:21:16 0311112025 19:21.26 03t1112025 19.21 36 o3t11t2025 19.21.46 03i11/2025 19:2'l:56 0311112025 19.22:06 Altamont LLC Bluebell Gas Plant c-16'1 o2_1 9.35 9.38 9.38 9.41 9.42 9.46 qql 9.58 9.59 9.61 9.60 9.57 9.59 9.56 9.54 9.54 9.54 9.55 9.54 9.48 9.44 9.39 9.36 9.32 9.33 9.31 9.29 9.29 9.29 9.27 9.29 9.27 9.31 9.27 9.27 9.31 9.33 9.31 9.34 9.34 9.35 9.33 9.37 9.39 9.39 9.40 9.44 9.44 9.47 9.50 9.52 9.56 9.54 9.58 9.58 9.60 9.59 9.54 9.54 9.52 9.56 9.53 9.54 9.56 9.52 9.50 9.46 9.46 9.40 9.40 9.34 9.36 9.37 9.35 9.36 9.36 934 PBaro Humidity Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 l #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 Run name Test Run Tesl Run Tesl 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 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 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 Tesl 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 Tesl Run Test Run Test Run Test Run NOX_1 57.79 s8.22 58.8 1 59.1 1 61.01 62.27 62.1 6 62.1'l 62.47 62.69 64.34 bb_t/ 63.48 60.89 58.37 56.65 57.09 57.48 57.85 58.25 57.74 57.3 1 55.67 54.05 51.69 50.1 1 49.74 49.30 50.21 51.09 52.00 52.64 52.74 52.84 54.1 I 54.90 55.62 55.56 56.33 56.84 56.80 56.79 56.89 56.95 58.62 59.68 60.94 61.80 62.45 62.88 62.92 bt. Y5 63.58 64.21 63.09 62.46 60.68 57.08 55.47 54.89 54.1 3 55.94 57.17 56.79 56.5'1 54.84 53.81 51 .84 50.47 50.80 51.12 51.44 51.63 52.7 5 53.88 54.24 54.46 co_1 4.73 4.77 4.84 4.85 4.90 4.94 4.98 5.04 5.1 1 5.21 5.28 5.26 5.30 5.29 5.29 5.26 5.17 5.05 4.99 4.92 4.88 4.88 4.85 4.80 4.73 4.65 4.50 4.59 4.57 4.60 4.59 4.59 4.60 4.62 4.60 4.63 4.66 4.69 4.69 4.68 4.64 4.65 4.72 4.79 4.90 4.93 4.96 4.97 5.03 5.1 1 5.1 6 5.22 5.23 5.22 5.23c)) 5 2l 5.1 8 5.07 5.03 5.00 5,00 5.00 4.96 4.90 4.86 4.83 4.82 4.82 4.80 4.78 4.78 4.76 Ambient 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 5/ 57 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 5b 56 56 56 56 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24_19 24.19 24.19 24.19 24.19 24.19 24.1e 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'19 24.19 24.15 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.',t9 24.19 24.19 24.19 24.19 24.19 24.19 17.5 17 .4 17 .3 17.3 17.3 17 .3 17.4 17.5 17 .5 17 .4 17.5 17.6 17 .6 17 .5 17.4 17 .4 17 .4 17 .6 17 .9 18.0 17.8 17.7 17 .s 17.3 17 .1 16.9 16.9 16.9 16.8 16.8 16.8 16.9 17 .O 17 .1 17 .2 17.3 17.3 I /.O '18.0 18.3 18.4 18.3 18.2 18.1 1 8.1 18.1 18.0 18.0 1 8.1 1 8.1 18.2 18.1 18.0 17 .9 17 .7 17 .6 17 .7 17.9 18.0 18.0 18.0 18.0 18.4 18.8 19.0 1 9.1 18.8 18.6 18.5 18.5 18.5 18.4 18.4 t 6.o 18.9 19.0 331 Company Station Unit TimeStamp o311112025 19.22.16 O311112025 19:22.26 0311112025 19..22:36 0311112025 19:22.46 0311112025 19:22.56 0311112025 19.23:06 0311112025 19:23:16 0311112025 19:23.26 O311112025 19:23:36 0311112025 19..23:46 03/11/2025 19:23:56 0311112025 19.24:06 0311112025 19.24.16 0311112025 19:24.26 O3h1l2O25 19.24:36 0311112025 19.24.46 O3l1'll2O25 19:24.56 0311112025 19..25:06 0311112025 19.25.16 O3l1'll2O25 19:25:26 0311112025 19..25:36 o3t'11t2025 19.25.46 03/11/2025 19:25:56 0311112025 19.26:Oa 0311112025 19.26.16 0311112025 19:26.26 O311112025 19.26:36 o3l'1112025 19.26.46 03/11/2025 19:26:56 0311112025 19:27:06 o3t11t?025 19.27.16 0311112025 19.27.26 0311112025 19:27:36 0311112025 19.27.46 o3t1112025 19.27.56 0311112025 19:28'.06 03t1'12025 19.28:16 0311112025 19.28:26 0311112025'19.28:36 0311112025 19.28:46 03i 1'112025 19:28:56 03/11/2025 I9:29:06 0311112025 19.29:16 0311112025 19'.29.26 03/11/2025 19:29:36 o3t1112025 19..29.46 03i11/2025 19:29:56 03i11/2025 19:30:06 03/11/2025'19:30:16 03/11/2025 19:30:26 03/'11/2025 19:30:36 03/11i2025 19:30:46 03i '1 1/2025 19:30:56 03/1 'l /2025 1 9:31 :06 03/11i2025 19:31:16 03111t2025 19.31.26 03i 1 1/2025 1g:31:36 03/'1112025'19:31:46 03/11/2025 19:31:56 03/1'l/2025 19:32:06 03l1'112025 19:32.16 0311112025 19:32.26 0311112025 19.32.36 0311112025 19:32.46 0311112025 19:32:56 03/11/2025 19:33:06 03/11/2025 19:33:16 03/1 1/2025 19:33:26 03/11/2025 19:33:35 03/1 'l12025 19:33:46 03/1 1/2025 19:33:56 0311112025 19:34.06 03/11i2025 19:34:16 0311112025 19.34:26 03/1 1/2025 19:34:36 0311112025 19:34.46 03/11i2025 19:34:56 03/1'l12025 1 9:35:06 03/1 1/2025 19:35:'16 0311112025 19:35.26 Altamont LLC Bluebell Gas Plant c-16'r 02_1 o a, 9.32 9.29 9.27 9.27 9.26 9.25 o ?1 9.25 9.25 9.24 9.28 9.29 9.25 9.27 9.31 9.33 9.35 9.34 9.38 9.36 9.39 9.41 9.42 9,46 9.49 9.54 9.55 9.59 9.58 9.58 9.60 9.60 9.57 9.54 9.51 9.54 9.54 9.55 s.54 9.52 9.50 9.47 9.42 9.38 9.36 9.34 9.32 o1a 9.31 9.29 9.31 9.30 9.26 9.29 9.27 9.27 9.31 9.26 9.29 9.29 9.34 9.34 9.35 9.35 9.36 9.38 9.39 9.39 9.41 9.40 9.51 9.53 9.54 9.58 9.59 9.59 9.58 9.59 9.56 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.'t9 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.15 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.15 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24_19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 332 Group name #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 5'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 NOX-1 54.86 54.71 54.27 54.39 54.55 54.37 54.14 54.28 54.41 55.15 55.90 55.86 56.27 56.49 57.32 57.89 57.88 57.85 58.91 59.55 60.56 o t.Jo 6?.41 63.72 63.93 64.09 63.80 63.74 60.98 59.'15 57.92 56,64 56.36 56.09 55.97 55.79 57.O2 58.29 57.30 56.46 53.28 51.21 50.04 49.20 50.33 51.02 51.66 JZ-JJ 52.87 53.43 53.43 53.41 54.37 55.01 55.1 9 55.36 55.2',1 55.1 0 55.43 55.61 56.70 57.82 57.38 56.93 57.38 57.78 59.01 59.83 60.94 62.05 63.08 64.07 64.33 64.75 62.90 61 .69 61.03 60.41 co_1 4.75 4.69 4.63 4.63 4.60 4.58 4.56 4.56 4.56 4.55 4.53 4.50 4.50 4.57 4.63 4.66 4.72 4.7 5 4.82 4.89 4.97 4.98 s.02 5.04 5.O7 5.12 5.1 I 5.22 5.22 5.28 5.31 5.39 5.41 5.39 5.35 5.31 5.26 5.2'l 5.14 5.03 4.89 4.81 4.75 4.74 4.76 4.73 4.68 4.63 4.60 4.64 4.71 4.73 4.72 4.65 4.60 4.57 4.59 4.59 4.59 4.61 4.63 4.66 4.69 4.72 4.75 4.82 4.85 4.90 4.97 5.01 5.09 5. ti 5.22 5.25 5.30 5.35 Ambient 56 56 56 56 56 56 56 56 5b 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 5b 56 56 55 56 56 56 56 56 56 5b 56 56 56 56 55 56 56 56 56 56 5b 56 56 56 56 56 56 56 56 56 55 56 56 56 56 56 56 56 56 56 56 56 56 56 56 55 56 56 Humidity '19.2 19.4 19.5 19.7 19.8 19.7 19.3 19.0 18.9 18.9 '19.0 1 9.1 19.0 18.S 18.8 19.2 19.8 20.1 20.1 20.o 19.9 19.9 19. S 19.9 19.9 19.9 19.8 19.7 19.6 19.5 19.5 19.5 19.4 19.3 19.4 19.2 19.0 1 9.1 19.0 18.9 18.9 '18.9 18.9 18.9 '18.9 18.9 18.9 19.0 19.0 19.0 1 9.1 19.1 18.9 18.8 18.8 '18.I 18.8 19.0 1 9.1 19.2 19.5 '19.6 19.7 19.6 19.5 '19.4 19.3 19.1 19.0 19.0 19.5 20.0 20.1 20.0 19.8 19.5 19.6 19.7 19.8 19.7 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 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 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 Tesl Run Test Run Tesl Run Test Run Test Run Test Run Test Run Tesl Run Tesl 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp 03/11/2025 19:35:36 03/1 1/2025 19:35:46 Og/ttIZOZS tg:gS:SO 03/11/2025'19:36:06 03/1 1 /2025 1 9:36:1 6 03/1 1/2025 19:36:26 03/1 'l /2025 1 9:36:36 03/1 'l /2025 19:36:46 03/'l 'l /2025 19:36:56 03/11/2025 19:37r06 03/11/2025'19:37:15 0311112025 19:37:26 . Average 0311112025 19:39:22 03/'l'112025 19:39:32 0311112O25 19:39:42 03/1 1/2025 '19:39:52 03/11/2025 19:40:02 0311112025 19:40:1? Average 0311112025 '19:42.25 0311112025 19:42:35 o3l11l2o?s 19:42:45 o311112025 19:4?.55 03/11/2025 19:43:05 0311112025 19:43:15 Average o311112025 19:44.14 0311112025 19:44:24 0311112025 19:44.34 0311112025 19:44:44 0311112025 19:44:54 03/11/2025 19:45:04 Average Altamont LLC Bluebell Gas Plant c-161 02_1 9.54 9.56 r 9.5s 9.52 9.56 9.55 9.52 9.51 9.48 9.44 9.38 9.34 9.42 0.04 0.06 0.04 0.05 0.05 0.06 0.05 0.60 0.06 0.03 0.04 0.04 0.03 0.13 10.61 10.61 10.61 10.63 '10.63 10.63 1 0.62 NOX-1 59.01 58.03 57.71 57.41 57.58 57.74 56.94 56.22 54.34 52.50 51.26 49.96 56.76 187.44 1 89.67 151.21 192.11 152.73 1 93.09 191.04 7.62 7.00 6.36 5.54 4.64 3.49 5,79 3.50 5.03 5.43 5.87 5.97 5.29 co_1 5.38 5.35 5.32 5.29 5.24 5.24 5.20 5.14 5.05 4.96 4.92 4.88 5.06 1.04 '1.00 0.99 0.98 0.96 0.93 0.98 181.00 181 .90 1 83.1 0 1 85.50 188.00 190.40 185.00 25.69 12.84 6.40 3.33 t.oo 1.10 8.54 Ambient 56 56 56 56 56 56 EA 56 56 56 56 55 57 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 PBaro 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.15 24.19 24.19 24.19 24.19 24.19 24.19 ?4.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 24.19 Humidity '19.5 19.4 19.6 19.6 19.7 19.7 19.7 19.7 19.8 19.7 15.7 19.7 17.3 20.3 20.3 20.1 20.2 20.4 20.6 20.3 20.7 20.8 20.9 20.9 21.O 21.0 20.9 20.7 20.8 20,8 20.9 20.9 20.8 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test.Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check f3 Bias Check #3 Bias Check Run name Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_1 Bias CO_l Bias CO_1 Bias CO-1 Bias CO-1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias 333 G-{ 62()z, NOxAND GO 334 Company Station Unil TimeStamp Altamont LLC Bluebell Gas Plant c-16? 022 NOX-2 -0.01 -0.02 -0.01 0.00 -0.02 -0.03 -0.02 199.92 199.9'1 200.22 200.58 200.93 201.16 200.45 93.72 93.68 93.68 93.6S 93.63 93.58 93.65 42.96 43.79 44.18 44.51 44.87 45.18 44.25 95.1 4 95.06 94.99 94.93 94.87 94.76 94.96 3.28 2.66 2.'19 1.90 t.bJ 1.46 2.19 0.94 0.92 0.89 0.86 0.82 0.80 0.87 -0.04 -0.06 -0.04 -0.02 0.01 0.04 -0.02 196.50 1 96.60 197.00 196.00 1 96.30 196.70 196.52 98.00 98.00 98.00 98.00 98.00 98.00 98.00 '1.33 1.29 1.27 1.24 1.24 1.16 1.25 1.77 1.75 t./3 1.74 1.75 1.77 1.76 99.50 99.50 99.50 99.50 99.50 99.50 99.50 12.34 6.13 3.13 2.25 1.89 1.70 4-57 Ambient 41 41 41 41 41 4',1 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 4'l 41 41 41 41 60 60 60 60 60 60 60 bU 60 60 60 60 60 60 60 60 60 60 60 bu 60 PBaro 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.28 24.28 24.27 24.27 24.27 24.27 24.27 24.27 24.27. 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 Humidity 40.0 40.0 40.0 40.1 40.1 40.1 40.0 40.8 40.8 40.9 40.9 40.9 41.0 40.9 41.2 41.2 41.2 41.2 41.2 41.2 41.2 42.1 42.1 42.1 42.0 42.0 42.0 42.1 22.3 22.4 22.4 22.4 22.3 21.7 21.7 21.7 21.8 22.0a)1 2',1.8 23.0 23.0 23.0. 23.1 23.3 23.'l Group name Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check lnitaal Converter Check lnitial Converler Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial 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 Bias 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 Bias Check Run name Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Span Cal Check Span cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check [,4id Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOX Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NOx_2 Bias NOx_2 Bias NOx_2 Bias NOx_2 Bias NOx_2 Bias NOx_2 Bias CO_2 Bias CO_2 Bias CO-2 Bias CO-2 Bias CO-2 Bias CO-2 Bias O2_2 Bias O2_2 Bias O2_2 Bias O2_2 Bias O2_2 Bias 02 2 Bias 0311212025 09:00:04 -0.04 0311212025 09.00:14 -O.02 0311212025 09:00:24 -0.04 0311212025 09:00:34 -0.03 O311212025 09:00:44 -0.04 0311212025 09:00:54 -0.03Average -0.03 031121202509:06:10 20.84 0311212025 09:06:20 20.88 031121202509:05:30 20.88 O3l1212025 09:06:40 20.88 0311212025 09:06:50 20.88 0311212025 09.07:00 20.88Average 20.87 031121202509:11:50 10.95 031121202509:12:00 10.95 0311212025 09:12:10 10.93 0311212025 09.12:20 10.96 031121202509:12:30'10.92o3l12l2o250s:12'.4o 10.94Average 10.94 031121202509:29;10 20.71 031122025 09:29:20 20.74 031'12,2025 09:29:30 20.71 0311212025 09:29:40 2O.75 031121202509:29:50 20.75 0311212025 09:30:00 20.75Average 20.74 031121202514.41.37 0.03 03112t202514.41.47 0.03 0311212025 14.41:57 0.03 0311212025 14.42.07 0.03 0311212025 14:42.17 0.04 0311212025 14:42:27 0.03Average 0.03 0311212025 14:46'.33 -0.05 0311212025 14:46:43 -0.02 03t12t2025 14.46.53 -0.05 03t12t202514.47.O3 -0.03 03112t202514.47.13 -0.03 03t121202514.47.23 -0.04Average -0.04 031121202514:48'.31'10.84 0311212025 14.48:41 10.87 0311212025 14 4A:51 10.84 o3t1212025 14"49.O1 10.90 0311212025 14:49'.11 10.89 0311212025 14.49.21 '10.88 Average 10.87 33s Company Altamont LLC Station Bluebell Gas Planl 0311212025'1517.42 9.60 0311212025 15:17:52 9.56 0311212025 1518:02 9.51 0311212025 15:18:12 9.51 0311212025 15'.1822 9.50 0311212025 151832 9.48 0311212025 151842 9.52 03|122025 15:18.52 9.49 0311212025 15:19.02 9.47 O311212025 15:19.12 9.44 0311212025 15:19.22 9.44 0311212025 1519:32 9.44 0311212025 1519:42 9.43 0311212025 15:1952 9.41 0311212025 1520.02 9.43 0311212025'15:20:12 9.46 0311212025 15:20.22 9.48 0311212025 15:20:32 9.50 0311212025 15.20.42 9.54 0311212025 152A:52 9.61 o3l't21202515.21.O2 9.65 0311212025 15:21:12 9.65 031121202515.21.22 9.69 0311212025 1521:32 9.76 Average 9.52 0311212025 1522.08 9.63 0311212025 15.22.18 9.84 O3l'1212O25 1522.28 9.76 0311212025 1522.38 9.61 0311212025 1522.48 9.86 0311212025 1522.58 9.70 0311212025 15.23.08 9.63 0311212025 1523:18 9.93 0311212025 1523.28 9.83 031121?02515..23.38 10.02 0311212025 1523:48 9 93 0311212025 15.23.58 S.99 0311212025 15:24:OB 9.S6 0311212025 15:24.18 9.88 0311212025 15:24:28 9.82 0311212025 15.24'.38 9.81 0311212025 1524.48 9.72 0311212025 15.24.5A 9.63 0311212025 1525.08 9.59 0311212025 1525.18 9.55 0311212025 1525:28 9.49 0311212025 15:25:38 9.51 0311212025 15:25.4a 9.52 0311212025 15.25.58 9.50Average 9.74 0311212025 15:26.27 9.51 0311212025 15.26.37 9.50 0311212025 1526:47 9.56 03t1212025 15 26.57 9.54 031121202515:27.O7 s.56 0311212025 15.27:17 9.59 031121202515:27.27 9.61 031121202515:27.37 9.63 0311212025 15:27:47 9.68 031121202515..27.57 9.67 0311212025 15.28:07 9.72 0311212025 15:28.17 9.71 0311212025 15.28:27 9.73 0311212025 15'.28:37 9.81 0311212025 15:28.47 9.83 0311212025 15.28.57 9.88 o3t1212o25 1529.07 9.70 0311212025 15.29.17 9.78 0311212025 1529:27 9.82 0311212025 1529.37 9.72 o3t1212025 15.29.47 9.85 0311212025 15.?9'.57 9.69 0311212025 15:30.07 9.99 0311212025 15.30.17 9.83 Average 9.70 62.62 58.50 57.97 57.51 58.52 59.55 61.07 62.45 63.25 63.S7 63.93 64.06 64.57 65.07 55.28 65.49 65.41 65.40 65.69 65.92 65.82 65.64 65.20 64.98 63.24 66.64 67.09 67.45 68.98 72.39 75.35 77.67 80.45 83.66 86.55 86.79 86.23 a2.15 78.06 72.97 67.60 63.83 59.87 58.1 7 56.73 55.98 55.55 56.91 58.1 3 70.22 61.19 62.12 62.73 63.27 63.93 64.49 64.71 64.96 b5. Jt 65.63 65.85 66.08 bbJt 66.5'1 66.66 66.83 66.78 66.71 66.83 67.21 68.42 69.49 71.93 74.46 66.1 8 31.91 32.00 32.08 JI-JJ 32.47 32.25 32.25 32.25 32.25 32.25 JZ. Z) 32.25 32.25 32.25 32.42 32.63 32.92 32.28 33.47 33.67 33.97 34.30 34.75 34.75 34.50 34.30 33.97 33.67 33.47 33.00 32.43 32.63 32.50 32.28 32.00 32.00 32.00 32.00 33.26 32.25 32.25 32.25 32.38 32.50 32.50 32.67 32.75 Jz.ta 33.00 33.03 33.25 33.50 33.90 34.1 0 34.25 34.25 34.25 33.02 bt 61 61 bt bt ot 61 61 bt .bl bt bt 61 ot bl 61 bt 61 bt 61 61 61 6'1 ot 61 bt 61 ot bl 6'1 bt 61 61 bt 61 61 bt bt 61 61 61 bt 61 6'1 bt bI 61 6'1 ot 61 bl bt 61 ot ot ot ot 61 bI bt ot 61 61 61 61 ot bt ot 61 61 bt bt 61 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 23.7 Stratification Traverse23.7 Stratilication Traverse23.7 Stratification Traverse 23.7 Slratification Traverse23.7 Stratification Traverse23.7 Stratification Traverse23.7 Stratificatlon Traverse 23.7 Stratillcation Traverse 23.7 Stratification Traverse23.7 Stratiflcation Traverse23.7 Slratification Traverse 23.6 Stratiflcation Traverse 23.6 Stratiflcation Traverse 23-6 Stratification Traverse23.5 Stratiflcation Traverse23.5 Stratilication Traverse 23 5 Stratification Traverse 23.5 Stratification Traverse23.5 Stratification Traverse23.7 Straliflcation Traverse23.7 Stratificalion Traverse 23.9 Stratification Traverse 24.o Stratiflcation Traverse24.o Stratification Traverse 23.7 24.1 Stratification Traverse 24.1 Stratillcation Traverse 24.1 Stratification Traverse24.1 Straiiflcation Traverse24.1 Stratiflcation Traverse24.1 Stratification Traverse24.1 Stratiflcatlon Traverse 24 1 Stratiflcation Traverse 24.1 Slratification Traverse24.1 Stratification Traverse24.o Stratification Traverse23.9 Stratiflcation Traverse 23.8 Stratification Traverse23.8 Slratification Traverse23.8 Stratification Traverse23.8 Stratiflcation Traverse23.8 Stratification Traverse 23.8 Stratification Traverse23.8 Stratification Traverse23.8 Stratification Traverse23.9 Stratiflcation Traverse23.9 Stratilication Traverse23.9 Stratification Traverse23.9 Stratiflcation Traverse 23.9 24.o Stratiflcation Traverse24.O Stratification Traverse24.0 Stratification Traverse24.o Stratification Traverse24.0 Stratilication Traverse23.9 Stratification Traverse23.s Stratiflcation Traverse23.8 Stratilicalion Traverse 23.7 Stratification Traverse23.7 Straiification Traverse23.6 Stratification Traverse23.5 Stratification Traverse23.5 Stratiflcation Traverse23.5 Stralillcation Traverse 23.4 Stratification Traverse23.4 Stratification Traverse23.4 Stratillcation Traverse23.5 Stratiflcalion Traverse23.5 Stratiflcation Traverse23.6 Stratiflcation Traverse23.6 Stratification Traverse 23 6 Stratification Traverse 23.5 Stratiflcation Traverse23.4 Stratiflcation Traverse 23.7 #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'l Slrat Check #'1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Slrat Check f '1 Strat Check #'1 Strat Check #1 Strat Check #1 Stral Check #1 Strat Check i1 Strat Check #1 Strat Check #l Strat Check #2 Strat Check #2 Stral Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Slral Check #2 Strat Check #2 Strat Check #2 Stral Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Slrat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check 336 Company Station o3t12t2025 15.51.58 0311212025 15:52.08 O311212025 15:52:18 o3t1212025 15.52.28 0311212025 15 52:3A 0311212025 15.52.48 0311212025 15:52.58 03/12l2025 15:53:08 03112t2025 15"53:18 0311212025't5.53..2A 0311212025 15:53 38 0311212A25 15.53.48 03/1 2i 2025 1 5:53:58 0311212025 '15:54.O8 0311212025'15:54.18 O311212025 15:54.28 o311212025 15.54.38 O311212025 15:54.48 0311212025 15:54.58 03/1212025 15:55:08 0311212025 15'.55:18 03/1212025'15:55:28 03/1 2/2025 1 5:55:38 0311212025 15:55.48 03/'1212025 15:55:58 03/1 2/2025 1 5:56:08 03/12l202s'15:56:18 031121?025 15:56.28 03/1 2/2025 1 5:56:38 0311212025 15:56:48 03/1 2/2025 1 5:56:58 0311212025 15:57.08 o3112t2025 15.57.18 03t1212025 15.57'.28 0311212025 15:57.38 0311212025 15.57.48 03h2l2O25 15.57:58 03i 1 2i 2025 15:58:08 03/1 2/2025 1 5:58:1 8 0311212025 15.58.28 03i12/2025 15:58:38 0311212025 15:58:48 03/1 2/2025 '15:58:58 03/1 2/2025 1 5:59r08 03i'1212025 15:59:18 0311212025 15:59.28 03/'l 2/2025 1 5:59:38 03/1 2/2025 1 5:59:48 03/12i2025 15:53:58 03/12i2025'16:00:08 03/1 2/2025 1 6:00:1 8 0311212025 16.00:28 03/12i2025'16:00:38 03/1 2/2025 1 6:00:48 03/1 2/2025 1 6:00:58 03/'1212025 16:01:08 O3l'1212025 16:01:18 o311212025 16:01:28 03/1212025 16:01:38 0311212025 16.01.48 0311212025 1601.58 0311212025 16:02:08 0311212025 16:02:18 0311212025 16:02.28 0311212025 16'.02 38 0311212025 1602.48 03/.1212025 '16:02:58 03/1212025 16:03:08 03/'12l2025 16:03:18 0311212025 16'.03:28 03/'1212025 16:03:38 03t1212025 16.O3.48 03/1212025 16:03:58 O3l'1212025 16:04:08 Q311212O25 '16:04.18 0311212025 16.04.28 0311212025 16.04.38 0311212025 16.04:48 03/1 2/2025 1 5:04:58 03/1 2i2025 1 6:05:08 03/12i2025 16:05:18 03t12t2025 16.05.28 03/1212025 16:05:38 Altamont LLC Bluebell Gas Plant 9.79 9.82 9.79 9.81 9.79 9.77 9.77 9.77 9.69 9.64 9.59 9.54 9.54 9.52 9.52 9.51 9.49 9.48 9.47 s.48 9.49 9.49 9.46 9.45 9.46 9.48 9.46 9.48 9.49 9.49 9.52 9.53 9.54 9.6'1 9.64 9.64 9.67 9.73 9.70 9.75 9.81 9.86 9.85 9.80 9.63 9.81 9.82 L71 9.78 9.94 9.94 9.83 9.80 9.84 9.80 9.76 9.70 9.61 9.53 9.58 9.59 9.54 9.52 9.4S 9.53 9.51 9.54 9.53 9.57 9.57 9.59 9.58 9.61 9.62 9.66 9.65 9.69 9.73 9.76 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 337 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 6'1 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 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 Tesl 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 64.45 64.55 64.54 63.69 63.07 bJ,J I 63.50 63.71 63.92 63.85 63.90 64.51 64.84 64.12 63. s9 63.45 63.42 63.82 64.23 54.92 65.5'l 65.45 65.35 54.96 64.71 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9.49 9.51 9.49 9.48 9.48 9.48 9.48 9.46 9.48 9.50 9.50 L47 9.51 9.54 9.57 9.56 9.61 9.61 9.63 9.65 9.68 9.69 9.72 9.71 9.73 9.75 9.79 9.79 9.82 9.82 9.81 9.80 9.79 9.77 9.77 9.76 9.77 9.73 9.69 9.63 9.58 9.54 9.54 9.54 9.54 9.53 9.54 9.51 9.54 9.51 9.51 s.49 9.51 9.52 9.48 9.50 9.50 9.52 9.52 9.54 24.25 24.25 24.25 24.25 24.25 24.2s 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 338 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 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61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61fl Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 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 Tesl 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 Test Run Tesl 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 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 Station o311212025 16:33.28 03/12i2025 16:33;38 03t12t2025 16.33.48 03/12l2025 16:33:58 0311212025 16:34.08 0311212025 16.34.18 0311212025 16:34.28 0311212025 16:34:38 03t12t2025 16.34.48 0311212025 16:34.58 03i'1212025 16:35:08 03/12l2025 16:35:18 0311212025 16.35.28 03/1212025 16:35:38 0311212025 16:35:48 03/1212025'16:35:58 03/1 2i 2025 1 6:35:08 03/1212025 16:36:18 0311212025 16:36:28 03/1212025 16:36:38 .0311212025 16:36'.48 0311212025 16:36:58 03t12t2025 16.37.O8 0311212025 16:37.18 O311212025 16:37:28 03i12/2025 16:37:38 03112120?5 16.37.48 O311212025 16:37:54 03/12l2025 16:38:08 03/1 2/2025 1 6:38:1 8 O311212025 16:38:28 03h212025 16:38:38 0311212025 16.38.48 03/12l2025 16:38:58 03/12i2025 16:39:08 03/1212025 16:3S:18 o311212025 16.39.28 03/12i2025 16:39:38 0311212025 16:39'.48 031'1212025 16:39:58 0311212025 16.40:08 o311212025 16.40.18 O311212025 16:40:28 03l't212025 16.40.38 0311212025 16:40.48 O311212025 16:40.58 O311212025 16.41:oB 0311212025 16.41:18 0311212025 16"41.28 0311212025 16:41:38 o311212025 16:4'l:48 0311212025 16.41.58 0311212025 16.42.08 0311212025 16.42.18 0311212025 16:42.28 0311212025 16:42:38 03t1212025 16.42.48 0311212025 16:42.58 03t12t2025 16.43.08 0311212025 16:43:14 0311212025 16.43.28 0311212025 16:43.38 0311212025 16:43:48 03t1212025 16.43..58 03t1212025 16.44O8 0311212025 16.44.18 03l'1212025 16:44:28 0311212025 16:44.38 0311212025 16.44.48 0311212025 16:44.58 0311212025 16:45:08 0311212025 16.45.18 O311212025 16:45.28 o311212025 16.45.38 O311212025 16:45:48 0311212025 16:45.58 0311212025 '16:46:08 o3t1212025 16.46.18 0311212025 16:46.28 0311212025 16:46.38 0311212025 16:46:48 03t1212025 16..46.58 o311212025 16.47.08 Altamont LLC Bluebell Gas Plant s.52 o a1 9.54 9.54 9.61 9.61 9.66 9.71 9.79 9.86 9.78 9.79 9.76 9.82 9.78 9.87 9.82 9.88 9.84 9.84 9.83 9.83 9.77 9.74 9.68 oqo 9.57 9.57 9.52 9.52 9.51 9.49 9.49 9.51 9.50 s.5 J 9.54 9.55 9.56 9.56 s.56 9.61 9.64 9.66 9.68 9.72 9.76 9.84 9.79 9.58 9.79 9.b5 9.45 9.87 9.9'l 9.88 9.92 9.90 9.86 9.83 9.76 9.73 9.69 9.63 9.61 s.55 9.52 9.46 9.56 9.53 9.54 9.53 9.52 9.52 9.52 9.s1 9.50 9.51 9.48 948 62.58 63.09 63.37 63.70 64.15 64.61 65.1 1 65.51 65.51 65.77 66.20 66.63 67.09 67,49 67.73 68.13 68.00 68.07 70.41 72.42 72.79 72.88 71 .54 70.13 67.69 65.33 63.43 61 .71 60.78 59.98 60.1 9 60.40 61.15 61 .89 6t.tY 62.75 oJ. / I 64.49 64.47 64.51 64.69 64.92 65.34 65.73 66.1 3 66.50 66.65 66.78 66.79 66.82 66.71 66.65 66.73 66.82 67.1 8 68.13 76.52 81.60 84.53 85.65 80.28 75.1 I 70.93 66.63 63.27 60.27 59.65 59.05 58.95 59.04 60.35 6'1.40 62.95 64.'1 5 64.66 65.23 65,34 65.48 oo.tt 66.61 66.46 66.34 66.06 32.50 32.50 32.50 32.50 32.50 32.63 JZ.IJ 32.95 33.17 JJ.Z5 33.45 33.50 33.60 33.78 34.00 34.00 33.92 33.47 33.25 33.03 32.90 32.75 32.7 5 32.63 32.50 32.50 32.50 32.38 32.38 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.72 32.75 32.75 32.75 32.83 33.00 33.08 33.28 33.88 34.30 34.60 34.55 33.95 33.30 32.72 32.40 32.50 32.55 32.75 32.75 32.75 32.75 32.75 32.75 32.75 32.75 32.63 32.50 32.50 32.50 32.50 32.50 JZ. Za 62 62 62 62 62 62 oz 62 62 62 ol 62 ol 62 62 62 62 dl 62 62 o2 62 62 62 ol 62 62 62 62 ot OZ 62 62 62 53 63 63 63 63 63 63 63 63 63 63 bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 DJ bJ 63 63 63 bJ bJ bJ bJ bJ bJ bJ bJ bJ 63 bt 63 63 bJ bJ bJ 63 63 bJ 24.24 24.24 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 21.9 21.9 21.9 21.8 21.7 zt.o 21.4 21.4 21.3 21.2 21.2 21.3 21.4 21.4 21.4 zt J 21.2 21.2 21.2 2'1.2 21.2 21.2 21.2 2',1.3 21.4 21.4 21.4 21.4 21.4 21 .5 21.6 21.7 21.7 21.7 21.8 21.9 ?2.O 22.1 22.1))) a)1 22.5 ))q 22.5 22.5 22.5 t)q 22.4 22.3 22.2 2?.0 21.8 2',t.5 21.3 21.2 21.1 21.O 20.9 20.9 21.0 21.4 21.5 21.8 5t o 22.O 22.1 22.1))) )a) 22.2 22.4 22.5 22.6 22A #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #'1 Test Run - 6'l #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 61 #1 Test Run -'61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 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 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 Tesl 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 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 Test Run Test Run Test Run Test Run 340 Company Station o311212025 16.47.18 0311212025 16:47.28 o3112t2025 16.47.38 0311212025 16.47.48 0311212025 16:47 58 0311212025 16:48.O8 0311212025 16 4A 18 o311212025 16.48.28 03/1212025 16:48:38 0311212025 16:48:44 0311212025 16.48:58 03/1 2/2025 1 6:49:08 0311212025 16:49.18 0311212025 16.49:28 03/1212025 16:49:38 0311212025 16:49.48 0311212025 16.49:58 03i.l 2/2025 16:50:08 03/1 2/2025 1 6:50:1 8 0311212025 16:50:28 03/1 2/2025 '16:50:38 03i12/2025 16:50:48 03/1 2/2025 1 6:50:58 03/1 2/2025 16:51:08 0311212025 16.51:18 0311212025 16:51.28 03/1212025 16:51:38 0311212025 16:51.48 03/1212025 16:51:58 0311212025 16:52:0A 0311212025 16:52:18 03t1212025 16:52.28 0311212025 16.52.38 03t1212025 16.52.48 Ave rag e 03/1212025 16:55:13 0311212025 16.55.23 03/1212025 16:55:33 0311212025 16.55:43 03/12l2025 16:55:53 03/1212025 16:56:03 Average 0311212025 '16:56.57 0311212025 16'.57:07 o3l12l?o25 16.57.17 0311212025 16:57.27 03112t20?5 16..57.37 o311212025 16.57.47 Average 0311212025 16:59.22 0311212A25 16:59.32 0311212025 16.59.42 0311212025 16:59.52 0311212025 17:OO.02 03t1212025 17 .O0.12 Average 0311212025 17.O2:51 o311212025 17 .03.O1 0311212025 17.O3.11 0311212025 17:03:21 0311212025 17.03.31 0311212025 17:03.41 0311212025 17.03:51 o3112t2025 ',t7 .04.01 0311212025 17.O4.11 O311212025 17 04.21 o3l't212025 17 .04.31 0311212025 17:04'.4'l o311212025 17.04:51 0311?12025 17.O5.O1 03t121202s 17"05:11 O311212025 17:O5.21 03t12t2025 17.05.31 03t1212025 17.05.41 0311212025 17:o5.51 0311212025 17 .06.01 o311212025 17.06.11 0311212a25 17:06.21 o311212025 17.06.31 Altamont LLC Bluebell Gas Plant 9.47 9.49 9.49 s.50 9.52 9.56 9.56 9.59 9.61 L62 9.68 9.69 9.77 9.84 9.84 9.65 9.80 9.64 9.84 9.77 9.67 9.86 9.77 10.04 9.98 9.99 9.90 9.84 s.81 9.77 9.68 9.62 s.54 9.65 0.04 0.07 0.06 0.05 0.06 0.06 0.06 10.88 1 0-89 10.88 10.89 1 0.91 10.89 10.89 0.07 0.07 0.05 0.05 0.06 0.07 0.06 9.64 9.55 9.70 9.69 9.64 9.66 9.85 9.53 9.66 9.93 9.89 9.89 9.93 9.84 9.82 9.77 9.73 9.65 9.57 s55 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 24.23 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 24.23 24.23 341 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #.1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 d2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 Tesl 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 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_'l Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias CO-1 Bias CO-1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias Test Run Test Run Tedt 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 Tesi Run 65.84 66.02 66.1 4 66.09 66.03 65.82 65.66 65.67 65.67 65.64 65.61 65.65 65.77 66.02 66.27 66.67 67.1 6 67.80 68.39 68.35 69.00 74.06 78.85 83.24 85.5'l 87.12 84.90 81.21 73.91 67.64 63.63 59.49 58.37 66.50 94.08 94.95 95.82 96.1 2 96.40 96.47 95.64 94.78 91.09 67.73 49.60 37.79 72.78 2.78 2.43 2.24 2.04 1.90 1.76 2.19 59.32 ou lt 62.03 62.97 63.87 64.36 64.75 64.63 64.60 64.92 66.07 70.84 74.58 78.5'1 82.25 80.07 71 .31 64.83 6'1.93 58.98 57.82 56.75 32.40 32.50 32.38 32.25 32.25 32.35 32.50 32.50 32.67 32.78 33.00 33.1 0 33.30 33.50 33.80 34.1 0 34,38 34.70 34.80 35.00 34.78 34.65 34.38 34.00 33.63 32.88 32.55 32.50 32.40 32.99 1.94 1.88 1.86 1.85 1.86 1.85 1.87 1.91 1.87 1.80 1.67 1.59 1.73 97.40 98.95 99.50 99.50 99.50 99.50 99-06 32.78 33.00 33.00 33.35 33.78iqst 34.60 34.75 34.47 33.60 33.00 32.42 32.28 32.50 32.50 32.50 32.50 32.50 63 63 63 63 63 bJ 63 bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ bJ 62 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 bJ 63 63 63 63 bJ bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 22.9 23.0 23.O 23.1 ZJ. 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LLC Bluebell Gas Plant 9.50 9.50 9.50 9.57 9.55 o <, 9.55 9.54 9.56 9.54 9.56 9.53 9.54 9.57 9.59 9.60 9.64 9.61 9.66 9.69 9.70 9.74 9.81 9.87 9.72 9.81 9.70 9.77 9.85 9.68 9.83 9.96 9.80 10.04 10.02 9.86 9.89 9.80 9.77 9.69 9.63 9.55 9.51 9.53 9.52 9.52 9.49 9.51 9.52 9.54 9.56 9.55 9.62 9.61 9.65 9.68 9.72 9.71 9.75 9.85 9.84 9.66 9.84 9.61 9.76 9.91 9.67 9.60 9.94 9.92 9.84 9.84 9.79 Y_ /O 9.70 9.63 9.59 9.55 9.57 9.53 9.52 9.59 9.57 56.75 56.96 58.31 59.58 61.03 62.40 63.1 1 63.75 63.78 63.90 64.57 oc.tt of,- lo 65.31 65.65 55.99 66.39 . 66.67 66.48 65.37 66.29 66.21 oo.z I 66.22 65.93 65.76 66.24 b /.ub 69.32 71.60 76.32 79.71 80.94 82.66 83.94 84.09 80.08 7s.39 69.3 1 64.43 61.75 59.58 5S.48 59.35 59.36 59.55 61.39 62.94 63.52 64.04 64.33 64.70 65.02 65.33 65.36 65.48 65.91 bbzt b6. tJ 66.1 7 66.50 66.82 66.96 67.09 67.17 68.00 73.86 79.30 84.75 89.56 87.1 6 83,90 76.21 69.58 65.33 61.20 59.72 58.61 58.36 58.44 59.63 60.68 62.17 32.50 32.50 32.50 32.50 32.50 32.53 32.75 32.75 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Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 6'l #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 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 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 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 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run 342 Company Station 0311212025 17:2O:31 0311212025 17:2O.41 0311212025 17 20.51 0311212025 17:21.01 0311212025 17:21.11 0311212025 17:21.21 0311212025 17:2'l'.31 03112120?5 17:21:41 0311212025 17 .21.s1 O311212025 17.22:01 0311212025 17:22:11 0311212025 17:22.21 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9.49 9.48 9.4 3 9.51 9.52 9.51 9.56 9.52 9.56 9.58 9.63 9.64 9.66 9.68 9.73 9.75 9.82 9.87 9.82 9.71 9.90 9.73 9.91 9.81 9.84 9.91 9.89 9.84 9.91 9.91 9.87 , 9.82 9.77 9.71 9.63 9.55 9.54 9.50 9.52 9.52 24.23 24.23 24.23 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.?4 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.23 24.24 24.24 24.24 24.24 344 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 5'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 fl2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test 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0311212025 18.O1.11 0311212025 18.01.21 0311212025 18'.01:31 0311212025 18:O1.4'l o3t12t2025 18.O1.51 Altamont LLC Bluebell Gas Plant 9.50 9.50 9.52 9.52 9.56 9.58 9_5b 9.60 9.63 9.63 5-b / 9.71 9.70 9.81 9.84 9.68 9.73 9.75 9.44 9.66 9.85 9.77 9.73 9.71 9.68 9.65 9.64 9.63 9.55 9.56 9.4S 9.49 9.54 9.51 9.4S 9.45 9.48 9.47 9.48 9.49 9.45 9.48 9.48 9.50 9.58 9.6'1 9.66 9.68 9.74 9.8't 9.85 9.67 9.76 9.67 9.54 9.88 9.87 9.85 9.84 9.82 9.79 9.77 9.72 9.71 9.63 9.61 9.56 9.49 9.52 9.56 9.54 9.53 9.50 9.54 9.52 9.54 9.56 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 ?4.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 ?4.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 345 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 60.41 61.60 62.68 63.20 63.82 64.75 65.44 65.24 65.1 4 65.36 65.57 65.86 66.20 66.90 67.33 67.31 67.39 67.80 68.1 5 68.26 69.04 72.42 75.54 81.72 85,1 7 82.61 79.7 4 72.67 6b_21 64.45 63.'13 63.20 63.28 63.99 64.51 64.88 65.32 65.66 65.99 66.07 66.1 1 65.88 65.76 65.08 66.32 66.34 66.35 66.28 66.23 66.3 1 66.38 66.48 66.66 67.69 68.39 68.46 68.45 67.94 68.81 76.1 9 80.81 81.43 80.85 74.94 69.02 oo. tu 63.67 60.64 60.07 59.66 60.08 60.54 61.55 62.68 64.76 66.08 65.96 66.05 66.43 66.72 66.46 32.50 32.50 32.50 32.50 32,50 32.50 32.50 32.72 32.75 32.75 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24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 346 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 f2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 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I 20.9 21.O 21.O 21.0 21.1 21.1 21.1 21.0 2'1.0 21.0 20.9 20.8 20.7 20.6 zu.o 20.5 20.5 20.5 ZU,b 20.6 20.6 20.6 20.6 20.6 20.6 20.6 20.6 20.5 20.5 20.4 20.4 20.4 20.4 20.5 Company Station 0311212025 18.24.04 0311212025 18:24'.14 0311212025 1A:24:24 0311212025 18 24:34 0311212025 18:24.44 03112t2025 18.24.54 0311212025 18.25:04 0311212025 18:25.14 0311212025 18:25.24 0311212O25 18.25:34 0311212025 18.25:44 0311212025 18:25.54 O311212025 18.26:04 0311212025 18.26:14 0311212025 18.26,24 0311212025 18:26'.34 0311212025 18.26:44 0311212025 18.26.54 o3112t2025 18.27.04 O311212025 18:27.14 O3l12l2O?5 18.27:24 0311212025 18.27.34 0311212025 18.27.44 0311212025 18:27:54 0311212025 18.28:04 0311212025 18.28.14 0311212025 1A 28:24 0311212025 18:28:34 0311212025 18.28.44 o3112t2025 18.28.54 0311212025 18.29:04 o311212025 18.29.14 o3t1212025 18.29.24 0311212025 18.29:34 0311212025 1A:29:44 o3112t2025 18.29.54 03t1212025 18.30.04 o311212025 18.30.14 03112t2025 18.30.24 03t1212025 18.30.34 0311212025 18.30:44 0311212025 18'.30:54 O311212025 18.31:O4 0311212025 18.31:14 0311212025 18.31:24 0311212025 18.31:34 0311212025 18.31.44 03112t2025 18.31 .54 0311212025 18:32.04 03t1212025 18.32.14 0311212o2s 18.32:24 0311212025 18:32.34 03t1212025 18.32.44 o311212025 18.32:54 0311212025 18'.33:04 03t1212025 18.33.14 0311212025 18.33:24 0311212025 18:33:34 0311212025 18.33.44 o3t1212025 1A 33 54 OXl12l2O25 '18.34:04 o3l'12/2025 18.34.14 03t1212025 18.34.24 o311212025 18.34:34 0311212025 18:34:44 0311212025 18.34.54 0311212025 18.35:04 03112t2025 18.35.14 0311212025 18:35.24 0311212025 18.35:34 0311212025 '18:35:44 0311212025 18:35.54 03i12/2025 18:36:04 03t12t2025 18.36.14 0311212025 18:36:24 0311212025 18:36.34 0311212025 18.36.44 03t1212025 '18.36:54 0311212025 18:37:04 o311212025 18:37.14 0311212025 18.37:24 o311212025 18.37.34 0311212025 18:37:44 Altamont LLC Bluebell Gas PIant 9.82 9.97 9.79 9.9'1 9.85 9.87 9.89 9.86 9.83 9.79 9.75 9.71 9.63 9.55 9.56 s.5'1 9.54 9.50 9,49 9.51 s.51 9.53 9.50 9.53 I _51 9.56 9.55 9.59 9.58 9.62 9.64 9.63 9.69 9.74 9.84 9.85 9.68 9.82 9.61 9.82 9.76 9.52 9.66 9.84 9.74 9.69 9,65 9.61 9.52 9.51 9.44 9.44 c. J5 9.34 9.43 9.46 9.42 9.39 9.4'1 9.43 9.42 9.44 9.45 9.44 9.44 9.47 9.49 9.54 9.56 9.57 9.64 9.69 9.72 9.78 9.82 9.81 9.64 9.87 9.72 9.68 9.89 s89 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24,23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 347 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l d3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 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 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 Tesl 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 Tesi Ru n 67.33 68.50 70,80 73.11 7 s.11 76.39 74.O8 71.6'l 68.72 66.05 64.62 60.95 59.1 8 58.28 57.62 59.46 61.36 62.82 53.68 64.60 64.81 65.02 65.40 65.70 65.57 65.55 66.20 66.75 67.03 67.25 67.37 67 .41 67.1 9 67 .14 67.53 67.70 67.1 9 67.59 71 .41 75.03 80.26 83.56 83.23 82.62 78.77 75.56 69.30 63.50 61.43 59.64 60.09 60.50 61.44 62.40 63.20 64.01 64.68 65.07 64.68 64.64 65.76 66.59 66.64 66.72 66.76 66.8'1 66.77 66.64 66.26 66.07 66.1 0 66.21 67.23 68.1 0 68.1 1 68.26 68.66 69.1 7 69.85 70.98 75.94 34.20 34.25 34.25 34.13 34.00 33.78 33.38 33.25 33.03 32.85 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 JZ 5U 32.50 32.50 32.7 5 32.75 32.75 32.7 5 32.83 33.00 33.00 33.55 33.85 34.17 34.70 34.7 5 34.67 33.90 32.88 32.03 31.39 31.54 31.69 31.84 32.00 32.00 32.00 32.17 32.25 Jt. zc 32.25 32.35 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.92 33.03 33.45 33.67 33.97 34.30 34.60 34.90 35.00 63 63 63 63 bJ 63 63 63 63 OJ 63 63 63 63 63 bJ 63 63 63 b5 63 63 63 63 63 63 63 63 63 53 63 63 63 63 63 bt 63 bJ 63 63 63 63 63 bJ 63 63 bJ bJ 63 63 63 bJ bJ 63 63 63 63 63 63 63 63 63 bl 63 63 63 63 63 63 63 bJ 63 63 63 63 63 63 63 63 63 63 bJ 63 20.s 20.6 20.7 20.7 20.8 20.9 21.O 2'1.1 21.2 I t-J 21.3 21.4 21.4 21.5 21.5 21.5 21.4 21.4 21.3 21.3 21.2 21.1 21.1 21.1 21.1 21.1 21.1 2t-t 21.2 21.1 21.1 21.0 21.O 21.0 21.O 21.O 21.0 21.O 20.9 20.8 20.8 20.8 20.8 20.8 20.8 20.8 20.8 20.8 20.8 20.8 20.9 21.0 21.O 21 .1 21 .1 21.2 21.2 21.1 21.1 21.1 21.1 21.0 21.O 21.0 20.9 20.9 20.9 20.9 20.9 20.8 20.8 20.7 20.6 20.5 20.5 20.5 20.4 20.5 lo5 20.5 20.5 Company Station 0311212025 18:37:54 0311212025 18.38:04 O311212025 18:38.14 0311212025 18:38:24 A3h212025 18.38:34 03t1212025 18.38..44 0311212025 18:38.54 0311212025 18.39:04 0311212025 18.39:14 03112t2025 18.39.24 0311212025 18:39:34 O311212025 1A.39:44 03t12t2025 18.39.54 0311212025 18:40:04 O311212025 18:40:14 031'1212025 18.40:24 0311212025 18:40.34 0311212025 1a:40:44 0311212025 18.40:54 o311212025 18.41..O4 0311212025 18:41.14 O311212025 18:41:24 O311212025 18.41:34 0311212025 18.41.44 0311212025 18.41:54 0311212025 18:42:04 0311212025 18.42.14 0311212025 18.42:24 0311212025 18:42:34 0311212025 18:42:44 0311212025 18.42.54 03t1212025 18.43.04 0311212025 18:43:14 0311212025 18:43.24 0311212025 18.43.34 0311212025 18.43:44 0311212025 18.43.54 A311212025 18.44:44 03h212025 18.44:14 0311212o25 '18:44:24 0311212025 18.44.34 03t1212025 18.44.44 03112t20?5 18.44:54 o311212025 18:45.O4 o311212025 18:45.14 0311212025 18.4s.24 0311212025 18:45:34 0311212025 18:45.44 0311212025 18.4s.54 0311212025 18.46:04 0311212025 18:46:14 0311212025 18:46.24 0311212025 18.46.34 0311212025 18.46:44 0311212025 18:46:54 O311212025 18:47.04 0311212025 18.47:14 0311212025 18.47:24 0311212025 18:47:34 O311212025 18:47.44 O311212025 18.47:54 0311212025 18.48:04 03t1212025',|8.48:',|4 o311212025 18.48.24 0311212025 18.48.34 0311212025 18.48:44 03l1?12025 '18:48.54 0311212025 18:49.04 o3l'tl2025 18.49.14 0311212025 18.49:24 0311212025 18:49:34 03l'1212025 18:49.44 03l'1212025 18..49.54 0311212025 18.50.04 0311212025 18.5O:'14 0311212025 18:50:24 0311212025 18.50.34 0311212025 18.50.44 03/1 2/2025 1 8:50:54 0311212025 18:51:04 0311212025 18:51:14 03h212025 18:51.24 0311212025 18:51.34 Altamont LLC Bluebell Gas Plant 9.71 9.93 9.97 9.93 9.94 9.89 9.86 9.80 9.72 9.68 9.59 9.52 9.50 9.50 9.50 9.48 9.49 9.51 9.50 9.49 9.51 9.53 9.52 9.56 9.57 9.58 9.61 9.64 9.64 9.67 9.68 9.71 9.74 9.82 9.83 9.73 9.69 9.79 9.64 9.86 9.63 9.56 9.92 9.94 9.91 9.86 9.84 9.77 9.75 9.71 9.62 9.59 9.53 9.49 9.53 9.49 9.54 9.56 9.51 9.54 9.52 9.54 9.53 o q? 9.54 9.52 9.52 9.50 9.55 9.54 9.54 9_60 9.59 9.59 9.61 9.63 9.65 9.67 9.69 9.76 9.85 9.68 9.64 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 348 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6'l #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Tesl Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Tesi Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesi Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #a Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 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 Tesl 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 Tesl 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 81 .01 85.21 87.03 82.60 79.06 78.53 77.16 70.81 65.59 62.32 58.96 57.66 56.67 5b_YZ 57.31 58.92 60.49 61.48 bz.o I 63.42 64.1 3 64.66 65.1 3 65.56 65.94 66.79 67.42 67.12 bb.YJ 66.95 65.91 66.68 66.57 67.0'1 67.36 67.34 67.43 68.1 4 69.08 70.60 72.18 76.33 80.43 84,01 85.42 81.69 78.05 70.s5 64.46 61.47 58.65 57.61 56.75 57.30 57.96 59.63 60.95 62.31 63.52 63.83 64.22 64.79 65.35 bb_ub 66.62 66.90 67.12 67.09 bb. vb 66.38 66.03 66.61 66.99 66.85 66.80 66.85 66.87 66.83 66.82 bb.9 5 67.O4 67.09 67.1 6 34.78 34.75 34.45 34.1 5 33.88 33.58 33.25 32.90 32.72 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.63 32.7s 32.75 32.7 5 32.75 32.75 32.88 33.00 33.1 0 33.25 33.50 33.50 33.80 34.1 0 34.40 34.80 35.05 35.05 33.65 32.85 32.17 32.00 32.10 32.25 32.25 32.47 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.65 32.7 5 32.7 5 32.75 32.75 32.67 32.50 32.50 32.50 32.58 32.75 32.75 32.75 32.75 32.7 5 32.97 33.00 33.20 JJ JU 33.50 33 70 63 bJ 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 63 63 63 63 bJ 63 63 OJ 63 bJ 63 EJ 63 63 63 bJ bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 OJ 63 63 bJ 63 63 20.5 20.6 20.6 20.7 20.8 20.9 20.9 21.0 21.0 21.1 21.1 21.1 21.2 21.2 21.3 21.3 21.3 21.3 zt_J 21.4 21.5 21.5 21.6 21.6 21.6 21.6 21.6 21.6 21.6 lt d 2t o 21.5 21.5 21.5 21.5 21.5 tt.J 21.5 21.6 /t.o 21.5 21.5 21.4 21.5 z l.a z t.a 21.6 zt.d 2't.6 21.5 21.4 21.4 21.4 21.4 21.4 21.4 21.5 21.5 21.4 21.3 21.2 21.1 21.0 21.O 21.O 2',t.o 21.0 21.0 21 .1 21.1 2',t.2 21.2 21.2 Company Station 0311212025 1A..51.44 03l1?1202s 18.51.54 0311212025 18:52.O4 0311212025 18:52:14 0311212025 18.52:24 0311212025 18:52.34 0311212025 18:52.44 0311212025 18.52:54 0311212025 18:53.O4 0311212025 18:53.14 0311212025 18.53:24 0311212025 18:53:34 0311212025 '18:53.44 O311212025 18.53:54 0311212025 18.54:04 0311212025 18:54.14 03t12t2025 18.54'.24 O311212025 18.54:34 0311212025 18:54.44 0311212025 18:54.54 0311212025 18.55:04 0311212025 18:55.14 0311212025 18:55.24 03i 12i2025 '18:55:34 O311212025 18:55.44 03/1 2i2025 1 8:55:54 0311212025 18.56.O4 0311212025 18:56:14 0311212025 18:56.24 o3t1212025 1A 56.34 0311212025 18.56:44 0311212025 18:56.54 o3t1212025 18.57.04 o3t1212025 18.57.14 03t12t2025 18.57.24 0311212025 18.57:34 O3l'1212O25 1A 57:44 03t1212025 18.57.54 03112t2025 18.58.04 o3t't212025 18.58.14 o311212025 18:58:24 03l'1212025 1A 58.34 03t12l?025 18.58:44 0311212025 18:58:54 03112t2025 18.59.04 0311212025 18.59:14 0311212025 18:59:24 03l12l?a25 18.59.34 O311212025 18.59:44 0311212025 18.59:54 03i12i2025 19:00:04 O311212025 19.OO:14 O311212025 19:00.24 O311212025 19.00:34 O311212025 19.00:44 03i12/2025 19:00:54 0311212025 19.01.04 0311212025 19'.O1:14 0311212025 19.01.24 0311212025 19.O1:34 0311212025 19.01:44 0311212025 19.o1:54 0311212025 19.02:04 03t1212025 19.02.14 O311212025 19:02.24 0311212025'19.02:34 0311212025'19.02:44 0311212025 19:02:54 0311212025 19.03:04 0311212025'19.O3:14 O311212025 19:03.24 03t12t?025 19.O3.34 0311212025 19.03:44 03/'1212025 19:03:54 0311212025 19.o4:o4 0311212025 19.04:14 o3t1212025 19.04.24 o311212025 19.04:34 0311212025 19.04:44 O311212025 19:O4.54 o311212025 19:O5.04 0311212025 19.O5.14 O311212025 19.05:24 Altamont LLC Bluebell Gas PIant 9.77 9.43 9.64 9.86 9.81 o e, 9.74 9.71 9.66 9.59 9.52 9.50 9.49 9.46 9.53 9.48 9.48 9.46 9.46 9.43 9.42 i 9.41 9.44 9.44 9.44 9.44 9.51 9.54 9.56 9.58 9.61 9.66 9.66 9.69 9.78 9,84 9.84 9.67 9.80 9.54 9.73 9.81 9.49 9.65 9.86 9.73 9.73 9.68 9.63 9.51 9.52 9.49 9.44 9.44 9.39 9.43' 9.48 9.39 9.41 9.40 9.39 9.37 9.39 9.38 9.38 9.38 9.43 9.49 9.51 9.52 9.55 9.56 9.59 9.61 9.64 9.70 9.71 9.79 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 349 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run ^ 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 d3 Test Run - 61 67.60 68.58 71.24 7 4.01 81.06 86.75 84.39 81.77 73.47 65.95 62.83 60.60 60.52 60.55 61.94 63.1 6 63.72 64.22 64.81 65.17 65.00 64.97 65.24 65.50 65.53 65.59 65.93 66.1 9 66.33 66.43 66.34 66.37 66.91 67.44 68.33 69.'10 69.28 69.42 69.06 68.78 68.83 68.87 68.43 68.70 73.77 79.75 86.92 91.72 90.07 86.47 78.00 69.95 66.58 63.1 3 62.03 61.09 6'1.99 62.77 63.47 64.21 64.89 65.40 65.1 1 64.90 64.92 65.02 65.88 bb.5z 66.83 67.1 0 67.27 67 .41 67.42 67.45 67.46 67.45 67.34 67.23 67.34 67.48 o/.Y I 68.23 68.00 34.1 0 34.65 34.92 34.63 33.80 32.83 32.08 31.90 32.00 32.20 32.42 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.42 32.25 32.25 32.25 32.25 32.25 32.53 32.97 33.08 33.'13 33.'17 33.25 JJ J6 33.70 34.03 34,53 34.90 35.1 7 35.08 34.40 32.42 31.83 31 .75 31.92 32.08 32.25 32.40 32.50 32.50 32.50 32.40 32.25 32.35 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 32.75 32.7 5 32.75 32.92 33.00 33.00 33.00 21.4 21.4 21.4 21.5 21.6 21.7 21.8 2't.9 22.O 22.O 21.9 21.9 22.0 22.O 22.O 22.1 22.1 22.1 aa1 22.4 22.4 22.4 22.4 22.4 22.4 22.4 22,4 22.4 22.4 22.5 22.4 22.4 22.4 22.4 22.4 22.4 22.4 22.4 22.6 22.7 22.8 22.8 22.8 22.8 22.9 22.9 22.9 22.9 22.9 22.9 23.0 23.0 22.9 22.9 aao 22.8 22.8 22.8 aaa 22.8 22.8 22.8 22.8 22.8 22.8 22.8 22.8 22.8 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 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19.07:24 0311212025 19:07.34 0311212025 19.07.44 0311212025 19.07:54 o311212025 19:o8.04 0311212025 19.O8:14 o3t1212025 19.08.24 0311212025 19:08.34 0311212025 19.08:44 o311212025 19.08..54 0311212025 19:o9.04 0311212025 19.09:14 O311212025 '19:09.24 0311212025 19:09.34 o3t1212025 19.09.44 O311212025 19:09.54 0311212025 19:10:04 0311212025 19.10.14 03t1212025 19.10.24 0311212025 19.1o:34 0311212025 19.10.44 0311212025 19:10.54 0311212025 19:11:04 0311212025 19.11 14 o311212025 ',19.11.24 0311212025 19.1',|.34 o311212025 19.11.44 0311212025 19:11.54 0311212025 19.12.04 0311212025 19'.12:14 03t1212025',|9.12.24 0311212025 19.12:34 0311212025 19:12.44 0311212025 19.12.54 03/'1212025 19:'13:04 0311212025 19.13.14 O311212025 19:13.24 03/1212025 '19: 'l 3:34 0311212025 19:13:44 0311212025 19:13.54 0311212025 19.14:04 0311212025 19:14.14 0311212025 19:14.24 0311212025 19.14.34 o311212025 19.14:44 03t1212025 19.14.54 03l'1212025 19.15:O4 O311212Q25 19:15.14 o311212025 19.15.24 0311212025 19.'15:34 O311212025 1S:15.44 0311212025 19.15.54 0311212025 19.16:04 o3l12l2o?5 19:16:14 o3t12t2025 19.16.24 03l'1212025 19.16:34 O311212025 19:16.44 0311212025 19:16.54 o311212025 19.17.04 0311212025 19:17:14 Averaqe Altamont LLC Bluebell Gas Plant 9.79 9.81 9.74 9.80 9.79 s.86 9.79 9.81 9.85 9.82 9.82 9.80 9.78 9.73 9.70 9.65 9.56 9.51 9.5'1 o 4t 9.51 9.50 9.46 9.49 9.47 9.52 9.52 9.53 9.54 9.57 9.54 9.58 9.61 9.62 9.67 9.73 9.79 9.80 9.8'1 9.84 9.83 9.84 9.77 9.7 4 9.77 9.77 9.78 9.75 9.77 9.71 9.70 9.66 9.61 9.54 9.54 9.50 9.50 9.46 9.46 9.48 9.44 9.46 9.49 9.47 9.52 9.51 9.52 9.51 9.54 9.63 67.75 67.46 67.3 1 68.1 6 68.67 67.96 67.79 69.9 1 71.28 70.31 69.77 69.46 68.7 4 67.49 66.1 7 64.72 63.36 62.61 62_UZ 62.21 oz. cJ 63.3 I 64.03 65.08 65.95 65.9'1 65.94 66.1 0 66.23 66.30 66.37 66.40 66.45 bb./ I 66.92 66.88 66.91 67.3 1 67.66 67.90 68.1 4 68.61 68.83 67.94 67.18 66.65 66.09 65.32 64.96 66.56 67.86 67.69 67.67 67.38 66.92 66.09 65.47 65.30 65.1 6 65.52 65.88 66.53 66.88 66.32 65.93 66.20 66.46 66.74 65.S5 66.65 66.74 67.44 33.22 33.42 33.65 33.75 33.90 34.00 34.00 34.00 34.00 33.95 33.75 33.70 33.50 33.1 0 33.00 33.00 32.80 32.75 JI.IJ 32.65 32.60 32.50 32.50 32.50 32.50 32.60 32.75 32.7 5 32.75 32.75 32.7 5 32.90 33.00 33.00 33.1 3 33.25 33.45 J J.5U 33.70 33.75 33.75 33.75 33.75 33.7s 33.75 33.75 33.53 33.50 33.28 33.17 33.00 32.92 32.75 32.50 32.50 s2.50 32.50 32.50 32.50 32.50 32.50 32.50 32.50 33.01 63 bJ 63 63 63 63 63 63 63 63 63 63 bJ bJ 63 63 OJ 63 63 63 OJ 63 63 63 63 63 63 bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 63 63 63 bJ bl bJ bJ 63 63 bJ 63 63 63 63 OJ 63 63 53 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 22.8 22.9 22.9 22.9 23.0 23.O 23.1 23.1 23.1 23.1 23.1 23.1 /5_ | 23.1 23.1 23.1 23.1 lJ.v 23.O 23.0 23.0 23.0 22.9 22.9 23.0 23.0 23.1 23.1 23.1 23.1 23.1 23.1 23.1 zJ. 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Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61, #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 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 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 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 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 Test Run 350 Company Statlon 03/1212025 19:19:33 O311212025 1S:19:43 0311212025 19.19:53 O311212025 19:20:03 0311212025 19:20:13 0311212025 19:20.23 Average 0311212025 19.21.11 0311212025 19:21:21 O3l'1212025 1g:21:31 0311212025 19.21:41 0311212025 19.21:51 O311212025 19:22:01 Average 0311212025 '19:23:38 0311212025 19.23:48 o311212025 19:23:58 0311212025 19:24:08 0311212025 19:24.18 0311212025 19:24:28 Average Altamont LLC Bluebell Gas Plant 0.01 0.04 0.03 0.03 0.02 0.03 0.03 10.84 '10.86 10.86 10.88 10.90 '10.85 10.87 0.00 0.03 0.00 0.03 0.01 0.01 0.01 91.14 93.1 5 94.73 95.27 95.85 96.02 94.36 95.99 96.08 91.27 73.03 58.41 43.11 76.32 3.11 2.70 2.29 2.08 1.86 1.72 2.29 1.95 2.13 1.98 { oa 1.95 1.96 1.99 2.06 2.03 1.97 1.85 1.7 4 1.67 1.89 97.50 99.05 99.70 99.75 99.65 99.50 99.1 I 63 63 bJ 63 63 63 63 63 63 63 63 63 63 63 63 63 63 bJ 63 bJ 63 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.?3 24.23 24.23 24.23 24.23 24.23 22.9 22.9 22.8 22.8 22.7 22.6 22.8 tz,o 22.6 22.5 22.5 22.4 22.4 22.5 22.1 2?.2 22.2 22.3 22.5 22.3 #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias O2_1 Bias O2_1 Bias O2-1 Bias O?_1 Bias O2_1 Bias O2-1 Bias CO_l Bias''CO-1 Bias CO-1 Bias CO_l Bias CO_1 Bias CO_1 Bias 351 G-{63 Ozr NOxAND GO 352 Company Station Altamont LLC Bluebell Gas PlantUnit C-'163 Timestamp O2_2 03/1 1/2025 09:05:02 -0.04 03/111202509:05:12 -0.04 o3l1'1202509.O5.22 -0.03 03i 1 1/2025 09:05:32 -0.03 O31111202509.05:42 -0.03 03/1 1/2025 09:05:52 -0.04Average -0.04 O3l1'll2O25 OS:24.14 20.88 O3l 'l 1 12025 09:24:24 20 .84 O31111202509..24:34 20.88 o3t1112025 09.24.44 20.88 03i 1 1/2025 09:24:54 20.8803/1'l/202509:25:04 20.84Average 20.87 03/11/2025 09:31:16 10.90 031111202509:31:26 10.9'1 03i 11/2025 09:31:35 '10.91 03/1 1 /2025 09:3 1 :46 1 0.90 03/'1 '112025 09:3'l:56 10.91 03/1 1/2025 09:32:06 10.88Averaqe 10.90 03/11/2025 09:43:45 20.69 03/1 1/2025 09:43:55 20.67 O3l'1112025 O9:44:OS 2O.7O O31111202509:44.15 20.67 o3t11t2025 09.44.25 20.69 03/'1 '112025 09:44:35 2O.7OAverage 20.69 NOX-2 0.23 0.23 o.22 0.21 o.2'l o.21 o.22 460.40 460.31 460.23 460.27 459.92 460.92 460.34 199.45 199.08 198.73 198.51 1 98.29 198.'17 1 98.71 44.51 44.70 44.72 42.55 42.30 42.28 43.51 1 89.56 1 89.55 1 89.59 189.69 189.83 189.91 1 89.69 96.5'1 64.55 47.64 29.74 20.95 13.09 45.41 -0.23 -0.46 -0.69 -0.84 -0.96 -1.03 -0_70 LU2 0.04 0.04 0.04 0.01 -0.0'l -0.01 0.02 454.00 454.00 454.00 454.00 454.00 454.00 454.00 1 97.00 197.00 197.00 1 97.00 1 97.00 1 97.00 1 97.00 0.53 0,56 0.55 0.55 0.55 0.55 0.55 o.22 0.20 o.20 0.18 0.18 o.17 0.19 192.70 1 94.00 1 94.00 194.40 195.00 1 95.00 194.'t I 10.81 4.54 1.99 0.97 0.37 0.22 3.15 Ambienl 34 34 34 34 34 34 34 34 34 34 34 34 35 35 35 35 38 38 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 ?4.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.?S 24.29 24.29 24.29 Humidity 58.5 58.6 58.7 59.0 58.9 58.8 56.6 56.5 56.5 56.5 56.4 56.3 56.5 54.1 54.3 54.6 54.7 54.7 54.8 54.5 51 .'1 51.0 51.0 51.1 51 .2 51.2 51.1 49.2 49.5 50.0 50.2 50.2 49.9 49.8 48.7 48.6 48.4 48.2 48.1 48.2 48.3 48.0 48.1 48.1 48.0 47.9 47.8 48.0 Group name Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Callbration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check lnitial Converter Check lnitial Converler Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial 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 Bias 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 Bias Check Run name Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check zero Cal Check Zero Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Mid Cal Check l\,4id Cal Check lMid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOX Cal Check No2-NOx Cal Check NO2-NOx Cal Check NO2-NOX Cal Check NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_l Bias NOx_'l Bias NOx_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO-1 Bias CO_1 Bias O2-1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2-1 Bias 02 '1 Bias 03/1 1/2025 09:52:51 03/1 1/2025 09:53:01 03i11/202509:53r11 03/1 1/2025 0g:53:21 03/'11l2025 09:53:31 03/1 1/2025 09:53:41 Average 0311112025 09:55.22 03/1 1i2025 09:55:32 03/1 1/2025 09:55:42 03/'l '1l2025 09:55:52 03/1 1 /2025 09:56:02 03i 1 1/2025 0S:56:12 Average -0.09 -0.09 -0.08 -0.10 -0.09 -0.1 0 -0.09 -0.1 1 -0.'1 1 -0.1 1 -0.10 -0.1 1 -0.1 0 -0.1 1 39 39 39 39 39 39 39 39 39 39 39 39 40 40 40 40 40 40 40 03/1 1/2025 09:57:35 10.79 o3t111202509.57.45'10.79 03/1 '112025 09:57:55 '10.78 03/1 1/2025 09:58:05 '10.79 03/1 1/2025 09;58:15 10.80 03i 1 1/2025 09:58:25 10.81Average 10.79 353 Company Station Unit TimeStamp 031 1 I 12025 1 0:26'.32 0311112025 10.26:42 0311112025 1o:26.52 0311112025 10:27.O2 O311112025 10.27:12 0311112025 10.27 .22 0311112025 10:27:32 0311112025 10.27:42 03t1112025 10.27.52 0311112025 1O:28:O2 0311'll2O25 10.28:12 0311112025 10.28:22 0311112025 10.28:32 03111t2025 10.28.42 0311112025 10.28:52 03t1112025 1o:29:o2 0311112025 10.29.12 0311112025 10.29:22 o3t1112025 10.29.32 o3t1112025 10.29.42 0311112025 10.29:52 03/'1112025 10:30:02 03/1 '112025 10:30:'12 0311112025 10:30.22 Average 0311112025 10'.34:31 0311112025 10:34.41 03i11/2025 10:34:51 03i '1 1i2025 10:35:01 03/1 1/2025 10:35:1'l 03/1 1/2025 10:35:21 03/1 '112025 10:35:31 o3t1112025 10.35.41 03/11/2025 10:35:5'1 03i 1 1/2025 10:36:0'1 03/1 1/2025 10:36:'1 1 o311112025 10.36.21 03i11/2025 10:36:31 C311112025 10:36:41 03/1 1/2025 10:36:5.1 0311112025 10.37:01 0311112025 10'.37:11 0311112025 10.37.21 0311112025 10.37:31 0311112025 10:37:41 03/11/2025 10:37:51 03i11/2025 10:38:0'1 03/1 1/2025 '10:38:1 1 0311112025 10.38:21 Average 03/'1 1/2025 '10:38:35 o3/11/2025 10:38:45 03i 1 1/2025'10:38:55 03/11i2025 10:39:05 o3/1 1 /2025 10:39:'15 o3t1112025 10.39.25 03/1 'l i 2025 l0:39:35 03/11/2025 10:39:45 03i 1 1/2025 10:39:55 03/1 1i2025 10:40:05 o3l'1112025 10.40.15 o3t11t2025 10.40.25 03/1 1i2025 10:40:35 03/'l 1i 2025 10:40:45 03/1 1/2025 10:40:55 03/1 1i 2025 '10:4'l :05 O311112025 1O:41:15 0311112025 10.41.25 03i '1 1/2025 10:41 :35 O311112025 1O:41:45 03/11/2025 10:41:55 0311112025 10..42.05 o3t1112025 ',10.42.',|5 O311112025 10.42:25 Averaqe Altamont LLC Bluebell Gas Plant c-1 63 o2_2 NOX_2 8.53 8,56 8.56 8.56 8.55 8.54 8.54 8.53 8.52 8.54 8.53 8.52 8.49 8.48 8.48 8.38 8.38 8.38 8.43 8.41 8.42 8.41 8.49 8.59 8.59 8.60 8.60 8.60 8.59 8.59 L60 8.59 8.60 8.59 8.50 8.59 8.57 8.59 8.57 8.57 8.54 8.50 8.48 8.46 8.46 8.44 8.56 8.46 8.48 8.48 8.47 8.48 8.47 8.5'1 8.54 8.52 8.54 8.56 8.62 8.58 8.58 8.56 8.54 8.55 8.49 8.53 8.55 8.53 8.52 8.56 8.54 8.53 55.99 56.23 56.44 57.27 57.96 58.33 58.77 58.83 58.93 58.99 59.01 58.68 58.38 58.05 57.64 57.56 57.46 5 /.bu 57.77 58.1 8 58.53 60.02 61.39 61.87 59.90 58.38 57.1 6 56.26 55.48 56.09 56.5'1 56.98 57.48 57.69 57.90 57.90 57.93 58.05 58.1 5 57.92 57.72 57.43 57.1 5 57.21 57.20 56.95 56.72 57,08 57.39 57.36 58.25 59.14 60.50 61 .94 6'1,68 6'1.53 60.71 59.95 60.1 8 60.30 59.85 59.47 59.1 0 58.59 57.38 56.1 1 55.66 55.1 0 55.31 55.51 56.1 0 56.63 56.88 58.47 co_2 5.44 5.44 5.45 5.44 5.44 5.44 5.44 5.44 5.44 5.44 5.41 5.41 5.42 5.43 5.44 5.45 5.40 5.39 5.39 5.39 5.43 5.44 5.45 5.43 5.23 5.27 5.32 5.37 5.40 5.41 5.41 5.47 5.49 5.51 5.49 5.46 5.42 5.37 5.30 5.24 5.27 5.25 5.27 5.28 5.35 5.31 5.36 5.38 5.38 5.22 5.21 5.19 5.17 5.13 5. tJ 5.14 5.'19 5.22 5.24 5.28 5.28 5.25 5.24 5.'19 5.19 5.24 Ambient 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 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 42 PBaro 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 21.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 21.29 Humidity Group name 40.6 Stratification Traverse 40.9 Stratification Traverse 41.2 StratificalionTraverse 41.3 StratificationTraverse 41.3 StratificationTraverse 41.2 StratificationTraverse41.2 StratificationTraverse41.0 Stratification Traverse 40.8 Stratification Traverse 4O.7 Stratilication Traverse 40.8 Stratification Traverse 40 8 Stratification Traverse 40.8 Stratitication Traverse 40.8 Stratification Traverse 41.2 StratificationTraverse 41 6 Stratification Traverse 4'1.6 StratificationTraverse41.5 StratificationTraverse 41.4 StratificationTraverse41.6 Stratification Traverse 42.1 Stratification Traverse 42.2 Stratification Traverse 41.8 Stratification Traverse 41.4 StratificationTraverse 11.2 39.3 Stratification Traverse 39.2 Stratification Traverse 39.2 Stratification Traverse 39.3 Stratification Traverse 39.3 Stratification Traverse 39.3 Stratification Traverse 39.3 Stratification Traverse39.2 Stratificalion Traverse 38.9 Stratification Traverse 38.3 Stratification Traverse 37.3 Stratification Traverse 36.6 Stratification Traverse 36.4 Stratification Traverse 36.2 Stratification Traverse36.1 Stratification Traverse 36.1 Stratification Traverse 36 4 Stratification Traverse 36.9 Stratification Traverse 37.6 Stratification Traverse38.4 Stratification Traverse 38.7 Stratification Traverse 38.7 Stratification Traverse 38.6 Stratification Traverse 38.3 Slratification Traverse 38.1 37.7 StratificationTraverse 36.9 Stratification Traverse 36.0 Stratification Traverse 35.4 Stratification Traverse 34.9 Stratification Traverse 34.7 Stratification Traverse 34.5 Stratification Traverse 34.1 Stratification Traverse 33.9 Stratificalion Traverse 33.7 Stratifibation Traverse 33.7 Stratification Traverse 33.7 Stratification Traverse 33.7 Stratification Traverse 33.7 Stratification Traverse 34.0 Stratification Traverse 34.3 Stratification Traverse 34.5 Stratification Traverse 34.5 Stratification Traverse 34.8 Stratification Traverse 35.'l Stratification Traverse 35.1 Stratification Traverse 34.8 Stratification Traverse 34.6 Stratification Traverse 34.6 Stratification Traverse 34.7 Run name #'1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Cbeck #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'l Strat Check #1 Strat Check #.1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Stral Check #1 Strat Check #1 Strat Check #2 Strat Check #2 Strat Check #2 Slrat Check #2 Strat Check #2 Strat Check #2 Stral Check #2 Strat Check #2 Strat Check fl2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Slrat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 $trat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check 354 Company Station Unit TimeStamp 03/1 1/2025 '1 1:18:0S O311112025 '11:18.19 03111t2025 11.18.29 03/l1/2025 11:18:39 O311112025 11:18:49 03/11/2025 11:18:59 03/1 'l /2025 1 1 :19:09 03/'1 1/2025 1 1:19:19 0311112025 11:19:29 03/'l'l12025 1'1 :19:39 03i11/2025 11:19:49 03/11/2025 11:'19:59 03/11/2025 11:20:09 O3l1'll2O25 1'l:2O 19 03111t2025 11.20.29 o3t11t2025 11.20.39 O311112025 11.20:49 O3l't|12025 11:2O.59 o3l 1 1 12025 ',t 1 ,21 .09 o3t1112025 11.21.19 O311112025 11:21:29 O311112025'11:21:39 0311112025 11:21:49 o3t1 112025 1 1"21 .59 O311112025 11.22:09 O3t1112025 11.22:19 o3t1112025 11 22..29 o3111t2025 11.22.39 O311112025 11:22:49 0311112025 11.22:59 0311112025 11.23.09 o3t1112025 11.23.'t9 O311112025 11:23:29 o3I11t2025 ',t1.23.39 0311112025 11.23:49 o3t11t2025 11.23.59 O3t1112025 1'1.24:Og o3111t2025 ',t',t .24:19 o3t11t2025 11.24.29 O3t1112025 11:24:39 0311112025'11:24:49 03111t2025 't 1 .24:59 03/11i2025 11:25:09 0311112025 11 .25:19 O311112025 11.25:29 03/1 1/2025 1 1:25:39 0311112025 11:25:49 03/1'112025 1 1:25:59 03/1 1i 2025 '1 1 :26:09 O311112025 11.26:19 0311112025 11.26:29 03/'l 'l /2025 1 1 :26:39 o3t11t202s 11.26'.49 03/1 1/2025 '1 'l :26:59 o3t11t2025 11.27.09 o3t11t2025 11.27.19 O311112025 11.27:29 O3l 1 1 t2O25 I 'l .27 :39 O3l'1112025 11:27.49 o3t1112025 11.27.59 03i '1 1/2025 1 1:28:09 o3t1112025 11.28.19 O311112025 11.28:29 03111t2025 11.28.39 o3I11t2025 1',t'.28.49 031'1112025 11:28:59 03i 1 1i 2025 '1 1 :29:09 o3t11t2025 11.29.19 0311112025 11.29:29 0311112025 11:29:39 0311112025 11:29.49 03t1112025 11.29.59 03/1 '112025 1 'l:30:09 03/'l 'l /2025 1 'l :30:19 03/1 1/2025 1 '1 :30r29 03/1 1/2025 1'1:30:39 03/1 1/2025 1 1:30:49 03/11/2025'11:30:59 03/1 'l i 2025 1 1 :31 :09 03/11i2025 1'1:31:'ls 03/1 1/2025 1 1:3 1 :29 Altamont LLC Bluebell Gas Planl c-163 02_2 8.54 8.53 8.52 8.56 8.54 8.54 8.52 8.54 8.53 8.54 8.s2 8.50 8.50 8.44 8.43 8.43 8.48 8.48 8.47 8.48 8.48 8.48 8.48 8.48 8.50 8.50 8.50 8.52 8.54 8.56 8.60 8.59 8.59 8.56 8.57 8.55 8.56 8.s6 8.56 8.56 8.56 8.59 8.59 8.60 8.60 8.59 8.59 8.59 8.59 8.57 8,59 8.56 8.55 8.56 8.55 8.54 8.52 8.54 8,54 8.52 8.53 8.50 8.52 8.48 8.47 8.47 8.46 8.44 8.44 8.48 8.47 8.50 8.52 8.58 8.60 8.56 8.56 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 355 Group name #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 # 1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #'1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #'l Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 dl Test Run - 61 #1 Test Run - 5l #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Tesi Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 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 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 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-2 56.28 56.77 57.33 57.76 58.20 58.84 58.62 58.39 58.02 57.68 57.34 57.O2 57 .11 57.21 57.61 58.03 58.03 60.02 60.70 ot.J/ 61.37 61 .'19 60.67 60.14 60.1 4 59.01 59.08 58.81 58.62 58.3 1 58.06 56.54 55.38 54.17 54.04 54.44 54,67 54.67 55.93 56.45 57.43 58.33 58.31 58.33 58.20 58.20 58.06 57.97 57.65 57.34 57.1 1 56.95 57.09 57.22 57.51 57.51 57.38 57.1.2 56.94 56.70 56.46 56.33 56.33 56.47 56.64 56.83 58.27 59.39 60.21 61.03 6 1.59 62.09 61.90 6'1.70 60.2 1 bu.z I co_2 5.21 J. Zt 5.26 5.28 5.34 5.28 5.30 5.34 5.42 5.43 5.41 5.41 5.41 5.37 5.34 5.34 5.34 5.32 5.32 5.31 5.27 5. tl 5.23 5.25 5.28 5.30 5.30 5.34 5.38 5.42 5.44 5.45 5.44 5.43 5.40 5.40 5.38 5.40 5.46 5.52 5.56 5.56 5.53 5.50 5.47 5.47 5.47 5.53 5.50 5.44 5.38 5.34 5.32 5.30 5.3'1 c.J I 5.34 5.40 5.38 5.39 5.40 Ambient 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 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 45 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 Humidity 36.8 37 .1 36.9 Jb_ / 36.7 36.5 36.5 Jb/ 36.5 36.0 35.6 35.1 34.7 34.7 34.6 34.5 34.8 J3. I 35.7 36.4 36.8 37.5 37.5 37.2 36.9 Jb5 35.4 34.9 34.4 34.1 34.'1 34.2 34.4 34.4 34.9 34.9 34.9 34.9 34.8 34.8 34.8 35.0 35.3 35.8 Jb.l 36.5 36.8 36.9 37.6 37.2 37.2 36.3 36.0 35.8 35.4 35.3 35.1 34.9 34.9 34.7 34.4 34.4 34.7 J5_ I 35.0 34.7 34.6 34.6 34.8 34.9 34.8 Company Station Unit TimeStamp 03/1 1/2025 11:31:39 0311112025 11.31:49 03/11/2025 11:3'1;59 03h112025 1'l32:Og 0311112025 11.32:19 o311112025 11.32.29 03/11i2025 11:32:39 O3h 1 l2O25 11 .32:49 0311112025 11:32..59 03/11i2025 11:33:09 03i '1'1/2025 11:33:19 o3l'1112025 11:33.29 03/11i2025'11:33:39 03i11i2025 11:33:49 03/1 1/2025 1 1:33:59 03/1 Ii2025 1'l:34:09 0311112025 11.34:19 0311112025 11:34.29 03/1 1i2025 1 1:34:39 O311112025 11.34:49 o3/11/2025 11:34:59 03/1 1/2025 1 '1 :35:09 03/1 1/2025 1 1:35:19 o311112025 11.35.29 03/1 1/2025 'l 1 :35:39 03i11i2025 11:35:49 03/11/2025 11:35:59 03/1 1/2025 '1 1 :36:09 O3t1112025 11:36:19' 03/1 1/2025 '1 1:36:29 03/11/2025 11:36:39 03/1 1/2025 1 1:36:49 03/1 1/2025 11:36:59 03/1'1/2025 11:37:09 o3t11t2025 11.37.19 0311112025 11:37.29 03111 12025 1',| .37:39 o3t1112025 11.37.49 o3t11t2025 11.37.59 03/11/2025 11:38:09 03/1 1i2025 1 1:38:19 0311112025 11:38.29 03/1 1/2025 1 1:38:39 03/11/2025 11:38:49 03/1 1/2025 '1 '1 :38:59 03/1 1i2025 1 'l :39:09 03i11i2025'11:39:19 o3/1 1/2025 1'1:39:29 03/'1 1/2025 1 '1:39:39 03/1 '112025 'l 'l :39:49 03i 1 1i2025 1'l:39:59 03/1'1l2025 1'1:40:09 03/1'112025 11;40:'19 O311112025 11.40:29 03/1 1i2025 1 1:40:39 0311112025 1'l:4O:49 03i11/2025 11:40:59 03/11/2025 11:41:09 0311112025 11:41.19 0311'll2o25 11:41:29 0311112025 11.41:39 0311112025 11.41:49 03/1 1/2025 1 '1:41:59 o3t11t2025 11.42'.09 o3t1112025 11.42.19 0311112025 11:42:29 0311112025 11.42:39 o3t1112025 11.42.49 0311112025 11.42.59 03/1 1/2025 1 1:43:09 0311112025 11:43.19 0311112025 11:43.29 03i 1 1/2025 'l 1 :43:39 03i11i2025 11:43:49 03/11/2025 11:43;59 0311112025 11:44.09 0311112025 11:44:19 o311112025 1',|.44:29 o3t11t2025 11.44.39 0311112025 11:44.49 o3t11t2025'11.44.59 Altamont LLC Bluebell Gas Plant c-163 02_2 8.54 8.54 8.54 8.54 8.53 8.52 8.54 8.52 8.52 8.56 8.56 8.56 8.58 8.59 8.60 8.59 8.59 8,61 8.59 8.63 8.63 8.60 8.59 E_O I 8.59 8.55 8.5'1 8.51 8.4'1 8.41 8.38 8.39 8.44 8.46 8,47 8.48 8.42 8.41 8.44 8.46 8.46 8.46 8.51 8.50 8.49 8.50 8.50 8.44 8.43 8.43 8.47 8.48 8.46 8.46 8.s4 8.54 8.61 8.61 8.56 8.58 8.56 8.56 8.56 8.54 8.54 8.52 8.54 8.54 8,52 8.51 8.50 8.50 8.52 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 356 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 f1 Test Run - 61 f1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 # 1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Tesl Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Tesl Run - 61 #'1 Tesl Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 l #1 Test Run - 6 l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 Run name 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 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 Tesl 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 Tesl Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Tesl 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 NOX_2 57.05 57.05 55.20 54.89 54.91 54.93 55.29 55.64 55.88 55.88 56.76 57.59 57.59 58.40 58.84 58.80 58.79 58.94 59.1 0 59.13 59.1 7 58.91 58.64 58.09 57.57 5/. to 56.76 56.71 5b_ bz 56.62 56.33 56.33 55.58 54.1 5 53.'10 53.1 0 56.85 58.30 59.78 59.75 59.78 58.79 57.89 57 .77 57.s5 58.68 58.68 60.00 60.45 60.23 59.98 58.89 57.90 57 .47 57.47 57.09 57.21 58.1 7 58.'1 7 59.39 59.39 59.88 59.88 59.82 59.6't 57.82 56.1 4 56.1 4 54.90 55.1 4 55.36 55.75 56.1 1 56.63 57.17 57.22 57.25 57.43 57.43 co_2 5.41 5.41 5.31 5.30 5.31 5.31 C-J I 5.35 5.38 5.39 5.43 5.46 5.50 5.54 5.54 5.56 5.59 5.57 5.56 5.53 5.50 5.48 5.47 5.47 5.47 5.39 5.38 5.38 5.42 5.42 5.44 5.43 5.41 5.34 5.J I 5.36 5.39 5.39 5.43 5.44 5.43 5.34 5.32 5,34 5.32 5.31 5.29 5.29 5.34 5.34 5 J/ 5.38 5.39 5.41 5.41 5.43 5.42 5.45 5.47 5.44 5.43 5.40 5.36 5.36 5.40 5.41 Ambient 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 47 47 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 Humidity 34.7 34.7 34.9 35.3 35.5 35.2 35.3 35.0 JC. I 35.3 35.3 35.0 35.0 35.0 35.0 35. 1 35.0 34.9 34.6 34.4 34.6 34.6 34.6 34.1 34.5 34.8 34.8 35.2 35.2 34.8 34.7 34.7 34.7 34.6 34.7 34.8 34.9 35.0 34.9 34.6 33.8 33.8 33.4 33.5 34.1 34.2 34.7 35.'l 35.3 35.3 34.9 34.9 34.4 34.4 33.8 33.6 33.4 33.1 33.3 33.3 33.1 33.1 JJ. J 33.7 33.4 Company Station Unit TimeStamp 03/11/2025 11:45:09 03/1 1i2025 11:45:19 0311112025 11:45:29 03/'11/2025 11:45:39 03/1 1/2025 1 1:45:49 03/1 1i 2025 'l 1 :45:59 03i11/2025 11:46:09 0311112025 1'l:46:19 03t11t2025 11.46.25 O311112025 11.46:39 O311112025 11:46:49 03i11/2025 11:46:59 03/11i2025 11:47:09 o3t11t2025 1',t'.47:19 0311112025 11.47:29 0311112025 11,47:39 0311112025 11:47:49 0311112025 11:47.59 03i 'l 1i 2025 1 '1 :48:09 031't'tt2025 11.48:19 0311112025 11:48.29 03/1 1/2025 1 1:48:39 o3l11t?o25 11"48:49 o311112025 11.48:59 03/1 1/2025 1 1:49:09 o3111t2025 11.49.19 0311112025 11.49:29 03/11i2025 11:49:39 O311112025 11:49:49 03i11/2025 11:49:59 03/1 '1i 2025 1 1 :50:09 03/11/2025 11:50:'19 o3t11t2025 1 1 .50.29 03/11i2025 11:50:39 O311112025 11:5O.49 03il'1/2025 11:50:59 03/1'1i2025 11r51:09 03/11i2025 11;51:19 o3t11t2025 11 .51 .29 03/1 '112025 1 1 :5'l :39 03/11/2025 11:51:49 03i11/2025 11:51:59 o3t11t2025 11.5209 0311112025 11:52.19 0311112025 11..52:29 03/1 1i 2025 'l 1 :52:39 o3t11t2025 11 .52.49 o3t1'12025 11.52.59 03/11/2025 11:53:09 03i 1'1i 2025 1'1:53:19 03/1 1/2025 1 1:53:29 03/'1 1/2025 11:53:39 03i1 '1l2025 11:53:49 o3/1 1/2025 1 1:53:59 03/11i2025 11:54:09 03/1 1/2025 1 1:54:19 0311112025 11:54.29 03/11/2025 11:54:39 0311112025 11'.54:49 03/1'l12025 1 1:54:59 03/11i2025 11:55:09 03i 1 '112025 11:55:19 o3t11t2025 11.55.29 03/11/2025 1 1:55:39 03/1'112025 11:55:49 03/1'112025 1 1:55:59 03/1 1i 2025 'l 1 :56:09 03/1 1/2025 1 'l :56:19 03i11/2025 11:56:29 03/11i2025 11:56:39 03/1'112025 11:56:49 03/'1112025 11:56:59 03/11i2025 11:57:09 03/11/2025'11:57:19 o311112025 11.57.29 03/1 1/2025 '1 1 :57:39 o3t 't 1 12025 1 1 .57 .49 o3l1 1 1202s 1',t .57 .59 03i11i2025 11:58:09 03i'11i2025 11:58:'19 o3t1112025 11.58.29 Altamont LLC Bluebell Gas Plant c-'163 02_2 8.50 8.50 8.53 8.48 8.47 8.48 8.45 8.44 8.44 8.38 8.38 8.4'l 8.48 8.52 8.50 8.50 8.52 8.52 8.51 8.53 8.50 8.50 8.48 ' 8.48 8.50 8.49 8.49 8.52 8.49 8.53 8.54 8.52 8.54 8.52 8.54 8.57 8.57 8.60 8.57 8.58 8.56 8.56 8.56 8.56 8.57 8.56 8.56 8,54 8.53 8.54 8.52 8.52 8.51 8.5't 8.51 8.49 8.49 8.50 8.50 8.50 8.51 8.52 8.54 8.52 8.53 8.53 8.52' 8.52 8.52 8.50 8.53 8.52 8.52 8.57 PBaro 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.?9 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 ?4.29 24.29 24.29 24.29 357 Group name #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 S1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #'1 Test Run - 61 f1 Test Run - 61 #'l Test Run - 5'1 #1 Test Run - 6'1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run . 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6l #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 *1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'1 NOX-2 57.98 57.98 58.40 58.40 58.1 1 57.48 56.91 56.44 55.98 56.22 56.39 56.42 56.59 58.'t 1 ou.tl 61.93 61.85 6'1.85 60.07 60.07 57.72 57.04 57.1 0 57.1 0 57.'1 0 57.1 0 57.08 57.09 57.46 57.79 58.03 58.24 58.72 59.1 8 59.66 60.1 4 60.48 60.83 60.83 60.6'l 60.65 60.68 60.30 59.96 59.69 59.38 59.38 58.76 58.63 58.50 58.1 5 57.80 57.66 57.49 57.32 57.1 6 56.93 56.93 56.24 56.24 56.04 56.27 56.55 56.83 56.98 56.98 57.62 58.03 58.42 58.42 58.86 58.86 58.85 58.85 58.82 58.80 58.59 58.42 58.42 58.36 co_2 5.42 5.41 5.41 5.45 5.44 5.41 5.44 5.47 5.48 5.52 5.47 5.47 5.47 5.38 5.33 5.30 5.30 5.31 5.31 5.31 5.29 5.29 5.25 5.27 5.29 5.32 5.38 5.43 5.47 5.51 5.55 5.59 5.63 5.63 5.61 5.55 5.49 5.47 5.47 5.45 5.47 5.47 5.50 5.50 5.59 5.62 5.65 5.62 5.56 5.47 5.47 5.42 5.42 5.38 5.38 5.39 5.44 5.44 5.47 5.47 5.47 5.49 5.49 5.46 5.46 5.44 5.44 5.38 5.44 5.45 5.48 551 Ambient 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 Humrdrty 33.4 33.4 33.8 34.0 34.0 34.5 34.7 35.0 35.1 34.8 34.1 34.3 34.6 35.0 35.s 35.3 34.1 34.1 34.0 33.9 33.7 33.7 33.7 33.7 34.2 JJ/ 33.4 32.8 32.6 34.1 34.0 34.0 34.2 34.8 34.9 34.7 34.4 34.1 33.6 33.6 32.4 32.4 32.8 32.7 32.4 32.4 32.9 32.9 33.0 33.4 34.'l 34.0 32.9 32.9 32.8 32.8 Jl_ f, J I.J JI J 30.7 30.5 30.2 29.9 Run name Test 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 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 Tesl 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 Station Unit TimeStamp 03/11/2025 11:58:39 03/1'!/2025 11:58:49 03/1 1i2025 'l 1:58:59 03/11/2025 11:59:09 03h1/2025 11:59:19 03i 1 1/2025 '1 1 :59:29 03/1 1/2025 1 1:59:39 03i1'1i2025 11:59:49 03/1 1/2025 'l '1 :59:59 0311112025 12.00:09 03/11/2025 12:00:19 o3t't1l?o25 12.00:29 o311112025 12.00.39 0311112025 12.OO:49 03/'1 1/2025 12:00:59 03111t2025 12:o1:og O311112025 12.01:19 O3l'1112025 12:01.29 o3t11t2025 12..01.39 o311112025 12.01:49 o3t1112025 12.01.59 0311112025 12:42.09 o311112025 12.02:19 0311112025 12:02.29 0311112025 12.02.39 0311112025 12.02:49 o3t11t2025 12'.02.59 03/1 1/2025 I 2:03:09 O311112025 12.03:19 0311112025 12.03.29 03/'1 1i 2025 'l 2:03:39 o3t1112025 12.03.49 o3t1112025 12.03.59 03111t2025 12:04.O9 o3t11t2025 12.04.19 03111t2025 12.04:29 0311112025 12:04.39 o3t1112025 12.04.49 o3t11t2025 12"04:59 0311112025 12:05:09 o3t11t2025 12.05.19 O3/1112025 12.05:29 03i 1 1/2025 12:05:39 O3l1'll2O25 12.05:49 03/11/2025 12:05159 03/1 1i2025 12:06:0s 03/11/2025 12:06:19 0311112025 12.06.29 03i11i2025 12:06:39 0311112025 12.06.49 03/1 1/2025 1 2:06:59 0311112025 12.07:Og 0311112025 12:07 .19 o3t11t2025 12'07.29 o3t1112025 12.07.39 o311112025 12:07:49 03111t2025 12.07 .59 03/1 1/2025 '12:08:09 0311112025 12:08:19 0311112025 12:08.29 03/1 1/2025 12:08:39 03i11/2025 12:08:49 03/1 1/2025 '12:08:59 03/1 1/2025 '12:09:09 0311112025 12.09:19 0311112025 12:09.29 0311112025 12:09'.39 o3t1112025 12.09.49 03i 11i2025 12:09:59 0311112025 12:10.09 o3t11t2025 ',|2.10.19 o3t11t2025 12.10.29 o311112025 12.10:39 O311112025 12.1O:49 0311112025 12:10.59 0311112025 12.11:O9 o3l1112025 12',11.1I 0311112025 12:11:25 0311112025 12.11 .39 o3t1112025 12.11.49 03/1 1i 2025 1 2:'1 1 :59 Altamonl LLC Bluebell Gas Plant c-1 63 02_2 8.57 8.57 8.58 8.60 8.58 8.60 8.61 8.63 8.63 8.63 8.52 8.62 8.59 8.59 8.59 8.58 8.59 8.56 8.54 8.55 8.54 8.54 8.53 8.5'1 8.53 8.54 8.52 8.50 8.50 8.54 8.54 8.56 6.5b 8.54 8.56 8.57 8.55 8.56 8.57 8.59 8.58 8.59 8.59 8.59 8.59 8.59 8.62 8.62 8.63 8.66 8.66 8.63 8.66 8.66 8.65 8.65 8.63 8.63 8.52 8.51 8.63 8.63 8.63 8.60 8.59 8.61 8.59 8.55 8.58 8.56 8.55 8.60 8.57 8.59 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 3s8 Group name #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6'l #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 J1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 l #1 Test Run - 6'1 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #l Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesi Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 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 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 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run NOX_2 58.56 58.95 5S.20 59.45 59.44 59.44 59.40 59.36 59.44 59.52 59.52 59.27 59.27 59.28 59.28 58.s4 58.54 57 .77 57.60 57.43 57.48 57.49 J/.J I 57.1 8 56.90 56.63 56.37 56.12 50 tz ao.t I 56.31 56.39 56.63 56.63 57.06 57.06 57.87 57.87 58.86 58.86 58.94 58.70 58.72 58.70 58.49 58.30 58.24 58.20 58.38 58.48 58.48 58.1 0 58.1 0 58.55 58.55 58.87 59.05 59.22 59.1 6 59.09 59.09 58.59 58.59 57.90 s7.90 57.s3 57.20 56.90 56.75 56.75 56.12 55.68 55.63 55.98 56.33 56.45 56.60 56.81 57.0'1 co_2 5.52 5.52 5.51 5.53 5.54 5.63 5.69 5.76 5.81 5.78 5.78 5.76 5.76 5.72 5.72 5.66 5.66 5.62 5.60 5.63 5.64 5.66 5.67 5.67 5. bJ 5.55 5.49 5.41 5.40 5.44 5.44 5.46 5.47 5.47 5.50 5.50 5.65 5.65 5.68 5.68 5.62 5.58 5.54 5.52 5.50 5.50 5.51 5.56 5.58 5.60 5.50 5.68 5.72 5.75 5.70 5.63 5.63 5.56 5.56 5.5s 5.64 5.63 5.63 5.63 5.63 5.62 5.63 5.59 5.56 5.54 5.52 5.50 5.52 5.53 5.56 Ambient 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 Humidity 29.5 29.3 29.3 29.2 29.2 29.3 29.8 29.5 29.4 29.4 29.6 29.6 30.0 30.0 30.9 30.9 31.8 3'1.8 32.4 32.4 32.',| 3'1.8 31.5 31.2 30.8 30.8 J I-J 31.7 32.O 32.4 32.2 1t o 31.8 31,8 31,8 31.6 J t_b 31.6 3'1.6 31.9 31.0 30.9 30.9 3'1 .'1 31.4 31,4 32.6 32.6 33.7 33.4 33.4 33.1 31.7 31.7 31 .1 3'1.1 31.6 31.8 31.8 Jt/ 31.7 32.0 32.4 32.8 JJI JJI 33.1 33.4 33.4 Company Station Unit TimeStamp O311112025 12.12:09 o3l1't12025 12.',t2:19 O311112025 12j2:29 0311112025 12:12:39 0311112025 12:12.49 o3t1112025 12.',t2:59 03i'11i2025 12:13:09 0311112025 12:13.19 0311112025 12:13.29 0311112025 1213:39 O311112025 12.13:49 0311112025 12.'13:59 0311112025 12:14.09 O311112025 12:14.15 O311112025 12.14:29 0311112025 12.14:39 O3l1'll2O25 12:14:49 O311112025 12:14.59 03/1 1 /2025 1 2:1 5:09 0311112025 12,15:19 O3l'1112025 12'.15:29 O3t1'll2O25 12:15:39 0311112025'l.2:15:49 03/1 1/2025 12:15:59 0311112025 12.16.09 O311112025 12.16:19 0311112025 12:'16:2s 03i11/2025 12:16:39 o3t11t2025 12.16.49 O311112025 12.16:59 o3t1112025 12.17.O9 O3t1112025 12:17.19 O3t1112025 12:17.29 O311112025 12.17:39 o3t11t2025 12.17 49 o3111t2025 12.17.59 03/1 1/2025 12:18:09 o311112025 12.18.19 0311112025 12.18:29 o3t11t2025 12.18.39 O3l1'112025 12:18.49 03i 1 1/2025 'l 2:18:59 Average Altamont LLC Bluebell Gas Planl c-'r63 02_2 8.59 8.60 8.60 8.59 8.59 8.61 8.61 8.62 8.59 8.61 8.60 8.59 8.64 8.64 8.69 8.69 8.67 8.67 8.69 8.69 8.66 8.67 8.66 8.66 8.66 8.66 8.66 8.66 8.65 8.65 8.66 8.64 8.63 8.63 8.61 8.60 8.60 8.58 8.58 8.56 8.56 8.54 8.55 NOX-2 56.83 57.02 57.O2 57.33 57.s6 57.56 57.81 57.86 57.91 E7 OE 57.76 57.59 57.83 58.0'1 58.33 58.60 58.60 58.25 57.94 57.67 s7.40 57 .11 57.11 56.68 56.68 56.68 56.92 57.06 57.06 56.85 56.84 56.84 56.80 56.76 56.76 56.76 5).bz 55.62 54.70 54.49 54.62 57.82 eo_2 5.56 5.58 5.58 5.61 5.61 5.64 5.64 5.62 cbt 5. bl 5.62 5.63 5.64 5.66 5.70 5.76 5.76 5.80 5.81 5.83 5.84 5.85 5.85 5.84 5.84 5.81 5.75 5.69 5.69 5.59 5.63 5.68 5.70 5.68 5.62 5.62 5.53 s.55 5.53 5.53 5.48 Ambient 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 49 49 49 49 49 49 49 49 49 49 49 49 47 PBaro 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 ?4.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.29 Humidity s3.4 32.1 31.8 31.8 31.6 31.6 31.8 32.0 31.8 31.5 J I.J 31.3 31.1 3'1.5 32.1 J2 | 32.1 30.8 30.7 30.5 30.5 30.1 30.1 30.'l 30.3 30.4 Group name #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 #1 Test Run - 6 l #1 Test Run - 61 #1 Test Run - 6'1 #l Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 Run name 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 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 359 Company Station Unit TimeSlamp o3t11t2025 12.22.26 0311112025 12.22.36 0311112025 12:22.46 03t11t2025 12.22.56 0311112025 12:23:06 o311112025 12.23.16 Average o311112025 12.28:10 0311112025 12:28.2O 0311112025 12:28:30 O311112025 12.28:40 0311112025 12:28:50 031111202512:29.OO Average 0311112025 12:31 .'lo 0311112025 12.31:2O o311112A25 12.31:30 O3t1112025 12:31.4O 0311112025 12:31:5O 031'1112025 12.32:OO Average 0311112025 12:42.27 0311112025 12.42:37 o3t11t2025 12.42.47 0311112025 12:42.57 0311112025 12.43:07 o311112025 12.4317 O3l1'112025 12:43.27 0311112025 12:43.37 0311112025 12.43:47 o3t11t2025 12"43.57 o3t11t2025 12.44.O7 O3l1 1 12025 12:44:11 0311112025 12.44:27 o311112025 12:44.37 0311112025 12:44.47 O311112025 12.44:57 o3t11t2025 12.45.07 O311112025 12:45.17 O311112025 12:45'.27 O3l'1112025 12.45:37 o3t11t2025 12.45.47 0311112025 12:45.57 C311112025 12:46.07 0311112025 12.46:17 o3l'1112025 12.46:27 03111t2025 12:46.37 0311112025 12:46:47 o3t11t2025 12.46..57 0311112025 12.47.07 O3t11t2O25 12:47'.17 0311112025 12.47:27 o3t11t2025 12.47.37 03111t2025 12.47.47 O3l1 1 12025 12:47 .57 C311112025 12:48.o7 O311112025 12.48:17 o3I1',t12025 12.48.27 0311112025 12:48.37 0311112025 12:48.47 O311112025 12.48:57 o3I1',t12025 12.49.07 O3h112025 12:49.17 0311112025 12:49.27 0311112025 12.49:37 o3111t2025 12.49.47 o3t1112025',|2'.49.57 0311112025 12:50.O7 O311112025 12.50:17 0311112025 12..50:27 03/11/2025 12:50:37 03111t2o25 12:50.47 0311112025 12.50.57 0311112025 12.51:07 0311112025 12:51 .17 0311112025 12:51.27 0311112025 12:51 .37 Altamont LLC Bluebell Gas Plant c-1 63 -0.09 -0.09 -0.09 -0.'10 -0.08 -0.09 -0.09 1.12 1.11 1.09 1.12 1.12 1 .13 1.12 10.63 10.64 10.65 10.66 '10.66 10.65 '10.65 8.56 8.54 8.50 8.53 8.51 8.50 8.50 8.51 8.5'l 8.52 8.50 8.50 8.50 8.52 8.50 8.54 8.52 8.50 8.50 8.53 8.s2 8.54 8.54 8.53 8.54 8.56 8.56 8.58 8.59 8.58 8.59 8.60 8.58 8.57 8.57 8.60 8.59 8.55 8.57 8.57 8.58 8.57 8.54 8.56 8.54 8.56 8.52 8.54 8.54 8.53 8.52 8.56 8.52 8.54 PBaro 24.28 24.28 ?4.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 21.28 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 360 Group name #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #'1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #'1 Bias Check #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run ^ 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6 l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name NOx_1 Bias NOx_1 Bias NOx_1 Blas NOx_1 Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_'l Bias CO_1 Bias O2_'l Bias O2_1 Bias O2_'l Bias O2_1 Bias O2_1 Bias O2_1 Bias 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 Tesl 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 Test Run Test Run Test 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run NOX-2 tdl.tJ 1 89.36 190.16 191 .02 191 .36 191.76 '190.23 7.06 7.O2 6.99 7.00 7.O1 7.O2 7.02 3.48 3.31 3.'13,oq 2.87 2.78 3.09 5b.J/ 56.29 56.39 56.32 55.51 54.71 54.1 3 53.50 53.87 54.14 54.83 55.48 56.06 56.64 57.06 57.48 57.55 57.63 57.94 58.21 58.26 58.33 58.39 58,45 59.00 59.'18 59.36 59.62 59.87 59.88 59.90 59.64 59.06 58.76 58.39 58.03 58.1 0 58.1 5 58.04 57.54 57.93 57.88 57.83 57.70 57.57 57.49 57 .41Jt.tl 56.99 56.69 56.42 56.41 56.40 co_2 0.60 0.57 0.54 0.51 0.51 0.51 0.54 197.00 197.00 1 97.00 197.00 197.00 1 97.00 1 97.00 4.36 3.07 1.78 1.34 2.7 5 5.72 5.70 5.65 5.63 5.63 5.65 5.68 5.69 5.66 5.66 5.63 5.51 5.61 5.63 5.60 5.63 5.63 5.63 5.65 5.68 5.69 5.69 5.69 5.69 5.78 5.77 5.71 5.66 5.63 5.63 5.66 5.67 5.66 5.68 5.69 5.66 5.66 5.65 5.61 50t 5.60 5.59 5.61 5.63 5.64 5.64 5.63 5.61 5.63 5.64 5.66 Ambienl 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 51 51 51 51 51 51 5'1 51 5'1 51 51 51 51 5'r 51 51 51 51 51 5'1 51 51 51 5t 51 5'r 51 51 51 51 51 51 5't 5l 51 51 51 51 51 51 5'r 51 51 5'1 51 JI 51 51 5'1 Humidity 32.O 31.4 31.4 32.0 32.1 2i o 31.8 3'1.3 32.3 32.2 32.1 30.6 30.7 31.0 31.8a)) 32.3 31.8 31 .1 30.8 30.8 30.8 30.4 30.1 29.6 29.2. 29.6 30.1 30.3 30.8 3'1.4 31.8 31.8 31.7 J t_c 31.4 30.9 30.1 29.5 29.2 29.1 25.1 29.5 30.0 30.4 30.4 30.2 29.7 29.4 29.0 28.6 28.4 28.2 28.4 28.4 28.6 28.7 29.2 30.0 30.5 30.6 30.4 30.5 30.6 30.6 30.7 ll J Company Station Unit TimeStamp O311112025 12:51:47 03111t2025 12.51.57 0311112025 12:52:07 O311112025 12:52:17 o3t11t2025 12.52.27 03t11t2025 12.52.37 O311112025 12:52.47 0311112025 12:52:57 0311112025 12:53.47 0311112025 12.53:'17 0311112025 12:53.27 03t1112025 12.53.37 0311112025 12.53:47 0311112025 12:53.57 0311112025 12.54.07 0311112025 12:54:17 0311112025 12:54:27 0311112025 12:54.37 03t11t2025 12.54.47 o31111202512:54.57 0311112025 12 55:07 o3t11t2025 12.55.',t7 03t'11t2025 12'.55:27 0311112025 12.55.37 03t1112025 12.55.47 o311112025 12.55.57 O3l'1112025 12:56.07 O311112025 12:56 17 o3t11t2025 12.56.27 o3t11t2025 12.56.37 o311112025 12:56.47 o3I11t2025 ',t2.56.57 03111t2025 12.57'O7 0311112025 12:57.17 o3t1112025 12.57.27 o3t11t2025 12.57.37 o311',U2025 12.57.47 O3t11t2o25 12:57 .57 o3t11t2025 12.58.O7 O311112025 12:58:17 03111t2025 12.58.27 0311112025 12.58:37 0311112025 12:58:47 o3t1112025 12.58.57 0311112025 12.59.O7 O311112025 12:59:17 o3t1112025 12.59.27 0311112025 12:59.37 0311112025 1?:59.47 03111t2025 12.59.57 03/11/2025 13:00:07 O311112025 '13:OO.17 o3111t2025 13.OO.27 03/11/2025 13:00:37 03/1 1i2025 13:00:47 03/'l 1/2025 1 3;00:57 03/1 '112025 1 3:01 :07 0311112025 13:O'l:17 o3t11t2025 13.01.27 0311112025 13.01.37 O311112025 13.01:47 03/1 1/2025 1 3:01 :57 o3t1112025 13.02.07 O311112025 13:02:'17 0311112025 '13:02.27 0311112025 13.02.37 0311112025 13:02:41 0311112025 13.02:57 03/'1 1/2025 1 3:03:07 O3/1'!i2025 13:03:17 03111t2O25 13.03:27 03/11/2025 13:03:37 o3t11t2025 13.03.47 03/1 1i 2025 '1 3:03:57 0311112025 13.O4.O7 o3t11t2025 13.04.17 0311112025 13:04.27 0311112025'13.04.37 o3t11t2025 13.04.47 03t1112025 13.04.57 03/1 '112025 1 3:05:07 Altamont LLC BluebellGas Plant c-163 02_2 8.52 8.53 8.s2 8.54 8.54 8.54 8.56 8.56 8.57 8.58 8.60 8.60 8.59 8.59 8.60 8.58 8.57 8.59 8.59 8.60 8.59 8.59 8.61 8.61 8.64 8.6'1 8.61 L63 8.61 8.63 8.64 6.b I 8.59 8.59 8.54 8.48 8.47 8.44 8.43 8.42 8.39 8.41 8.41 8.40 8.41 8.38 8.39 8.38 8.41 8.41 8.41 8.42 8.40 8.43 8.44 8.44 8.44 8.4'1 8.38 8.32 8.35 8.38 8.46 8.48 8.54 8.52 8.50 8.48 8.49 8.50 8.50 8.49 8.50 8.49 8.5'l 8.51 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 NOX-2 56.27 56.1 3 56.1 3 56.1 1 56.1 2 56.1 6 57.00 57.77 58.34 58.89 59.04 59_21 59.1 3 59.03 58.90 58.76 58.63 58.48 58.08 57.75 57.59 57.42 57.62 57.81 57.84 57.88 58.1 3 58.37 58.44 58.46 58.1 3 57.85 57 .70 57.57 57.65 57.69 57.09 56.42 55.86 54.41 52.97 52.41 5'1.76 52.36 52.92 54.50 54.86 55.40 55.59 56.22 56.81 s7.14 57.48 57.80 58.93 59.03 59.09 58.92 58.78 58.53 58.36 59.25 60.08 62.12 64.01 63.36 62.79 60.65 58.62 57.50 56.37 56.65 56.88 57.46 57.93 58 51 LUI 5.68 5.66 5.66 5.66 5.69 5.69 5.70 5. b9 5.69 5.69 5.75 5.80 5.78 5.77 5.76 5.78 5.78 5.78 5.78 5.78 5.76 5.79 5.82 5.83 5.84 5.82 5.81 5.81 5.81 5.81 5.82 5.79 5.75 5.72 5.71 5.68 5.65 5.63 5.64 5.66 5.66 5.66 5_ bb 5.63 5.65 5.66 5.66 5.68 5.68 5.66 5.66 5.66 5.66 5.66 5.66 5,70 5.71 5/l 5.71 5.69 5.70 5.69 5.69 5.69 5.68 5.63 5.60 5.60 5.56 5.61 5.67 5.72 5.73 Ambient 51 3t 51 51 3t 51 5'1 JI 51 51 5't 51 51 5t 51 51 5l 51 51 51 51 51 51 51 51 51 51\) 52 52 52 52 52 52 52 52 52 AZ 5Z 52 52 52 52 52 52 52 52 52 PBaro 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 Humidity 31.4 31.4 J t.c 31.6 31.0 29.9 29.6 29.5 29.7 29.8 29.3 29.0 28.7 28.6 28.5 28.6 28.9 29.0 29.0 28.8 28.7 28.5 29.1 29.6 29.4 29.4 29.5 29.4 29.3 29.0 28.2 27.8 27.9 28.2 28.2 28.4 28.5 28.4 28.4 28.9 29.4 29.4 29.3 29.1 28.8 28.6 28.1 tt.o 27.6 27.9 zt.6 27.6 27.3 27.2 27.5 27.8 28.3 28.7 29.1 29.8 29.8 30.0 30.4 30.4 29.9 29.4 29.0 28.7 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 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 Tesl 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 361 Company Slation Unlt TimeStamp o311112025 13:05.17 O311112025 13:05.27 03i 1'll2025 13:05:37 0311112025 13:05.47 O3l1'll2O25 13:05.57 0311112025 13.06:07 03/11/2025'13:06:17 0311112025 13:06.27 03/'1 1/2025 1 3:06:37 O3r1112025 13.06:47 03i11/2025 13:06:57 O311112025 13:07 .07 0311112025 13.07 .',tl O3l'1112025 13.O7:27 0311112025 13:07.37 0311112025 13:07.47 0311112025 13.07:57 03i11/2025 13:08:07 O311112025 13:08:17 0311112025 13:08.27 03/11/2025 13:08:37 o3I1112025 ',13.08'.47 0311112025 13:08.57 03/1 1/2025 1 3i09:07 03/11/2025'13:09:17 O3h1l2O25 13:09:27 03/1 '112025 1 3:09:37 o3t11t2025 13.O9.47 03/11/2025 13:09:57 o3t1112025 13.10.07 O311112025 13:1o.17 o3t11t2025 13.10.27 o3t1112025 ',13.10.37 0311112025 13:10.47 o3t11t2025 13.10.57 o3t11t2025 13.11.O7 o3t11t2025 13.1',|:17 0311112025 13:11:27 03111t2025 13.11.37 o3t11t2025 13.11.47 03/11/2025 13:11:57 0311112025 13:'12.07 o311112025 13..12.17 o3t'1112025 13.12.27 c'311112025 13:12:37 0311112025 13:12.47 O311112025 13:12.57 o3t11t2025 13.13.07 0311112025 '13:13:17 0311112025 13:13.27 0311112025 13.13.37 o311112025 13.13.47 o3t11t2025 13.',13:57 o3l1 1 12025 13:14:07 0311112025 13:14.17 o3h'il2025 13.14:27 O311112025 13.14:37 O311112025 13:14:47 0311112025 13:14.57 03/1 '1i 2025 1 3:1 5:07 03h1l2o25 13.15:17 0311112025 13:15.27 03/1'112025'13:15:37 0311112025 13:15:47 03i11/2025 13:15:57 o3t11t2025 13.16.O7 o3t11t2025 13.16.17 0311112025 13.16.27 O3h1l2O25 13.16:37 o3I1112025 13.',|6.47 03/1 '1 /2025 13:16:57 0311112025 13:17:07 O311112025 13:17:17 0311112025 13:17:27 O311112025 13.17:37 o3t'11t2025 13.17 47 O311112025 13:17:57 0311112025 13:18.07 0311112025 13.18:17 o311112025 13.18:27 O311112025 13:18:37 Altamont LLC Bluebell Gas Plant U-IOJ 02_2 8.s2 8.52 8.52 8.54 8.52 6_5J 8.54 8.52 8.51 8.52 8.47 8.50 8.47 8.44 8.48 8.43 8.43 8.41 8.4'1 8.40 8.42 8.40 8.41 8.43 8.44 8.45 8.46 8.46 8,46 8.46 8.46 8.48 8.48 8.48 8.46 8.50 8.46 8.47 8.48 8.47 8.43 8.48 8.47 8.44 8.48 8.45 8.46 8.47 8.46 8.47 8.48 8.48 8.50 8.50 8.50 8.52 8.52 8.51 8.52 8.53 8.51 8.51 8.51 8.50 8.50 8.49 8.47 8.46 8.44 8.44 8,45 8.41 8.44 8.43 8.44 8.43 8.45 8.44 8.47 444 PBaro 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 ?4.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 362 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 fl2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run.61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'l NOX-2 59.08 59.58 60.06 59.99 59.97 59.87 59.74 59.'15 58.60 57.95 57.62 57.29 57.1 0 56.91 56.83 56.72 56.47 55.29 56.38 56.44 56.56 56.59 56.87 57.06 57.27 57.49 57.91 58.32 58.63 58.97 59.'15 59.36 59.40 59.1 7 58.94 58.63 58.37 58.35 58.23 58.09 58.06 58.07 58.31 58.50 58.52 58.57 58.72 58.87 59.25 5V bZ 59.60 59.59 59.90 60.1 7 60.23 60.31 60.07 59.84 58.83 58.78 58.6S 58.33 58.00 57.93 57.79 57.36 56.91 56.42 56.05 56.1 5 56.23 56.35 56.48 56.82 57.20 57.43 57.66 co_2 )_tz 5.69 5.69 5.67 5.66 5.66 5.66 5.66 5.71 5.72 a_tz 5.73 5.72 5.72 5.68 5.65 5.63 5.66 5.67 5.69 5.70 5.71 5.72 5.72 5.72 5.74 5.70 5.69 5.66 5.61 5.62 5.57 5.56 5.53 5.57 5.59 5.63 5.65 5.66 5.68 5.69 5.69 5.70 5.68 5.68 5.67 5.69 5.73 5.78 5.79 5.80 5.78 5.75 5.7 4 5.71 5.69 5.69 5.69 5.69 5.71 5.72 5.72 5.74 5.7s 5.78 5.76 5.72 5.70 Ambient 53 52 52 52 52 52 52 52 5t 52 52 52 52 52 52 52 al 52 52 52 52 52 52 52 JZqt 52 53 53 53 5J 53 53 53 53 53 53 53 53 53 53 53 53 53 53 53 53 Humidlty 28.4 28.4 27.8 27.7 27.9 27.9 27.9 27.6 27.6 27.7 27.5 27.1 26.0 26.1 26.8 27.3 27.O 26.7 26.5 26.4 26.8 26.9 27.2 27.6 27.9 28.9 29.4 29.8 29.8 29.4 29.3 28.9 28.7 28.6 28.4 28.2 28.2 28.1 28.'l 28,6 28.7 28.6 28.3 27.8 27.5 27.4 27.5 27.9 28.3 lb. b 28.6 28.5 28.0 28.0 28.1 28.6 28.8 28.8 28.8 28.6 28.3 28.O 27.9 t6_J 28.5 28.7 28.8 28.8 29.1 29.2 29.2 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 Tesl 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 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 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 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 Test Run Test Run Test Run Company Station LJnit TimeStamp 0311112025 13.18:47 o3111t2025 13.18.57 03/1 1/2025 '13:19:07 O311112025 13.19:17 o3111t2A25 13.19.27 03/1 1/2025 13:19:37 0311112025'13:19.47 0311112025 13.19:57 o3t11t2025 13.20.07 0311112025 13:20.'17 0311112025 13.24:27 o3t11t?o25 13.20.37 0311112025 13:20.47 0311112025 13:20:57 o3t11t202s 13.21.O7 0311112025 13.21:17 0311112025 13:21:27 o311112025 13.21:37 O311112025 13.21:47 0311112025 13:21:57 0311112A25 13:22:07 O311112025 13:22.17 o3t1112025 13.22.27 O3t1112025 13.22:37 O311112025 13:22:47 o311112025 13:22.57 0311112025 13.23.O7 O311112025 13:23:17 o3t't112025 13..23.27 0311112025 13.23.37 0311112025 13.23:47 O311112025 13'.23:57 o3t11t2025 13 24 07 o311112025 13.24:17 03111t2025 13.24 27 o3111t2025 13.24.37 o3t1112025 13"24.47 0311112025 13:24:57 0311112025 13:25.07 O311112025 13.25:11 0311112025 13.25:27 0311112025 13.25.37 0311112025 13.25'.47 0311112025 13.25:57 o3t1'12025 13 26 07 o3t1112025 13.26.17 0311112025 13:26.27 o3t11t2025 13.26.37 o3t1112025 13.26.47 0311112025 13:26'.57 0311112025 13.27.O7 o311112025 13.27 .17 O311112025 13.27:27 0311112025 13.27.37 0311112025 13.27.47 O311112A25 13:27:57 0311112025 13:28.07 o311112025 13.28.',t7 c311112025 13:28.27 c311112Q25 13:28:37 o3t1112025 13.28.47 o3t1112025 13.2857 0311112025 13:29:07 o3l1'u2025 13.29:17 o3t11t202513.29.27 o3111t2025 13.29.37 o3l1'12025 13..29.47 03i '1 1i 2025 13:29:57 03/1 1/2025 1 3:30:07 o311112025 13.30.17 o311112A25 13.30.27 03/1 '112025 13:30:37 0311112025 13:30:47 03t111202s 13.30.57 0311112025 13:31.O7 O3l'1112025 13:31.17 o3t11t2025 13.31.27 o311112025 13.31'.37 0311112025 '13:31.47 03/1 1/2025 13:3'1:57 0311112025 13.32.07 Altamont LLC Bluebell Gas Plant c-1 63 02_2 8.48 8.48 8.48 8.50 8.46 8.48 8.50 8.48 8.49 8.50 8.48 8.50 8.50 8.52 8.52 8.54 8.52 8.54 8.56 8.54 8.54 8.53 8.54 8.54 8.54 8.52 8.54 8.54 8.52 8.50 8.52 8.52 8.48 8.50 8.50 8.50 8.48 8.47 8.48 8.46 8.46 8.48 8.48 8.46 8.48 8.50 8.52 8.50 8.52 8.54 8.52 8.52 8.53 8.54 8.52 8.50 8.50 8.54 8.53 8.54 8.54 8.54 8.52 8.54 8.55 8.57 8.56 8.54 8.54 8.52 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Tesi Run - 61 #2 Test Run - 6l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 NOX-2 56. JZ 58.97 59.05 59.1 I 59.39 59.56 59.45 59.38 59.23 59.09 58.94 58.83 58.81 58,77 59.29 59.68 59.70 59.75 59.88 59.97 59.99 60.02 5S.99 59.94 59.85 59.77 59.64 59.48 59.08 58,64 58.22 57 .77 57.80 57.81 57.51 57.23 57.03 56.85 56.66 56.41 56.23 56.'1 1 56.1 4 56.'1 5 56.07 55.97 5b.zu 56.43 56.52 56.62 57.06 57.50 58.29 59.05 59.52 59.91 59.86 59.76 59.40 58.82 58.54 58.28 58.0'1 57.85 57.96 58.1 6 58.35 58.53 58.84 59.1 4 59.1 3 59.13 58.97 58.83 58.88 58.92 58.65 58.39 58.39 co_2 5.67 5.63 5.61 5.60 5.64 5.66 5.66 5.70 5.69 5.69 5.76 5.79 5.79 5.78 5.78 5.76 5. /5 5.75 5.74 5.75 5.78 5.77 5.76 5.78 5.80 5.81 5.80 5.81 5.78 5.78 5.75 5.78 5.76 s.77 5.78 5.78 5.80 5.80 5.78 5.78 5.78 5.78 5.78 5.78 5.78 5.78 5.81 5.80 5.80 5.81 5.81 5.79 5./ I 5.72 5.75 5.75 5.76 5.78 s.75 5.70 5.71 5.69 5.69 5.70 5.76 5.80 5.81 5.79 5.75 Ambient 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 55 55 55 55 55 55 55 55 55 55 54 54 54 54 54 54 PBaro 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 Humidity 29.6 29.4 28.6 28.3 28.2 28.3 28.3 28.O 27.8 27.6 27.4 27.2 27.2 27.O 27.0 27.4 27.7 27.9 28.2 28.4 28.3 26. I 24.4 28.2 28.3 28.2 28.4 27.8 27.1 26.9 27.2 27.3 27.5 27.6 27.6 27.5 27.5 27.8 28.4 28.5 28.9 28.3 27.4 27.3 27.2 26.3 26.2 zo.z 26.4 26.5 26.7 lb- J 25.9 25.9 25.7 25.5 25.3 25.2 15 b 25.6 lot 26.7 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 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 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 Tesl 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 363 Company Station Unit TimeStamp o3t1112025 13.32'.17 0311112025 13.32:27 0311112025 13:32.37 o311112025 13.32:47 0311112025 13.32:57 03/1 1/2025 13:33:07 03/1 1/2025 13:33:17 0311112025 13.33:27 03/1112025 13:33:37 0311112025 13:33.47 03i 1 1/2025 '13:33:57 0311112025 13"34.07 0311112025 13:34.17 0311112025 13.34:27 o3t1112025 13.34.37 o311112025 13:34.47 0311112025 13:34:57 03i I 1/2025 '13:35:07 O311112025 13:35.17 0311112025 13:35.27 03/11/2025 13:35:37 o3t1112025 13.35.47 03/11/2025 13:35:57 O3h1l2O25 13.36:07 03i11/2025 13:36:17 0311112025 13:36.27 O3h1l2O25 13.36:37 03111t2025 13.36.47 03i'11/2025 13:36:57 o3t11t2025 13.37.07 0311112025 13.37:17 o3t11t2025 13.37..27 o3t1112025 13.37.37 o311112025 13.37.47 o3t11t2025 13 37 .57 03/1'1/2025 13:38:07 03/11i2025 13:38:17 O311112025 13.38:27 03i11/2025 13:38:37 03i 'l 1/2025 13:38:47 03/1 'l /2025 13:38:57 03/1 1i2025 1 3:39:07 03/11/2025 13:39:17 0311112025 13:39.27 03/1 1/2025 'l 3:39:37 03/1'l/2025 13:39:47 0311112025 13.39:57 03/1 1/2025 '1 3:40:07 0311112025 13.40:17 o3t1112025 13.40.27 03/11/2025 13:40:37 O311112025 13:40:47 0311112025 13.40:57 o3t1112025 13.41.O7 O311112025 13:41.17 O311112025 13.41:27 o3t1112025 13.41.37 0311'112025 13:41.47 O3l'l112025 '13:41.57 0311112025 13.42:07 O311112025 13.42:17 O311112025 13.42:27 o3t11t2025 13.42.37 0311112025 13.42:47 03t'1112025 13:42.57 O311112025 13:43:07 0311112025 13.43:17 Average 0311112025 13:47.49 03/11i2025 13:47:59 03i11/2025 13:48:09 03/'1112025 13:48:19 O3h'l12025 13:48:29 03/11/2025 13:48:39 Average 03/1 1/2025 13:50:08 03i 1 1i2025 13:50:18 03i11/2025 13:50:28 03/11/2025 13:50;38 Altamont LLC Bluebell Gas Planl c-1 63 02_2 8.54 8.52 8.54 8.52 8.54 8.53 8.54 8.52 8.53 8.54 8.51 8.51 8.5't 8.50 8.48 8.49 8.49 8.48 8.50 8.49 8.52 8.51 8.53 8.54 8.52 8.54 8.54 8.52 8.54 8.56 8.56 8.53 8.54 8.54 8.55 8.57 8.56 8.56 8.59 8.57 8.59 8.59 8.60 8.59 8.60 8.59 8.59 8.59 8.57 8.60 u_5b 8.56 8.56 L56 8.56 8.54 8.52 8.52 8.50 8.48 8.47 8.47 8.48 8.46 8.47 8.51 -0.09 -0.1 0 -0.08 -0.08 -0.09 -0.09 -0.09 -0.10 -0.1 1 -0.09 -0.1 0 PBaro 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.27 24.26 24.26 24.25 24.26 24.26 24.26 24.25 24.26 24.26 24.26 364 Group name #2 Tesi Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 f2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 61 fl2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check NOX-2 58.34 57.93 57.48 57.'1 I 57.07 56.96 56.94 56.91 56.83 56.77 56.63 56.49 56.38 56.22 55.98 55.82 55.66 55.50 55.94 56.36 56.88 57.42 5d. tJ 58.84 59.19 59.26 59.07 58.97 58.83 58.61 58,41 58.09 57.79 58.04 58.50 58.94 58.81 58.67 58.53 58.39 58.27 58.1 7 58.1 0 58.01 57.74 57.49 57.43 57.1 8 57.03 57.1 3 57.18 57.12 57.'10 57.09 57.01 56.25 55.51 54.77 54.12 54.04 53.94 54.O7 54.'18 57.82 1 90.36 1 90.28 190.17 190.'17 190.50 190.50 1 90.33 1 06.50 68.43 50.37 30 4S co_2 5.72 5.72 5.71 5.69 5.69 5.72 5.71 5.75 5.76 5.76 5.76 5.75 5.75 5.70 5.70 5.69 5.67 5.67 5.69 5.72 5.74 5.75 5.79 5.80 5.78 5.78 5.78 5.81 5.82 5.81 5.78 5.74 5.72 5.75 5.77 5.78 5.78 5.81 5.81 5.82 5.82 5.83 5.82 5.80 5.77 s.75 5.77 5.78 5.80 5.80 5.81 5.82 5.84 5.85 5.86 5.83 5.80 s.75 5.69 5.68 5.66 5.67 5.66 5.69 5.69 5.72 0.84 o.82 0.8'1 0.81 0.78 0.78 0.81 '192.90 194.40 '195.00 195.00 Ambient 54 54 54 54 54 54 54 54 54 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 53 Humidity 27.9 27.9 27.3 27.2 27.3 27.4 27.8 28.3 28.4 28.5 28.5 28.2 28.5 28.6 28.7 28.8 28.9 28.3 27.5 26.7 26.7 27.1 a1 ) 27.3 27.6 27.4 27.O .27.2 27.O 26.9 26.4 26.4 26.2 26.0 25.6 25.7 26.7 27.2 27.7 28.0 28.3 28.0 27.5 27.4 27.5 27.5 27.3 26.3 26.1 25.7 25.5 25.4 25.4 25.4 25.7 26.0 26.4 28.3 27.5 27.5 27.4 27.4 27.1 27.1 27.3 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Tesl 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 Test Run Test Run Test Run Test Run Test Run Test Run Tesl 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 Test Run Tesl Run Test Run NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO 1 Bias 56 56 56 56 56 56 56 25.8 25.8 25.5 56 56 56 Company Station Unit TimeStamp 03/1 1/2025 13:50:48 03/'l 1/2025 13:50:58 Average O311112025 13:52:10 03111t2025 13.52.20 03/1 1/2025 '1 3:52:30 O3l'1112025 13:52:40 03i 1 1/2025 13:52:50 03/1'l12025 '13:53:00 Average 0311112025 13:57.31 o3l1',t12025 13.57:4',1 03/1 'l /2025 13:57:5'l 03/11/2025 13:58:0'1 03/1 1/2025 1 3:58:1 1 03t1112025 13.58:21 O3i 1 'l i 2025 13:58:31 0311112025 13:58.41 03i 1 '112025 13r58:51 03/1'l12025 13:59:01 03/1 1/2025 13:59:1 1 03/11/2025 13:59:21 03/11/2025 13:59:31 O3l'1112025 13:59.41 03/1 1/2025 'l 3:59:51 o1t11l?o25 14.00.01 03i 1 1/2025 14:00:1 1 0311112025 14:AO:21 03/1 1/2025 14:00:31 o311112025 14.00:41 03i 1 '112025 14:00:51 o3111t2025 14.O1.01 o3t11t2025 14.01 11 0311112025 14.01:21 0311112025 14:01.31 O311112025 14:01:41 c311112025 14.01:51 o3l1'U2025 14.02.01 o3t11t2025 14.02.11 0311112025 14.02:21 O311112025 14:02.31 o3t11t2025 14.02.41 o3t1112025 14.02.51 03/1 Ii2025 14:03:0'1 03/1 1 /2025 1 4:03:1 1 0311112025 14.03.21 03/1 1/2025 14r03:3'l o3t11t2025 14.03.41 0311112025 14.0351 O311112025 14:04:01 o3t1112025 14.04.11 O311112025 14.04:21 O311112025 14.04:31 o3t11t2025',t4.04..41 o3t1112025 14..O4.51 03i 1 '112025 14:05:01 o3111 12025 14:05:'11 o3t11t2025 14.05.21 o3t1112025 14.05.31 O3l1112025'14:05.41 03/11/2025 '14:05:51 03/11i2025 14:06:01 03/1'1i2025 14:06:1 1 0311112025 14:0621 03i 1'l12025 14:06:31 0311112025 14:06:41 03/11/2025 14:06:51 0311112025 14.07:01 o3t11t2025 14.O7.11 O3l '1 1 12025 1 4:O7 .21 O311112025 14:07.31 O311112025 14.O7:41 03/1 1i2025 14:07:51 03/11/2025 14:08:01 0311112025 14.08:11 o3l1'112025 14:08.21 03/1 1/2025 14:08:31 o3t11t2025 14.08.41 03i11i2025 14:08:51 Altamont LLC Bluebell Gas Planl c-163 02_2 -0.1'1 -0.1 0 -0,1 0 10.49 10.50 '10.54 10.52 10.54 10.52 10.52 8.52 8.54 8.54 8.54 8.54 8.53 8.52 8.s2 8.53 8.50 8.52 8.50 8.50 8.48 8.47 8.48 8.48 8.51 8.50 8.50 8.50 8.52 8.52 8.54 8.52 8.57 8.54 8.55 8.54 8.54 8.54 8.52 8.54 8.52 8,54 8.56 8.55 8.60 8.55 8.59 8.55 8.59 8.58 8.59 8.59 8.56 8.57 8.58 8.55 8.58 8.56 8.58 8.54 8.49 8.48 8.43 8.48 8.42 8.43 8.41 8.41 8.42 8.42 PBaro 24.26 24.26 24.26 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 365 Group name #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #3 Test Run - 6'1 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 fl3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 fl3 Test Run - 6'1 #3 Test Run - 51 #3 Test Run - 6'1 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 NOX-2 22.97 13.7 4 48.75 0.45 1.51 2.50 3.08 3.67 3.99 2.53 56.98 56.95 56.92 56.77 56.64 56.60 56.56 56.69 56.79 56.54 56.34 56.21 56.06 55.02 55.'1 5 55.26 55.29 55.49 55.66 55.82 56.1 0 57.00 58.1 5 58.47 58.62 58.80 58.81 58.68 58.55 58.07 57.67 57.00 57.'16 57.33 57.83 58.1 3 58.48 58.32 58.1 7 58.02 57.86 57.65 57.45 57.40 57.33 56.93 56.89 56.84 56.81 56.79 56.78 56.76 56.59 56.40 55.86 55.33 53.58 51.94 51.77 51.52 53.1 0 co_2 1 95.00 195.00 1 94.55 14.45 6.79 3.59 2.',|7 1.56 1.31 4.98 5.80 5.78 5.78 5.75 5.72 5.74 5.77 5.78 5.80 5.80 5.78 5.78 5.77 5.75 5.12 5.7? 5.73 5.71 5.70 5.72 5.73 5.77 5.78 5.77 5.76 5.74 5.75 5.77 5.78 5.78 5.78 5.78 5.78 5.77 5.79 5.79 5.78 5.78 5.81 5.85 5.88 5.91 5.89 5.88 5.86 5,79 5.76 5.76 5.78 5.80 5.78 5.80 5.81 5.81 5.80 5 /b 5.71 5.65 5.61 5.59 5.57 5.57 556 Ambient 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 57 57 57 57 56 56 56 56 56 56 56 56 56 56 56 57 57 57 57 57 57 57 57 57 56 56 56 56 56 57 57 57 57 57 57 57 Humidity 25.5 25.6 25.6 25.6 25.6 25.6 25.6 25.8 25.6 26.3 26.6 26.4 26.2 26.1 26.2 26.6 )R) 26.1 26.4 26.3 26.0 25.7 25.5 26.3 26.9 26.9 26.6 26.3 26J 26.3 26.3 26.4 25.9 25.7 26.5 26.4 25.8 25,8 26.1 25.9 26.6 27.1 26.8 27.1 26.4 25.9 25.7 26.1 26.6 26.7 26.5 26.2 26.0 25.8 25.4 25.3 26.5 27.2 26.8 26.4 26.4 26.3 26.2 25.7 25.3 25.0 24.8 24.7 Run name CO_1 Bias CO_1 Bias O2_1 Bias O2_1 Bias O2_'l Bias O2_1 Bias O2_'1 Bias O2_1 Bias 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 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run 56 56 56 56 56 56 56 56 56 56 Company Station Unit TimeStamp O311112A25 14.09:01 0311112025 14:09.'11 o3t1'U2025 14.09:21 03/1 'l /2025 14:09:31 O311112025 14:09.41 0311112O25 14.Q9:51 03/1 1/2025 14:10:01 A311112025 14:10:11 0311112025 14.10:21 o3t11t2025 14.10.31 O311112025 14:10.41 03/1 1/2025 14:10:51 c,311112025 14.11:01 0311112025 14:11'.'11 O311112025 14.'11:21 O311112025 14.1'l:31 o3t1112025 14.11.41 O311112025 14.11:51 0311112025 14:12.01 o3t1112025 14:12.11 O311112025 14:12:21 o311112025 14.12.31 O311112025 14:12.41 O3l1 1 12025 'l 4:12:51 o3t11t2025 14.13.O1 o311112025 14.13.11 O311112025 14:13.21 03/1 1/2025 14:13:3'l 0311112025 14.13.41 O311112025 14.13:51 0311112025 14.14:01 0311112025 14.14.11 O3l 1 1 12025 'l 4:14:21 O311112025 14:14:31 o3t112A25 14.14 41 O311112025 14:14.51 O3l11l?O25 14.15:01 0311112025 14.15.11 o3t11t2025 14.15.21 03/11/2025 14:'15:31 o3II112025 I4.',|5.41 03/1 1i 2025 '14:1 5:5'1 O311112025 1416:01 o311112025 14.16:11 O311112025 14:16.2'l O311112025 14.16:31 O311112025 14:16:41 03/11i2025 14:16:51 0311112025 14.17.O1 O311112025 14.17:11 0311112025 14:17.21 o3t1't12025 14.17.31 0311112o25 14.17:41 0311112025 14:17:51 O311112025'14:18.O1 O311112025 14:18:11 0311112025 14:18:21 O311112025 14:18.31 o311112025 14:18.41 03/'1 '1/2025 14:18:51 03/1 1i2025 14:19:01 0311112025 14:19.1'l o3t1112025 14.19.21 O311112025 14:19:31 o311112025 14:19.41 03i 1 1/2025 14:1S:51 0311112025 14.20:01 0311112025 14:20.11 0311112025 14:20.21 0311112025 14.20:31 o311112025 14:20:41 O3l1'll2O25 14:20.51 0311112025 14.21.O1 0311112025 14:21:11 o311112025 14:21 .21 0311112025 14.21:3'l o311112025 14.2'l:41 O311112025 14.21:51 0311112025 14.22:01 O311112025'14:22.11 0311112025 14.22:21 Altamont LLC Bluebell Gas Plant c-163 02_2 8.42 8.44 8.44 8.46 8.46 8.46 8.48 8.46 8.46 8.44 8.48 8.46 8.46 8.46 8.47 8.46 8.44 8.47 8.46 8.46 8.48 8.47 8.48 8.48 8.48 8,48 8.48 8.49 8.50 8.52 6.49 8.49 8.48 8.52 8.52 8.50 8.52 8,50 8.51 8.49 8.48 8.48 8.46 8.48 8.47 8.48 8.48 8.46 8.45 8.44 8.44 8.42 8.44 8.46 8.46 8.48 8.46 8.48 8.49 8.46 8.48 8.51 8.49 8.48 8.51 8.49 8.50 8.52 8.50 8.50 8.50 8.50 8.50 8.5'1 8.50 8.52 8.54 8.55 8.54 8.56 PBaro 24.25 24.25' 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 )L )\ 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 366 Group name #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesi Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 83 Test Run - 6 1 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 5'l #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6't #3 Test Run - 5'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 Run name 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 Tesi 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 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 Tesl 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-2 53.72 54.34 54.83 55.33 55.93 56.48 c/. tJ 57.46 57.73 57.6'l 57.53 57.64 57.74 57.72 57.71 57.64 57.49 57.64 57.74 57.84 58.25 58.58 58.61 58.66 58.68 58.71 58.87 59.05 59.07 59.07 58.68 58.32 58.23 58.1 3 57.99 5/.6b 57.50 57.1 I 57.'11 57.01 57.09 57.1 3 56.64 56.22 56.32 55.33 56.10 55.93 56.21 55.45 56.42 56.44 56.72 56.96 57.61 58.24 58.67 59.01 58.96 58.91 58.73 58.54 58.40 58.25 58.22 58.20 58.20 58.20 58.04 57.93 58.26 58.61 59.00 59.39 59.56 co_2 5.56 5.58 5.61 5.63 5.60 5.56 5.53 5.53 5.50 5.50 5.52 5.56 5.60 5bu 5.55 5.56 5.56 5.56 5.58 5.57 5.55 5.56 5.59 5.59 5.59 5.61 5.59 5.61 5.64 5.66 5.69 5.67 5.64 5.60 5.59 5.59 5.59 5.56 5.56 5.58 501 5.63 5.63 5.63 5.63 5.63 5.63 5.61 5.59 5.56 5.54 5.56 5.56 5.56 5.56 5.59 5.59 5.56 5.57 5.59 5.61 5.63 5.63 5.63 5.63 5.62 5.59 5.s9 5.58 5.60 5.64 s.66 5.69 Ambient 57 11 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 JI 57 57 57 57 57 57 57 5/ 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 Humidity 25.O 25.6 26.6 26.8 26.6 26.5 26.4 25.9 25.7 z5_Y 25.8 25.5 25. b 25.4 25.8 25.9 25.8 25.9 26.O 25.9 25.6 25.6 25.6 25.0 24.9 24.9 25.7 25.5 26.0 26.6 26.1 25.6 25.5 25.1 25.0 24.8 24.5 24.4 24.6 24.9 25.1 25.6 25.8 2s.8 25.8 25.8 25.6 25.2 l5 l 25.1 1\ 1 25.1 25 I 25.5 25.8 26.1 26.2 26.7 27.0 26.8 26.8 26.8 26.8 26.6 26.9 27.4 27.0 26.4 26.3 26.4 26.6 Company Station Unit TimeStamp O3l'1112025 14:22:31 0311112025 14:22.41 03111t2025 14.22.51 O311112025 14:23.O1 0311112025 14:23:11 0311112025 14.23:21 03t1112025 14:23.31 O311112025 14:23:41 O3l1'll2O25 14:23.51 o3I1't12025 14.24.01 O3l'1112025 14:24:11 o3l 1 1 12025 'l 4:24:21 o3t1112025 14.24.31 o311112025 14:24.41 0311112025 14:24:51 o3t1112025 14.25.01 0311112025 14:25.11 O311112025 14:25:21 0311112025 1425..31 O311112025 14.25:4'l 0311112025 14:25:51 0311112025 14:26:01 o3I11t2025 14.26.',|1 O311112025 14:26:21 O3l1'll2O25 14:26:31 o3l11t2025 ',\4.26.41 03111t2025 14.26.51 o3l1'112025 14:27:O1 0311112025 14.27:11 0311112025 14.27:21 03t11t202s 14.27.31 O311112025 14:27:41 03111t2025 14.27.51 0311112025 14:28.O'l o3t11t2025 14.28 11 o3t1112025 14.28.21 o3111t2025 14.28.31 0311112025 14:28.41 03t't1t2025 14"28:51 o3t11t2025 14.29.O1 0311112025 14:29:11 o3t1112025 14.29.21 o3111t2025 14.29.31 0311112025 14.29:41 o3t11t2025 14.29.51 03/'1'112025 14:30:01 O3t1'll2O25 14.3O:11 o3t1112025 14.30.21 03/1 1/2025 14:30:31 0311112025 14:30'.41 03i1 '112025 14:30:5'1 03111t2025 14.31.O1 0311112025 '14.31:11 o3t11t2025 14.31 .21 03/1 1/2025 14:3'1:31 0311112025 14:31.41 03/'1 1/2025 14:31:51 o3t11t2025 14.32.01 O311112025 14:32:11 o3t1 1 12025 ',t 4.32.21 o3t11t2025 14.32.31 0311112025 14:32:41 0311112025 14:32:51 03i '1 1/2025 14:33:01 0311'l/2025 14.33.',t1 0311112025 14:33:21 03/1 1/2025 14:33:31 o3t11t2025 14.33.41 03/1 1 /2025 1 4;33:5 1 O311112025 '1434.01 o3t11t2025 14.34.11 0311112025 14:34.2'l 03/1 1/2025 14:34:31 03111t2025 14,34.41 O3l 1 1 12025 'l 4:34..5'l 03/1 1/2025 '14:35:01 o3l't112025 14.35'.11 0311112025 14:35.21 03/11/2025 14:35:31 03i 1'1i2025 14:35:41 03/1 1i2025 14:35:5.1 Altamont LLC Bluebell Gas Plant c-1 63 02_2 8.53 8.52 8.52 8.54 8.53 8.54 8.53 8.54 8.54 8.52 8.53 8.54 8.50 8.5'1 8.49 8.48 8.47 8.48 8.48 8.46 8.46 4.44 8.48 8.47 8.48 8.52 8.49 8.51 8.52 8.52 8.51 8.52 8.52 8.53 8.52 8.52 8.54 8.54 8.54 8.54 8.52 8.52 8.54 8.53 8.54 8.53 8.54 8.52 8.54 8.56 8.54 8.54 8.55 8.56 8.54 8.56 8.54 8.54 8.52 8.5'1 8.50 8.50 8.50 8.50 8.50 8,50 8.48 8.48 8.47 8.46. 8.48 8.47 8.46 8.50 8.48 8.50 PBaro Humidity 24.24 26.724.24 26.824.24 26.824.24 26.524.24 26.124.24 25,624.24 25.224.24 25.224.24 25.324.24 25.024.24 25.124.24 25.124.24 25.224.24 25.324.24 25.4 24.24 25.224.24 25.324.24 25.424.24 24.924.24 24.724.24 24.624.24 25.024.24 25.824.24 25.824.24 25.824.24 25.624.24 25.524.24 25.524.24 25.524.24 25.224.24 25.024.24 25.024.24 25.O24.24 25.224.24 25.524.24 25.624.24 25.324.24 25.224.24 25.624.24 25.324.24 25.224.24 25.724.24 25.924.24 26.124.24 26.624.24 26.724.24 26.824.24 26.924.24 27.424.24 27.224.24 26.024.24 25.024.24 24.624.24 24.324.24 24.424.24 24.824.24 25.224.24 25.324.24 25.424.24 25.824.24 25.924.24 2s.6 24.24 25.124.24 25.524.24 25.624.24 25.324.24 25.324.24 25.324.24 25.324.24 25.224.24 25.324.24 25.324.24 25.424.24 25.524.24 25.624.24 25.524.24 25.424.24 25.624.24 25.7 Group name #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 d3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 NOX-2 59.71 59.65 59.61 59.26 58.57 58.20 57.81 57.42 57.44 57.44 57.06 56.99 56.84 56.54 56.24 55.88 55.55 55.67 55.75 55.80 55.86 55.93 55.98 56.'19 56.42 56.62 56.80 57.68 58.55 58.96 59.43 59.61 59.83 59.50 59.'15 58.65 58.21 58.27 58.26 58.04 57.82 57.78 57.75 58.01 58.21 58.06 57.96 58.22 58.43 58.56 58,70 58.82 58.95 58.87 58.79 58.60 58.40 58.08 57.73 57.52 57.05 56.78 56.67 56.58 5b. tz 55.74 55.63 55.46 55.3'1 55.20 54.77 54.34 54.59 54.85 55.47 56.14 56.83 57 60 co-2 5.69 5.65 5.61 5.58 5.56 5.55 5.57 5.59 5.59 5.58 5.57 5.57 5.55 5.51 5.50 5.50 5.54 5.56 5.56 5.59 5.59 5.60 5.63 s.57 5.55 5.55 5.56 5.53 5.53 5.50 5.50 5.53 5.52 5.53 5.53 5.54 5.57 5.59 5.59 5.59 5.56 5.57 5.59 5.62 5.63 5.63 5.66 5.66 5.66 5.66 5.66 5.66 5.64 5.6'l 5.59 5.56 5.56 5.59 5.59 5.59 5.56 5.56 5.56 5.s4 5.56 5.54 5.53 5.53 Ambient 57 57 57 57 57 57 57 57 57 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 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 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 Tesl 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 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 367 Company Station Unit TimeStamp O3h1l2O25 14.36:01 o3l1112025 14.36.',11 0311112025 14:36.21 03h112025 14:36.31 o3t11 t2025 14.36.41 03/'1112025 '14:36:51 0311112025 14:37'.01 o3t1112025 14.37.11 O3l '1 1 12025 1 4:37 .21 0311112025 14:37.31 0311112025 14.37:41 O311112025 14:37.51 O3l'1112025 14:38:01 O311112025 14.38:11 0311112025 14:38.21 03/'l 1/2025 14:38:31 03111t2025 14..38.4',1 O3h112025 14:38:51 03/1 1/2025 14:39:0'1 O3l1'll2O25 14.39:11 0311112025 14:39:21 0311112025 14.39.31 0311112025 14:39:41 03/1 1i2025 14:39:51 0311112025 14.40.O1 0311112025 14.40:11 o3t1112025 14'.40.21 0311112025 14:40:31 O3t1112025 14.4O:41 O311112025 14:40.51 0311112025 14:41.O1 o3t1112025 14:41.11 o3t11t2025 14.41.21 03t1112025 14'.41 .31 o3t1112025 14.41.41 o3111t2O25 14.41:51 0311112025 14:42:01 O311112025 14:42'.11 O3l'1112025 14.42:21 o311112025 14:42:31 o3t11t2025 14.42'.41 0311112025 14.42:51 o3t1112025 14.43.01 0311112025 14:43:11 O3l1112025 't4.43:21 0311112025 14.43:31 03111t2025 14:43.41 03111t2O25 14.43:51 0311112025 14.44.O1 0311112025 14'.44:11 O311112025 14:44:21 O3l1'll2O25 14.44:31 o3t1112025 14.44.41 03111t2025 14.44:51 0311112025 14:45.01 0311112025 14.45.11 o3t1112025 14.45.2',1 O3l1'll2O25 14:45:31 O3l I 1 12025 'l 4:45:41 o3t't1t2025 14.45.51 o3t11t2025 14.46.O1 0311112025 14'.46:11 o3l't112025 14.46.21 03/11i2025 14:46:31 0311112025 14:46:41 O3t1112025 14:46:51 0311112025 14:47:o1 0311112025 14.47.11 0311112025 14:47:21 0311112025 14.47:31 0311112025 14.47 .41 o3t1'tt2025 14.47.51 03/1 '1/2025 14:48:01 O3l'1112025 14:48:11 0311112025 14.48.21 0311112025 14.48.31 o3t1'12025 14.48.41 0311112025 14:48:51 O3h1t2O25 14:49.01 0311112025 14.49.11 o3t't112025 1449.21 Altamont LLC Bluebell Gas Plant c-1 63 02_2 8.50 8.50 8.50 8.54 8.50 8.52 8.54 8.52 8.54 8.55 8.52 8.53 8.54 8.52 8.54 8.52 8.56 8.56 8.56 8.56 8.57 8.58 8.59 8.55 8.56 8.56 8.56 8.55 8.56 8,54 8.59 8.56 8.56 8.54 8. s5 8.54 8.52 8.54 8.50 8.52 8.51 8.51 8.50 8.50 8.51 8.54 8.54 8.52 8.56 8.55 8.57 8.58 8.55 8.56 8.58 8.55 8.57 8.58 8.57 8.59 8.57 8.57 8.60 8.57 8.59 8.60 8.59 8.59 8.60 8.59 8.59 8.60 8.59 8.59 8.60 8.58 8.58 8.58 8.56 PBaro 24.24 ?4.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 ?4.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.?4 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 368 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 6 l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 NOX-2 57.99 58.32 58.61 58.90 59.02 59.1 4 58.99 58,82 58.64 58.45 58.46 5A.47 58.62 58.75 58.70 58.74 59.1 8 59.59 59.33 59.'10 58.84 58.61 58.40 58.1 I 58.07 57.98 57.86 57.72 s7.57 57.40 57.36 57.31 57.30 57.29 57.17 57.O2 56.68 56.31 55.61 54.99 55.09 55.1 7 55.29 55.43 55.59 55.96 56.31 58.51 58.93 59.45 59.52 59.57 59.54 59.48 59.08 58.65 58.01 57.82 57.67 57.60 57.52 57 .47 57.43 57.32 57.24 s7.37 57.50 57.70 57.85 57.71 57.55 57.36 57.18 57.09 57.01 56.91 56.84 56 81 co_2 5.56 5.56 5.54 5.53 5.53 5.56 5.56 5.56 5.56 5.56 5.56 5.59 5.59 5.60 5.63 5 0J 5.63 5.63 5.63 5.64 5. bJ 5.66 5.64 5.63 5.65 5.65 5.66 5.66 5.67 5.68 5.66 5.65 5.61 5.59 5.57 5.56 5.56 5.56 5.56 5.62 5.63 5.67 5.70 5.70 Raa 5.69 5.66 5.65 5.63 5.63 5.bl 5.63 5.64 5.66 5.69 5.69 5.67 5bb 5.64 5.65 5.67 5.67 5.66 5_b / 5.67 5.68 5.72 5.72 5.73 s.7 4 5.tI J tl 5.69 5.72 5.71 Ambienl 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 <o 59 59 59 59 59 59 59 59 59 59(o 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 Humidity 25.5 25.2 25.1 at d 24.6 24.9 aqa 25.5 25.4 25.0 25.0 25.3 25.3 25.1 24.9 24.9 24.9 24.6 24.6 24.6 24.6 24.9 24.9 25.',| 25.2 25.3 25.6 25.7 24.9 24.6 24.2 24.1 24.5 24.5 24.4 24.3 24.0 23.9 23.4 23.1 24.O 23.7 23.4 23.1 23.1 23.4 a1a 23.3 22.9 23.O 23.0 ))q aaa 22.4 22.8 23.0 23.2 23.1 22.8 22.8 22.8 22.8 22.8 22.8 22.8 22-6 22.6 22.5 22.7 23.6 23.8 23.9 Run name 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 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 Tesl 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 Tesl 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 Tesl Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Company Slation Unit TimeStamp O311112025 14.49:31 0311112025 14:49.41 0311112025 14:49.51 0311112025 14.50:01 0311112025 14.50:11 0311112025 1450.21 03i11/2025 14:50:31 03t11t2025 ',t4.50.41 03/'1112025 14:50:51 O3h1l2O25 14 51:01 0311',t12025 14"51.11 0311112025 14.51:2'l 0311112025 14.51:31 031111202s 14.51.41 O311112025 14.51:51 0311112025 14:52:01 03111t2025 14.52.11 O3l'1112025 14:52:21 o3h1l2o25 14:52:31 0311112025 14.52.41 0311112025 14.52:51 03/'l 1 /2025 '14:53:0'l 0311112025 14:53:11 0311112025 14.53:21 03/1 '1 /2025 14:53:31 0311112025 14:53.41 0311112025 14.53:51 0311112025 14.54:01 0311112025 14:54:11 o3t1112025 14.54.21 03i11/2025 14:54:31 0311112025 14.54.41 o3t11t2025 14.54.51 03/1'112025 14:55:01 03/1'1i2025 14:55:11 o3t1'12025 14.55.21 O311112025 14'.55:31 o311112025 14.55:41 03/11i2025 14:55:51 03i 1 1/2025 14:56:0'l 03/1'l/2025 14:56:1'1 03111t202514.56.21 03/1 1/2025 14:56:3'1 o3t11t2025 14.56.41 03i 1 1/2025 14:56:5'l 0311112025 14:57:01 o3t111202s 14.57.11 0311112025 14:57:21 03t11t202514.57.31 o3t1112025 14.57.41 0311112025 14:57:51 03/1 1/2025 14:58:01 03/1 1/2025 14:58:1 1 0311112025 14.58:21 Ave rage 03/11i2025 15:04:52 o3t1112025 15.05.02 O3h 112025 15:05.12 0311112025 15.05:22 03/11i2025 15:05:32 0311112025 15.0542 Average 03/1 1/2025 15:06:57 Ail|1t2O25 15:07:Q7 O311112025 15.07:17 c31111202s 15.07.27 O311112025 15:07:37 0311112025 15.07:47 Average 03/1 '112025 15:1 3:13 O3l1'll2O25 15.13:23 03/1 1/2025 15:'13:33 o3111t2025 15.13.43 03i 1 1i2025 15:13:53 03/1 1/2025 15:14:03 Average Altamont LLC Bluebell Gas Plant c-1 63 02_2 8.56 8.54 8.54 8.50 8.5'1 8.48 8.46 8.46 8.45 8.44 8.44 8.47 8.43 8.48 8.47 8.44 8.48 8.46 8.47 8.48 8.48 8.49 8.49 8.48 8.50 8.50 8.50 8.49 8.49 8.50 8.51 8.5't 8.50 8.54 8.53 8.50 8.52 8.52 8.54 8.52 8.54 8.51 8.54 8.53 8.52 8.54 8.52 8.52 8.50 8.50 8.50 8.51 -0.09 -0.08 -0.09 -0.08 -0.09 -0.09 -0.09 -0.09 -0.09 -0.1 0 -0.09 -0.1 0 -0.09 -0.09 10.8'l '10.83 10.83 '10.81 10.83 10.85 10.83 PBaro 24.23 24.23 24.23 24.23 ?4.23 24.23 24.23 24.23 24.23 24,23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 24.22 359 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Rm - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check Run name 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 Tesl Run Test Run Test Run Tesl Run Test Run Test 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 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_'l Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx-1 Bias CO_1 Bias CO_1 Bias CO_l Bias CO_1 Bias CO_1 Bias CO_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias 02_l Bias O2_1 Bias O2_1 Bias NOX-2 56.74 56.62 56.48 56.21 55.78 54.59 53.36. 53.07 52.76 52.84 52.90 53.46 54.01 54.58 55.1 6 55.77 56.35 57.02 57.70 57.98 58.31 58.46 58.64 58.80 58.96 59.02 59.08 58.84 58.62 58.68 58.69 58.58 58.50 58.62 58.71 58.75 58.82 59.13 59.39 59.27 59.17 59.04 58.93 59.08 59.1 6 58.64 58.23 57.96 57.49 57.28 57.'15 57.06 56.97 57.37 '190.75 190.6'1 1 90.58 1 90.92 1S1 .15 190.71 '190.79 159.89 1 18.29 77.42 5/_ tJ 35.64 zo.tt 79.08 -1.43 -1.45 -1.46 -1.46 -1.46 -1.48 -'1.46 co_2 5.71 5.71 5.64 5,60 5.56 5.56 5.56 5.53 5.50 5.53 5.53 5.53 5.53 5.47 5.44 5.43 5.42 5.44 5.44 5.44 5.44 5.44 5.46 5.47 5.47 5.47 5.43 5.41 5.43 5.44 5.44 5.47 5.46 5.47 5.50 5.53 5.58 5.59 440 5.53 5.52 5.50 5.50 5.50 5.49 5.49 5.53 5.53 5.61 0.66 0.61 0.61 0.60 0.59 0.59 0.61 168.20 192.20 1 93.80 1 94.50 '195.00 1 95.00 1 93.1 2 0.52 0.52 0.51 0.51 0.51 0.49 0.51 Humidity 24.2 23.2 23.1 23.1 23.5 23.4 23.1 22.9 23.8 23.6 23.4 23.1 23.6 23.6 23.4 23.6 zJ.o 23.4 23.2 23.6 23.6 23.4 23.2 23.0)aa 22.6 22.8 23.O 22.8 aa1 22.7 22.6 23.0 23.4 25.0 22.4 ), 1 23.1 23.1 22.8 22.9 22.8 21.8 21.4 21.1 21.3 22.0 21.5 19.7 19.5 19.8 20.'l 20.2 20.0 19.9 Ambient 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59qo 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 58 59 59 59 59 59 59 59 60 60 60 60 50 bU 50 ot ot 61 ot ot 6't 51 C-252Ozr NOXAND GO 370 Company Station Unit TimeStamp 0311212025 09.00.04 0311212025 09:00.14 0311212025 09:00:24 0311212025 09:00:34 0311212025 O9:OO.44 0311212025 09.00:54 Average 03/1212025 09:06:10 0311212025 09:06:20 0311212025 09:06:30 03/1 2i 2025 09:06:40 O3l'1212025 09:06:50 0311212025 09:07:00 Average 0311212025 09:1 1 :50 O311212025 09:1 2:00 0311212025 09:12.10 0311212025 09:12:20 o311212025 09:1 2:30 0311212025 09:12.40 Average O311212025 09:1 8:29 03/1212025 09:18:39 O311212025 09:1 8:49 O311212025 09:1 8:59 0311212025 09: '19:09 O311212025 09:'19:19 Average 03/1 2/2025 09:20:58 0311212025 09:21.08 o311212025 09:21:1 I 03t12t2025 09.2',1.28 0311212025 09'.21:38 0311212025 09:21:48 Average 0311212025 09.25:49 0311212025 09:25:59 03/1 2/2025 09:26:09 0311212025 09.26'.19 o311212025 09:26:29 03/1 2/2025 09:25:39 Average 0311212025 09:29.10 0311212025 09:29:20 0311212025 09:29:30 0311212025 09:29:40 0311212025 09:29:50 0311212025 09:30:00 Average Altamont LLC Bluebell Gas Plant c-2s2 a2_'l 0.01 0,01 0.00 0.01 0.00 0.01 0.01 20.84 20.83 20.7 5 20.79 20.83 20.77 20.80 10.95 10.92 '10.94 10.92 10.94 10.94 10.94 0.01 0.04 0.03 0.03 o.02 0.0.1 0.02 10.88 10.91 10.91 10.9'l 10.91 10.89 't 0.90 0.01 o.02 0.02 0.03 0.02 o.02 0.02 20.67 zu.bb 20.64 20.65 20.66 20.66 20.65 PBaro Humidity Group name Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration 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 Bias 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 Bias Check lnitial Converter Check lnitial Converter Check lnitial Converter Check Inilial Converter Check lnitial Converter Check lniiial Converter Check Run name Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Mid Cal Check Mid Cal Check lvid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias O2_'1 Bias O2_1 Bias O2_'1 Bias O2_1 Bias O2_'1 Bias O2_1 Bias CO-1 Bias CO-1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NOX_1 0.03 0.o2 0.01 0.01 0.0'1 0.01 0.02 200.1'l 200.08 200.06 200.31 200.47 200.48 200.25 94.38 94.37 94.37 94.47 94.56 94.54 94.45 94.21 94.21 94.20 94.25 94.29 94.26 94.24 59.30 24.92 13.53 9.61 5.40 24.72 0.'1 8 0.17 0.16 0.1 5 0.14 0.13 0.16 44.09 44.08 44.08 44.09 44.10 44.13 44.10 co_1 0.08 0.11 0.1 I 0.1 3 0.10 -0.01 0.09 '196.00 1 96.00 196.00 196.20 1 96.30 1 96.00 1 96.08 97.50 97.50 97.50 97.50 97.50 97.80 97.55 o.97 0.94 0.94 0.97 1.00 1.O2 0.97 0.88 0.73 0.65 0.61 0.61 0.62 0.68 96.25 97.30 97.90 98.00 98.00 98.00 97.58 1.34 1.31 1.25 1.29 Ambienl 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 4'l 41 41 4',| 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 4',| 41 41 41 41 41 41 41 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 ?4.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 40.0 40.0 40.0 40. 1 40.1 40.1 40.0 40.8 40.8 40.9 40.9 40.9 41.O 40.9 24.26 41.?24.26 41.224.26 41.224.26 41.224.26 41.224.26 41.224.26 41.2 41 41 41 41 4',! 41 .5 41.5 41.8 41.8 41.8 41.8 41.8 41.9 41.8 42.5 42.5 42.4 42.4 42.4 42_4 42.4 42.1 42.1 42.1 42.O 42.0 42.0 42.',| 371 Company Station Unit TimeStamp 0311212025 10:07:11 o311212025 10:07.21 0311212025 10.07.31 0311212025 10.07'.41 o311212025 10:07:51 03l'1212025 10:08.o1 0311212025 10.O8.11 0311212025 10:08:21 0311212025 10:08.31 03t12t2025 10.08.41 03/12i2025 10:08:51 0311212025 10:09:01 0311212025 10:09.11 03t1212025 10.09.21 0311212025 10:09:31 O311212025 10:09.41 03/1212025 10:09:51 0311212025 10.10.01 0311212025 1O:1O:11 o3t1212025 10.10.21 0311212025 10.10.31 0311212025 10:10:41 0311212025 1O:10:51 o311212025 10.11.01 Average o311212025 1o:12.1o 0311212025 10.12.20 0311212025 1Ai2:3O 0311212025 10'.12.40 0311212025 10:12.50 o3t12t2025 10.13.00 o311212025 10.13.10 0311212025 10:13.2o 03/1212025 10:13:30 0311212025 10.13.40 0311212025 10"13:50 o311212025 10:14.00 o3112t2025 10.14.10 0311212025 10.14:2O O311212025 10.14:3O o3t1212025 10.14.40 0311212025 10.14.50 0311212025 10.15:0O O311212025 1o:15.10 03t12t2025 10.',|5:20 0311212025 10.15:30 O311212025 10.15:4O 0311212025 10:15.50 0311212025 10.16'.00 Average 0311212025 10:18.30 0311212025 10.18.40 0311212025 10.18:5O 0311212025 10:19:00 o311212025 10.19.10 o311212025 10.19.20 03/'1212025 .10:'19:30 0311212025 10:19:40 0311212025 10:19.50 0311212025 10.20.OO o311212025 10.20.10 0311212025 10.20:20 0311212025 10:20:34 o311212025 10.20.40 03t1212025 10.20.50 O3l1212025 10.21:OO 0311212025 10:21.10 0311212025 10.21.20 o3t1212025 10.21.30 o311212025'10.21:4o 0311212025 10.21:5O o311212025 10:22.0o 0311212025 10:22.10 03112120?5 10.22.20 Average Altamont LLC Bluebell Gas Plant 02_1 9.28 9.29 9.32 9.31 9.29 9.3 1 9.29 9.29 9.29 9.31 9.31 9.29 9.29 9.30 9.29 9.29o)a 9.30 9.32 9.31 9.31 9.27 9.30 9.29 9.29 9.30 9.29 9.29 9.29 9.29 9.29 9.29 9.29 9.30 9.31 9.30 9.29 9.29 9.27 9.30 9.29 9.29 9.?8 9.29 9.29 9.27 9.30 9.29 9.32 9.31 9.30 9.30 9.32 9.31 9. s0 9.31 9.33 9.29 9.30 9.33 9.31 9.29 9.31 9.29 9.29 9.31 9.29 9.32 9.31 9.30 9.31 PBaro Humidity Group name Stratiflcation Traverse Stratiflcation Traverse Stratiflcation Traverse Stratifi cation Traverse Stratification Traverse Stratification Traverse Stratiflcalion Traverse Stratiflcation Traverse Stratification Traverse Slratifi cation Traverse Stratillcation Traverse Stratification Traverse Stratlfication Traverse Stratiflcation Traverse Stratifl catlon Traverse Stratification Traverse Stratification Traverse Stratifi cation Traverse Stratiflcation Traverse Stratiflcation Traverse Stratification Traverse Stratiflcation Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stratification Traverse Slratlflcation Traverse Siratiflcation Traverse Stratification Traverse Stratification Traverse Stratiflcation Traverse Stratillcation Traverse Stratification Traverse Stratification Traverse Stratifi cation Traverse Stratifl cation Traverse Stratilication Traverse Slratiflcation Traverse Stratiflcation Traverse Stratification Traverse Stratification Traverse Stratiflcation Traverse Stratiflcation Traverse Straliflcation Traverse Stratiflcation Traverse Stratiflcation Traverse Stratiflcation Traverse Stratifi cation Traverse Stratifi cation Traverse Stratifl cation Traverse Stratification Traverse Stratification Traverse Stratilication Traverse Stratilication Traverse Stratiflcalion Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stratification Traverse Stratiflcation Traverse Stratiflcation Traverse Stratification Traverse Stratification Traverse Stratiflcation Traverse Stratifl catlon Traverse Stratiflcation Traverse Stratification Traverse Stratiflcation Traverse Stratiflcation Traverse Stratiflcation Traverse Stratiflcation Traverse Run name #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strai Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Stral Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #3 Strat Check #3 Strat Check #3 Slrat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Slrat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Slrat Check NOX-1 82.39 82.21 81.85 81.49 8',1.17 80.84 80.52 80.1 I 80.26 80.29 80.40 80.52 80.47 80.36 80.85 81 .'1 9 81.17 81.18 80.42 79.96 79.70 79.53 79.1 5 78.81 80.62 78.32 78.56 78.78 79.04 79.31 80.05 80.79 80.70 80.57 80.66 80.62 80.62 80.63 80.75 80.85 80.54 80.42 80.54 80.64 80.89 81.18 81.03 80.86 81.03 80.32 75.84 76.1 I 76.56 76.62 76.67 76.86 77.03 77.15 77.29 76.88 76.45 76.47 76.45 76.82 77.23 77.12 76.97 77 .07 77.27 77 .37 77.48 77.73 77.93 78.80 77.01 co_1 3.22 3.26 3.28 3.31 3.30 3.24 3.25 3.20 3.17 3.1 5 J. to 3.1 8 3.24 3.22 3.26 3.26 3.28 3.28 3.28 3.28 3.23 3.23 3.20 3.18 3.17 3.1 8 3.19 3.21 3.21 3.20 3.24 3.26 3.24 3.24 3.24 3.20 3.18 3.'t I 3.16 3.22 .3.1 8 3.17 3.16 3.16 3.20 3.25 3.28 3.25 Ambient 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 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 43 43 43 43 43 43 43 43 43 43 24.27 24.27 24.27 24.27 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.?8 24.28 24.28 24.28 24.28 24.28 24.28 24.24 24.28 24.28 24.?8 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 42.2 42.2 42.2 42.2 42.2 42.2 42.3 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.2 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.3 42.4 42.3 42.5 42.5 42.5 42.s 42.5 42.5 42.5 42.5 42.6 42.6 42.6 42.5 42.5 42.5 42.5 42.5 42.4 42.4 42.4 42.4 42.4 42.4 42.5 372 Company Station Unit TimeStamp 0311212025 11:04:45 O311212025 11:04:55 03/1 2/2025 1 1:05:05 43t1212025 11.Os.1s 03l'1212025 11:05:25 03/12l2025 11:05:35 0311212025 1'1.O5.45 03/'1212025 1 1:05:55 03/1 2/2025 1 1:06:05 031121202s 11..06.15 0311212025 '11.06.25 0311212025 11:06.35 O311212025 11.06:45 03/1 2/2025 'l 1:06:55 0311212025 11.07 .05 O311212025 11.O7:15 0311212025 11:07.25 0311212025 11.O7 .35 03t12t2025 11'.07.45 031'1212025 11:07:55 0311212025 11:O8.os 03112120?5 11.O8.15 o311212025 11.O8.25 o311212025 11.08:35 0311212025 11.O8.45 0311212025 11.O8.55 03/1212025 11:09:05 03/12i2025 1 1:09:1 5 03t12t2025 11.O9.25 03/1 2/2025 1 1:09:35 0311212025 11 09.45 03/1212025 11:09:55 o311212025 11.10.O5 0311212025 11.1O:15 03t1212025 11.10.25 03t1212025 11.10.35 03t12t2025 11.10'.45 0311212025 11.10:55 O311212025 11:11.05 03t1212025 11.11.15 0311212025 11:11:25 o3112t2025 1't.11 .35 o3t1212025 11.11.45 0311212025 11:11:55 0311212025 11:12:Os 0311212025 11.12.15 O311212025 11.12:25 O311212025 1'l:12.35 03t12t2025 '11.12.45 o3t12t2025 11.12.55 03/12i2025 '1 1:13:05 0311212025 11.13:15 0311212025 11.13:25 03l'1212025 11:13:35 03t12t2025 11.13.45 o311212025 11.13.55 03l1212025 11:'l4.45 0311212025 11:14.15 o3t12t2025 11.14.25 o311212025 11.14.35 0311212025 11:1445 0311212025 11.14.55 o311212025 11.15.05 O311212025 11.15:15 O311212025 11.15:25 o311212025 11.15.35 o3t12t2025 11"15:45 0311212025 11:15:55 O311212025 11.16:05 0311212025 11:16.15 0311212025 11:16'.25 03/1212025 1 1i16:35 O311212025 11:16.45 O311212025 11.16:55 O311212025 11.17:05 o311212025 ',|1.17:15 0311212025 11.17 .25 0311212025 11:17.35 0311212025 11.17 .45 03t1212025 ',t1.17 .55 Altamont LLC Bluebell Gas Plant c-252 02_1 9.36 9.34 9.33 9.37 9.36 9.36 9.36 9.39 9.39 9.38 9.37 9.39 9.37 9.36 9.39 9.36 9.36 9.36 9.39 9.38 9.34 9.37 9.36 9.35 9.34 9.37 9.34 9.36 9.36 9.34 9.37 9.36 9.35 9.34 9.35 9.34 9.34 9.35 9.35 9.35 9.35 9.36 9.36 9.36 9.36 9.38 9.36 9.36 9.36 9.38 9.37 9.36 9.37 9.36 9,38 9.36 9.38 9.38 9.36 9.37 9.36 9.36 9.38 9.38 9.39 9.38 9.38 9.34 9.38 9.39 9.36 9.36 9.36 9.38 9.36 9.36 NOX-1 73.42 /J-J I 73.17 73.22 73.08 72.93 72.61 72.O3 71.72 71 .44 71 .19 70.82 70.41 70.61 70.82 71 .15 / l.ob 71.23 70.96 70.89 70.83 70.82 70,79 70.88 71.02 71.17 71.27 71.55 71 .70 72.42 73.12 73.24 73.51 73.44 73.34 73.1 3 72.80 73.25 73.68 73.63 73.42 73.21 73.'19 73..19 73.43 73.37 73.34 73.23 73.'15 72.58 72.O1 71 .45 70.84 71.50 71 .93 71 .60 7',| .31 71.24 71 .14 71.42 71.72 71.74 71 .77 71.59 71.38 71.58 71.80 71 .57 71.33 71.20 71.05 71.80 72.57 72.41 I Z.tO 72.59 co_1 3.60 3.55 3.51 3.48 3.56 3.55 3.57 3.55 3.56 3.60 JOI 3,60 3.60 3.58 3.56 3.54 3.54 3.54 s.56 J.bU 3.65 3.66 3.67 3.65 3.60 J. bU 3.59 3.62 3.62 3.62 3.62 3.63 3.64 J.b / 3.65 3.62 JOt 3.62 3.63 3.63 3.63 3.62 J.bJ 3.65 3.66 3.65 3.63 3.65 3.66 3.67 3.68 3.65 3.66 3.68 3.67 3.70 3.70 3.69 3.72 3.73 J.I J 3.72 J.b / 3.64 3.60 3.62 3.65 3.63 3.65 3.64 Ambienl 46 46 46 46 46 46 46 46 45 45 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 PBaro 24.?9 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 40.7 40.7 40.7 40.7 40.7 40.7 40.7 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.7 40.7 40.6 40.6 40.5 40.5 40.5 40.5 40.6 40.6 40.6 40.6 40.6 40.5 40.4 40.2 40. 1 40.0 40.0 40.0 40.0 40.0 40.0 40.0 39.9 40.0 40.0 40.0 40.0 40.0 39.9 39.9 39.9 39.9 39.9 39.9 39.8 39.8 39.8 39.8 39.8 39.8 39.9 39.9 39.9 39.9 39.8 39.8 39.8 39.8 39.8 39.8 39.7 39.7 39.7 39.7 39.7 39.7 39.7 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesi Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 6'1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #.1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #l Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 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 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 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 373 Company Station Unit TimeStamp 0311212025 11:18:05 0311212025 11.18:15 0311212025 11:18:25 o311212025 11.18.35 0311212025 11.18.45 0311212025 11.18:55 0311212025 11:19.05 O311212025 11:19:15 0311212025 11.19:25 0311212025 11.19.35 O311212025 11:19.45 0311212025 11:19:55 0311212025 11.2O:Os o311212025 11:2O.15 0311212025 11:20.25 03t1212025 11.2A.35 03t1212025 11.20.45 0311212025 11:20:55 o3t1212025 11..21.05 0311212025 11:21.15 0311?12025 11:21.25 o3112t2025 11.21.35 0311212025 11.21 .45 0311212025 11:21.55 0311212025 11.22:05 0311212025 11.22:15 0311212025 11:22:25 O311212025 11:22.35 03t1212025 11.22.45 0311212025 11.22.55 0311212025 11:23.05 0311212025 11.23:15 03t12t2025 11.23..25 0311212025 11:23.35 o311212025 11:23.45 o311212025 11:23:55 03112t2025 11.24.05 0311212025 11.24.15 0311212025 11:24.25 0311212025 11.24:35 o3t12t2025 11.24.45 0311212025 11:24:55 0311212025 11:25:05 03t 12t2025 1'1.25..'l 5 o3t12t2025 11.25.25 0311212025 11:25:35 0311212025 11.2s.45 a311212025 11.25.55 0311212025 11:26'.05 o311212025 11:26:15 0311212025 11:26:25 o311212025 11..26.35 0311212025 11:26.45 O311212025 11:26.55 03l'1212025 11:27:05 o3112t2025 11.27 .15 0311212025 11.27 .25 O311212025 11:27:35 0311212025 ',|1.27:45 0311212025 1',1.?7 .55 o3t1212025 11.28.O5 o311212025 11:28:15 0311212025 11:28.25 o311212025 11.28.35 0311212025 11.28.45 03h2l2025 11:28.55 0311212025 11:29:05 o311212025 11:29.'15 0311212025 1'1.29.25 o311212025 11:29.35 0311212025 11:29:45 0311212025 11:29:55 03/12l2025 1 1:30:05 A311212025 11:3O.15 0311212025 11:30.25 0311212025 11:30:35 03112120?5 11.30:45 0311212025 11.30.55 0311212025 11.31:05 o3t12t2025 11 .31 .15 Allamont LLC Bluebell Gas Plant a-)q) o2_1 SJb - 9.34 9.35 9.33 9.34 9.36 9.35 9.36 U. Jb 9.35 9.34 9.34 9.36 9.34 9.34 9.34 9.36 9.37 9.34 9.36 9.36 3_lb 9.36 9.36 9.36 9.36 9.36 9.37 9.36 9.39 9.39 9.39 9.38 9.38 9.38 9.36 9.36 6 ?7 9.38 9.38 9.39 L36 9.36 9.37 9.36 9.37 9.36 9.36 9.36 61< 9.36 9.36 9.36 9.36 9.36 9.34 9.36 9.36 9.36 9.36 9.34 9.36 9.38 9.36 9.36 9.36 9.36 Y. Jb 9.35 9.36 9.38 9.34 9.39 NOX-1 1) A) 72.55 72.18 72.71 73.21 /J_ to 73.14 72.94 72.62 72.91 11 al 72.98 72.67 73.96 74.49 75,06 75.05 74.99 75.08 75.27 74.69 7 4.O7 /J.Vb 73.85 73.89 73.88 73.98 74.10 73.43 72.98 72.56 72.12 71.85 71 .58 71 .53 7 1.43 71.46 71.69 71.63 71 .57 71 .65 71.70 72.17 72.65 72_74 72.81 73.07 73.30 73.56 7 4.O1 73.83 73.64 73.90 74.12 74.37 74.62 74.90 7 5.34 75.14 74.95 7 4.87 - 74.82 74.59 74.34 74.08 /J 6 t 7 4.14 74.4s 74.30 74.'t8 73.58 72.96 73.17 73.46 73 34 co_1 J.O I 3.66 J-lU 3.74 3.71 3.71 3.71 3.73 3.70 3.68 3.66 J.b J 3.57 3.67 3.70 J.tI 3.72 3.74 3.72 3.70 3.69 3.71 3.73 3.76 3.74 3.72 3.70 3.67 3.72 3.75 3.81 3.81 3.79 3.78 3.74 3.70 3.69 3.57 3.72 3.75 3.78 3.81 3.79 3.80 3.80 3.78 3.79 3.77 3.73 3.7 4 3.74 3.77 3.76 3.76 3.72 3.75 3.77 3.79 3.81 3.79 3.80 3.79 3.78 3.79 3.77 3.77 3.79 3.80 3.81 3.85 3.83 Ambient 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 39.7 39.7 39.7 39.7 39.7 39.6 39.5 39.4 39.3 39.3 39.3 39.3 39.2 39.1 39.'1 39.1 39.0 39.0 39.0 39.0 39.0 39.'1 39.1 39.1 39.2 39.2 39.1 39.0 38.9 38.9 38.9 38.9 38.8 38.8 38.8 38.8 38.8 38.8 38.8 38.9 38.9 38.9 39.0 39.0 39.0 39.0 39.0 39.1 39.1 39.2 39.2 39.2 39.2 39.2 39.2 39.2 39.1 39.1 39.1 39.1 39.1 39.2 39.2 39.2 39.4 39.5 39.6 39.5 39.4 39.2 10 r 38.9 38.8 38.8 38.7 38.7 38.7 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 # 1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1. Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 # l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 6'l f1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 5'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 Run name Test Run Tesl Run Tesl 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 Tesl 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 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 Tesl 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 374 Company Station Unit TimeStamp 0311212025 11:31:25 0311212025 11:31.35 0311212025 11:31.45 0311212025 11:31.55 o311212025 11.32.05 03t1212025 '11.32:15 0311212025 11:32:25 0311212025 11:32.35 0311212025 11:32'.45 0311212025 11:32:55 03/1 2/2025 1 1:33:05 0311212025 11:33:15 0311212025 11:33:25 03/1212025 11:33:35 031121?025 11.33:45 03/1 2i2025 1 1:33:55 0311212025 11:34:Os 0311212025 11:34.15 O3l1212025 11:34.25 O311212025 11:34:35 O311212025 11:34.45 0311212025 11.34:55 0311212025 11.35:Os 03i12/2025 11:35:15 0311212025 11:35:25 03/1 2/2025 1 1:35:35 0311212025 11.35:45 0311212025 11.35:55 03i12/2025 11:36:05 O311212025 11:36.15 0311212025 11:36:25 03/12l2025 11:36:35 0311212025 11.36:45 o311212025 11.36.55 o3t12t2025 11.37 05 0311212025 11:37 15 0311212025 11.37 .25 03112t2025 11.37 .35 o311212025 11.37 .45 o3t12t2025 11.37 .55 03/12l2025 11:38:05 0311212025 11.3815 0311212025 11:38:25 0311212025 11.38.35 0311212025 11:38:45 03/1212025 11:38:55 03112t2025 11 39.05 0311212025 11.39.15 0311212025 11:39:25 0311212025 11.39:35 0311212025 11.39:45 03/1212025 11:39:55 0311212025 11:4o:05 0311212025 11:40:15 0311212025 11.4025 0311212025 11.40.35 0311212025 ',t1.40.45 0311212025 11:40:55 031'12/2025 11:4'l:05 0311212025 11:41.15 03112t202s 11.41 .25 03t12t2025 11.41.35 0311212025 11:41:45 0311212025 1'1.41 55 03112t2025 11.42.05 0311212025 11.42.15 0311212025 11:42:25 0311?12025 11:42:35 0311212025 11 42:45 o311212025 11.42.55 o3112t2025 11.43.O5 0311212025 11:43:15 0311212025 11:43:25 0311212025 11.43:35 0311212025 11 .43:45 0311212025 11.43:55 0311212025 11.44.O5 0311212025 11:44:15 O311212025 11:44:25 03t'12t2025 11..44:35 Altamont LLC Bluebell Gas Plant c-252 02_1 9.33 9.35 9.38 9.34 9.39 9.38 9.36 9.39 9.36 9.38 9.36 9.36 9.39 9.38 9.37 9.36 9.36 9.36 9.34 9.34 9.37 9.34 9.36 9.35 9.34 9.37 9. Jb 9.36 9.38 9.36 9.36 9.39 9.36 9.38 9.39 9.38 9.37 9.38 9.39 9.39 9.38 9.39 9.38 9.39 9.39 9.36 o ta 9.39 9.36 9.36 9.39 9.36 9.36 9.38 9.36 9.36 9.37 9.36 9.36 9.36 9.39 9.36 9.39 9.39 9.36 9.38 9.36 9.38 o 1e 9.39 9.39 9.38 9.39 9.36 9.36 NOX-1 73.24 73.46 73.67 73.78 73.88 73.65 73.48 72.89 72.26 72.23 72.17 72.19 72.20 71.96 7',t.70 71.96 72.25 71.82 71.84 72.s6 72.76 72.58 73.68 74.34 74.42 74.54 74.30 74.O0 74.24 7 4.48 74.37 7 4.27 73.94 73.57 73.75 73.97 73.51 73.24 72.90 72.56 72.17 71.79 71.46 7',t.12 70.90 70.66 70.52 70.28 70.48 70.65 70.90 71.18 71.42 71.62 71.88 72.29 72.38 72.49 72.56 72.61a) a) 72.90 73.38 73.88 73.48 72.87 72.65 72.29 72.35 72.40 72.43 72_32 72.23 72.50 72.76 72.72 72.65 72.53 co_1 3.81 3.80 3.78 3.80 3.82 3.81 3.80 3.74 3.78 3.80 3.79 3.78 3.79 3.81 3.80 3.79 3.78 3.77 3.78 3.77 3.78 3.82 3.84 3.85 3.85 3.85 3.83 3.84 3.82 3.81 3.80 3.81 3.80 3.79 3.80 3.80 3.84 3.84 3.86 3.86 3.85 3.84 3.84 3.84 3.86 3.85 3.89 3.88 3.89 3.93 3.94 3.95 3.94 3.91 3.91 3.90 3.9'l 3.92 3.89 3.90 3.91 3.94 3.97 3.99 4.00 3,98 3.97 3.96 3.95 Ambient 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 ?4.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 38.7 38.7 38.6 38.6 38.5 38.6 38.6 38.6 38.6 38.6 38.7 38.8 38.9 38.9 38.9 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.1 39.1 39.1 JV. t 39.3 39.5 39.9 39.9 39.9 39.8 39.7 39.5 39.4 39.2 39.0 38.9 38.8 38.8 38.8 38.8 38.8 38.8 38.7 38.6 38.6 38.5 38.6 J 6.b 38.6 38.5 38.6 38,6 38.6 38.5 38.7 38.7 38.7 38.7 38.7 PBaro Humidity Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6l #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 fl1 Test Run - 61 #l Test Run - 61 #1 Test Run - 6'l #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 f1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 6'1 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 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 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 Tesl 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 I est Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run 375 Company Station Unit TimeStamp 0311212025 11:44.45 03t12t2025 11.44,55 0311212025 11.45.05 0311212025 11:45:15 o3112t2025 11.45.25 a311212025 11.45:35 03t12t2025 11.45.45 0311212025 11.4s.55 0311212025 11.46'.05 0311212025 11.46:15 0311212025 11:46.25 03t1212025 11.46.3s a3h2l2o25 11.46:45 0311212025 11:46.55 o3112120?5 11.47:05 0311212025 1',l"47:15 o3t1212025 11.47 .25 031121?025 11:47.35 0311212025 11.47:45 0311212025 11'.47.55 0311212025 11:48.05 o311212025 11.48.15 03t1212025 11"48:25 0311212025 11:48.35 o3t12t2025 11.48.45 0311212025 11:48..55 0311212025 11:49.05 0311212025 11.49.15 o311212025 11.49:25 o3t1212025 11.49.35 0311212025 11:49.45 0311212025 11.49:55 03h212025 11.50:05 O311212025 11:50.15 0311212025 11 50.25 03/1212025 11:50:35 0311212025 11.50.45 O311212025 11:50.55 0311212025 11.51.05 0311212025 11.51:15 O311212025 11:51.25 0311212025 11.s',t.35 o3h2l2o25 11.51:45 0311212025 11:51:55 o3t1212025 11.52.05 0311212025 11"52:15 0311212025 11.52:25 O311212025 11:52.35 o311212025 11.52.45 0311212025 11.52:55 0311212025 11:53..05 o3t1212025 11.53.15 03h212025 11.5325 0311212025 11:53:35 0311212025 ',|1 .53..45 03/12l2025 1 1:53:55 0311212025 11.54.05 0311212025'11:54:'15 o311212025 11.54.25 0311212025 11:54.35 O311212025 11:54:45 0311212025 11.54:55 03/1 2/2025 1 1:55:05 0311212025 11:55.15 O311212025 11:55:25 o3t1212025 11.55.35 03l'1212025 11.55.45 O311212025 11:55:55 03/1 2/2025 1 1:56:05 O3h2l2o25 11.56:15 0311212025 11 56.25 o311212025 11'.56.35 0311212025 11.56:45 0311212025 11.56:55 o3t1212025 11.57 .05 0311212025 11:57,15 O311212025 11:57:25 0311212025 11.57:35 0311212025 11.57 .45 o3t1212025 11.57 .55 Altamont LLC Bluebell Gas Plant o2_1 9.37 9.36 9.36 9.36 9.38 9.38 9.36 9.38 9.39 9Jb 9.38 9.39 9_39 9.36 9.39 9.39 9.40 9.39 9.38 9.39 9.39 9.39 9.38 9.40 9.36 9.38 9.38 9.38 9.39 9.36 9.38 9.40 9.38 9.39 9.39 9.39 9.39 9.39 9.38 9.39 9.37 9.40 9.38 9.39 9.39 9.39 9.41 9,39 9.38 9.39 9.39 9.39 9.39 9.38 9.41 9.39 9.38 9.40 9.39 9.38 9.39 9.36 9.38 9.36 9.36 9.36 9.38 9.39 9.39 9.38 9.36 9.39 9.41 9.38 9.39 9.37 NOX-1 72.43 7?.58 72.73 72.78 72.84 72.52 72.18 72.38 72.59 72.81 73.03 73.16 73.33 72.90 72.48 72.46 72.39 72.39 72.45 71.59 70.68 7',| .10 71.50 71 .18 70.92 70.47 69.74 69.99 70.24 70.22 70.20 70.55 70.90 71.27 / I b5 71.89 72.16 71.80 71 .42 71 .47 71 .53 71.31 71.05 71 .16 7't.33 7 1.13 70.91 71.26 7'1.6'l 71.03 70.46 70.56 70.70 70.67 70.65 70.54 70.44 70.45 70.42 70.33 70.29 70.30 70.29 70.58 70.91 70.69 70.44 70.44 70.43 71 .20 71.93 72.77 72.65 72.47 TZ JO 72.23 72.13 72.04 71 .77 co_1 3.9'l 3.87 3.92 3.94 3.93 3.91 3.90 3.88 3.86 3.84 3.84 3.84 3.85 3.83 3.85 3.85 3.88 3.88 3.87 3.91 3.90 3.92 3.86 3.87 3.88 3.90 3.95 3.95 3.95 3.93 3.92 a o, 3.92 3.93 3.92 3.92 3.94 3.94 3.90 3.90 3.88 3.88 3.88 3.85 3.89 3.89 3.90 3.89 3.89 3.92 3.89 3.90 3.94 3.S5 3.98 3.96 3.96 3.97 3.S9 4.00 3.99 3.94 3.94 3.95 3.95 4.00 400 Ambient 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 38.7 38.6 38.6 38.5 38.4 J6.J 38.1 38.1 38.0 37.9 37.8 37.7 37.6 37.4 37.5 37.5 37.4 37.3 37.2 37 .1 37.0 36.9 36.9 36.8 36.8 36.7 36.6 36.6 36.6 36.6 36.6 Jb_ b 36.6 36.5 36.5 36.5 36.5 36.4 36.4 36.3 36.2 36.2 36.2 36.2 36.2 36.3 36.4 36.5 36.5 36.6 Jb. / 36.8 Jbo 36.8 36.8 36.8 36.7 36.6 36.6 35.5 36.5 36.5 36.4 36.4 36.4 36.4 Jb-J 36.2 36.2 Group name #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 # 1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 f1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 f1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 fl1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #'1 Test Run - 6'1 #1 Test Run - 61 #l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 6 l #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 # 1 Test Run - 61 #1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 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 Tesl 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 Tesl 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run 36 36 36 36 Jb 376 Company Stalion Unit TimeStamp 0311212025 11.5805 o3112t2A25 11.58.1s 03112t2025 11.58.25 0311212025 11:58:35 0311212025 11 58:45 03/1212025 1'1:58:55 03/1 2/2025 '1 1:59:05 03/1 2i 2025 1 '1 :59:1 5 0311212025 11:59:25 0311212025 11.59.35 03t12t2025 11.s9.45 O311212025 11.59:55 O311212025 12.00:05 0311212025 12:00:15 O311212025 12.00:25 o311212025 12.00.35 0311212025 12'.00:45 O311212025 12:00:55 O311212025'12:01:05 0311212025 12.01.15 03112t2025 12.01.25 0311212025 12.01:35 0311212025 12:01.4s o311212025 12.O1.55 03t121202s 12.A2.Os 0311212025 12.02:15 0311212025 12'.02:25 O311212025 12:02..35 0311212025 12.02.45 0311212025 12.02:55 0311212025 12.O3'.O5 031'tz2025 12.O3.15 0311212025 12.O3.25 0311212025 12.O3:35 03t12t2025 12.O3.45 0311212025 12:03.55 0311212025 12.04.O5 0311212025 12.04:15 03I1212025 't2'.04.25 0311212025 12:04.35 0311212025 12.04:45 0311212025 12.04:55 0311212025'12.05.O5 O311212025 12:05.15 0311212025 12.05:25 0311212025 12.05.35 Average 0311212025 12.08.56 0311212025 12.09:06 0311212025 12:09.16 0311212025 12:09.26 0311212025 12:09.36 0311212025 12.09:46 Average 0311212025 12.11:36 0311212025 12.11:46 03t12120?5 12.11.56 o311212025 12:12.06 0311212025 12:12.16 03t12t2025 12.12.26 Average 0311212025 12:14'.46 0311212025 12.14:56 0311212025 12.15:06 0311212025 12:15.16 o311212025 12:15.26 Q311212025 12.15:36 Average 0311212025 12:20.44 0311212025 12.20.54 0311212025 12.21:O4 O311212025 12.21:14 0311212025 12:21.24 03t1212025 12.21.34 0311212025 12.21.44 03l't212025 12.21.54 Altamont LLC Bluebell Gas Plant 02_1 9.36 9.37 9.36 9.36 9.36 9.36 9.34 9.37 9.36 9.38 9.39 s.38 9.39 9.37 9.36 9.39 9.36 9.39 9.36 9.38 9.38 9.38 9.38 9.41 9.36 9.39 9.38 9.36 9.36 9.41 9.41 9.38 9.40 9.38 9.39 9.38 9.39 9.39 9.39 9.39 9.39 9.39 9.39 9.39 9.3S 9.40 9.37 0.06 0.05 0,04 0.05 0.04 0.05 0.05 10.64 10.65 10.65 10.68 10.67 10.65 1 0.66 0.06 0.04 0.06 0.05 0.05 o.44 0.12 9.36 9.36 9.38 9.40 9.39 9.38 9.36 PBaro Humidity Group name #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 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 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_1 Bias NOx_1 Bias NOx_1 Bias NOx-l Bias NOx_1 Bias NOx_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOX_1 71 .47 7'1.53 71.58 72.07 72.56 72.79 73.03 73.71 74.36 76.11 75.57 75.07 74.08 73.06 73.00 /J tb 73.52 73.43 73.28 73.15 73.60 72.77 71.92 71.40 70.84 71 .40 71.92 72.05 72.25 72.15 72.02 71.96 7't.90 71.96 72.08 71 .71 71 .16 71 .44 71 .72 71 .73 7'l .73 72.30 72.45 92.02 9'1.96 91 .84 9'1.67 91 .63 91.8'l 28.78 22.62 20.40 1 8.10 15.61 13.02 19.76 1.6't 1.42 1.22 1.14 1.06 '1.00 1.24 71.s1 71 .97 72.42 72.86 73,X2 72.87 72.20 71.86 co_1 3.99 3.98 3.99 4.00 4.O2 4.03 4.02 4.04 4.06 4.06 4.05 4.03 3.94 3.94 3.96 4.00 4.03 4.05 4.11 4.08 4.09 4.06 4.06 4.06 4.09 4.08 4.06 4.O7 4.07 4.06 4.06 4.05 4.O4 4.03 4.04 4.05 4.06 4.05 4.05 4.09 4.08 4.09 4.09 4.08 4.09 3.81 '1.51 1.50 1.49 1.52 1.51 2.00 1.91 1 .87 1.83 1.76 1.74 1.85 98.50 98.50 98.50 98.50 98.50 98.30 98.47 4.22 4.28 4.31 4.26 4.22 4.19 4.20 Ambient 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 51 51 51 51 51 51 51 51 5'l 51 51 51 51 51 51 51 51 5'1 48 51 51 5'r 5t 51 51 51 5l 51 51 51 51 51 51 52 52 52 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.31 24.31 24.30 24.31 24.31 24.31 24.31 24.31 24.31 24.3',| 24.31 24.31 24.31 24.31 24.31 24.31 24.31 36.3 36.3 36.4 36.5 36.5 36.4 36.4 36.4 36.4 36.4 Jb, J 36.3 36.3 36.3 36.3 36.3 36.3 36.3 36.3 36.3 36.3 36.2 36.0 35.8 35.6 35.4 35.2 35.1 35.0 34.9 34.8 34.7 34.6 34.6 34.5 34.5 34.4 34.4 34.4 34.4 34.4 34.5 34.5 38.4 34.3 34.3 34.3 34.4 34.6 34.8 34.4 35.0 35.0 35.1 34.8 34.4 33.6 33.5 33.4 33.9 34.1 34.1 34.1 34.1 34.1 34.1 34.1 377 Company Station Unit TimeStamp o311212025 12:22:04 0311212025 12:22:14 03t12t2025 12.22.24 0311?12025 12.22.34 0311212025 12:22.44 0311212025 12.22.54 03t12t202s 12.23.04 0311212025 12:23:14 0311212025 12.23:24 0311212025 12.23.34 O311212025 12:23:44 03t1212025 12.23.54 O311212025 12:24.04 0311212025 12:24:14 0311212025 12.24:24 0311212025 12"24.34 0311212025 12.24.44 o311212025 12:24:54 0311212025 12.25.O4 0311212025 12.25.14 0311212025 12:25:24 O3l'1212025 12:25.34 0311212025 12.25.44 0311212025 12:25.54 0311212025 12.26.04 o311212025 12.26.14 0311212025 12.26:24 0311212025 12:26:34 o311212025 12:26.44 0311212025 12.26.54 O31121202512:27:04 o3t12t2025 12.27.14 03t12t2025 12.27.24 0311212025 12:27.34 A311212025 12.27:44 0311212025 12.27.54 0311212025 12.28:04 0311212025 12:28:14 03112t2025 12.28.24 0311212025 12.28:34 0311212025 '12:28:44 03t1212025 12.28.54 0311212025 12.29:04 0311212025 1229.14 o3112t2025 12.2924 0311212025 12.29:34 0311212025 12:29.44 o311212025 12:29:54 0311212025 12.30:04 0311212025 12'.30:14 o311212025 '12:30.24 03t'12t2025 12.30.34 0311212025 12.30:44 0311212025 12:3o.54 0311212025 12:31.04 0311212025 12.31:14 03t1212025 12.31.24 0311212025 12:31.34 0311212025 12:31.44 0311212025 12.31:54 0311212025 12:32.04 0311212025 12:32.14 03112t2025 12.3224 0311212025 12:32:34 03t1212025 12.32.44 03h212025 12:32.54 03l'1212025 12.33.O4 0311212025 12.33:14 O311212025 12:33.24 o311212025 12:33.34 A311212025 12.33:44 o3t12t2025 12.33.54 0311212025 12:34:04 O311212025 12:34.14 O311212025 12.34:24 0311212025 12.34:34 0311212025 12:34.44 0311212025 12:34.54 03l'1212025 12:35.o4 0311212025 12.35.14 Altamont LLC Bluebell Gas Plant 02_1 9.36 9.38 o aa 9.39 9.36 9.36 9.37 9.36 9.38 9.38 o aQ 9.36 9.36 9.36 9.38 9.39 9.38 9.37 9.37 9.39 9.41 9.39 9.38 9.38 9.36 9.39 9.39 9.38 9.39 9.38 9.36 9.39 9.39 9.39 9.36 9.41 9.38 9.36 9.38 9.37 9.36 9.38 9.39 9.38 9.39 9.38 9.38 9.39 9.39 9.39 9.34 9.38 9.36 9.39 9.39 9.41 9.44 9.43 9.42 9.43 9.40 9.41 9.41 9.40 9.41 9.41 9.42 9.41 9.39 9.39 9.42 9.39 9.39 9.39 9.39 9.39 9.38 NOX-1 71 .31 71.98 tl.ol 73.42 74.27 74.34 74.42 74.42 74.39 7 4.91 75.69 75.50 75.32 75.1 0 7 4.83 74.59 7 4.25 7 4.34 7 4.42 74.87 75.17 75.04 74.70 7 4.38 73.80 73.21 73.06 72.89 73.08 73.62 73.95 74.14 7 4.38 7 4.05 73.72 73.27 72.60 72.19 71 .73 72.10 72.41 7 4.71 75.27 75.8 3 76.24 76.72 76.23 7 5.47 74.94 7 4.38 74.43 74.50 74.s7 7 4.56 7 5.29 76.07 75.77 75.3 1 74.95 73.27 71.56 71 .O4 70.43 70.66 71.03 70.79 70.41 70.64 71 .00 7 0.71 70.44 70.56 70.65 71.28 72.28 72.78 co_1 4.22 4.25 4.23 4.23 4.22 4.25 4.27 4.27 4.26 4.24 4.24 4.23 4.23 4.25 4.26 4.29 4.28 4.26 4.27 4.28 4.32 4.34 4.34 4.33 4.28 4.25 4.21 4.1 8 4.16 4.18 4.24 4.26 4.30 4.29 4.28 4.27 4.24 4.25 4.22 4.22 4.23 4.25 4.25 4.24 4.23 4.21 4.19 4.20 4.19 4.18 4.16 4.13 4.13 4.16 4.1 8 4.19 4.19 4.22 4.20 4.20 4.19 4.1 9 4.20 4.1 8 4.1 8 4.17 4.15 4.14 4.1 3 4.13 4.13 4.1 3 4.14 4.1 3 4.12 4.'t'l 4.'10 410 Ambient 52 JZ 52 52 52 52 52 52 52 52 52 52 3l 52 52 52 52 52 52 JI JI tz 52 52 JZ 52 52 52 52 52 52 52 52 52 52 az 52 5l 52 52 53 5J 53 53 5J 53 53 53 53 53 53 53 53 53 53 PBaro 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.3'l 24.31 24.31 24.3'l 24.31 24.31 24.3',1 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.3'l 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 Humidity 34.2 34.3 34.4 34.5 34.6 34.7 34.6 34.6 34.6 34.6 34.6 34.6 34.6 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.7 34.6 34.6 34.5 34.5 34.4 34.3 34.2 34.1 34,1 34.1 34.1 34.0 34.0 34.0 34.2 34.2 34.3 34.4 34.4 34.3 34.2 34.0 33.8 33.6 33.4 33.4 JJ-J 33.3 JJ.J 33.3 JJ. I 32.9 32.7 32.6 32.4 32.3 32.3 32.4 32.5 32.6 32.7 33.0 Group name #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name Test 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 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 Test Run Tesi 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 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 Tesl Run Test Run Test Run Test Run 378 Company Station Unit TimeStamp 0311212025 1235.24 03t12t2025 12.35.34 0311212025 12:35.44 0311212025 12:35:54 0311212025 12:36:04 0311212025 12.36:14 03t't2t2025 12.36.24 03l'1212025 12:36.34 0311212025 12:36:44 0311212025 12.36:54 031'tz2025 12.37.O4 O3l1?12O25 12:37.14 O311212025 12:37.24 O311212025 12:37:34 0311212025 12:37.44 0311212025 12:37.54 0311212025 12:38.O4 0311212025 12:38:14 O311212025 12:38.24 0311?12025 12:38.34 0311212025 12:38.44 0311212025 12:38'.54 O311212025 12:39:04 0311212025 12.39.14 O311212025 12:39.24 03t1212025 12.39.34 O311212025 12.39:44 0311212025 12:39:54 0311212025 12:4O.O4 0311212025 12:40.14 0311212025 12.40:24 0311212025 12:4O.34 0311212025 12:4O.44 03112t2025 12.40.54 03t12t2025 12.41.04 O3l12l?025 12:41.14 0311212025 12.41:24 0311212025 12.41.34 0311212025 12'.41:44 0311212025 12:41.54 0311212025 12.42.04 0311212025 12.42.14 O311212025 12:42:24 O311212025'12:42.34 031't2t2025 12.42.44 o3t1212025 12.42.54 0311212025 12:43.04 03112t2025 12.43.14 03112t2025 12.43.24 0311212025 12:43:34 03l't212025 12.43.44 0311212025 12.43.54 O311212025 12:44.44 O311212025 12:44 '14 0311212025 12.44.24 03112t2025 12.44.34 0311212025 12.44:44 0311212025 '12:44.54 0311212025 12.45.04 03t1212025 12.45.14 O311212025 12:45:24 0311212025 12:45.34 03t1212025 12.45.44 03t1212025 12.45.54 0311212025 12.46:04 0311212025 12:46.14 03t12t2025 12.46.24 O311212025 12.46:34 0311212025 12'.46:44 0311212025 12:46:54 03t1212025 12.47.O4 0311212025 12.41 .14 0311212025 12:47.24 0311212025 12:47.34 o3t1212025 12.47.44 o3t12t2025 12.47.54 03112t2025 12.48.O4 O311212025 12:48.14 0311212025 12:48.24 03t12t2025 12.48.34 Altamont LLC Bluebell Gas Planl c-252 02_1 9.38 s.38 9.39 9.40 9.41 9.41 9.41 9.44 9.40 9.41 9.41 9.41 9.41 9.41 9.40 9.40 9.41 9.39 9.39 9.39 9.4'l 9.38 9.39 9.39 9.39 9.38 9.41 9.38 9.39 9.39 9.38 9.39 9,40 9.39 9.41 9.38 9.40 9.40 9.41 9.41 9.36 9.38 9.39 9.39 9.41 9.38 9.39 9.38 9.39 9.38 9.44 9.40 9.39 9.39 9.39 9.39 s.39 9.38 9.39 9.38 9.39 9.38 9.41 9.40 9.41 s.4'1 9.41 9.39 9.39 9.39 9.41 9.41 9.42 9.38 9.41 NOX-1 73.26 73.78 74.28 7 4.77 7 5.28 75.60 75.97 75.09 74.27 73.09 71.81 71.83 71.83 7't .95 72.11 72.56 73.27 73.48 73.71 74.O',| 74.30 74.48 74.79 74.48 74.21 73.86 73.47 73.1 I 72.90 73.11 73.47 7 3.03 72.66 73.O2 73.17 73.30 73.82 74.38 73.76 73.1 6 73.08 72.54 73.41 73.94 73.68 73.27 73.64 74.00 74.06 74.20 74.06 73.93 73.91 74.30 74.93 74.27 73.65 73.24 72.76 73.58 74.40 74.39 74.41 7 4.31 74.22 74.O8 73.91 74.O4 74.21 73.55 72.89 72.56 72.20 72.21 72.23 72.19 72.27 co_1 4.13 4.17 4.22 4.25 4.26 4.21 4.19 4.19 4.21 4.22 4.24 4.25 4.23 4.21 4.18 4.'16 4.17 4.20 4.22 4.24 4.25 4.23 4.22 4.21 4.18 4.16 4.1 5 4.13 4.13 4.16 4.21 4.22 4.25 4.24 4.26 4.26 4.24 4.?5 4.28 4.28 4.31 4.36 4.37 4.40 4.38 4.34 4.32 4.31 4.34 4.36 4.36 4.36 4.37 4.33 4.31 4.29 4.22 4.21 4.20 4.1 I 4.22 4.20 4.22 4.26 4.28 4.31 4.31 4.31 4.28 4.25 4.21 4.21 4.20 4.22 Ambienl 53 53 53 5J 53 53 53 53 53 53 53 53 53 53 53 53 53 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 PBaro 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.3'l 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.31 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 33.1 33.1 JJ I 33.1 JJ. I 33.0 32.9 32.8 32.8 32.8 32.4 32.3 32.1 32.0 32.0 32.O 32.O 32.0 32.-l JZ. I 32.1 32.2 32.4 32.5 32.5 32.5 32.6 32.7 32.7 32.9 32.7 32.4 32.2 32.1 32.1 32.1 32.O 31.8 J l.o 31.5 31.4 31.4 31.5 31.6 Jt.o 31.5 3'1.4 3'1.3 31 .3 31.3 31.5 31.8 32.0 32.0 32.0 31.9 31.8 3'1.8 31.8 31.8 31.8 31.7 31.6 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'1 #2 Tes( Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 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 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 Tesl 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 379 Company Station Unit TimeStamp 0311212025 12:48:44 031121202s 12.48.54 0311212025 12.49:04 0311212025 '12:49.14 0311212025 12.49.24 0311212025 12.49:34 0311212025 12.49:44 0311212025 12:49:54 0311212025 12.50.04 O311212025 12:50:14 0311212025 12:50:24 O311212025 12.5O:34 0311212025 12.50:44 0311212025 12:5O.54 0311212025 12.51.04 0311212025 12"51:14 O311212025 12:51:24 0311212025 12:51.34 0311212025 12.51:44 o311212025 12.51:54 0311212025 1?.52:04 0311212025 12.52:14 O311212O25 12.52:24 0311212025 12:52.34 0311212025 12:52:44 0311212025 12.52:54 0311212025 12:53.04 0311?12025 12:53.14 O311212025 12.53:24 03t12t2025 12.53.34 0311212025 12:53.44 0311212025 12:53.54 0311212025 12.54:04 o3t1212025 12 54.14 03t12t2025 12.54.24 0311212025 12.54:34 03t1212025 12.54.44 0311212025 12:54'.54 0311212025 12.55:04 03t12t2025 12.55.14 0311212025 12:55.24 03l't212025 12.55:34 0311212025 12.55:44 03t12t2025 12.55.54 0311212025 12:56.04 0311212025 12.56:14 03t1212025 12.56.24 0311212025 12:56.34 0311212025 12:56:44 0311212025 12.56:54 o311212025 12.57.04 o311212025 12:57.14 0311212025 12.57:24 o3t12t2025 12.57.34 0311212025 12'.57.44 O311212025 12:57.54 0311212025 12:58.04 0311212025 12:58:14 031'1212025 12:58.24 0311212025 12.58.34 0311212025 12.58:44 0311212025 12:58..54 0311212025 12:59.o4 o311212025 12.59.14 0311212025 12.59:24 o3t12t2025 12.59.34 0311212025 12:59:44 o311212025 12.59.54 0311212025 13.0O:o4 0311212025 13:00:'14 0311212025 13:00.24 0311212025 13.OO.34 0311?12025 13.00:44 03h212025 13:OO:54 03t1212025 13.01.O4 O311212025 13:01.14 031'1212025 1301.24 0311212025 13:01:34 0311212025 13.01.44 o3t1212025 13.A1.54 Altamont LLC Bluebell Gas Planta-1\) o2_1 9.41 9.40 9.39 9.41 9.40 9.43 9.43 9.42 9.39 9.41 9.44 s.43 9.41 9.40 9.39 9.41 9.40 9.40 9.39 9.40 9.40 9.40 9.41 9.39 9.38 9.39 9.39 9.39 9.38 9.40 9.41 9.4'1 9.40 9.39 9.39 9.39 9.39 9.39 9.40 9.43 9.45 9.44 9.42 9.42 9.40 9.45 9.41 9.42 9.41 9.39 9.40 9.42 9.43 9.43 9.42 9.41 9.39 9.39 9.38 9.39 9.39 9.39 9.39 9.41 o ae 9.3S 9.38 9.40 9.40 9.40 9.43 9.41 9.43 9.41 9.44 NOX-1 72.43 72.14 72.14 72.11 72.O7 72.O4 71 .78 71 .s1 71.02 70.54 70.45 70.35 69.93 69.50 69.73 70.o7 70.27 70.46 71.08 71.73 72_21 72.69 7?.73 72.78 72.90 73.03 72.92 72.73 72.68 73.05 73.72 73.59 73.42 73.28 73.12 73.07 73.O2 73.18 73.39 74.00 7 4.99 74.61 74.26 73.55 72.88 72.O4 71.19 70.29 69.35 69.37 69.35 69.55 69.72 70.11 70.51 70.61 70.74 70.56 70.58 70.65 70.72 71.22 71.69 73.94 74.59 7 4.49 74.40 74.64 74.88 74.29 73.72 73.26 72.53 72.12 71.68 71.48 co_1 4.26 4.27 4.28 4.28 4.20 4.1 3 4.11 4.10 4.13 4.1 8 4.16 4.18 4.20 4.1 I 4.19 4.16 4.16 4.19 4.20 4.21 4.23 4.26 4.28 4.25 4.25 4.30 4.32 4.32 4.30 4.27 4.26 4.28 4.26 4.27 4.2s 4.26 4.27 4.29 4.31 4.32 4.30 4.?8 4.28 4.27 4.26 4.25 4.26 4.26 4.25 4.27 4.24 4.28 4.28 4.31 4.31 4.29 4.27 4.25 4.22 4.22 4.22 4.18 4.21 4.?2 4.21 4.27 4.26 4.28 4.31 4.30 4.29 4.28 4.25 426 Ambienl 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 55 55 55 55 55 55 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 ?4.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24_30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 31.4 J I-J JIJ 31 .3 31.4 31.4 31.4 31.4 31.4 31.4 31.5 31.6 31.6 31.5 31.3 3',t.2 31.2 31.2 31.0 3 1.0 30.9 30.9 30.8 30.8 30.9 31.1 31.3 31.4 31.4 31.4 31.4 31 .4 J I.J 31.4 31.6 31.6 Jt.o 31.4 J t./ 31.0 31.0 31 .0 31.0 31..1 31.2 3'l .3 J I.J 31,3 31.2 30.9 30.6 30.4 30.2 30.1 29.9 29.9 29.8 29.9 29.9 29.8 29.8 29.8 29.9 30.0 30.2 30.4 30.5 30.6 30.5 30.4 30.4 30.2 30.0 29.8 29.6 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 5'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 TeSt Run - 6'1 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 O, 1".1 3gn. 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name 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 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 Tesl 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 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run 380 Company Station Unit TimeStamp 0311212025 13.O2.O4 0311212025 13.02.14 o311212025 13.02.24 0311212025 13:02.34 03112t2025 13.02.44 0311212025 13'.02.54 o3l't212025 13.03.04 0311212025 13:O3:14 0311212025 13:03:24 03/1212025 13:03:34 0311212025 13.0344 0311212025 13:03:54 0311212025 13:O4:O4 0311212025 13 04.14 0311212025 13.04.24 0311212025 13:04:34 O311212025 13:O4.44 0311212025 13.O4.54 0311212025 13 05 04 O311212025 13:05.14 0311212025 13:05.24 03/1212025 13:05:34 a3112t2025 13.O5.44 0311212025 13:05:54 0311212025 13.06:04 03t1212025 13.06.14 03l't212025 13.06:24 0311212025 13:06:34 o311212025 13.06.44 03t12t2025 13.06.54 03t12t2025 13.07.04 0311212025 13:07.14 o3t12l?o25 13.07.24 o3112t2025 13 07 34 03t12t2025 13.07.44 0311212025 13:07:54 03/1 2/2025 1 3:08:04 03/1212025 1 3:08:'14 03t12t2025'13.O8.24 0311212025 13:08:34 03112t2025 13,08.44 03112t2025 13"0A:54 03/1 2/2025 1 3:09:04 03/1212025 13;09:.14 o3t1212025 13.09.24 03i12/2025 13:09:34 0311212025 13:09.44 03/1212025'13:09:54 0311212025 13.10.04 0311212025 13:10:14 0311212025 13:1O.24 0311212025 13.10.34 03l'1212025'13:10.44 0311212025 13:1O:54 0311212025 13.11:04 o311212025 13.11.14 0311212025 13:11.24 0311212025 13.11:34 0311212025 13.11.44 0311212025 13 11 54 0311212025 13:12 04 0311212025 1312.14 03h2l2O25 13:12.24 03t1212025 13.12.34 0311212025 13:12:44 03t12t2025 13.12.54 03112t2025 13.13.04 0311212025 13 13'14 0311212025 13.13:24 03t1212025 13.13.34 0311212025 13:13.44 0311212025 13:13.54 0311212025 13:14.04 0311212025 1314.'14 O311212025 13:14.24 0311212025 13:14.34 0311212025 13:14.44 0311212025 13.14.54 o3t12t2025 13.15.04 0311212025 13:'t.5 14 Altamont LLC Bluebell Gas Plant 02_1 9.41 L42 9.46 9.44 9.44 9.41 9.36 9.38 9.39 9.39 9.41 9.4',| 9.41 9.42 9.43 9.43 9.42 9.41 9.43 9.42 9.40 9.44 9.44 9.44 9.46 9.43 9.42 9.42 9.43 9.39 9.41 9.41 9.40 9.38 9.41 9.39 9.38 9.3S 9.41 9.38 9.42 9.42 9.41 9.43 9.4'1 L42 9.42 9.41 9.43 9.42 9.42 L40 9.43 9.41 9.41 9.43 9.40 9.42 9.44 9.44 9.47 9.44 9.46 9.46 9.45 9.43 9.45 9.43 9.42 9.42 9.45 9,4'1 9.44 9.43 9.45 9.44 9.42 9.42 NOX-1 71.28 71 .42 71.62 71.09 70.32 69.45 68.57 68.21 67.74 69.69 71.59 72.65 73.92 73.42 72.89 7?.76 72.65 71 .45 70.29 69.69 69.02 68.90 68.77 69.35 69.91 b9.d5 69.79 69.0't 68.24 68.'13 67.87 68.47 69.08 69.86 70.59 70.9 3 71 .38 71 .58 71 .81 72.64 74.O2 73.88 73.74 73.81 73.93 73.68 73.49 72.73 71.53 70.59 69.60 69.89 70.1 I 70.28 70.37 70.38 70.37 70.66 71 .16 71 .07 70.93 70.94 70.93 70.73 70.49 69.30 68.1 3 67.1 0 66.0 1 65.81 65.42 66.65 67.87 68.84 69.86 69.74 69.57 69.80 70.1 6 70.21 co_1 4.28 4.29 4.31 4.31 4.28 4.26 4.22 4.20 4.21 4.23 4.24 4.23 4.21 4.22 4.22 4.20 4.20 4,18 4,1 I 4.21 4.21 4.19 4.22 4.24 4.25 4.19 4.19 4.1 8 4.17 4.21 4.22 4.28 4,34 4.33 4.34 4.34 4.32 4.34 4.32 4,31 4.29 4.23 4.25 4.24 4.22 4.22 4.22 4.21 4.25 4.27 4.31 4.32 4.34 4.33 4.27 4.26 4.28 4.31 4.36 4.43 4.42 4.41 4.41 4.38 4.36 4.36 4.34 4.34 4.36 4.33 4.31 4.34 4.35 4.38 4.38 4.38 434 Ambienl 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24,30 24.30 24.30 24.30 24.30 24-30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 29.5 29.6 29.6 29.5 29.5 29.4 29.3 29.2 )o) 29.2 29.2 29.2 29.3 29.4 29.6 29.7 29.7 29.7 29.7 29.8 29.9 30.0 30.1 30.2 30.3 30.3 30.3 30.4 30.4 30.4 JU_t 29.7 29.6 29.1 29.0 29.0 29.0 29.O 29.1 29.1 29.0 29.0 29.0 29.0 29.3 29.4 29.4 28.8 28.6 28.5 28.4 28.4 28.4 28.4 28.6 28.6 28.7 28.8 28.9 29.O 29.1)a) 29.1 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run : 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - .61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 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 Test Run Test Run Test Run Test 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 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 38{ Company Station Unit TimeStamp 03t12t2025 13.15.24 o3t12t202s 13.15.34 0311212025 13.1544 0311212025 13:15:54 o3t1212025 13.16.04 03t12t2025 13.16.14 0311212025 13:16.24 0311212025 13:16:34 0311212025 1316:44 O311212025 13.16:54 o311212025 13.17:o4 o311212025 13'.17.14 0311212025 13:17:24 o3l1a2a25 13.17..34 O311212025 13.17:44 03l-1212025 13.17:54 o311212025 13.18:04 03t12t2025 13.18.14 o3t1212025 13.18.24 0311212025 13'.18:34 0311212025 13:18:44 o3t1212025 13.18.54 0311212025 13.19:04 0311212025 13.19:14 0311212025 13:'19.24 03t12t2025 13.19.34 03t1212025 13.19.44 0311212025 13:19:54 0311212025 13:20.04 0311212025 13:20:14 0311212025 13.20.24 03t1212025 13.20.34 03t12t2025 13.20.44 03t1212025 13.20.54 o3112t2025 13.21.04 03t12t2025 13.21.14 0311212025 13:21.24 0311212025 13.21:34 Average 0311212025 13:24.41 0311212025 13:24:51 0311212025 13.25:01 0311212025 13.25.11 0311212025 13.25:21 0311212025 13:25.31 Ave rage 03t1212025 13.26.18 O311212025 13.26:28 0311212025 13:26:38 0311212025 13.26:48 0311212025 13.26:58 o3t12t2025 13.27.O8 Average 0311212025 13.29:49 0311212025 13.29:59 o311212025 13.30.09 0311212025 13:30:19 0311212025 13:30:29 03/1 2/2025 1 3:30:39 Average 0311212025 13:36.32 0311212025 13:36.42 0311212025 13.36:52 0311212025 13.37:02 0311212025 13.37.12 o311212025 13:37:22 0311212025 13:37.32 0311212025 13.37:42 0311212025 13.37:52 0311212025 13.38.02 0311212025 13:38.12 0311212025 13:38.22 0311212025 13:38.32 0311212025 13.38.42 O311212025 13.38:52 0311212025 13.39.02 Altamont LLC Bluebell Gas Plantf -)1) 02_1 9.45 9.46 9.45 9.46 9.46 9.45 9.43 9.46 9.43 9.39 9.42 9.43 9.43 9.42 9.42 9.42 9.46 9.43 9.47 9.43 9.44 9.44 9.42 9.46 9.46 9.45 9.44 9.44 9,48 9.46 9.46 9.48 9.47 9.48 9.44 9.45 9.4 5 9.46 9.41 0.06 0.06 0.05 0.06 0.06 0.04 0.06 10.62 10.81 't0.82 10.83 1 0.83 10.85 '10.79 0.22 0.1 I 0.20 , 0.17 0.17 0.18 0.19 9.47 9.48 9.44 9.42 9.42 9.44 9.43 9.44 9.41 9.43 9.43 9.42 s.42 9.44 L44 9.44 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 5.1 #2 Test Run - 6'l #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l fl2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Eias Check #3 Test Run - 61 #3 Test Run - 61 fl3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 Run name 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 Tesi Run Test Run Tesl Run Test Run Test Run Tesl Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run NOx_1 Bias NOx_l Bias NOx_1 Bias NOx_l Bias NOx_1 Bias NOx_1 Bias O2_1 Bias O2_1 Bias O2_'1 Bias O2_'l Bias O2_1 Bias O2_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_'l Bias CO_1 Bias 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-1 70.26 70.94 71 .64 71 .31 70.89 69.89 68.80 69.'r 0 69.38 69.1 I 68.84 69.94 7'r.00 71 .72 72.10 71.59 71.85 72.28 72.08 71.79 71.31 70.54 7 0.57 / u.5b 70.69 70.84 71 .01 71.18 71 .14 71 .14 70.69 69.97 69.64 69.27 69.00 68.72 68.96 72.23 91.28 91 .20 91.07 91 .04 91.00 90.9 1 9't.08 90.69 90.76 81.89 74.51q, a) 29.59 70.03 2.28 2.12 2.03 2.21 69.65 69.59 69.27 68.95 68.25 67.54 68.42 69.22 69.72 70.31 70.08 69.84 70.1 0 70.36 70.29 70 24 co_1 4.32 4.31 4.28 4.28 4.28 4.34 4.34 4.3 1 4.33 4.30 4.32 4.33 4.32 4.34 4.33 4.34 4.32 4.31 4.32 4.34 4.34 4.34 4,34 4.33 4.35 4.36 4.36 4.38 4.37 4.37 438 4.38 4.38 4.38 4.38 4.40 4.41 4.43 4.26 t.Yo 1.94 1.92 1 .91 '1.91 1.93 1.93 2.07 2.12 2.11 2.O2 1.87 1.77 '1.99 97.00 97.00 97.40 97.50 97.50 97.60 97.33 4.49 4.47 4.47 4.50 4.50 4.52 4.50 4.48 4.50 4.50 4.50 4.48 4.48 4.55 4.56 Ambient 55 55 55'55 55 56 56 56 56 56 56 56 56 56 56 56 56 56 55 56 5b 56 56 56 5b 56 56 56 56 56 56 56 56 56 56 56 56 56 54 56 56 5b 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 5/ 57 57 57 57 57 57 57 57 57 57 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.29 24.30 24.30 24.30 24.30 24.30 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 Humidity 29.1 29.0 29.0 29.0 29.0 29.0 29.0 29.0 29.0 29.0 29.1 29.2 29.4 ,o o 30.1 30.3 30.5 30.6 30.6 30.6 30.6 30.5 5U_/ 30.0 29.8 29.7 29.7 29.7 29.7 29.8 29.9 29.9 29.7 29.7 2e.7 29.7 31.4 28.2 28.0 27.8 27.7 27.6 27.5 27.8 27.4 27.4 27.4 27.5 27.6 27.5 28.4 28.5 28.5 28.4 28.4 28.4 29.4 29.4 29.4 29.0 28.8 28.5 28.3 28.2 28.0 27.9 27.8 27.6 27.2 382 Company Station Unit TimeStamp 0311212025 13.39 12 031'1212025 1339'.22 0311212025 13'.39:32 0311212025 13.39:42 0311212025 13:39:52 0311212025 13:40.02 0311212025 13.40.'t2 0311212025 13.40:22 o311212025 13.40:32 0311212025 13 40:42 0311212025 13:40:52 o311212025 13.41:02 0311212025 13:41.12 0311212025 13:41:22 0311212025 13.41:32 0311212025 13.41:42 0311212025 13'.41:52 0311212025 13:42:02 03h212025 1342.12 0311212025 13:42.22 0311212025 13 42:32 0311212025 13.42:42 0311212025 13:42.52 0311212025 13:43:02 0311212025 13:43.12 0311212025 13.43:22 0311212025 13.43:32 0311212025 13:43.42 0311212025 13:4352 0311212025 13:44'.02 0311212025 13.44.12 0311212025 13.44:22 0311212025 13.44:32 0311212025 13:44.42 0311212025 13:44.52 o3t12t2025 13.45.02 0311212025 13.45:12 0311212025 13.45:22 0311212025 13.45..32 0311212025 13:45.42 0311212025 13.45:52 0311212025 13.46:02 0311212025 13:46.12 0311212025 13.46.22 0311212025 13.46.32 0311212025 13.46:42 03t1212025 1346:52 0311212025 13:47.o2 0311212025 't3:47.12 O311212025 13:47.22 O311212025 13.47:32 03t't2t2025 13.47:42 0311212025 13'.47:52 0311212025 13:48.02 0311212025 13.48:12 O311212025 13.48:22 0311212025 13.48:32 0311212025 13:48.42 0311212025 13:48.52 0311212025 13.49.02 o311212025 13.49:12 0311212025 13:49.22 0311212025 13:49.32 0311212025 13:49:42 0311212025 13.49"52 0311212025'13.50:02 0311212025 13.50.12 0311212025 13'.50.22 0311212025 13:50:32 o3t1212025',t3.50.42 0311212025 13.50.52 0311212025 13.51:02 0311212025 13.51:12 o3t12t2025 13.51.22 0311212025 13:51.32 03t12t2025 13.51.42 0311212025 13.51.52 0311212025 13.52.02 o311212025 13.52.12 O311212025 13:52.22 Altamont LLC Bluebell Gas Plant c-252 02_1 9.44 9.44 9.46 9.46 9.45 9.46 9.46 9.45 9.4 5 9.46 9.46 9.44 9.46 9.44 9.44 9.45 9.44 9.41 9.44 9.45 9.46 9.49 9.46 9.48 9.46 9.45 9.42 9.45 9.44 9.44 9.46 L46 9.48 9.44 9.46 9.46 L43 9.46 9.44 9.46 9.40 9.44 9.42 9.43 9.45 9.39 9.40 9.44 9.42 9.42 9.44 9.43 9.41 9.44 9.41 s.45 9.42 9.45 9.43 9.41 9.44 9.44 9.44 9.45 9.44 9.47 9.46 9.46 9.45 9.43 9.48 9.43 9.45 9.44 9.46 9.44 9.46 9.44 9.43 9.46 NOX-l 70.00 69.78 69.24 69.50 69.75 69.79 69.90 69.77 69.63 69.69 69.8'l 69.37 68.89 69.1 5 69.44 69.43 69.37 70.05 70.78 71.17 71 .27 71.51 70.53 69.55 69.41 69.?4 69.38 69.57 70.1 I 71.03 70.96 70.27 69.13 69.09 69.05 69.49 69.91 69.50 69.1 1 69,69 70.22 70.79 71.74 71 .19 70.64 71.20 71 .69 72.43 73.53 73.25 72.80 72.45 72.11 71.74 71.77 72.23 72.59 72.98 73.1 8 7 2.57 71 .45 70.6'1 69.1 4 59.08 69.02 69.36 69.86 69.84 69.87 69.60 69.1 5 69.48 69.83 co_1 4.58 4.57 4.59 4.58 4.58 4.59 4.58 4.57 4.53 4.56 4.57 4.59 4.62 4.59 4.54 4.53 4.53 4.55 4.55 4.53 4.55 4.55 4.56 4.58 4.61 4.57 4.56 4.53 4.51 4.50 4.50 4.52 4.56 4.57 4.17 4.55 4.57 4.56 4.55 4.56 4.54 4.56 4.55 4.54 4.53 4.52 4.51 4.49 4.s2 4.57 4.60 4.63 4.63 4.60 4.59 4.60 4.62 4.63 4.64 4.66 4.64 4.65 4.66 4.63 4.61 4.59 4.56 4.58 4.59 4.59 4.59 4.59 4.59 4.61 4.63 4.64 4.66 Ambienl 57 q7 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.30 24.29 24.29 24.29 24.29 24.30 24.30 24.30 24.30 24.30 24.30 24.29 24.30 24.30 24.29 24.29 24.2e 24.29 24.30 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.30 24.30 24.29 24.29 24.29 24.30 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.30 24.30 24.30 24.30 24.29 24.29 24.29 24.29 24.29 11 10 24.29 24.29 24.29 24.29 24.?9 24.29 24.29 24.29 24.29 24.29 24.29 27.1 27.1 27.1 27.1 27.2 27.2 27.2 27.1 26.9 26.8 26.7 26.6 26.5 26.5 26.5 26.4 26.2 26.1 26.1 26.1 26.0 26.0 26.0 26.0 26.0 16_ | lo.J 26.4 26.3 zo. z 26.0 25.9 25.7 25.7 25.8 25.8 26.0 26.0 26.3 26.3 26-3 26.3 25.0 25.9 25.8 25.7 25.4 ta_t 25.1 25.0 24.9 24.7 24.7 24.9 25.0 25.1 25.1 25.2 z).J 25.4 25.6 25.8 25.8 PBaro Humidity Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 d3 Test Run - 61 #3 Test Run - 61 d3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 Run name Test Run Tesl 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 Tesl Run Tesl 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 Tesl 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 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 383 Company Station Unit TimeStamp 0311212025 13:52.32 0311212025 13.52.42 0311212025 13.52.52 0311212025 13:53:02 0311212025 13.53:12 03112t2025 13.53.22 0311212025 13.53:32 0311212025 13.53:42 0311212025 13.53.52 0311212025 13:54:02 0311212025 13:54.'12 0311212025 13:54.22 o311212025 13.54.32 0311212025 13.54:42 0311212025 13:54:52 0311212025 13.55.02 03t1212025 13.5s.12 0311212025 13.55.22 o311212025 13.55.32 0311212025 13.55.42 03t1212025 13.55.52 0311212025 13:56:02 0311212025 13.56.'12 0311212025 13:56.22 O311212025 13:56:32 0311212025 13:56.42 0311212025 13.56.52 o3t1212025 13.57.02 0311212025 13:57:12 0311212025 13.57.22 o3t12t2025 13'.57.32 031't212025 13.57.42 0311212025 13:57.52 03t12t2025 13.58.02 0311212025 13.58.12 0311212025 13 58:22 03t12t2025 13.58..32 0311212025 13.58.42 0311212025 1358.52 0311212025 13:59:02 0311212025 13:59.12. o3t12t2025 13.59.22 0311212025 13:59:32 0311212025 13:59.42 0311212025 13:59.52 0311212025 14.OA.O2 0311212025 14.00:12 0311212025 14:00.22 0311212025 14.OO.32 03t12t2025 14.OO.42 0311212O25 14:OO:52 0311212025 14.01.02 03t12t2025 14..O1.'12 0311212025 14.01.22 O3l'1212025 14.01:32 0311212025 14:01.42 0311212025 14:01.52 o3t12t2025 14.02.O2 0311212025 14:02:12 0311212025 14:02:22 0311212025 14:02:32 0311212025 14:02:42 0311212025 14.02.52 0311212025 14:03.02 0311212025 14:03.12 o311212025 14.03.22 0311212025 14.03.32 03t12t2025 14.03.42 0311212025 14:03.52 0311212025 14.O4.O2 0311212025 14.04:12 o3t12t2025 14.04.22 O311212025 14:04:32 0311212025 14:a4.42 0311212025 14.04.52 0311212025 14.05.O2 0311212025 14:05:12 0311212025 14:05:22 O3h212025 14:05.32 0311212025 14.05.42 Altamont LLC Bluebell Gas Plant o2_1 9.44 9.42 9.46 9.46 9.44 9.47 9.44 9.46 9.44 9.45 9.43 9.43 9.4 3 9.42 9.42 9.43 9.43 9.42 9.46 s.46 9.44 9.42 9.42 9.42 9.45 9.43 9.41 9.45 9.44 9.45 9.46 9.46 9.44 L43 9.44 9.47 9.43 9.46 9.42 9.44 9.44 9.45 9.44 9.43 9.43 9.40 9.42 9.46 9.46 9.44 9.46 9.43 9.45 9.46 9.42 9.46 9.44 9.44 9.43 9.43 9.46 9.44 9.43 9"44 9.4 3 9.44 9.42 9.42 9.46 9.43 9.44 9.43 9.46 9.46 9.42 9,'43 9.42 9.41 9.44 9.41 NOX-1 69.68 69.44 69.52 69.59 69.49 69.39 69.44 69.48 69.06 68.67 68.64 68.52 69.38 70.23 71.O3 72.28 72.02 71.69 71 .49 71 .14 71.22 71 .35 70.55 71.12 71.71 71 .95 71 .94 71.90 72.01 72.18 71.28 70.36 70.22 70.01 69.95 69.83 69.70 b9 52 69.60 69.68 69.58 69.47 69.07 68.39 68.55 68.72 69.64 71 .07 70.84 70.68 70.12 69.54 69.63 69.73 69.65 69.54 69.89 70.40 71.05 71 .76 71 .76 71.81 70.99 70.11 70.42 70.89 70.84 70.8 1 70.79 70.83 70.47 70.01 70.14 70.3 1 70.14 59.88 69.58 69.08 co_1 4.67 4.64 4.63 4.63 4.59 4.59 4.59 4.59 4.57 4.55 4.56 4.56 4.61 4.63 4.63 4.63 4.63 4.62 4.6't 4.61 4.60 4.63 4.64 4.63 4.64 4.66 4.67 4.73 4,72 4.70 4.65 4.60 4.59 4.61 4.62 4.60 4.60 4.58 4.56 4.59 4.56 4.58 4.59 4.57 4.57 4.55 4.57 4.59 4.60 4.62 4.61 4.63 4.62 4,63 4.63 4.61 4.60 4.56 4.s6 4.56 4.61 4.63 4.64 4.66 4.63 4.63 4.63 4.63 4.61 4.61 4.6'l 4.60 4.63 4.62 4.6'1 4.59 4.56 4.58 4.61 Ambienl 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 5S PBaro 24.29 24.29 24.30 24.29 24.29 24.?9 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 ?4.29 24.29 Humidity 25.0 26.1 26.1 26.0 25.8 25.7 25.6 25.5 25.5 25.7 25.8 25.9 25.8 25.7 25.7 25.7 25.8 25.8 25.8 25.8 25.8 25.8 26.0 26.1 26.1 2d. I 25.9 25.7 25.6 25.5 25.4 25.3 25.2 25.2 25.3 25.5 25.6 25.7 25.8 25.9 25.9 26.0 26.1 zd. I 26.2 26.2 26.2 zo. I 26.0 25.9 t53 25.9 25.9 26.'l 26.1 26.2 26.2 26.1 26.1 26.1 26.1 26.2 26.3 26.6 26.7 26.8 26.8 26.7 26.6 26.5 26.4 26.3 26.2 26 1 Group name d3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 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 Tesl 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 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 384 Company Station Unit TimeStamp 0311212025 14:05.52 O311212025 14.06.02 o311212025 14.06.12 0311212025 14.06:22 0311212025 14:06:32 0311212025 14:06.42 0311212025 14:06.52 0311212025 14:07:02 O311212025 14:07:12 0311212025 14:07:22 03l'1212025 14:07:32 0311212025 14:07.42 0311212025 14:O7:52 0311212025 14.08:02 03112t2025 14"08:12 0311212025 14:08.22 O311212025 14:O8.32 0311212025 14.08:42 O311212025 14.08:52 0311212025 14.O9.02 O3l'tZ2025 14:09.12 0311212025 14:O9.22 o3I1212025't4.O9.32 0311212025 14.09:42 0311212025 14:09.52 0311212025 14:1O.02 0311212025'14:10:12 0311212025 14.10:22 o311212025 14.10.32 0311212025 14.10.42 0311212025 14:1O'.52 0311212025 14.11:02 0311212025 14.11.12 o3t12t2025 14'.11.22 0311212025 14.11.32 0311212025'14:11:42 03t12t2025 14.11.52 03112t2025 14.12.O2 0311212025 14.12:12 o311212025 14.12:22 0311212025 14.12.32 O311212025 14:12 42 03h212025 14:12'.52 0311212025 14:13.02 0311212025 14.13:12 o3112t2025 14.13.22 0311212025 14:13.32 o311212025 14:13:42 03112t2025 14.13.52 o3t12t2025 14.',t4.02 03t't2t2025 14.14.12 0311212025'14:14:22 0311212025 14.14:32 0311212025 14:'14.42 03112120?5 14:14'.52 o311212025 14.15.02 0311212025 14.15:12 0311212025 14.15.22 0311212025 14:15.32 0311212025 14.15:42 o3t1212025 14.15.52 0311212025 14.16.02 0311212025 14:16.12 O311212025 14:16.22 0311212025 14.16:32 0311212025 14.16:42 03t'1212025 14.16.52 0311212025 14:17.O2 0311212025 14:17:12 A311212025 14.17:22 O311212025 14.17:3? 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I 26.1 26.1 26.0 26.O 26.O 26.1 26.2 26.3 26.4 26.5 26.5 26.5 26.4 26.3 26.0 25.9 25.8 25.7 25.7 25.8 25.9 25.9 26.0 25.8 25.7 25.6 25.6 25.6 25.4 25.2 25.0 24.8 24.8 24.7 24.6 24.6 24.6 24.6 24.6 24.6 24.7 24.7 24.7 24.8 24.9 /3 I 25.2 25. I 25.0 24.9 24.8 24.8 24.7 24.6 24.5 24.5 24.5 24.6 24.6 24.6 24.7 24.8 24.9 24.9 24.7 24.5 24.4 24,3 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 5'l #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Tesl Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 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 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 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 38s Company Station Unit TimeStamp 0311212025 14.19:12 o3t12t202s 14.19.22 031121?025 14:19:32 0311212025 14.19:42 0311212025 14:19.52 0311212025 14.20:02 0311212025 14.20.12 o3t1212025 14.20.22 0311212025 14.20:32 o3t12t2025 14.20.42 0311212025 14:20.52 0311212025 14.21:02 03I1212025 14.2',1.12 O311212025 14:21'.22 o311212025 14.21:32 0311212025 14.21:42 0311212025 14.21.52 0311212025 14:22.02 0311212025 14.22:12 0311212025 14:22.22 O311212025 14:22:32 0311212025 14.22.42 0311212025 14:22.52 O311212025 14:23.02 0311212025 14.23:12 0311212025 14:23.22 0311212025 14:23:32 o311212025 14.23.42 03t1212025 14.23.52 o3t12t2025 14.24.O2 0311212025 14.24:12 0311212025 14.24:22 0311212025 14.24.32 0311212025 14.24:42 03t1212025 14.24.52 0311212025 14.25.O2 o311212025 14.25.12 0311212025 14.25:22 0311212025 14.25.32 0311212025 14:25.42 O3t1212A25 14.25:52 0311212025 14.26.02 0311212025 14:26.12 O311212025 14:26.22 o311212025 14.26.32 0311212025 14.26:42 O311212025 14.26:52 0311212025 14.27:O2 0311212025 14.27.12 0311212025 14:27.22 0311212025 14:27:32 0311212025 14.27:42 0311212025 14.27.52 O311212025 14:28.02 0311212025 14:28.12 0311212025 14.28.22 o3t1212025 14.2832 O311212025 14:2a:42 03l'1212025 14.28:52 o311212025 14.29..02 0311212025 14:29.1? O311212025 14:29:22 0311212025 1429:32 0311212025 14.29:42 O311212025 14:29.52 0311212025 14.30:02 o311212025 14.30.12 0311212025 14.3O.22 0311212025 14:30:32 0311212025 14.30:42 0311212025 14.30.52 0311212025 14:31.O2 0311212025 14:31:12 O311212025 14.31:22 o3t1212025 1431.32 o3t12t2025 14.31.42 0311212025 14:31:52 o311212025 14:32:02 o3t't2t2025 14.32.12 03112t2025 14.32.22 Altamont LLC Bluebell Gas Planl 02_1 9.43 9.41 9.39 9.36 9.36 9.41 9.42 9.43 9.46 9.46 9.46 9.47 9.48 9.44 9.47 9.43 9.42 9.42 9.43 9.47 9.42 9.46 9.42 s.42 L44 9.4? 9.45 9.44 9.44 9.42 9.42 9.44 9.4.1 9.45 L43 9.42 9.44 9.42 9.44 9.46 9.41 9.44 9.38 9.38 9.41 9.39 9.41 L42 9.44 9.44 9.44 9.44 9.46 9.44 9.46 9.45 9.43 9.48 9.44 9.46 9.46 9.47 9.47 9.44 9.43 9.46 9.44 9.44 9.46 9.44 9.41 9.46 9.44 9.42 9.44 9.43 9.43 9.43 9.40 PBaro Humidity aAad aA1 24.29 24.324.29 24.424.28 24.524.28 24.524,28 24.424.28 23.924.28 23.724.28 23.524.29 23.324.29 23.224.29 23.224.29 23.324.28 23.324.28 23.324.28 23.324.28 23.224.28 23.124.28 23.124.28 23.224.28 23.324.29 23.324.29 23.324.29 23.424.29 23.624.29 23.824.28 23.924.28 24.124.28 24.224.28 24.324.28 24.424.29 24.524.29 24.524.29 24.624.29 24.624.29 24.624.29 24.524.29 24.524.29 24.424.29 24.424.28 24.424.28 24.424.28 24.524.28 24.624.28 24.824.28 24.924.28 25.124.28 25.224.28 25.324.28 25.424.28 25.424.28 25.424.28 25.424.28 25.424.28 25.424.28 25.324.28 25.224.28 25.',124.28 24.924.28 24.624.28 24.524.28 24.224.28 24.024.28 23.724.28 23.524.28 23.324.28 23.124.28 23.024.28 22.924.28 22.924.28 22.924.28 23.024.28 23.124.28 23.324.28 23.424.28 23.524.28 23.724.28 23.924.28 24.024.28 24.1 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 Run name 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Tesl 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 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 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_1 72.17 72.09 71 .94 71.72 71.73 71 .68 72.46 /J.O I 75.01 74.52 69.78 58.86 67.O4 66.56 66.75 bb_v / 68.47 70.00 70.18 70.52 70.36 70,1 3 69.98 69.71 69.98 70.25 70.36 70.56 70.35 70.03 69.57 68.8 1 69.27 69.96 70.58 71.23 70.78 70.33 70.50 70.75 70.71 70.63 71 .60 73.O7 73.50 73.56 72.92 72.20 7'l .43 70.95 70.50 70.1 5 69.74 70.15 70.80 70.28 69.78 69.27 68.75 68.1 I 67.32 66.84 66.02 66.86 67.68 67.99 68.50 69.02 69.78 70.03 70.46 70.71 71 .07 71 .58 72.38 co_1 4.72 4.68 4.61 4.59 4.62 4.67 4.7 '',| 4.76 4.78 4.77 4.7 5 4.70 4.69 4.69 4.69 4.69 4.67 4.63 4.59 4.59 4.59 4.62 4.65 4.62 4.64 4.66 4.67 4.70 4.7 0 4.6I 4.69 4.68 4.6 8 4.69 4.70 4.71 4.70 4.74 4.76 4.75 4.7 5 4.72 4.73 4.73 4.72 4.72 4.72 4.69 4.70 4.72 4.70 4.73 4.72 4.72 4.71 4.72 4.69 4.67 4.69 4.69 4.70 4.70 4.68 4.72 4.70 4.71 4.77 4.77 4.76 4.77 4.7 5 4.76 4.78 4.78 4.77 4.77 Ambient 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 EO 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 60 60 60 60 60 60 60 60 50 60 60 60 386 Company Station Unit TimeStamp 0311212025 14:32.32 0311212025 14.3242 0311212025 14.32:52 0311212025 14.33:02 O311212025 14:33.12 0311212025 14:33.22 0311212025 14.33:32 0311212025 14'.33:42 0311212025 14:33.52 03112t202s 14.34.O2 0311212025 14.34:12 0311212025 14:34.22 0311212025 14.34.32 0311212025 14:34.42 0311212025 14:34:52 o311212025 14:35:02 o311212025 14:35.12 o3l't2t2025 14.35.?2 0311212025 14.35:32 0311212025 14:35:42 0311212025 14:35.52 o311212025 14:36.02 O311212025 14 36:12 o311212025 14'.36:22 0311212025 14:36.32 03t1212025 14.36.42 0311212025 14'.36:52 o311212025 14:37.o2 o311212025 14.37.12 o3t12t2025 14.37.22 Average o3t1212025 14.41.37 03t12t2025 14.41.47 O311212025 14 41:57 o3t1212025 14 42.07 o311212025 14.42.17 0311212025 14.42:27 Average o3t12t2025 14.46.33 0311212025 14.46:43 o3t't2t2025 14.46.53 0311212025 14:47.o3 o311212025 14.47:13 0311212025 14:47:23 Average 0311212025 14.48:31 0311212025 14:48.41 03t12t2025 14.48.51 0311212025 14.49:01 0311212025 14:49.11 0311212025 1449'.21 Average Altamont LLC Bluebell Gas Plant c-252 02_1 9.42 9.40 9.42 9.42 9.43 9.43 9.42 9.42 9.44 9.42 9.44 9.44 9.42 9.42 9.44 9.46 9.44 L42 9.45 9.44 9.44 9.48 9.46 9.42 9.44 9,43 9.41 9.44 9.41 9.44 9.44 0.05 0.08 0.06 0.05 0.07 0.07 0.06 0.08 0.05 0.09 0.06 0.07 0.06 0.07 10.81 10.85 10.85 '10.85 1 0.82. 10.86 10.84 NOX-l 72.48 72.57 73.41 74.24 74.38 74.63 74.28 73.98 73.17 71.90 71.78 / t.oJ 71.75 71 .90 71.86 71 .81 72.O0 72.20 72.17 72.10 72.47 72.89 72.36 71.86 70.86 69.80 70.47 71 .45 71.82 70.53 91.74 91 .70 91.67 91.63 91.56 91 .46 91.63 0.84 0.79 o.77 0.75 0.73 0.71 0.77 0.63 0.62 0.61 0.58 0.57 0.54 0.59 co_1 4.79 4.78 4.81 4.80 4.77 4.74 4.70 4.69 4.69 4.69 4.69 4.69 4.69 4.73 4.75 4.62 4.54 4.35 4.24 4,22 4.11 4.05 4.03 3.99 4.00 4.03 3.98 3.S7 3.97 3.98 4.61 1.92 1.89 1.83 1.80 1.71 '1.65 1.80 98.50 98.50 98.50 98.50 98.50 98.'15 98.44 14.34 7.10 4.O2 1.89 1.68 5.28 Ambient 60 60 60 60 60 60 60 bU 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 58 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 PBaro 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.24 24.28 24.28 24.28 24.28 24.28 24.29 24.28 24.28 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 Humldity 24.2 24.2 24.2 24.3 24.3 24.3 24.3 24.3 24.2 24.1 24.1 24.1 24.O 23.9 23.8 23.7 23.4 )1 t IJ.Z 23.0 )24 23.O 23.0 25- J 22.3 22.3 a)1 22.4 22.4 22.4 22.3 21.7 21.7 21.7 I t.6 22.0 22.1 21.8 23.O 23.0 t5_ | 23.1 Group name #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #i Test Run - 6'1 #3 Test Run - 61 #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check i3 Bias Check 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 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_1 Bias NOx_1 Bias NOx_l Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_l Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias 02 1 Bias 387 G-253 Ozr NOXAND GO 388 Company Station Unit TimeStamp 03/1212025 09:00:04 03112t202s 09.oo.14 0311212025 09.00:24 03/12i2025 09:00:34 0311212025 o9:Oo.44 0311212025 09:00.54 Average 03/'l 2/2025 09:06:1 0 03/'l 2/2025 09:06:20 03/'1 2/2025 09:06:30 0311212025 09.06:40 03/1212025 09:06:50 0311212025 O9:O7.OO Average 0311212025 O9:11 50 0311212025 09:12.OO 0311212025 09.12:1O 0311212025 09.12:20 0311212025 09:12.3A 0311212025 09:1 2:40 Average 03t12t2025 09.18.29 0311212025 09:1 8:39 03i 1 2/2025 09: 1 8:49 03i12/2025 09:'18:59 03/12l2025 09:19:09 03/'1 2i 2025 09:1 9:1 9 Average 03/1 2/2025 09:20:58 o311212025 09.21 08 0311212025 09.21:18 o3t12t2025 09.21.28 0311212025 09 21 3A o311212025 09.21.48 Average 0311212025 09:25:49 03/1212025 09:25:59 03/1 2/2025 09:26:09 0311212025 09:26.19 03l 1212025 09:26:29 0311212025 09:26:39 Average O311212025 09.29 'lO 0311212025 09:29.24 0311212025 09.29.30 0311212025 09.29.40 0311212025 09:29.50 03/1 2i2025 09:30:00 Average Altamont LLC Bluebell Gas Plant c-253 02_2 -0.04 -0.02 -0.04 -0.03 -0.04 -0.03 -0.03 20.84 20.88 20.88 20.88 20.88 20.88 20.87 10.95 10.95 10.93 1 0,96 10.92 10.94 '| 0.94 0.02 0.03 0.03 0.03 0.03 0.01 0.03 11.11 11.16 1 1.15 I t. to 11.21 11 .21 't1.17 0.02 0.01 0.01 0.02 0.00 o.02 0.01 20.71 20.74 20.71 20.75 20.7 5 20.75 20.74 Group name Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibraiion Check Calibration Check Pre Bias Check ire Bias 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 Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check Pre Bias Check lnitial Converler Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial Converter Check Run name Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Span Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check Mid Cal Check NOx-1 Bias NOx_1 Bias NOx_1 Bias NOx_'1 Bias NOx_1 Bias NOx_1 Bias O2-1 Bias O2_1 Bias O2_1 Bias O2-'1 Bias O2_1 Bias O2-1 Bias CO-1 Bias CO,1 Bias CO_1 Bias CO,1 Bias CO_1 Bias CO_1 Blas No2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NOX-2 -0.01 -0.02 -0.01 0.00 -0.02 -0.03 -0.02 199.92 19e.91 200.22 200.58 200.93 201.16 200.45 93.72 93.68 93.68 93.69 93.63 93.58 93.66 91.03 91.62 91 .96 92.34 92.5 1 92.64 92.02 90.86 78.95 66.06 48.18 32.47 23.67 56.70 0.41 0.36 0.33 0.30 0.28 0.27 0.33 42.96 43.79 44.18 44.51 44.87 45.18 44.25 co_2 -0.04 -0.06 -0.04 -o.02 0.01 0.04 -0.02 196.50 196.60 1 97.00 1 96.00 19630 196.70 196.52 98.00 98.00 98.00 98.00 98.00 98.00 98.00 0.65 0.64 0.64 0.63 o.62 0.59 0.63 0.76 0.50 0.47 0.40 0.38 0.36 0.50 90.55 93.70 95.85 96.65 97.00 97.00 95.1 3 1.33 1.29 1.27 1.24 1.20 1.16 1.25 Ambienl 41 41 41 41 41 41 41 41 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 41 41 41 4'l 41 41 41 41 41 41 PBaro 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.26 24.26 24.26 24.26 24.?6 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 Humidity 40.0 40.0 40.0 40.1 40.1 40.1 40.0 40.8 40.8 40.9 40.9 40.9 41.0 40.9 41.2 41.2 41.2 41.2 41.2 41.2 41.5 41.5 41.5 41.5 41.5 41.5 41.5 41.8 41.8 41 .8 41 .8 41.8 41 .9 41.8 42.5 42.5 42.4 42.4 42.4 42.4 42.4 42.1 42.1 42.1 42.0 42.0 42.0 42.1 389 Company Station Unit TimeStamp O311212025 10.07:'11 03t'12t2025 10.07.21 o3l'1212025 10:07.31 0311212025 10.07.41 0311212025 10.07.51 o3t1212025 10.08.01 03/1212025 1 0:08:'l 1 o3t12t2025 10.08.21 0311212025 10:08.31 0311212025 10:08.41 o311212025 10.08.51 03l'l212025'lO:09.0I 0311212025 10:09:11 o3t12t2025 10.09.21 0311212025 10.0931 0311212025 10:09:41 0311212025 10.O9:51 o3l1212025.10.10.01 0311212025 1O:1O:1'l 0311212025 10.10.21 0311212025 10.10.31 0311212025 1o:1o:41 0311212025 10..10:51 0311212025 10.11.01 Average 0311212025 10.12.10 O311212025 10.12:20 0311212025 1012.30 0311212025 10..12.40 0311212025 10.12.50 03/1 2/2025 1 0:1 3:00 o311212025 10.13.10 0311212025 10.13.20 0311212025 1O:13.30 03112t2025 10.13.40 o311212025 1013.50 031'1212025 10'.14:00 o311212025 10.14.10 0311212025 10.14.20 0311212025 10.14:3O 0311212025 1014.40 03t1212025 10..14.50 o3t't212025 10.15:00 0311212025 1o:15.1o o311212025 10.15.20 03/'1 2i 2025 10: 1 5:30 0311212025 1O:15.40 03/12l2025 10:15:50 03t12t2025 10.16.00 Average 03/'1212025 10:18:30 0311212025 10.18.40 0311212025 10:18.50 0311212025 10:19.00 0311212025 10.19.10 0311212025 10:19.2O o311212025 10:19:30 03/1 2i 2025 1 0:1 9:40 0311212025 10.19:50 0311212025 10:20:00 0311212025 10.20.10 0311212025 10.20.20 0311212025'10.2o:30 0311212025 10:2O.40 0311212025 10.20.50 0311212025 10.21.00 o311212025 10:21.10 0311212025 10:21.2O o3l12l?025 10.21.30 o311212025 10:21:40 O311212025 10:21.50 0311212025 10.22.O0 0311212025 10.22.10 0311212025 10:22:20 Averaqe Altamont LLC Bluebell Gas Plant c-253 02-2 9.51 9.49 9,48 9.50 9.52 9.48 9.48 9.50 9.48 9.50 9.48 9.49 9.48 9.51 9,5.1 9.50 9.50 9.49 9.52 9.50 9.5.1 9.49 9.51 9.50 9.50 9.51 9.52 9.51 9.50 9.48 9.5b 9.50 9.48 9.48 9.49 9.49 9.48 9.50 9.50 9.49 9.48 9.50 9.50 9.48 9.50 9.49 9.49 9.50 9.50 9.51 9.51 9.51 9.50 9.50 9.54 9.50 9.52 9.52 L50 9.51 9.50 9.51 9.50 9.5'1 9.49 9.48 9.51 9.5'1 9.54 9.50 9.46 9.sl PBaro 24.27 24.27 24.27 24.27 24.27 24.28 24.28 24.28 24.28 24.28 24.28 24.24 24.28 24.28. 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 390 Run name #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check # 1 Strat Check #1 Slrat Check #1 Strat Check #.1 Strat Check #'l Strat Check #'1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Stral Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check d3 Strat Check #3 Strat Check #3 Strat Check #3 Stral Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Slrat Check #3 Strat Check NOX-2 67.44 67.35 67.26 66.95 66.70 66.74 65.80 67.16 67.45 67.37 57.31 66.97 66.61 66.51 66.44 66.39 bb Jv 66.62 66.73 66.58 66.50 66.35 66.1 5 65.98 66.78 65.1 7 65.32 65.32 d5 zt 65.20 b5 tb 65.03 64.9'1 64.90 64.86 64.64 64.59 65.05 65.44 65.79 66.09 66.03 66.00 66.34 66.69 66.95 66.86 66.78 65.6'l 66.42 oo.tI 65.96 65.78 65.9 1 65.99 65.77 65.62 65.73 65.79 65.44 65.08 64.68 64.41 64.55 64.67 64.77 64.94 65.49 65.8S 65.65 65.62 65.95 oo td 65.52 co_2 16.56 16.75 to_/c 16.75 16.7 5 16.75 '16.65 I O.OJ 16.63 16.63 lb oJ 16.63 16.63 16.63 16.63 16.63 16.63 I b.oJ 16.63 16.63 16.63 16.63 16.63 16.63 16.66 16.63 to.oJ '16.63 16.63 16.63 16.63 16.63 16.70 16.75 16.75 16.75 '16.75 16.75 tb./5 16.75 16.75 16.75 16.75 1 6.75 '16.75 16.75 16.75 16.75 16.71 16.75 16.7 4 16.71 16.75 16.75 16.75 16.75 16.75 16.75 16.75 16.75 16.75 I 6.83 16.88 16.88 16.88 16.8 1 16.75 16.75 16.75 '16.69 16.63 16.63 16.63 16.75 Ambient 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 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 43 43 43 43 43 43 43 43 43 43 43 43 Humidity Group name 42.2 Stratlfication Traverse 42.2 Stratillcation Traverse 42.2 Stratification Traverse 4?.2 Stratification Traverse 42.2 Stratiflcation Traverse 42.2 Stratification Traverse 42.3 Stratification Traverse 42.2 Stratiflcation Traverse 42 2 Stratillcation Traverse 42.2 Stratilicalion Traverse 42.2 Stratiflcation Traverse 42.2 Stratiflcation Traverse 42.2 Stratification Traverse 42.2 Stratification Traverse 42.2 Stratification Traverse 42.2 Stratificalion Traverse 42.2 Stratiflcation Traverse 42.2 Stratification Traverse 42.2 Stratiflcalion Traverse 42.2 Stratification Traverse 42.2 Stratiflcation Traverse 42.2 Stratiflcation Traverse 42.2 Stratification Traverse 42.2 Stratiflcation Traverse 42.2 42.2 Stratification Traverse 42.2 Stratiflcation Traverse 42.2 Stratificalion Traverse 42.2 Stratification Traverse 42.2 Stratiflcation Traverse 42.2 Stratiflcation Traverse 42.2 Stratification Traverse 42.2 Stratification Traverse 42.2 Stratiflcation Traverse 42.3 Stratiflcation Traverse 42.3 Stratification Traverse 42.3 Stratiflcation Traverse 42.3 Stratiflcation Traverse 42.3 Stratification Traverse 42.3 Stratification Traverse 42.3 Stratification Traverse 42.3 Stratification Traverse 42.3 Stratification Traverse 42.3 Stratification Traverse 42.3 Stratification Traverse 42.3 Stratilication Traverse 42.3 Stratification Traverse 42-3 Stratification Traverse 42.4 Stratiflcation Traverse 42.3 42.5 Stratiflcation Traverse 42.5 Stratiflcation Traverse 42.5 Stratillcation Traverse42.5 Stratification Traverse 42.5 . Stratification Traverse 42.5 Stratification Traverse 42.5 Stratification Traverse 42.5 Stratification Traverse 42.6 Stratillcation Traverse 42.6 Stratification Traverse 42 6 Stralification Traverse 42.5 Stratification Traverse 42.5 Stratification Traverse 42.5 Stratiflcation Traverse 42.5 Stratification Traverse 42.5 Stratification Traverse 42.5 Stratiflcaiion Traverse 42.5 Stratiflcation Traverse 42.4 Stratilication Traverse 42.4 Stratification Traverse 42.4 Stratification Traverse 42.4 Stratiflcation Traverse 42.4 Stratification Traverse 42.4 Stralification Traverse 42.5 Company Station Unit TimeStamp 0311212025 11:O4.45 0311212025 11:O4.55 0311212025 11.05.05 0311212025 11.05:15 0311212025'11:05:25 03/12i2025 11:05:35 0311212025 11 05:45 o311212025 11.05.55 0311212025 11.06.05 O311212025 11:06:'15 O311212025 '11.06:25 03/1 2/2025 1 1:06:35 0311212025 1'l:06:45 o3t1212025 11.06.55 0311212025 11:07:Os 0311212025 11:07:15 0311212025 '11:O7.25 0311212025 11.07 .35 0311212025 11:07'.45 0311212A25 11:07:55 03/12i2025'11:08:05 0311212025 11:O8.15 03112120?5 11.08.25 O311212025 11.08:35 O311212025 11:08:45 O311212025 11:08:55 03/12i2025 1 1:09:05 o3t12t2025 11.09.15 O311212025 11.09:25 o3112t2025 11.09.35 o311212025 11.O9.45 03/1212025 11:09:55 o3112t2025 11.10.05 O311212025 11:'10 15 0311212025 11.10:25 031'1212025 11:10.35 0311212025 11:1O.45 0311212025 11.10'.55 0311212025 11:1'l:Os 0311212025 11:11.15 0311212025 11 .11 .25 0311212025 11.11.35 03l'1212025 11:11:45 0311212025 11:11.55 03t1212025 11 .12.05 0311212025 11.12.15 0311212025 11:12:25 0311212025 11:12.35 0311212025 11:12.45 0311212025 11:12.55 0311212025 11:13:05 0311212025 11:13:15 O311212025 11:13.25 0311212025 11.13.35 0311212025 11:13.45 03/1 2/2025 I 1 :1 3:55 O311212025 11:14.O5 0311212025 11.14.15 03112t2025 11.14.25 o311212025 11.14:35 0311212025'11 14.45 03112t2025 11.14.55 o3t1212025 11.15.05 o3t12t2025 11.15.15 O311212025 11:15.25 O311212025 11:15.35 0311212025 11:15.45 03/1212025 11:15:55 0311212025'11:16.05 0311212025 11.16:15 o311212025 11:16:25 o311212025 11.16.35 o311212025 11.16.45 o311212025 11 16.55 0311212025 11:17:05 0311212025 11:17:15 03112t2025 1',t..17:25 o3t12t2025 11 .17 .35 Altamont LLC Bluebell Gas Plant f-)\1 022 NOX2 co_2 17.00 17.00 '17.00 '17.00 17.00 17.00 17.00 17.00 17.00 17.06 17.13 17 .13 17 .13 17.13 17.13 17.13 17.13 17.11 17 .04 17 .13 '17.13 17.13 17.14 17.25 17.25 17 .25 17 .25 17.15 17.13 17 .13 17 .13 1 7.09 17.00 17.00 17.00 17 .04 17.13 17 .13 17 .13 17 .13 17.13 17 .13 17 .13 17 .13 17 .13 17 .13 17.13 17.16 l/ tJ 17 .13 17.13 17 .13 17 .17 17 .13 17 .13 17 .13 17 .13 17 .21 17.25 17.25 17.25 17.35 17 .34 17 .38 17.38 17.38 17.36 17 .25 17 .25 17 .25 17.25 17 25 Ambient 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 PBaro 24.29 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24_30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 Humidity 40.7 40.7 40.7 40.7 40.7 40.7 40.7 40.8 40. I 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.8 40.7 40.7 40.6 40.6 40.5 40.5 40.5 40.5 40.6 40.6 40.6 40.6 40.6 40.5 40.4 40.2 40.1 40.0 40.0 40.0 40.0 40.0 40.0 40.0 39.9 40.0 40.0 40.0 40.0 40.0 39.9 39.9 39,9 39.9 39.9 39.9 39.8 39.8 39.8 39.9 39.9 39.9 39.9 39.8 39.8 39.8 39.8 39.8 39.7 39.7 39.7 39.7 39.7 Group name #1 Test Run - 61 #1 Test Run - 6.1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 fl1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 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 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 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 9.52 9.55 9.54 9.54 9.51 L52 9.56 9.54 9.57 9.56 9.54 9.55 9.54 9.56 9.53 9.56 9.58 9.57 9.56 9.57 9.54 9.57 9.55 9.60 9.56 9.56 9.56 9.56 9.56 9.57 9.57 9.56 9.56 9.58 9.57 9.56 9.54 9.54 9,53 9.57 o 4, 9.54 9.56 9.56 9.57 9.57 9.56 9.52 9.56 9.54 9.57 9.57 9.56 9.56 9.5s 9.57 9.55 9.54 9.59 s.5q 9.57 9.56 9.59 9.59 9.56 9.60 9.60 9.58 9.58 9.58 9.58 9.57 9.56 60.04 59.96 60.36 60.71 61.08 61.42 61.53 61.65 61 .68 o t./ I 61.78 61.77 61.53 61.21 60.49 59.89 59.54 59.33 59.73 60.05 59.98 59.S3 59.89 59.S 1 60.10 60.26 60.37 60.4'l 60.06 59.83 60.06 60.23 60.40 60.39 60.39 60.34 60.28 60.06qo oa 60.23 60.48 60.68 O I,JJ 61.74 62.'t3 62.34 62.04 61.82 61.86 61.84 61.69 61.49 61.25 61.00 60.70 60.37 60.25 60.24 60.59 60.84 60.69 60.58 60.51 60.58 61.08 o t.3 t 6'1.43 61.21 60.49 59.76 59.20 58.66 58.49 58.33 58.35 58.36 391 Company Station Unit TimeStamp 0311212025 11:17:45 0311212025 11 .17 .55 o3t12t2025 11.18.05 0311212025 11.18:15 0311212025 11:18.25 o3t1212025 1'1.I8.35 0311212025 11.18:45 03h212025 11:18.55 03t12t2025 11.19.05 o311212025 11.19:15 0311212025 11:19.25 o311212025 11.19'.35 0311212O25 11:19:45 0311212025 11:19.55 o311212025 11.20.05 0311212025 11:20:15 03112t2025 11.20.2s o3t12t2025 11.20.35 0311212025 11.20.45 0311212025 11:2O:55 0311212025 11:21 .05 0311212025 11.21.15 0311212025 11 21:25 0311212025 11:21.35 0311212025 11.21.45 0311212025 11.21 .55 0311212025 11:22.o5 031'1212025 11.22.15 0311212025 11.22:25 0311212025 11:22.35 0311212025 11..22.45 o3t12t2025 11.22.55 o311212025'11:23.05 03t12t2025 11.23.15 0311212025 11.23.25 O311212025'11:23.35 0311212025 11:23.45 0311212025 11.23"55 o311212025 11:24.05 o311212025 11:24.15 0311212025 11.24"25 o3t12t2025 11.24.35 0311212025 11:?4:45 o311212025 11.24.55 0311212025 11.25:As 0311212025 11:25:15 0311212025 11.25.25 o311212025 11.25'.35 O311212025 11:25:45 0311212025 11:25:55 03t1212025 11.2605 O311212025 11:26'.15 0311212025 11:26:25 0311212025 11.26.35 0311212025 11:26.45 O311212025 11:26:55 0311212O25 11:27:O5 o3t1212025 11.27 .15 0311212025 11.27 .25 o3l12l2o?5 11:27:35 o311212025 11.27:45 03t1212025 11 .27 .55 o311212025'11:28.Os O311212025 11:28.15 o3t't212025 11.28.25 O311212025 11:28.35 O311212025 11:28.45 0311212025 11:28.55 0311212025 11.29.05 o3t12t2025 11.29.15 0311212025 11:29:25 0311212025 11.29:35 0311212025 11.29.45 o3t1212025 11.29.55 0311212025 11:30.05 0311212025 11 30:15 0311212025 11.30.25 0311212025 11.30.35 0311212025 11:30.45 Altamont LLC Bluebell Gas Plant 02_2 9.56 9.56 9.54 9.57 9.55 9.56 9.58 9.56 9.54 9.53 9.56 9.53 9.54 9.54 9.57 9.53 9.56 9.56 9.53 9.5b 9.55 9.56 9.56 9.54 9,53 s.57 9.55 9.59 9.59 9.58 9.55 9.57 9.55 9.57 9.58 9.54 9.56 9.57 9.56 9.56 9.57 9.57 9.60 9.56 9.57 9.58 9.56 9.57 9.56 9.56 9.56 9.58 9.54 9.56 9.54 9.56 9.54 9.56 9.54 9.56 9.55 9.55 9.56 9.57 9.55 9.56 9.56 9.58 9.54 9.55 9.56 9.55 9.56 9.55 9.56 9.57 s58 CO_2 Ambient 17.25 4717.25 47 17 .25 4717.25 47 17 .25 47 17 .25 4717.25 47 17 .25 47 17 .25 4717.25 47 17 .25 4717.17 4717.13 4717.13 4717.13 4717.13 4717.13 47'17.24 4717.25 4717.25 47 17 .25 4717.25 4717.2s 47 17 .25 47 17.16 4717.13 4717.13 4717.13 4717.13 4717.13 4717.13 4717.13 4717.13 4717.13 4717.13 4717.13 4717.11 4717.00 47 17 .OO 4717.00 47 17 .01 4717.13 4717.13 4717.13 4717.13 4717.20 47 17 .25 4717.25 47't7.19 4717.13 4717.13 47 17 .13 4817.13 4A 17 .13 4817.13 4817.13 4817.13 4817.13 48 17 .13 4817.13 4817.13 4817.13 4817.13 4817.19 48 17 .25 48 17 .25 4817.25 48 17 .25 48 '17 .16 4817.13 48 17 .13 4817.13 4817.13 4817.13 4817.13 48 't7 .13 4817.15 48 17 .25 48 17 .25 48 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 392 Group name #1 Test Run - 6 1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 6 1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 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 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 Tesl 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOX-2 58.24 58.1 I 58.34 58.51 58.79 59.02 59.02 59.03 59.02 59.36 59.66 59.81 60.02 60.39 60.83 61.27 61.71 61.66 61.66 61.65 b I b/ 61.91 62.18 62.37 62.53 62.48 62.43 62.23 61.9S 61.73 61.39 60.83 60.27 59.88 59.45 59.42 59.47 59.70 59.92 59.97 60.02 bU.ZJ 60.43 60.33 60.23 60.23 60.21 60.01 59.82 59.59 59.33 58.77 58.55 59.1 5 59.68 59.57 59.51 59.69 59.88 60.27 60.60 bu.5b 60.54 60.62 60,69 60.60 60.56 60.91 o I- to 61.08 61.00 60.71 60.45 60.39 60.34 60.55 60.69 60.41 Humidity 39.7 39.7 39.7 39.7 39.7 39.7 39.7 Jv.b 39.5 39.4 JY J 39.3 39.3 39.'l 39.1 39.1 39.0 39.0 39.0 39.0 39.0 39.1 39.1 39.1 39.1 39.0 38.9 38.9 38.9 38.9 38.8 38.8 38.8 38.8 38.8 38.8 38.8 38.9 38.9 38.9 39.0 39.0 39.0 39.0 39.0 39.1 39,1 39.2 39.2 39.2 39.2 39.2 39.2 39.2 39.2 39.1 39.1 39.1 39.1 39:1 39.2 39.2 39.2 s9.3 39.4 39.5 39.6 39.5 39.4 39.1 38.9 38.8 38.8 Company Station LJnit TimeStamp 0311212025 11:30'.55 O311212025 11:31.Os 0311212025 11.31:1s 0311212025 1'l:31 .25 03/1 2/2025 'l 1:31 :35 O311212025 1 1:31:45 0311212025 11:31:55 0311212025 11:32.Os O311212025 11:32'.15 O311212025 11:32:25 0311212025 11:32:35 0311212025 11.32.45 0311212025 11:32.55 O311212025 11.33:Os 0311212025 11.33:15 0311212025 11:33.25 03/1212025 1 'l:33:35 0311212025 11.33:45 O3l'1212025 11:33:55 03/1 2/2025 1 1:34:05 0311212025 11.34:15 O311212025 11 .34:25 0311212025 11:34:35 O311212025 11:34.45 0311212025 11.34:55 03i 1212025 11:35:05 0311212025 11.35.15 o311212025 11.35.25 03i12/2025 11:35:35 0311212025 11.35:45 0311212025 11:35.55 O311212025 11:36.05 0311212025 11.36:15 03t12t2025 11.36.25 03/1 2/2025 1 1:36:35 0311212025 11:36'.45 03/1 2/2025 1 1:36:55 03t1212025 11.37 .O5 0311212025 11:37.15 0311212025 11.37:25 0311212025 11:37.35 0311212025 11:37.45 03112120?5 11.37.5s 03/1212025 11:38;05 0311212025 11:38.15 0311212025 11:38'.25 o311212025 11.38:35 0311212025 11:38.45 o3t1212025 11.38.55 03/1 2/2025 1 1:39:05 o3112t202s 11.39.1s 0311212025 11:39.25 03/1 2/2025 1 1:39:35 031'1212025 11.39:45 03/1 2/2025 1 1:39:55 0311212025 11.40'.05 O311212025 11.4O:15 O3l'1212025 11:4O.25 03t12t?025 11.40.35 0311212025'11:40:45 o311212025 11.40.55 0311212025 11 .41 .05 0311212025 11:41.'15 0311212025 11:41 25 O311212025 11.41:35 0311212025 11:41 .45 0311212025 11:41:55 o311212025 11..42.05 0311212025 11.42:15 o3112t2025 11.42.25 0311212025 11:42:35 03t12t2025 11.42.45 O311212025 11.4255 0311212025 11.43.05 O311212025 11:43.15 0311212025 11:43.25 o3t1212025 11.43.35 O311212025 11.43:45 03t12t2025 11'.43.55 Altamont LLC Bluebell Gas Plant c-2s3 02_2 9.55 9.59 o a4 9.56 9.57 9.59 9.59 o4? 9.57 9.56 9.54 9.60 9.56 9.57 9.57 9.57 9.55 9.55 9.56 9.54 9.57 9.56 9.56 9.56 9.56 9.56 o (a 9.56 9.58 9.56 9.58 9.56 9.56 9.56 9.59 9.57 9.56 9.56 o <7 9.59 9.61 9.59 9.55 9.56 9.57 9.56 9.56 9.56 9.56 9.58 9.56 9.56 9.59 9.59 9.59 9.58 9.58 9.61 9.57 9.58 9.58 9.56 9.56 9.59 9.56 9.56 9.56 9.57 9.55 9.58 9.59 9.56 oao PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 393 Group name #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 dl Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 6'1 # 1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l # 1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 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 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 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-2 60.22 60.35 60.37 60.08 59.87 59.70 59.52 59.61 59.70 59.65 59.62 59.85 60.01 59.82 59.59 59.08 58.59 58,14 58.23 58.31 58.40 s8.57 58.98 59.43 59.92 60.32 60.57 60.77 60.49 60.30 60.62 60.92 61.'15 61.39 btbt 61.75 61.47 61.20 60.76 60.36 60.06 59.84 60.33 60.73 61.01 61.24 60.96 60.68 60.58 60.37 59.77 59.35 59.77 60.1 0 60.20 60.25 60.14 60.1 6 60.57 60.95 51.26 61.55 61.32 61.1'l 60.92 60.72 60.26 59.82 59 bb 59.56 59.61 59.59 59.79 60.08 60.37 60.71 co_2 't7.2s 17.25 17.25 17 .25 17.25 17.25 17.25 17.25 17.29 17 .31 17 .34 17.38 17.30 17.25 17.25 17.25 17.25 17.2s 17 .25 17.15 17 .13 17.13 17.13 17 .16 17.20 17.25 17 .14 17.13 17 .13 17.21 17.25 17 .13 17 .13 17 .13 .17 .13 17.20 17 .25 '17.30 17.30 17.25 17.25 I l.z5 17.1 9 17 .13 17.17 17 .13 17 .13 17 .13 17.13 17.13 17.14 17 .17 17 .13 17.25 17.15 t/_tJ 17 .13 17 .13 17 .13 17 .13 17.13 17 .13 17 .13 17.13 17 .13 17 .13 t/ tJ 17 .13 17.16 17.26 17.38 '17.38 '17.38 17.38 17.38 17 38 Ambient 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 4e 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 Humidity 38.7 38.7 38.7 38.7 Jd b 38.6 38.5 38.6 38.6 38.6 38.6 38.6 38,7 38.7 38.8 38.9 38.9 38.9 38.9 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39.0 39,0 39.0 10 I 39.'1 39.1 39.2 39.3 39.5 39.7 39.9 39.9 39.9 39.8 39,7 39.5 39.4 39.3 39.2 39.0 38.9 38. I 38.8 38.8 38.8 38.8 38.8 38.7 38.6 38.5 38.5 38.5 38.6 38.6 38.6 38.5 38.5 38.6 38.6 38.6 38.6 38.7 Company Station Unit TimeStamp 0311212025 11:44:05 0311212025 11:44..'15 03l12l2O?5 11:44:25 0311212025 11.44.35 0311212025 11:44:45 0311212025 11:44:55 03/1 2/2025 1 1:45:05 O311212025 11:45.15 o3t1212025 11.45.25 0311212025 11:45.35 03l'1212025 11:45.45 0311212025 11:45.55 o3t12t2025 11.46.05 0311212025'11:46:15 0311212025 11:46.25 0311212025 11:46:35 031'1212025 11:46.45 o3112t2025 11.46.55 o3112t2025 11.47 .0s 0311212025 11:47:15 0311212025 11:47.25 03h212O25 11:47.35 0311212025 11.47:45 0311212025 11:47:55 0311212025 11:48.05 0311212025 11:48.15 0311212025 11.48'.25 0311212025 11.48:35 0311212025 11:48.45 0311212025 11:48.55 03t12t2025 11.49.05 0311212025 11.49.15 0311212025 11.49.25 0311212025 11:49.35 a3t1212025 11 .49.45 03t1212025 11.49.55 0311212025 11.50:05 0311212025 11:50:15 0311212025 11:50..25 0311212025 11:50.35 03t1212025 11.50.45 0311212025 11.50:55 03/'1 2i 2025 1 1 :51 :05 0311212025 11:51.15 o3t1212025 11.51 .25 0311212025 11:51:35 o3t12t2025 11.51 .45 0311212025 11:51:55 0311212025 11:52.05 0311212025 11:52.15 0311212025 11.52.25 0311212025 11.52:35 0311212025 11:52:45 0311212025 11:52:55 0311212025 11:53.05 0311212025 11.53.15 o3t1212025 1',|.53.25 0311212025 11:53:35 0311212025 11.53.45 03/1212025 11:53:55 03t1212025 11.54.05 O311212025 11:54.15 0311212025 11.54:25 0311212025 11'.54.35 0311212025 11:54:45 0311212025 11 .54.55 0311212025 11:55.o5 o3I12t2025 'l1.55.15 0311212025 11:55:25 0311212025 11:55.35 0311212025 11:55..45 0311212025 11:55.55 03i12/2025 11:56:05 03t1212025 11.56.15 0311212025 11:56.25 0311212025 11:56.35 O311212025 11:56.45 0311212025 11:56:55 0311212025 11.57 .O5 Altamont LLC Bluebell Gas Plant c-253 02_2 9.57 9.57 9.56 9,56 9.59 9.62 9.57 9.57 9.56 9.57 9.56 9.56 9.57 9.57 9.56 9.61 9.59 9.53 9.61 9_60 9.59 9.59 9.60 9.57 9.58 9.57 9.61 9.60 9.60 9.59 9.62 9.60 9.58 9.59 9.51 9.58 9.56 9.58 9.58 9.58 9.57 9.61 9.60 9.59 9.61 9.60 9.63 9.59 9.61 9.59 9.58 9.59 9.59 9.59 9.60 9.58 9.60 9.58 9.58 9.62 9.59 9.57 9.59 9.60 9.59 9.61 9.57 9.59 9.58 9.56 9.56 9.57 9.58 9.58 9.56 9.58 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 394 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 # l Test Run - 51 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'1 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6.1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 NOX-2 61.19 61.15 61.01 61.34 61 .66 61.81 61.90 61 .71 bt-5 I b I u9 60.86 61.11 61.32 61.42 61.50 61.69 61.81 61.68 b l.iz 61.15 60.77 60.35 60.05 60.1 0 60.09 60.06 60.08 60.43 60.71 60.7 4 60.78 60.68 60.58 60.40 60.23 60.09 59.94 60.02 60.09 59.94 59.87 50.1 4 60.39 60.48 60.58 60.79 60.95 60.83 60.64 60.24 59.98 60.06 60.1 2 60.32 60.44 60.28 60.22 60.44 60.56 60.44 60.32 60.1 9 60.07 60.00 59.92 60.02 60.04 59.86 59.62 5S.24 58.98 59.02 59.01 59.1 4 59.29 59.52 59.82 60.57 co_2 17.38 17.48 1 7.38 17.38 17.30 17.25 17.25 17.25 17.25 17.31 17.38 1 7.33 17.38 17 .31 17 .34 17.38 17.25 17.25 17.25 17.25 17.25 17,25 17.25 17.25 17.25 17.25 17.25 17.25 17.25 t t.za 17.25 17 .25 17 .25 17.25 '17 .21 17 .16 17.25 17 .25 1a )q 17.15 17 .13 17 .13 17 .',t3 17.13 17.13 17 .13 17.1 3 17 .13 17 .',t3 17.13 17 .13 17.05 17.O',\ 17 .13 17.13 17 .13 17 .13 17.13 17 .13 17.13 17 .13 17.15 17.25 17 .13 17 .13 17 .13 17.02 't7.01 17 .13 17 .13 17 .13 17 .13 17 .13 17 .13 17.13 17 .13 Ambient 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 Humidity 38.7 38.7 38.7 38.7 38.7 38.6 38.6 38.5 38.4 38.3 38.3 38.2 38.1 38.1 38.0 37.8 37.7 37.6 37.4 37.5 J /.5 37.4 37.3 37.1 37.0 s6.9 36. I 36.8 36.8 36.7 36.6 36.6 36.6 36.6 36.6 36.6 36.6 36.5 36.5 36.5 36.5 36.4 36.4 36.3 36.2 36.2 36.2 36.2 36.2 JbJ 36.4 36.5 36.5 36.6 JO. / 36.8 36.8 36.8 36.8 36.8 36.7 36.6 36.6 36.5 36,5 36.5 36.4 36.4 36.4 36.4 36.3 36.2 36.2 35 1 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 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 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp 0311212025 11:57.15 0311212025 11:57.25 0311212025 11:57.35 0311212025 11.57:45 03112t2025',t1'.57:55 03/1212025 11:58:05 A311212025 11:58.15 0311212025 11.58:25 03/1212025 '1 1:58:35 0311212025 11:5A 45 03112t2025 11.5A 55 03/1212025 11:59:05 0311212025 11.59:1s 0311212025 11'.59:25 03/1212025 '1 1:59:35 0311212025 11.s945 03/1 2i2025 1 1:59:55 0311?12025 12.00.Os 0311212025 12:00.15 0311212025 12:OO.25 03112t2025 12.00.3s o311212025 12.00:45 03112t2O25 12:0O.5s 0311212025 12:01.05 0311212025 12.01.15 0311212025 12.01:25 O311212025 12 01:35 0311212025 12:01.45 0311212025',|2.01'.55 o311212025 12 02 05 0311212025 12.02:'15 03l'1212025 12.02.25 0311212025'12:02.35 03t12t2025 12.02.45 03l'1212025 12.02:55 031121202s 12'.03.O5 o3112t2025 12 03 15 0311212025 12.03.25 0311212025 12.03:35 0311212025 12.03.45 0311212025 12:03.55 0311212025 12.04:Os 0311212025 12.04:15 0311212025 12:04.25 0311212025 12.04.35 0311212025 12.04:45 0311212025 12'.04:55 0311212025 12:05'.05 0311212025 12.05:'15 03112t2025 12.05.25 03112t2025',t2.05.35 Average 0311212025 12:08.56 0311212025 12:09.06 0311212025 12:O9.16 O311212025 12 09:26 0311212425 12.09:36 03112t2025 12.09,46 Average 0311212025 12.11:36 0311212025 12:11:46 0311212025 12'11.56 0311212025 12.12'.06 0311212025 12.',tz:16 0311212025 12:'12:26 Average O311212025 12.14:46 O311212025 12:14.56 03t1212025 12.15.06 0311212025 12.15:16 0311212025 12.15:26 0311212025 12.15:36 Average Altamont LLC Bluebell Gas Plant a aql 02_2 9.58 9.60 9.56 9.57 9.56 9.56 9.55 9.55 9.57 9.56 9.58 9.54 9.56 9.54 9.57 9.56 o Eo 9.57 9.58 9.58 9.56 9.56 9.56 9.59 9.58 9.b I 9.5S 9.61 9.59 9.58 9.59 9.59 9.59 9.60 9.61 9.61 9.59 9.62 9.61 9.63 9.58 9.59 9.61 A A' O E? 9.60 9.59 9.57 0.00 0.00 0.02 0.00 0.01 0.01 0.01 '10.63 10.64 10.61 10.63 10.63 10.63 1 0.63 0.01 0.0'l 0.00 0.02 0.00 0.02 0.01 NOX.2 61.25 61.66 61.99 61.86 61.73 61.27 60.94 61.30 61.63 62.1 0 62.56 63.06 63.46 63.35 63.26 oJ I O 63.05 63.06 63.06 63.08 63.1 5 63.32 63.43 63.33 63.25 63.22 63.1 6 63.04 62.93 62.72 62.50 62.44 62.35 62.17 62.00 61.57 o t.z5 61 .54 61.72 61.71 61.67 61.11 60.64 60.70 60.67 60.3 1 60.05 59.92 59.79 59.59 59.5.1 60.60 94.70 94.58 94.52 94.50 94.48 94.42 94.53 40.89 35.1 0 25.40 26.44 ZJ.IJ 20.67 29.27 2.85 2.32 2.00 1.69 1 .51 1.35 1.95 co_2 17 .13 17.13 17 .13 17 .13 't7 .17 17.25 17 .25 17.25 17.25 17.25 17 .25 17.25 17 .16 17 .14 17 .25 17.14 17 .13 17.13 't7 .13 17.13 17.13 17 .'13 17 .13 17.13 17 .13 l/.lJ 17 .13 't7.13 17.14 17 .25 17.25 17 .25 17.25 17.25 17.25 17 .25 17.25 17 .25 17 .25 17 .25 17.25 17 .34 17 .27 17.27 17.25 '17.25 17.17 17 .25 17.19 1.54 1.54 1.56 1.s7 1.58 1.60 1.57 6.56 6.32 o.uz 5.56 5.20 4.96 5.77 99.25 99.50 99.50 99.50 99.50 99.46 Ambient 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 5't 51 51 5'1 51 51 51 51 51 51 51 51 51 51 51 51 JI 5l 51 48 51 5'l 51 51 5'1 51 51 51 51 51 51 51 51 51 51 52 52 51 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.31 24.31 24.30 24.31 24.31 24.31 24.31 24.31 24.31 24.31 Humidity 36.1 Jb. I JO. I 36.2 36.2 36.3 36.3 36.4 36.5 36.5 36.4 36.4 36.4 36.4 36.4 36.3 36.3 36.3 36.3 36.3 JbJ 36.3 36.3 36.3 36.3 Jb.J 36.2 36.0 35.9 35.8 35. I 35.6 35.4 35.1 35.0 34.9 34,8 34.7 34.6 34.6 34.5 34.5 34.4 34.4 34.4 34.4 34.4 34.5 34.5 38.4 34.3 34.3 34.3 34.4 34.6 34.8 34.4 35.0 35.0 35,0 35.1 35.1 34.8 34.4 33. I 33.6 33.4 33.9 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #.1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 51 #1 Test Run - 61 #'1 Test Run - 61 #1 Bias Check #'1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #'1 Bias Check # 1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check Run name Test Run Test Run Test Run Test Run Test Run Te6t 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 Tesl 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 Test Run Test Run Test Run Test Run Test Run Test Run NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias 395 Company Station Unit TimeStamp 0311212025 12.20:44 0311212025 12:20:54 03t12t2025 12.21.O4 0311212025 12.21.14 0311212025 12:21:24 0311212025 12.21.34 031'1212025 12.21:44 0311212025 1?:21:54 0311212025 12.22.04 o311212025 12.22:'14 0311212025 12:22:24 0311212025 '12:22:34 o3t't212025 12.22.44 0311212O25 12:22:54 0311212025 12:23.o4 O311212025 12.23:14 0311212025 12:23:24 0311212025 12:23:34 0311212025 12.23.44 o311212025 12:23:54 0311212025 '12:24.04 0311212025 12.24.14 0311212025 12.24:24 O311212025 12:24.34 0311212025 12.24.44 03112120?5 12:24:54 0311212025 '12:25.O4 03l1?12025 12.25.14 o311212025 12.25.24 o311212025 12.25.34 0311212025 12.25.44 0311212025 12'.25:54 O311212025 12:26.04 0311212025 12:26.14 o311212025 12.26.24 0311212025 12.26.34 0311212025 12:26:44 03t1212025 12.26.54 0311212025 12.27:04 O311212025 12:27.14 o311212025 12.27.24 0311212025 12:27:34 0311212025 12:27.44 o311212025 12.27:54 0311212025 12:28:04 o311212025 12:2a14 o311212025 12.28.24 0311212025 12.28:34 0311212025 12.28.44 0311212025 12.2854 O311212025 12.29:04 0311212025 12.29:14 0311212025 12:29:24 o311212025 12.29.34 0311212025 12.29:44 0311212025 12:29.54 O311212025 12:30.O4 o311212025 12:30.14 0311212025 12:30.24 O311212025 12:30.34 O311212025 12:3O.44 0311212025 12.30:54 0311212025 12:31.04 0311212025 12:31.14 0311212025 12:31:24 0311212025 12.31:34 0311212025 12:31:44 0311212025 12:31'.54 0311212025 12.32:04 03t1212025 12.32.14 O311212025 12:32.24 0311212O25 12:32:34 0311212025 12.32:44 0311212025 12.32:54 03h212025 12:33.04 0311212025 12:33'.14 0311212025 12.33'.24 0311212a25 12.33:34 03t1212025 12.33.44 Altamont LLC Bluebell Gas Plant c-253 02 2 Nox_2 9.59 9.61 9.60 9.59 9.59 9.58 s.61 9.61 9.61 9.57 9.61 9.60 9.57 9.60 9.58 9.60 9.56 9.59 9.60 Y_O I 9.60 9.59 9.61 9.59 9.58 9.64 9.60 9.59 9.59 9.61 9.59 9.62 9.62 9.61 9.63 9.61 9.60 9.63 9.61 9.63 9.63 9.62 9.66 9.64 9.61 9.62 9.64 9.63 9.63 9.61 9.62 9.53 u. bb 9.62 9.61 9.61 v bJ 9.62 9.63 9.61 9.63 9.6'1 9.63 9.60 9.64 9.63 9.63 9.62 s.63 9.64 9.64 9.64 9.61 9.64 9.64 9.60 60,27 60.51 60.51 60.59 60.94 61.23 61.08 60.98 60.85 60.76 61.02 b t. tJ 60.92 60.76 60.66 60.66 61.27 61.81 62.22 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Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 51 #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 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 Test Run Tesl 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 Tesl 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 Tesl 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 398 Company Station Unit TimeStamp 0311212025 13:00:14 0311212025 13.00.24 0311212025 13:00'.34 0311212025 13OA44 0311212025 13:00:54 0311212025 13.01.O4 o3112t2025 13'.01.14 03112t2025 13:O1.24 0311212025 13:o1:34 0311212025 13.01:44 03t12t2025 13.01.54 0311212025 13:O2'04 0311212025 13:02:14 O311212025 13.02:24 03l1?t2025 13.02.34 0311212025 13'.02.44 031'1212025 13:02:54 O311212025 13.O3:O4 03/1212025 13:03:14 0311212025 '13.03:24 0311212025 13:03.34 0311212025 13:03.44 o311212025 13.O3.54 03112t2025 13'.O4.O4 0311212025 13.0414 0311212025 13:04 24 0311212025 13.O4.34 0311212025 13.04:44 03112t2025 1304.54 0311212025 13.05.04 O311212025 13.O5:14 4311212025 13.05.24 0311212025 13.05.34 03112t2025 13.05.44 0311212025 13.05:54 03i '1212025 13:06:04 0311212025 1306.14 0311212025 13:06:24 O311212025 13:06.34 03t1212025 13.06.44 03t12t2025 13.06.54 0311212025 13:07:o4 0311212025 13:07.14 0311212025 13.O7.24 0311212025 13:07:34 03112120?5 13:o7:44 03112t2025 13.07.54 03t12t2025 13.O8.04 0311212025 13:08:14 0311212025 13:0824 03/1212025 13:08:34 o311212025 13.O8.44 0311212025 13:08:54 03/1212025 13:09:04 o311212025 13.09.14 03l'1212025 13:09:24 0311212025 13:O9:34 0311212025 13:O9.44 o311212025 13.09.54 o3l1?t2025 13.10:A4 03112120?5 13:1O:14 0311212025 13.1024 03t1212025 13.10.34 O311212025 13.10:44 03112120?5 13:10.54 0311212025 13:11.04 o3t'12t2025 13.11:14 0311212025'13.11:24 o311212025 13.11.34 0311212025 13:11.44 o3t12t2025 13.11'.54 o3l't212025 13.12.04 0311212025 13.12:14 0311212025 13:12.24 03t12t2025 13.12.34 0311212025 13.12:44 0311212025 '13.12:54 0311212025'13:13.o4 03t12t2025 13.13.14 Altamont LLC Bluebell Gas Plant 02_2 9.63 9.63 9.66 9.63 9.66 9.64 9.53 9.65 9.63 9.64 9.63 9.62 9.63 9.61 9.63 9.61 9.63 9.61 9.64 9.63 9.65 9.63 9.6'1 9.65 9.64 9.62 9.64 9.63 9.64 9.63 9.6'1 9.63 9.63 9.65 L63 9.64 9.61 9.63 9.63 9.63 9.63 v_b I 9.64 9.60 9.63 9.61 9.61 9.60 9.59 9.60 9.61 9.59 9.59 9.59 s.58 9.60 9.59 9.62 9.59 9.63 L60 9.59 9.60 9.60 9.63 9.61 9.63 9.61 9.64 9.60 9.61 9.60 9.62 9.60 9.61 9.63 9.63 CO 2 Ambienl 17 .14 17 .19 17 .13 17.13 17 .13 17.06 17 .13 17.13 17 .13 17 .13 17 .13 17.13 17 .13 17 .13 17 .13 1 7.08 17.00 17.00 17.00 '17.00 17.O0 17.00 17.08 17 .13 17 .13 17 .13 17.13 17 .13 17 .13 17 .13 17.13 17.13 17.13 17 .13 17 .13 17 .13 17 .O1 17 .00 17.OO 17.00 17 .00 17.00 17.00 16.88 16.83 '16.75 '16.75 16.77 16.88 16.88 16.96 16.89 16.92 1 6.99 '17.00 17.00 17.00 1 6.99 1 6.94 16.88 1 6.88 16.94 1 7.00 '17.00 17.00 17 .00 17 _00 17.00 17.00 1 7.00.17.00 17.00 17.00 17.06 17.00 1 7.00 1 7.00 17.00 17.00 PBaro 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 399 Group name #2 Test Run - 61 #2 Test Run - 6.1 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6 1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 Run name 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 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 Tesl 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 Tesl 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 NOX_2 60.27 60.1 8 60.07 59.75 59.46 59.36 59.27 59.24 59.24 59.35 59,52 60.1 6 60.75 61 .14 61.59 63.53 63.83 64.1 1 64.24 64.40 64.40 64.33 64.28 64.21 63.80 63.46 63.28 OJ IJ 63.1 3 63.1 0 62.32 61.99 61.75 61.89 62.01 62.33 62.60 62.27 62.05 bz. tJ 62..18 62.17 62.1 8 62.23 62.29 62.69 63.01 63.20 63.4'1 63.64 63.91 64.38 64.85 65.38 65.82 66.28 66.65 66.50 66.56 66.38 66.24 66.'l I 66.07 65.t2 65.47 65.40 65.30 65.37 65.42 65.24 65.09 64.96 64.72 64.19 63.66 63.60 63.58 54 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 Humidity 30.5 30.6 30.5 30.4 30.4 30.3 30.2 30.0 29.8 29.6 29.6,o q 29.6 29.6 29.5 29.5 29.4 29.3ada 29.2 29.2 29.2 29.2 . 29.3 29.3 29.4 29.5 29.6 29.7 29.7 29.7 29.7 29.7 29.7 29.8 29.9 30.0 30.1 30,2 30.3 30.3 30.3 30.4 30.4 30.4 30.2 29.9 29.5 29.3 29.1 29.0 29.0 29.0 29.0 29.0 29.1 29.1 29.1 29.O 29.O 29.0 29.O 29.1 29.3 29.4 29.4 IYJ 29.0 28.8 28.6 28.5 28.s 28.4 28.4 28.4 2A4 Company Station Unit TimeStamp 0311212025 13.13:24 0311212025 13.13:34 0311212025 13.13:44 0311212025 13'.13.54 0311212025 13:14.O4 0311212025 13.14:14 03t12t2025 13.14.24 0311212025 131434 0311212025 13.14:44 0311212025 13.14:54 0311212025 13.15:o4 0311212025 13:15:14 0311212025 13:15:24 03t12t2025 13.15.34 0311212025 13.15.44 0311212025 13.'15:54 0311212025 13.16:04 03112120?5 13:16:14 0311212025 13:16:24 0311212025 13:1634 0311212025 13:16'.44 0311212025 13:16:54 0311212025 13:17:04 0311212025 13.17:14 0311212025 13:17:24 0311212025 13:17:34 0311212025 13:17.44 0311212025 13:17.54 03112t2025 13.1804 0311212025 13:18.14 0311212025 13:18.24 O311212025 13 18:34 0311212025 13 18:44 031121202s 13 18:54 0311212025 13.19:O4 03112t2025 13.19.14 03t12t2025 13.19.24 0311212025 13:19.34 O3h2l2O25'13:19 44 03t12t2025 13.19.54 0311212025 13.20:04 O311212025 13.2O:14 0311212025 13.20:24 0311212025 13'.20:34 0311212025 13'.20:44 0311212025 l3:2o.54 0311212025 13:21.o4 0311212025 13:21.14 0311212425 13:21.24 0311212025 13:21.34 Average 0311212025 13.24:41 0311212025 13:24:51 0311212025 13.25:0'l 0311212025 13.25:11 0311212025 13:25.21 0311212025 13:25.31 Average 0311212025 13:26.18 o311212025 13:25:28 0311212O25 13.26:38 0311212025 13.26:48 0311212025 13:26.58 0311212025 13.27:08 Average 0311212025 13.29:49 03t1212025't3.29.59 03/1212025 13:30:09 03/12i2025 13:30:19 0311212025 13:30:29 o311212025 13:3o.39 Average o311212025 13.36'.32 0311212025 13:36:42 0311212025 13:36:52 Altamont LLC Bluebell Gas PIant c-253 02_2 9_b I 9.64 9.64 9.63 9.63 9.63 9.63 9.62 9.61 9.66 9.64 9.65 9.61 9.64 9.59 9.61 9.62 9.61 9.61 9.61 9.61 9.62 9.63 9.64 9.61 9.63 9.63 9.61 9.66 9.63 9.60 9.63 9.63 9.6'1 9.63 e.61 9.66 9.64 9.64 9.65 9.66 9.64 9.65 9.65 9.64 9.61 9.66 9.64 9.67 9.64 9.62 0.02 0.03 0.02 0.03 0.01 0.03 0.02 10.85 1 0.88 1 0.92 1 0.89 10.92 10.93 1 0.90 0.02 0.02 0.03 0.0'l 0.02 0.02 0.02 9.64 9.66 9.66 NOX-2 63.81 64.08 64.51 64.94 OJ- IU 65.1 I 64.59 64.07 63.76 63.46 63.12 62.89 62.95 62.94 62.92 62.95 62.98 63.09 63.92 64.61 64.89 65.23 65.27 65.31 65.4'1 65.47 6 5.55 65.65 65.74 6 5.87 65.88 6 5.82 65.74 65.69 65.59 65.46 b5.ld 65.1 1 64.99 64.90 64.94 64.97 65.08 65.11 64.7A 64.5 1 64.06 63.64 63.54 63.58 61.85 95.44 95.52 95.41 95.36 95.45 95.50 95.45 95.07 95.04 93.20 84.21 IJIJ 53.36 82.36 1.30 1.22 '1.18 1.12 1.08 1.05 ''t.1 6 63.78 63.65 63.51 co_2 1 7.00 1 7.06 17 .13 17.01 17 .10 17.00 17.00 17.00 17.00 17.00 17.00 17.00 '17.00 17.00 17.06 17.09 17.11 17.00 17.00 17.00 17.00 17.00 't7.00 17.O4 17.13 17.13 17 .13 17.13 17 .13 17 .13 17.13 17.06 17.00 1 7.00 1 7.00 17.00 17.00 1 7.00 1 7.00 17.00 17.00 17.00 17.00 17.10 17.13 17.13 17.05 17.00 1 7.00 17.00 17.13 t.o/ 1.67 1.69 1.70 1.70 1.69 1.69 1.97 2.06 2.03 1.87 1.58 1.41 't.82 99.50 99.50 99.50 99.50 99.50 99.50 17,09 17.1 3 17 13 Ambienl 55 55 55 55 55 55 55 55 55 55 55 56 56 56 56 55 56 56 56 56 56 56 56 5b 56 56 5b 56 56 5b 56 56 56 56 56 56 56 56 56 56 56 56 56 56 54 56 56 56 56 56 56 56 56 56 56 56 56 56 56 '56 56 56 56 56 56 56 57 57 PBaro ?4.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24,30 24.30 24.34 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.30 24.29 24.30 24.30 Humidity 28.6 28.6 28.7 28.7 28.8 28.9 29.O 29.1 29.2 29.2 29.2 29.1 29.1 29.0 29.0 29.0 29.0 29.0 29.0 29.O 29.0 29.0 29.1 25.2 29.2 29.4 29.9 30.1 30.3 30.5 30.6 30.6 30.6 30.6 30.5 30.2 30.0 29.8 29.7 29.7 29.7 29.7 29.8 29.9 29.9 29.7 29.7 29,7 29.7 31.4 28.O 27.8 27.7 27.6 27.8 27.4 27.4 27.4 27.5 27.6 27.5 28.4 28.5 28.5 28.5 28.4 28.4 28.4 29.4 29.4 29.4 Group name #2 Test Run - 51 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 51 #2 Test Run - 6'l #2 Tesl Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Baas Check #2 Baas Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 Run name 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 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 Tesl 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 NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_'1 Bias O2_1 Bias O2_1 Baas O2_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_1 Bias CO_'l Bias Test Run Test Run Test Run 400 Company Station Unit TimeStamp 03112t202s 13.37.02 o3I1212025 ',t3.37.12 0311212025 '13:37.22 0311212025 13:37:32 O311212025 13:37:42 031121?025 13.37:52 0311212025 13.38:02 03l1?t2025',t3.38.12 O311212025 13:38.22 0311212025 13'3A 32 0311212025 13.38:42 0311212025 13:38:52 0311212025 13 39 02 031121202s 13.39.12 0311212025 13:39.?2 0311212025 13:39.32 0311212025 13:39:42 0311212025 13.39:52 O311212025 13:40:02 03112120?5 13.40:12 0311212025 13:40.22 03I1212025',t3.40,32 0311212025 13:40.42 0311212025 13:40:52 0311212025 13.41:O2 031'12/2025 13.41.12 03I12t2025 ',t3.41.22 0311212025 13:41'.32 0311212025 13:41:42 0311212025 13:41:52 0311212025 13.42:02 o3l't2t2025 13.42.12 0311212025 13'.42.22 03t12t2025 13 42.32 0311212025 13:42:42 0311212025 13.42:52 03112t2025 13.43.02 0311212025 13:43.12 0311212025 13:43:22 0311212025 13:43:32 0311212025 13.43.42 03112t2025 13.43.52 03l12t2025 ',t3.44.02 O311212025 13:44:12 o311212025 13 44 22 0311212025 13:44.32 o311212025 13.44.42 O311212025 13:44.52 0311212025 13:45:02 0311212025 13.45.12 0311212025 13.45.22 0311212025 13.45:32 0311212025 13'.45'.42 o3112t2025 13.45.52 0311212025 13:46:02 0311212025 13.46:'12 0311212025 13.46.22 0311212025 13.46.32 o311212025 13.46.42 0311212025 13:46:52 0311212025 13:47:02 0311212025 13.47:12 0311212025 13.47.22 0311212025 13.47.32 0311212025 13:47.42 0311212025 13.47:52 0311212025 13:48:02 0311212025 13.48.12 o3l1?12025 13.48.22 03t12t2025 13.48.32 0311212025 13:48:42 0311212025 13.48:52 0311212025 13.49:02 o3t12t2025 13.49.12 o311212025 13.49.22 0311212025 13.49.32 0311212025 1349.42 0311212025 13:49.52 0311212025 13.50:02 Altanront LLC Bluebell Gas Plant 02_2 9.64 9.65 9.64 9.63 9.66 9.63 9.66 9.64 9.61 9.66 9.68 9.63 s.64 9.63 9.64 9,65 9,67 9.64 9.64 9.64 9.66 9.65 9,65 9.63 9.66 9.67 9.65 9.63 9.62 9.63 9.65 9.64 9.63 9.68 9.65 9.68 9.66 9.67 9,66 9.64 9,66 9.66 9.66 9.63 9.66 9.66 9.64 9.66 9,66 9.66 9.67 9.65 9.66 9.68 9.68 9.67 9.64 9.62 9.64 9.63 9.64 9.63 s.65 9.64 9.63 9.66 s. bb 9.65 9.67 9.67 9.64 9.66 9.65 9.69 9.68 NOX-2 63.07 62.65 62.29 61.90 61.47 61.10 61.01 60.95 61.24 61.46 6 1.36 61.40 61 .57 61 .71 '62.02 62.31 62.38 62.48 62.52 62.61 63.07 63.32 63.25 63.25 63.02 62.82 bZ.U5 63.03 63.03 63.04 62.92 62.85 62.88 62.87 62.87 62.89 62.99 63.03 62.84 62.61 62.35 62.17 bz_ t5 61.96 b t.60 61.90 6'1 .96 62.22 62.46 62.70 62.98 63.47 63.88 63.84 63.86 64.19 64.47 64.22 64.05 63.98 63.91 63.95 64.06 64.64 65.19 65.63 66.04 66.33 66.49 bb_lu 65.96 65.77 65.57 65.73 65.86 65.67 65.41 64.99 ca_2 17 .13 17.05 17.00 17 .00 1 6.99 16.88 16.88 16.88 16.88 1 6.95 17.00 17.00 17.00 17.00 17.00 '17.00 17.00 17.00 17.00 17.00 17.00 17.00 1 7.00 17 .00 17.00 17.05 17 .'13 17.13 17.13 17 .13 17.13 17.13 17 .13 17.13 17.13 17 .13 17.00 17 .00 17.06 17 .13 17 .13 17 .13 17 .01 17.00 1 7.00 17.00 17.00 17 .00 17.00 17.O0 17.00 17.00 17.05 17 .13 17 .13 17 .13 17 .13 17 .13 't7.13 17.13 17 .13 17.24 17.25 17.25 17.25 17.25 17.25 17.25 17.25 17.25 17.13 17 .21 17.25 17.25 17.25 17 .25 17.25 17.25 Ambient 57 57 57 57 57 5/ 57 57 57 57 57 57 57 57 ta 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 s7 57 57 57 58 58 58 58 58 58 58 58 58 58 58 58 PBaro 24.30 24.30 24.30 24.2s 24.29 24.29 24.29 24.29 24.29 24.29 24.2s 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.30 24.29 24.29 24.29 24.29 24.30 24.30 24.30 24.30 24.30 24.30 24.29 24.30 24.30 24.29 24.29 24.29 24.29 24.30 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.30 24.30 24.29 24.29 24.29 24.30 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.30 24.30 24.30 24.30 24.29 24.29 24.29 Humidity 29.0 28.8 28.5 28.2 28.O 27.6 27.4 a1 a 27 .1 27.1 27.1 27.1 aaa 27.2 27.2 27.1 26.9 26.7 26.6 26.5 26.5 26.5 26.4 26.2 26.1 26.1 26.0 26.0 26.0 26.0 26.0 26.'l 26.3 26.4 to_5 26.2 26_0 25.9 25.8 25.7 25.7 25.7 25.8 25.8 25.9 2b.u 26.0 26.1 26.3 26.3 zb.J 26.3 26.2 26.O 25.9 25.7 25.7 25.1 25.O 24.9 24.7 24.7 24.8 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 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 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 Tesl 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 Tesl Run 401 Company Station Unit TimeStamp 0311212025 13:50:12 03t12t2025 13.50.22 o3t1212025 13.50.32 0311212025 13:50.42 0311212025 13:5o:52 0311212025'13.51:02 03t12t2025 13.51.12 o311212025 13.51.22 0311212025 13:51:32 0311212025 13.51:42 03112t2025 13.51.52 03112t202s 13.52.02 0311212025 13:52:12 0311212025 13:52:22 0311212025 13.52.32 0311212025 13:52:42 03112120?5 13:52:52 0311212025 13..53:02 0311212025 13.53.12 0311212025 13:53:22 0311212025 '13:53.32 o311212025 13:53.42 o3t12t2025 13.53.52 0311212025 13.54:02 0311212025 '13:54.12 o311212025 13.54.22 0311212025 13.54:32 0311212025 13:54.42 03t1212025 13.54.52 0311212025 13:55:o2 0311212025 13..55.12 o3t12t2025 13.55.22 0311212025 13:55.32 03t12t2025 13 55.42 o3t1212025 13.55.52 0311212025 1356.02 0311212025 13.56:12 0311212025 13:56.22 0311212025 13:56.32 03t1212025 13.56.42 0311212025 13.56:52 0311212025 13:57:02 O311212025 13:57.12 o3t1212025 13.57.22 o311212025 13.57:32 0311212025 13.57:42 0311212025 13:57.52 0311212025 13:58.02 03t12t2025 13.58.12 03112120?5 13.58:22 0311212025 13:58:32 o3l1?12025 13.58.42 o311212025 13.58.52 o3l't212025 13.59:02 0311212025 13:59:12 0311212025 13:5922 O3h212025 13:59.32 o3112t2025 13.59.42 0311212025 13.59:52 0311212025 '14:00:02 O3l'1212025 14:0O.12 0311212025 14.OO.22 0311212025 14.00:32 0311212025 14"00:42 O311212025 14:00:52 0311212025 14:01:02 o3l't212025 14.O1.12 0311212025 14'.01:22 0311212025 14:01:32 0311212025 14:01.42 O311212025 14:01:52 o3l'tz2025 14.02.O2 0311212025 14.02.12 o311212025 14.O2.22 o311212025 14:02:32 O311212025 14:02:42 0311212025 14.02.52 0311212025 14.03.02 03112t2025 14.O3.12 Altamont LLC Bluebell Gas Plant c-253 02_2 9.68 9.66 9.67 9.68 I b/ 9.69 9.68 9.70 9.67 9.66 9.66 9.68 9.64 9.64 9.64 9.67 9.69 9.65 9.68 9.66 9.68 9.67 9.66 9.68 9.66 9.65 9.64 9.68 9.66 9.66 9.63 9.64 9.63 9.61 9,64 9.61 9.63 9.64 9.63 9.67 9. bb 9.65 9.64 9.64 9.67 9.57 9.69 9.63 9.69 9.68 9.68 9.65 9.68 9.66 9.67 9.65 9.65 9.68 9.65 9.63 9.69 9.67 9.63 9.64 9.63 9.64 9.63 9.62' 9.63 9.64 9.66 9.62 9.66 9.64 9.61 9.66 L63 9.64 961 PBaro Humidity 24.29 24.924.29 25.024.29 25.124.29 25.124.29 25.224.29 25.324.29 25.324.?9 25.324.29 25.424.29 25.624.29 25.724.29 25.724.29 25.824.25 25.824.29 26.024.29 26.124.29 26.124.30 26.024.29 25.824.29 25.724.29 25.624.29 25.524.29 25.524.29 25.724.29 25.824.29 25.924.29 25.824.29 25.824.29 25.724.29 25.724.29 25.724.29 25.824.29 25.824.29 25.8 aAao ,<a 24.29 25.824.29 25.824.29 25.824.29 26.024.29 26.124.29 26.124.29 26.124.29 25.924.29 25.724.29 25.624.29 25.524.29 25.424.29 25.324.29 25.224.29 25.224.29 25.224.29 25.224.29 25.324.29 25.524.29 25.624.29 25.724.29 25.824.29 25.924.29 25.924.29 26.024.29 26.124.29 26.124.29 26.224.29 26.224.29 26.224.29 26.224.29 26.124.29 26.024.29 25.924.29 25.924.29 25.924.29 25.924.29 26.124.29 26.124.29 26.224.29 26.224.29 26.124.29 26.124.29 26.1 402 NOX_2 64.70 64.69 64.63 64.50 64.3 1 63.96 bJ_59 63.46 63.35 63.22 63.04 62.93 62.90 62.94 62.98 63.03 63.12 bJ_tl 62.93 dldt 62.74 62.65 62.71 62.89 63.01 63.1 8 bJ.J I 63.36 63.42 63.42 63.43 63.44 63.50 63.84 64.27 64.96 65.55 65.82 66.1 6 66.59 66.88 66.58 66.28 65.87 65.45 65.36 65.24 65.1 3 64.94 64.29 63.75 63.59 63.43 63.44 63.38 63.00 62.65 62.34 62.05 62.35 bt.62 62.82 62.98 62.83 62.7 5 63.22 63.60 63.76 63.96 54.35 64.66 64.59 64.53 64.43 64.3 1 64.22 64.2 5 co_2 17.25 1 7.36 17.38 17 .31 17 .25 17.25 17.25 17 .25 17.25 17.25 17.25 17.25 tt l5 17.25 17 .2s 17.25 17.25 17.15 17.25 17 .25 17 .25 17.25 17 .25 17 .25 17.25 17.31 17.34 17 .25 17 .25 17.15 17 .13 17 .13 17 .13 17 .13 17,13 17 .13 17.13 17 .17 17.25 17.25 17.24 17 .16 17 .19 17.16 17.25 17 .25 tt.l5 17.25 17.25 17.35 17.29 17 .25 17.25 17.25 17.25 17.25 17.25 17.25 't7.25 17.16 17 .13 17 .16 tt la tt_za 17.25 17 .25 17.14 17 .13 17 .13 17.13 17.13 17 .13 17 .13 17 .13 17 .13 17.13 17 .13 Ambient 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Tesl Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 d3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 l #3 Test Run - 6.1 #3 Tesl Run - 61 Run name 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 Tesl 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 fest Rrn 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Company Station Unit TimeStamp 0311212025 14.03.22 0311212025 14:03,32 0311212025 14.03:42 0311212025 14:03:52 o3t1212025 14.O4.O2 0311212025 14.04.12 0311212025 14:04:22 0311212025 '14:04.32 0311212025 14:O4.42 0311212025 14:O4'.52 0311212025 14 05'02 0311212025 14.05:12 o311212025 14:05:22 031'1212025 14:O5.32 031'1212025 14:O5.42 0311212025 14.05:52 0311212025 14:06:02 0311212025 14.06.12 0311212025 14:06 22 0311212025 14:OB 32 0311212025 14.06:42 O311212025 14.06:52 0311212025 14 07 02 O311212025 14:O7.12 031't212025 14.07 "220311212025 14.07:32 O311212025 14:O7 42 o311212025 14.07.52 o3112t2025 14.08.02 03t'tz2025 14.O8:1? 0311212025 14.08:22 03112t2025 14.08:32 0311212025'14:08:42 03112t2025 14.O8.52 o3112t2025 14.09.02 0311212025 14.O9:12 0311212025 14:0922 o3t't2t2025 14.O9.32 031'1212025 14.09:42 03t1212025 14.09.52 0311212025 14:1o.02 0311212025 14.10.12 0311212025 14.10:22 0311212025 14'.1O:32 0311212025 14:10.42 o3112120?5 14.10.52 0311212025 14.11:02 0311212025 14.11:12 o311212025 14.11:22 o311212025 14.11:32 O311212025 14.11:42 0311212025 14.11:52 0311212025 14.12.02 0311212025 14:12:12 03l1212025 14.'t2'.22 0311212025 14.12:32 0311212025 14.12.42 03l'1212025 14:12.52 O311212025 14:13.O2 0311212A25 14:13.12 0311212025 14.13:22 0311212025 14.13.32 0311212025 14:13.42 0311212025 14 13:52 O311212025 14.14:02 03112t2025 14.14.12 0311212425 14.'14:22 0311212025 14.14.32 0311212025 14.14:42 0311212025 14 14:52 o311212025 14.15.O2 0311212025 14:15.'12 03t12t2025 14.15.22 o311212025 14 15.32 O311212025 14.15:42 03112t2025 14.15.52 0311212025 14:16.O2 0311212025 14:16.12 o311212025 14.16.22 Altamont LLC Bluebell Gas Plant c-253 02_2 9.63 9.65 9.63 9.63 9.64 9.64 9.67 9.65 9.65 9.65' 9.64 9.63 9.64 9.65 u. bb 9.64 9.63 9.66 9.69 9.64 9.66 9.64 9.64 9.64 9.63 9.67 9.65 9.64 9.67 9.66 9.64 9.68 9.68 9.67 9.61 9.61 9.64 9.63 9.64 9.66 9.63 9.64 9.63 9.62 9.60 9.66 9.67 9.65 9.64 9.65 9.66 9.66 9.65 9.68 9.63 9.66 9.67 9.68 9.68 9.66 9.69 9.67 9.65 9.65 9.65 9.65 9.67 9.64 9.66 9.66 9.68 9.68 9.67 9.66 9.64 9.67 9.66 9.63 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29'-24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.28 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 403 Group name #3 Test Run - 6 1 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6.1 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 d3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6.1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 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 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 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-2 64.50 64.66 64.91 b5.2J 65.56 65.91 66.1 1 66.26 b b.ul 65.79 65.54 65.29 64.82 64.45 64.64 64.65 64.32 64.03 63.90 63.74 bJ.bz 63.58 63.71 63,82 63.72 63.70 63.85 63,96 63.93 63.86 63.82 63.79 63.77 63.7 4 63.54 63.33 63.1 6 63.08 63.22 63.42 64.24 64.89 64.82 64.83 64.83 64.82 64.80 64.76 64.68 64.69 65.28 65.68 65.70 65.70 bc.o I 65.46 65.06 64.72 64.39 64.00 63.65 63.37 63.28 63.23 bJ J/ 63.49 63.40 bJ.J5 63.44 63.48 b J.5J 63.60 63.56 63.52 63.59 63.65 63.65 63.61 63 21 co_2 't7.25 17.16 17.13 17 .13 17 .13 17 .13 17 .',t3 17.13 17 .19 17 .25 17.25 17.25 17.2s 17 .25 17 .25 17.25 17.25 17 .25 17.25 17.25 17.25 17.23 17 .'t3 17.13 17.13 '17 .13 17.16 17.19 17.13 17 .13 17 .13 17 .13 17.13 17.13 17 .13 17 .13 17.13 17.13 17 .13 17 .13 17.20 17.25 17.25 17.35 17.31 17.25 17.25 17.25 17 .25 17.25 17.25 17.21 17.20 17.20 17.25 17.25 17.25 17 .25 17.15 17.25 17 .17 17 .13 17.11 17.00 17.00 '17.00 17 .11 17.13 17 .13 17 .17 17.24 17 .25 17 .25 Ambienl 58 58 58 58 58 58 58 58 58 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 AO 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 Humidity ld. I 26.2 26.3 26.6 26.7 26.8 26.8 26.7 26.6 26.5 26.4 26.3 26.2 26.? 26.1 zo. I zo. I 26.1 26.0 26.0 26.0 26.1 26.2 26.3 26.4 26.5 26.5 26.4 26.3 26.2 26.0 25.9 25.8 25.8 25.7 25.8 25.8 25.8 26.O 25.8 25.7 25.6 25.6 25.5 25.4)\ ) 25.0 24.8 24.8 24.7 24.7 24.6 24.6 24.6 24.6 24.6 24.6 24.7 24.7 24.7 24.8 24.5 25.0 25.1 z). I 25.0 24.9 24.8 24.8 Company Station l.Jnit TimeStamp 0311212025 14:16:32 0311212025 14:16.42 0311212025 14:16.52 0311212025 14:17.02 0311212025 14:17.12 0311212025 14.17.22 03l1?12025 14.17:32 o311212025 14:17:42 O311212Q25 14:17.52 0311212025 14.18.O2 0311212025 14:18:12 o3t1212025 14.18.22 0311212025 14:18.32 0311212025 14.18.42 0311212025 14:18.52 O311212025 14:19.o2 o3t12t2025 14.19.12 O3l12l?025 14:19.22 0311212025 14:19:32 o311212025 14.19.42 O311212025 14:19:52 O311212025 14:20.o2 03l't212025 14.20.12 0311212025 14:20:22 O311212025 14:20:32 0311212025 14.20:42 03112/2025 14.2052 O3112120?5 14.21:02 A311212025 14:21:12 o3t12t2025 14.21.22 03t12t2025 14.21.32 o311212025 14.21:42 0311212025 14:21:52 0311212025 14.22.02 0311212025 14.22.12 0311212025 14:22:22 0311212025 14:22:32 03112t2025 14.22.42 0311212025 14:22:52 0311212025 14.23:02 0311212025 14.23.12 03t1212025 14.23.22 o311212025 14:23:32 O311212025 14:23:42 o3t1212025 14.23.52 o3t1212025 14.24.02 o311212025 14:24:12 0311212025 14:24.22 03t1212025 14.24.32 o311212025 14.24:42 0311212025 '14:24.52 0311212025 14.25:02 0311212025 14.25:12 0311212025 14'.25:22 0311A2a25 14:25.32 0311212025 14.25.42 o311212025 14.25'.52 o311212025 14:26.02 0311212025 14:26:12 0311212025 14:26.22 03112t2025 14.26.32 0311212025 14.26:42 O311212025 14:26.52 0311212025 14:27.o2 o311212025 14.27'.12 0311212025 14.27:22 0311212025 '14:27.32 0311212025 14.27.42 0311212025 14.27.52 0311212025 14.28:02 0311212025 14.28:12 0311212025 14:28..22 0311212025 14:28.32 o311212025 14.28.42 0311212025 14.28:52 0311212025 14.29:02 o311212025 14:29.12 03l12l?025 14:29.22 0311212025 14.29 32 Altamont LLC Bluebell Gas Plant a _1q1 o2-2 Nox-2 9.64 9.66 9.65 9.64 9.66 9.67 9.67 9.51 9.64 9.64 9.63 9.61 9.64 9.65 9.65 9.66 9.6 1 9.63 9.64 9.63 9.64 9.64 9.61 9.64 9.65 9.63 9.67 9.67 9.64 9.65 9.66 9.63 9.66 9.64 9.66 9.65 9.65 9.65 9.67 9.69 9.65 9.65 9.64 9.64 9.65 9.65 9.64 9.63 9.64 9.61 9.65 9.67 9. bb 9.64 9.63 9.64 9.64 9.65 9.66 9.63 9.64 9.63 9.64 9.68 9.63 9.64 9.64 9.68 9.67 9.64 9.66 9.68 9.66 9.66 9.64 9.65 62.90 63.08 63.25 63.34 63.44 63.76 64.03 64.09 o4. tJ 64.12 64.09 63,92 63.82 64.09 64.30 64.44 64.53 65.04 65.35 65.30o).lt 64.94 64.65 64.90 65.08 65.1 5 b).t I 65.07 64.94 64.88 64.70 64.22 63.73 bJ J5 63.01 62.96 63.0 1 63.59 64.04 64.24 64.42 64.05 63.71 63.55 63.40 63.24 63.1 1 63.04 62.97 62.94 62.97 63.09 63.27 63.81 64.39 65.1 6 65.77 65.55 b5.J/ 55.00 64.62 64.23 63.97 64.04 64.O2 63.69 63.47 63.77 63.88 63.72 b J.bU 63.75 63.83 63.55 63.35 63.1 6 63.1 3 63.08 24.6 24.5 24.s 24.5 24.5 24.6 24.6 24.6 24.7 24.8 24.9 24.9 24.7 24.s 24.4 24.3 24.3 24.4 24.5 24.4 23.9 23.5 23.2 11 a 23.2 23.1 23.1 23.2 23 )a co_2 17.25 17 .2s 17.25 17 .'t9 17.25 17.25 17.25 17.25 17 .25 17.25 17.25 17.14 17.13 17 .13 17 .13 17 .13 17.13 17.13 17.09 17.00 16.92 '16.83 tb_/5 '16.75 16.7s 16.85 1 6.95 17 .10 17 .13 17 .21 17 .25 17.25 17 .25 17.25 17.25 '17.20 17.13 17.23 17.25 17 .2s 1 7.33 17.38 1 7.38 1 7.38 17.38 17.38 17.38 17.29 17.23 1 7.13 17.13 17.16 17 .25 17.25 17 .25 17 .2s 17.16 17.O2 16.9't 1 6.81 16.75 '16.75 16.83 1 6.88 1 7.00 17 .10 17.13 17 .21 17.24 't7.13 17.13 17 .13 17.13 17.1 3 17.06 Ambienl 59 59 59 59 (o 59 59 59 59 EO 59 5S 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 5S PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29)n )q 24.29 24.29 24.29 24.29 24.29 24.28 24.28 24.28 24.28 24.29 24.29 24.29 24.28 24.28 24.28 24.28 24.28 24.28 24.29 24.29 24.29 24.29 24.28 24.28 24.28 24.28 24.28 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.28 24.28 24.28 24.28 24.28 24.28' 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 404 Humidity Run name 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 Tesl Run Tesl 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 Test Run Test Run Test Run Test Run Test Run Test Run Tesl 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 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 23.6 23.8 23.9 24.1 24.2 24.3 24.4 24.5 24.5 24.6 24.6 24.6 24.5 24.5 24.4 24.4 24.4 24.5 24.6 24.8 24.9 25.1 25.2 25.4 25.4 2s.4 25.4 25.4 25.3 25.1 24.6 24.2 24.0 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 51 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 5'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Tesl Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 6'1 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 Company Station Unit TimeStamp 031'1212025 14.29:42 0311212025 14:29.52 o3112t2025 14.30.O2 o3112t2025 14:30.12 0311212O25 14 30:22 0311212025 14.30.32 0311212025 14.30.42 o311212A25 14:30.52 0311212025 14:31.02 0311212025 14.31:12 0311212025 14.31:22 0311212025 14 31:32 0311212025 14:31:42 0311212025 14:31 52 O311212025 14:32.02 O311212025 14:32.12 o3112t2025 14.32.22 0311212025 14.32:32 0311212025 14:32:42 0311212025 '14:32:52 O311212025 14.3302 0311212025 14:33.12 0311212025 14:33.22 0311212025 14.33.32 0311212025 14.33:42 0311212025 14:33:52 0311212025 14:34.O2 o311212025 14.34.12 O311212025 14:34.22 0311212025 14.34.32 0311212025 14.34:42 0311212025 14:34.52 0311212025 14:35.O2 o3t12t2025 14.35.12 o3t1212025 14.35.22 0311212025 14.35:32 0311212025 14.35:42 03112t2025 14.35.52 O3l'1212025 14:36.o2 o3t't2t2025 14.36.12 43112t2025 14.36.22 0311212025 14:36:32 0311212025 14:36.42 0311212025 14.36.52 03t1?12025 14.37.02 0311212025 14.37"12 0311212025'14.37:22 Average 0311212025 14.41.37 0311212025',14.41:47 0311212025'14:41:57 O311212025 '14:42:07 0311212025 14:42.17 03112t2025 14.42.27 Average O311212025 14:46:33 03t12t2025 14.46.43 03/1212025 14:46:53 o3t1212025 14.47.03 0311212025 14.47:13 0311212025 14.47:23 Average 03t1212025 14.48.31 0311212025 14:48:41 031'1212025 14:48.51 03112t2025 14.49.01 o311212025 14.49.11 03t1212025 14.49.21 Average Altamont LLC Bluebell Gas Plant 02_2 9.65 9.66 9.64 9.68 9.64 9.64 9.65 9.66 9.65 9.66 9.63 9.68 9.66 9.68 9.64 9.65 9.63 9.64 9.63 9.62 9.63 9.66 9.64 9.61 9.63 9.64 9.63 9.64 9.64 9.64 9.63 9.64 9.64 9.64 9.64 9.64 9.64 9.66 9.64 9.63 9.64 10.09 9.84 9.89 9.88 9.65 0.03 0.03 0.03 0.03 0.04 0.03 0.03 -0.05 -0.02 -0.05 -0.03 -0.03 -0.04 -0.04 10.84 10.87 10.84 10.90 1 0.89 1 0.88 10.87 NOX-2 62.65 bZ.JJ 62.45 62.44 62.24 oz_ tJ 62.29 62.41 62.40 62.42 oz.oo 62.89 63.1 3 63.31 63.08 62.92 63.01 63.04 62.80 62.66 62.83 62.99 63.20 63.53 64.21 64.82 65.47 66.07 66.39 66.64 66.50 66.43 66.43 66.36 66.04 65.79 65.76 65.74 65.87 65.94 65.81 65.70 65.63 65.5 1 65.35 65.07 64.20 63.89 95.1 4 95.06 94.99 94.93 94.87 94.76 94.96 2.66 2.19 1.90 1.63 '1 .46 2.'t9 0.94 0.92 0.89 0.86 0.82 0.80 0.87 17.00 17 .01 17 .13 17 .13 17 .13 17 .13 17.13 17 .13 17.20 17.25 '17.25 17.25 17.25 17 .',t7 17 .13 17.13 17 .10 1 6.99 16.84 16.75 16.71 16.73 16.75 1 6.85 16.90 17.00 17.00 17.00 17 .13 17 .13 17 .13 17 .13 17 .25 17 .25 17.31 17.38 1 7.38 1 7.38 17.26 17.25 17 .25 17 .25 '18.01 19.60 20.70 21.20 17.18 1.77 t./c 1.75 1.74 1.75 1.77 1.76 99.50 99.50 99.50 99.50 99.50 99.50 99.50 b tJ 1.89 1.70 4.57 Ambient PBaro 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.?8 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.?8 24.28 24.28 24.28 24.28 24.28 24.28 24.29 24.28 24.28 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24-27 Humidity 23.7 23.1 23.O 22.9 22.9 22.9 23.0 23.1 23.4 23.5 23.7 23.S 24.0 24.1 24.2 24.2 24.3 24.3 24.3 24.3 24.2 24.2 24.2 24.1 24.1 24.1 24.O zJ.6 23.7 23.4 23.2 23.1 23.1 IJ.U 22.9 23.0 23.0 23.0 23.1 25.3 22.3 22.3 22.4 22.4 22.4 22.3 21.7 21.7 21.7 21.8 22.0 22.1 21.8 23.0 lJu 23.0 23.1 23.2 23.'l Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Bias Check #3 Blas Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check 83 Bias Check 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 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_2 Bias NOx_2 Bias NOx_2 Bias NOx_2 Bias NOx_2 Bias NOx_2 Bias CO_2 Bias CO_2 Bias CO_2 Bias CO_2 Bias CO_2 Bias CO_2 Bias O2_2 Bias O2_2 Bias O2_2 Bias O2_2 Bias O2_2 Bias O2_2 Bias 59to 59 59 60 60 60 60 60 60 60 60 60 60 bU 60 60 60 60 60 bU 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 58 60 60 60 60 60 60 60 60 60 60 60 bU bU 60 60 60 60 60 60 60 60 40s C-258 Ozr NOXAND CO 406 Company Station Unit TimeStamp 03/1 1/2025 09:05:02 03i 1 1/2025 09:05:12 o3t11t2025 09.05.22 03/1 1/2025 09:05:32 03/1 1i2025 09:05:42 03/'1 1/2025 09:05:52 Average 0311112025 09.24:14 031 1 1 12025 09 .24:24 0311112025 03:24:34 0311112025 09:24.44 O3l1'tl2o25 09:24.54 03/1 1 /2025 09:25:04 Average 03/1 1/2025 09:3'l:16 03/1 1/2025 09:3'1:26 03i 1 1/2025 09:31:36 osi 'l 1/2025 09:31:46 03/1 1 /2025 09:31 :56 03/'1 '112025 09:32:06 Average 4il1112025 09:37:22 O3l'1112025 09.37:32 0311112025 09:37 42 0311 112025 09:37 .52 03/1 1/2025 09:38:02 03i 1 1/2025 09:38:1 2 Avera g e 03/1 1i2025 09:43:45 03/'1 1/2025 09:43:55 03/1 1/2025 09:44:05 03111t2025 09.44.15 O311112025 09:44.25 03/1 1i2025 09:44:35 Average 03/1'l/2025 09:52:51 03i 1 1/2025 09:53:01 03/'! 1/2025 09:53:1 1 03/1 1 /2025 09:53:21 03/'1 1/2025 09:53:3'l 03/'l 1/2025 09:53:41 Average 0311112025 09.55:22 03/1 1 /2025 0g:55r32 03/1 1i2025 09:55:42 03i 1 1/2025 09:55:52 03/1 1 /2025 09:56:02 03/1 1/2025 09:56:12 Average 03i 1'1l2025 09:59:44 03/1 1/2025 09:59:54 03/'1112025 10:00:04 03i11/2025 10:00:'14 03t1112025 10.00.24 03/1 1/2025 10:00:34 Average Altamont LLC Bluebell Gas Planl c-258 o2_1 0.00 0.00 -0.01 0.0't -0.02 -0.01 -0.01 20.88 20.88 20.88 20.88 20.88 20.88 20.88 10.96 10.95 10.94 10.96 10.96 1 0.96 1 0.96 5.17 5.17 5.17 5.16 5.16 5.17 5.17 20.73 20.74 20.70 20.71 20.71 20.71 20.72 0.05 0.06 0.04 0.04 0.05 0.05 0.05 0.03 0.03 0.03 0.04 0.02 0.04 0.03 5.18 5.18 5.18 5.17 5.18 5.'i 8 NOX-1 0.01 0.0'l 0.01 0.02 0.02 0.01 0.01 461.42 461.44 460.85 460.61 460.73 460.77 460.97 1 96.02 196.07 1 95.84 1 95.75 1 95.68 1 95.66 195.84 s2.06 s2.05 92.04 92.08 92.09 92.1 1 92.07 40.12 40.63 40.60 40,64 40.66 40.63 40.65 1 93.08 1 e3.1 1 1 93.09 193.07 193.22 1 93.29 '193.14 '15.43 8.35 5.28 3.65 2.97 2.49 6.36 1.39 1.37 1.35 1.34 1.34 1.32 '1.35 co_1 0.19 o.17 0.14 0.12 0.13 0.16 0.t5 453.00 452.40 452.00 452.00 452.00 452.00 452.2X 196.00 196.00 1 96.00 't96.00 '196.00 '196.00 1 96.00 0.96 0.99 0.95 0.82 0.7s 0.68 0.86 0.64 0.68 0.68 0.65 0.63 0.63 0.65 o.52 0.52 0.51 0.50 0.52 0.53 0.52 1 94.90'195.80 1 96.00 1 96.30 196.10 1 96.00 1 95.85 0.49 0.46 0.45 0.48 0.51 0.55 0,49 Ambient 38 38 38 38 38 39 39 39 39 39 39 39 39 39 39 10 40 40 40 40 40 40 40 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 Humidity 58.6 58.7 58.9 59.0 58.9 58.8 56.6 56.5 56.5 56.4 56.3 56.5 54.1 54.6 54.7 54.7 54.8 5,1.5 52.7 52.1 52.0 52.0 52.1 52.2 51.1 51.0 51 .0 51.'1 s1.2 51.'l 49.2 49.5 50,0 50.2 50.2 49.9 49.8 48.7 48.6 48.4 48.2 48.1 48.2 48.3 48.0 47.9 47.8 47.8 47 .6 47.3 47.7 NOx_1 Bias NOx_1 Bias NOx_'l Bias NOx_'l Bias NOx_1 Bias NOx_1 Bias CO_1 Bias CO_'l Bias CO_1 Bias CO_1 Bias CO_l Bias CO 1 Bias 34 34 34 34 34 34 34 34 34 34 34 34 34 34 Group name Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibralion Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check Calibration Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial Converter Check lnitial 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 Bias 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 Bias Check Run name Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check Zero Cal Check zero Cal Check ' NOx- CO Span Cal Check NOx - CO Span Cal Check NOx - CO Span Cal Check NOx - CO Span cal Check NOx - CO Span Cal Check NOx - CO Span Cal Check 02 Span & NOX-CO Mid Cal Check 02 Span & NOX-CO N,4id Cal Check 02 Span & NOx-CO Mid Cal Check 02 Span & NOX-CO Mid Cal Check 02 Span & NOx-CO Mid Cal Check 02 Span & NOX-CO Mid Cal Check 02 Mid Cal Check 02 Mid Cal Check 02 lvlid Cal Check 02 N4id Cal Check 02 Mid Cal Check 02 Mid Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check NO2-NOx Cal Check 35 36 JO JO 36 36 36 36 02_1 02_1 02-1 a2_',| 02_1 02_1 Bias Bias Bias Bias Bias Bias 407 Company Station Unit TimeStamp 0311112025 '10:26.32 O3t1112025 10:26.42 03t1112025 10:26.52 0311112025'10.27:02 O311112025 10'.27:12 O311112025 10:27 .22 O311112025 10:27:32 0311112025 10:27:42 03t11t2025 ',t1.27:52 0311112025 10:28:02 O3l'1112025 10:28.12 0311112025 10:28:22 0311112025 10.28:32 0311112025 10:28:42 0311112025 10:28.52 03111I202s',tO.29.02 o3t11t2025 10.29:12 03t1112025 10'.29:22 03h112025 10:29:32 0311112025 10:29:42 0311112025 10:29:52 03/11/2025 10:30:02 0311112025 10:30.12 O311112025 10:30.22 Average 03/'l 1/2025 10:34:31 O311112025 10:34:41 03i 1 1/2025 10:34:5'l 03/1 1/2025 10:35:01 03/1 1 /2025 1 0:35:1 1 0311112025 10.35:21 03/1 1/2025 10:35:31 03/1 1/2025 10:35:4'l 03/1'1i2025 10:35:51 03/'1112025 10:36:01 03/1 1 /2025 1 0r36:1 1 0311112025 10:36.21 03/1 1/2025 10:36:31 03/11i2025 10:36:41 03/1 1/2025 10:36:5'1 0311112025 10:37:O1 0311112025 10.37:11 O311112025 1O.37:21 03/1 1/2025 10:37:31 0311112025 10:37:41 O311112025 10:37.51 03i 1 1/2025 10:38:01 03/1 1/2025 1 0:38:1 'l 0311112025 10:38:21 Average 03/1 1/2025 10:38:35 03/'11/2025 10:38:45 03/11i2025 10:38:55 03i '1 1/2025 10:39:05 03/1 1/2025 10:39:15 03/1 1/2025 1 0:39:25 03/1 1i2025 10:39:35 03i 1 1i2025 10:39:45 03/'l 1/2025 '10:39:55 03/11/2025 10:40:05 0311112025 10:40.15 o3t1112025 10.40:25 03i 'l 1i 2025 10:40:35 0311112025 10:40.45 03/1 1/2025 10:40:55 03/1 1 /2025 1 0:41 :05 03/11i2025 10:41:15 0311112025 10.41:25 03/1 1i2025 10:41:35 0311'112025 10:41.45 03/1 1/2025'10:4'1:55 03/11i2025 10:42:05 0311112025 10.42:15 o3t11t2025 10.42.25 Average 03i11/2025 11:18:09 03/1 1i2025 1'1:18:'19 O3111t2025 11.18:29 03/'! 1i2025 'l1:18:39 03/11/2025 11:18:49 03/11/2025 11:18:59 Altamont LLC Bluebell Gas Plant c-258 o2_1 0.01 0.0'l 0.02 0.00 0.00 0.01 0.00 0.01 0.01 0.00 0.0'1 -0.01 0.00 0.0'1 0.01 0.00 0.00 0.00 0.00 0.0'1 0.00 0.00 0.01 0.01 0.01 0.02 0.02 0.01 0.01 0.01 0.01 0.01 0.01 0.02 0.01 0.0'1 0.01 0.01 o.o2 o.02 0.00 0.02 0.o2 0.02 0.00 0.01 0.0'1 0.0'1 0.02 0.01 0.0'1 0.00 0.o2 0.01 0.01 0.01 0.0'l 0.02 0.01 0.00 0.01 0.01 0.00 0.01 0.02 0.00 0.01 0.01 0.01 0.01 0,01 0.02 0.01 0.01 0.01 0.01 0.00 0.00 0.00 0.00 0.01 CO 1 Ambienl 10.81 '10.81 '10.81 10.77 10.69 10.69 10.67 10.69 10.68 10.52 10.46 10.33 '10.38 10.49 10.54 10.52 10.36 10.1 0 '10.06 10.06 10.09 10.23 10.25 10.31 10.47 '1 1 .45 10.88 10.45 10.24 10.29 10.42 10.44 10.46 10.42 10.3S 10.47 10.48 10.55 10.75 11.18 11.70 12.08 12.30 1 1.94 1 1.3S 10.94 10.6'1 1 0.54 10.63 10.88 10.73 42 1 0.75 4210.73 4210.73 4210.71 4210.85 42 1 '1.54 4212.38 4213.14 4213.73 4213.57 42 1 3.04 4212.34 4211.57 4210.98 4210.60 4210.41 4210.44 4210.50 4210.58 4210.71 4210.86 4210.91 4210.8S 4211.36 42 NOX_1 6.81 6.84 6.94 6.99 7.34 7 .42 1 .51tol 7 .17 7 .15 1.23 6.89 o./! 6.71 6.68 6.68 6.68 6.67 6.65 6.86 6.96 7 .40 7.O2 6.70 6.69 7.01 7 .17 6.97 6.81 7.00 7.10 7.16 1.14 7 .71 8.04 7.57 1.43 6.95 6.75 6.7 4 6.73 6.70 6.68 7.01 7.'t2 7.35 7.46 7.09 /. JJ 7.30 7.46 7.49 8.09 1.24 6.S1 6.72 6.62 6.64 6.66 6.73 6.76 6.77 6.77 6.83 6.87 7.05 7.05 7.03 6.88 6.83 7.O4 6.40 6.43 6.26 6.18 6.34 6 41 9.88 9.77 9.75 9.69 9.64 s66 36.8 37.1 36.9 36.7 36.7 36.5 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 PBaro. 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 408 #1 Tesl Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 Run name #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check d1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Slrat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'lStrat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #1 Strat Check #'l Strat Check #1 Strat Check #1 Strat Check #2 Strai Check #2 Strat Check #2 Strat Check #2 Skat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Slrat Check #2 Sirat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check #2 Strat Check *2 Strat Check #2 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Slrat Che6k #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Slral Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check #3 Strat Check d3 Strat Check #3 Strat Check #3 Strat Check #3 Stral Check #3 Strat Check Tesl Run Test Run Test Run Test Run Tesl Run Test Run Humidity Group name 40.6 Stratification Traverse40.9 Slraliflcation Traverse 41.2 StratiflcationTraverse41.3 StratificationTraverse41.3 StratilicationTraverse 41.2 StratificationTraverse 41.2 SiratillcationTraverse41.0 StratificationTraverse40.8 Stratification Traverse40.7 Stratiflcation Traverse40.8 SlratiflcationTraverse 40.8 Stratillcation Traverse 40.8 Stratification Traverse 40.8 Stratiflcation Traverse41.2 StraliflcalionTraverse11.6 StratillcationTraverse41.6 StratificationTraverse41.5 StratificationTraverse 41.4 StratificationTraverse 4'1.6 StratillcationTraverse42.1 Stratification Traverse42.2 Stratilication Traverse41.8 StratiflcationTraverse41.4 StratiflcationTraverse 41.2 39.3 Straiification Traverse39.2 Stratillcation Traverse39.2 Stratification Traverse 39.3 Stratification Traverse 3S.3 Stratification Traverse 39.3 Stratification Traverse 39.3 Stratiflcation Traverse39.2 Slralillcalion Traverse 38.9 Stratiflcation Traverse 38.3 Stratification Traverse 37.3 Stratiflcation Traverse36.6 Stratification Traverse36.4 Slralification Traverse 36.2 Stratificalion Traverse 36.1 StratificationTraverse 36.1 Stratiflcation Traverse 36.4 Stratiflcation Traverse36.9 Stratiflcation Traverse37.6 Stratiflcation Traverse 38.4 Stralification Traverse 38.7 Stratlflcation Traverse38.7 Stratiflcation Traverse38.6 Stratification Traverse 38.3 Stralification Traverse 38.1 37.7 StratiflcationTraverse36.9 Stratification Traverse 36.0 Straliflcation Traverse 35.4 Straiification Traverse34.9 Stratification Traverse 34.1 Slratification Traverse 34.5 Straliflcation Traverse 34.1 Stratiflcation Traverse33.9 Straliflcation Traverse33.7 Stratification Traverse 33.7 Stratification Traverse 33.7 Slratification Traverso33.7 Straliflcation Traverse33.7 Slratifrcation Traverse34.0 Stratification Traverse 34.3 Stratification Traverse 34.5 Stratification Traverse34.5 Stratification Traverse34.8 Stratification Traverse 35.1 Stratiflcation Traverse 35.1 Stratillcation Traverse 34.8 Stratification Traverse34.6 Stratilication Traverse34.6 Stratification Traverse 34.7 45 45 45 45 45 Company Station Unit TimeStamp 03/'1 '112025 1 1 :1 9:09 03/11/2025 11:19:19 03/11/2025 11:19:29 03/'1112025 1'l:19:39 03i11/2025 11:19:49 03/1 1/2025 1 1:1S:59 03111t2025 11:2009 03i '1 1/2025 1 1 :20:19 o3111t2025 11.20.29 0311112025 11.20.39 0311112025 11:20.49 0311112025 11:20.59 031'1112025 11:21:09 0311112025 11:21:19 0311112025 11.21:29 o3t11t2025 11.2't.39 031'1112025 11:21:49 03/11/2025 11:21;5S 031'1112025 11:22:09 O311112025 11:22:19 03I1',tt2025 't1 .22:29 O311112025 11.22:39 0311112025 11:22.49 0311112025 11:22:59 0311112025 11:23:09 03t11t2025 11.23.19 0311112025'11:23:29 O3l'1112025 11.23:39 0311112025 11:23:49 03/'1112025 11:23:59 031111242s 11:24.09 0311'112025 11:24:19 o3t11t2025 11 .24.29 03111t2025 11.24.39 0311112025 11:24.49 o3t11 12025 11 .24.59 03i 1 1/2025 '1 1:25:09 03/ 1 1i 2025 'l 1 :25: 19 0311112025 11:25:29 03/11/2025 11:25:39 0311112025 11:25.49 0311112025 11 25:59 03h112025 '11:26:09 0311112025 '11 .26:19 0311112025 11:26:29 03i 'l 1/2025 '1 1 :26:39 0311112025 1'l:26.49 0311112025 11.26:59 03111t2025 11.27:Og O311112025 11:27:19 0311112025 11:27 29 0311112025 11:27:39 O311112025 11:27:49 0311112025 11.27:59 O311112025 11:28.O9 03h112425 11:28.19 0311112025 11.28.29 03/1 1/2025 1'l:28:39 0311112025 11.28.49 0311112025 11:28.59 0311112025 11:29:09 0311112025 11:29.19 0311112025 11.29:29 O311112025 11:29:39 0311112025 11'.29:49 03/1'l12025 1 1:29:59 03/1 l/2025 1'l:30:09 03i11/2025'11:30:'19 0311112025 11:30:29 03/'l 1/2025 1 1:30:39 03/1 1/2025 '1 1:30:49 03/1 1/2025 1 1:30:59 . 03i11/2025 11:31:09 03/11/2025 11:3'l:19 0311112025 11:31:29 03/11/2025 11:31:39 0311112025 11:31:49 03i11/2025'l1:31:59 03i11/2025 11:32:09 O3h1l2O25 11 32:19 0311112425 11.32:29 03/1 1/2025 '1 1:32:39 O3t11t2O25 11:32.49 03i 1 '1l2025 '1 1:32:59 Altamont LLC Bluebell Gas Planl c-258 02_1 0.00 0.00 0.01 -0.01 0.01 0.00 0.00 0.01 -0.01 0.01 -0.01 -0.01 0.00 -0.01 0.00 0.00 0.00 0.0'l -0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 -0.01 0.01 0.00 -0.01 0,00 0.00 0.00 0.00 0.00 -0.01 0.0'1 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 -0.01 0.01 0.00 0.00 0.00 0.00 0.00 -0.01 0.01 0.00 0.01 0.00 0.00 -0.01 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 NOX-1 6.42 6.43 6.40 6.37 6.60 6.70 6.70 6.6S 6.7 4 6.78 6.59 6.59 6.57 6.64 6.53 6.53 6.43 6.41 6.37 6.37 6.36 o_Jv 6.43 6.44 6.42 6.41 6.45 6.45 6.60 6.68 6.60 6.57 6.57 6.43 6.43 6.64 6.74 6.80 6.68 6.62 o.o I 6.60 6.74 6.78 6.66 6.62 6.51 6.46 6.47 6.48 6.47 6.46 6.48 6.48 6.68 6.76 6.58 6.47 6.62 6.7'l 6.84 6,84 6.76 6.69 6.66 oot 6.95 7.13 6.84 6.72 6.66 6.64 6.55 6.50 6.50 6.41 6.41 6.69 6.47 b.J / 6.45 6.50 6.42 6.3e co_1 9.69 9.72 s.81 9.87 9.86 9.94 10.03 10.08 10.06 10.06 10.06 10.00 10.06 10.07 10.07 10.01 10.06 't0.06 't0.06 10.1 1 10.04 9.99 s.92 9.87 s.77 9.69 9.71 9.78 9.81 9.81 9.81 9.81 9.75 9.75 9.7 4 9.81 9.77 9.77 9.70 9.76 9.76 9.91 10.02 10.05 9.98 9.84 9.64 9.46 9.44 9.50 9.58 9.63 9.63 9.63 9.63 9.63 9.66 9.66 9.75 9.7s 9.74 9.67 9.59 s.56 9.56 9.56 9.51 9.50 9.44 9.38 9.38 9.43 9.43 9.49 9.36 oa1 9.23 9.20 9.27 9.29 Ambienl 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 45 45 45 45 45 45 45 45 45 45 45 45 45. 45 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 PBaro )a )a 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24-29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 409 Humidity 36.s Jb/ 36.5 36.2 36.0 JJ.O 35.'1 34.7 34.7 34.1 34.6 34.6 34.8 35.1 35.7 36.4 36.8 37.2 37.2 36.9 36.5 35.4 34.9 34.4 34.1 34.'1 34.2 34.4 34.4 34.9 34.9 34.9 34.9 34.8 34.8 34.8 35.0 35.5 35.8 Jb.z s6.5 36.8 36.9 37 .7 37.6 3?.2 37.2 36.3 36.0 35.4 35.1 34.9 34.9 34.? 34.4 34.4 34.7 35.1 35.0 34.7 34.6 34.5 34.6 34.8 34.S 34.8 34.7 34.7 34.9 35.5 35.2 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 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 Tesl 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 Tesl 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 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 T€st Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 6 I #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Tesl Run - 61 #1 Tesi Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 d1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Tesl Run - 61 f1 Test Run - 61 #1 Test Run - 6'l #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 Company Station Unit TimeStahp 03i11/2025 11:33:09 03/'1 1/2025 1 1 :33:'1 I 03i11/2025 11:33:29 03/11/2025 11:33:39 03/1 1/2025 1 1:33:49 03i 1 1/2025 'l 1 :33:59 03/11/2025 11:34:09 03/1 1/2025 1 1:34:1 I 03/1 1/2025 I 1:34:29 03/11/2025 11:34:39 0311112025 11:34:49 03/1 1/2025 1 1:34:59 03/1'l/2025 1'l:35:09 03/1'1i2025 11:35:'19 03/11/2025 11:35:29 03/1 1/2025 'l 1:35:39 03i 11/2025 11:35:49 03i1'1/2025 11:35:59 03/'1 1/2025 1 'l :36:09 03/11/2025'l't:36:19 03h112025 11:36:29 03/11/2025 11:36:39 03/1 1/2025 1 1:36:49 03/1 1/2025 1'1:36:59 03i 11i2025 11:37:09 03/11/2025 11:37:19 o3t11t2025 11.37.29 03/1 1/2025 '1 1 :37:39 0311112025 11:37:49 0311112025 11:37:59 03/'11/2025 11:38:09 03/1 1i2025 1 1:38:19 03/11/2025 11:38:29 03/1 1/2025 1 1:38:39 03/1 1/2025 1 '1 :38:49 03/11i2025 1 l:38:59 03/1 1/2025 1 1:39:09 03/11/2025 11:39:19 03/11/2025 11:39:29 03i11i2025 1'1:39:39 03/1 1/2025 1 1:39:49 03/'11/2025 11:39:59 03i 'l li 2025 '1 1 :40:09 0311112025 11:40:19 0311112025 11:40.29 03/11/2025 11:40:3S o311112025 11:40:49 03i11/2025 1'1:40:59 O311112025 11:41:Og o3l1'112025 11:41:19 0311112025 11:41:29 03i 1 1/2025 'l 1 :41 :39 o311112025 11 .41 .49 03/1.li2025 11:41:59 0311112025 11.42.O9 03111t2025 11 .42.19 03t11t2025 11.42'.29 O3l'1112025 11:42:39 0311112025 11.42:49 03t11t2025 11.42.59 03/11/2025 11:43:09 03i11/2025 11:43:19 o3t1112025 11.43.29 03/1 1/2025 1 1:43:39 03t't112025 11 43:49 03/11i2025 11:43:59 o3t11t2025 11.44.09 o311112025 11.44'.19 O311112025 11 .44:29 0311112025 11:44:39 O3t11t2025 11:44.49 0311112025 11:44:59 03/'l 1i 2025 1 1 :45:09 03i11/2025 11:45:'19 0311112025 11:45.29 03/1 1/2025 1 1:45:39 03/11/2025 11:45:49 03/11i2025 11:45:59 03i11/2025 11:46:09 03/1 1 /2025 1 1:46:1 I O311112025 11:46:29 03/1 1 /2025 1 'l :46:39 03il'1/2025 11:46:49 03/11/2025 1'1:46:59 Altamont LLC Bluebell Gas Planl c-258 o2_1 0.00 0.00 0.01 0.00 0.00 -0.01 0.01 0.00 -0.0'1 0.00 0.00 0.01 -0.01 0.00 o.02 -0.01 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 0.00 -0.01 0.00 0.01 -0.01 0.00 0.00 0.00 -0.01 0.00 0.01 -0.01 0.00 0.01 -0.01 -0.01 0.00 0.01 -0.01 -0.01 0.01 0.01 0.00 0.00 0.00 0.00 0.00 0.0't 0.01 0.00 0.00 0.01 0.00 0.00 0.01 -0.01 0.00 0.00 0.00 0.00 0.00 0.01 0.01 0.01 0.01 0.00 0.01 0.00 0.00 0.00 0.00 0.01 0.00 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 410 Group name #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'l #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 I #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 6'l #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 6'l #'l Tesl Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #l Tesi Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #l Test Run - 61 #'l Test Run - 6'l #1 Test Run - 6'l #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6l #1 Test Run - 61 #1 Test Run - 61 # l Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 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 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 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 Test Run Test Run Test Run Test Run Test Run NOX-1 6.39 6.40 6.4'l 6.40 6.40 bb5 6.55 6.47 6.43 6.43 6.35 6.31 6.53 o.ol 6.81 6.85 6.92 6.99 6.82 6.75 6.63 6.63 6.65 6,65 6.75 6.78 6.86 6.87 6.97 7.05 7.10 7.12 7.00 6.94 6.86 6.83 6.83 6.65 6.53 6.45 6.54 6.58 6.49 6.41 6.47 6.39 6.57 6.67 6.67 bbt 6.61 6.43 6.44 6.44 6.4'1 6.41 6.31 oJt bJt 6.32 6.75 6.95 6.72 6.58 6.50 6.46 6.47 6.47 6.37 6.50 6.50 6.54 6.54 6.41 6.34 6.69 6.83 6.64 6.57 6.65 669 co_1 9.29 9.34 s.33 9.43 9.43 9.40 9.39 s.26 9.23 9.21 9.19 9.'19 9.'19 s.19 9.23 9.30 s.35 9.40 9.44 9.44 9.44 9.44 9.44 9.44 9.46 9.44 9.44 9.44 9.38 9.42 9.47 9.50 s.50 9.50 9.45 9.44 9.44 9.44 9.44 9.45 9.44 9.49 9.55 L52 9.52 s.52 9.35 9.43 9.43 9.49 9.49 9.44 9.44 s.44 9.47 9.44 s.36 9.36 s.31 9.31 9.34 9.38 s.33 9.21 9.16 9.08 s.01 9.01 9.06 s.06 s.11 9.1 1 9.06 9.06 9.01 9.06 9.09 9.13 9.18 s.19 9.19 9.19 Ambient 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 41 47 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 47 47 47 47 47 47 47 47 47 41 47 47 47 4? 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 41 47 47 Humidity 35.1 35.1 35.0 35.0 35.0 35.0 35.1 35.0 34.9 34.6 34.4 34.6 34.6 34.6 34.2 34.1 34.5 34.8 34.8 35.2 34.8 34.7 34.7 34.7 34.6 34.7 34.8 34.9 35.0 34.S 34.6 33.8 33.8 33.4 33.4 33.7 34.'l 34.2 34.7 35.1 35.3 35.3 34.9 34.9 34.4 34.4 JJ.b 33.4 33.3 33.1 33.1 33.5 JJ,I 33.4 33.4 33.4 33.4 33.8 33.8 34.0 34.0 34.5 34.7 35.0 35.1 34.8 343 Company Station Unit TimeStamp 0311112025 11:47:Og 0311112025 11.41:19 0311112025 11.47:29 O311112025 11:47:39 03111t2025 11:47.49 O311112025 11:47.59 o3t11t2025 11..48.O9 03/11/2025 11:48:19 031 'l 1 t2025 1 ',t .48:29 0311112025 11:48:39 03/1 1i 2025 '1 1 :48:49 03/11/2025 11:48:59 03/11/2025 11:49:09 03/1 1/2025 1 1:49:'19 o311112025 ',t1 49 29 03/1 1/2025 1 1:49:39 03iI1/2025 I1:49:49 03i11/2025 11:49:59 03/11i2025 11:50:09 03/1 1/2025 'l 1 :50:19 0311112025 11:50:29 03/'l'1/2025 1 1:50:39 03/1 1/2025 1 1:50:49 03/1 1/2025 1'l:50:59 03i'1 'l12025 11:51:09 03i11/2025 11:51:19 0311112025 11'.51:2s 03/11/2025 '1 1:51:39 03i11/2025 11:51:49 03/1 1/2025 1 '1:5'l :59 0311112025 11:52:09 03/11/2025'11:52:19 03111t2025 11.52:29 O3l1 112025 11 .52:39 03t 1 't 12025 1 '1 .52:49 03i11/2025 11:52:59 03/1 1/2025 1'1:53:09 03/1 1/2025 1 1 :53:'1 9 03/1 1/2025 1 '1:53:29 03/1 1/2025 1 1:53:39 03/11/2025 11:53:49 03/1 1/2025 'l '1 :53:59 03/1 1/2025 1 1:54:og 03/'l 1/2025 '1 '1 :54:1 9 03/11/2025 11:54:29 03/1 1/2025 1 1:54:39 03/1 1/2025 1 1:54:49 03/11i2025 11:54;59 03/'1112025 11:55:09 03/11/2025 11:55:19 03i11/2025 11:55:29 03/1 1/2025 1 1:55:39 03/'1 1i2025 1 1:55:49 03/11/2025 11:55:59 03/1 1/2025 1 '1 :56:09 03i 1 1/2025 '1 1 :56:1 9 03/1 1/2025 '1 1:56:29 03/'1 1/2025 1 1:56:39 03/1 1/2025 1 1:56:49 03/11i2025 11:56:59 03/11/2025 11:57:09 031't1t2025 11'.57.1I 0311112025 11:57.29 03/11/2025 11r57:39 03t1112025 11:57.49 03/'11/2025 11:57:59 03/1 1i 2025 1 '1 :58:09 03i11/2025 11:58:19 03i 'l 1/2025 1 1:58:29 03/1 1/2025 1 1:58:39 03/'1 1/2025 1 '1:58:49 03/1 'l12025 1 1:58:59 03/1 1/2025 'l 'l :59:09 03/'l 'li 2025 'l 1 :59:19 0311112025 11.5s:29 03i11/2025 11:59:39 03/11i2025 11:59:49 03i '1112025 1'1:59:59 03/1 1/2025 12:00:09 o311112025'12:00.19 0311112025 12:00.29 03/11/2025 12:00:39 O311112025 12OO:49 03i 1 '1i 2025 1 2:00:59 Altamont LLC Bluebell Gas Planl c-258 o2_1 0.00 0.00 0.01 0.00 -0.01 0.00 0.00 0.00 0.00 0.0'l 0.00 0.01 0.01 0.00 0.00 -0.01 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.01 -0.01 0.00 0.00 0.00 0,00 -0.01 0.00 0.01 0.00 -0.01 0.00 0.00 0.00 0.00 0.0'1 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.00 -0.01 -0.01 0.00 0.00 -0.01 0.00 0.00 0.01 0.00 0.00 0.01 0.01 0.00 0.00 0.00 o.oo 0.00 0.00 0.00 0.01 0.01 0.00 0.00 NOX-1 7.00 7.22 6.79 6.62 6.53 6.46 6.46 oot 6.6'1 6.69 o./ I 6.73 6.73 6.57 6.57 6.22 6.24 6.24 6.66 6.82 b.bc 6.52 6.46 6.35 6.32 6.29 6.29 6.34 6.38 6.59 6.69 6.54 6.48 6.39 6.39 6.44 6.53 6.27 6.42 6.50 6.58 6.64 6.56 6.52 6.52 6.64 6.64 6.67 6.69 6.72 6.67 6.64 6.64 7.01 7.05 7.10 7 .10 b.bb 6.86 6.65 6.6s 6.34 6.38 6.38 6.55 6.55 6.48 6.39 6.46 o_5 t 6.51 6.53 6.37 6.24 o.oz 6.79 6.48 6.48 6.44 6.44 6.52 6.52 co_1 9.19 9.'19 o rl 9.25 9.27 9.29 9.29 9.24 9.24 9.14 9.13 9.19 9.19 9.14 s.03 9.02 9.04 9.r3 9.23 9.20 9.1 6 s.13 9.13 9.14 9.'19 s.19 9.31 9.45 9.53 9.63 9.60 9.49 9.38 L20 9.1 9 9.1 9 9.18 9.13 o la 9.13 s.13 9.13 9.13 9.13 9.13 o t1 9.06 9.02 9.00 9.00 8.95 8.95 s.00 9.08 9.16 9.16 9.14 9.14 8.98 8.98 8.7s 8.71 8.73 8.77 8.71 8.75 8.75 8.75 8.79 8.76 a.74 8.69 8.69 8.69 8.70 8.63 8.63 8.52 8.56 8.56 Ambient 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 47 41 47 47 47 47 47 41 47 47 47 47 47 47 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 PBaro 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 411 Humidity 34.1 34.3 34.6 35.0 35.5 35.3 34.1 34.'1 34.0 33.9 33.7 33.7 33.7 33.7 34.2 34.2 33.4 32.8 32.6 32.7 33.5 34.1 34.0 34.0 34.2 34.8 34.9 34.7 34.4 34.1 J J.b 33.6 32.6 32.4 32.4 32.1 33.1 32.4 32.4 32.9 33.0 33.4 33.7 33.7 34.1 34.0 33.3 32.9 32.9 32.8 32.5 32.5 30.7 30.5 30.2 29.9 29.5 29.3 29.3 )4, 29.2 29.3 29.6 29.8 29.5 29.4 29.4 29.6 30.0 30.0 Run name 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 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 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 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 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 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #'1 Test Run - 61 #1 Tesl Run - 6'1 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 6'l #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #l Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Tesl Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Tesi Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run. 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 fl1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 61 #1 Tesl Run - 61 Company Station Unit TimeStamp 03i'11i2025 12:01:09 03/1 1 /2025 1 2:01 :1 I 0311112025 12:01.29 03i 1 1i 2025 '12:01 :39 0311112025 12.01:49 03/1 1/2025 12:0't :59 0311112025 12:02:49 o3t11t2025 12.02.19 0311112025 12:02:29 0311112025 12:02.39 0311112025 12..02:49 0311112025 12.02:59 03/'11/2025 12:03:09 03/1 'l12025 12:03:1 I 03111t2025 12.03:29 03i 1 1 /2025 '1 2:03:39 0311112025 12:03:49 03/1 1/2025 12:03:59 03h112025 12:04:og o311112025 12:04:19 031111?025 12:04.29 0311112025 12:04'.39 O3t'1112025 12.04:49 0311112025 12:04:59 03/11/2025 12:05:09 O311112025 12:05.19 0311112025 12.05:29 03/'l 1/2025 1 2:05:39 o3l1'll2O25 12:05.49 0311112025 12:05:59 03h112025 12.06:09 03/'l 1/2025 1 2:06:1 I 0311112025 12:06.29 03/1 1/2025 12:06:39 0311112025 12.06:49 03/11/2025 12r06:59 O311112025 12.07:09 O311112025 12.O7:19 0311112025 12.01:29 o3t11t2025 12"07:39 0311112025 12:07:49 03/1 '112025 1 2:07:59 03/11/2025 12:08:09 o311112A25 12:08.19 O311112025 12:08.2s 03/1 '1i 2025 '12:08:39 o311112025 12:08:49 03i'1112025 12:08:59 03/1 'l12025 1 2:09:09 o3t11t2025 12.09.19 O311112025 12.09:29 03/11/2025 12:09:39 03/1 1/2025 12:09:49 03/'1112025 12:09:59 O311112025 '12.1o:Og 03/'1'112025 12:10:19 O3t1112025 12:'10.29 03/1 1/2025 12:10:39 o3t11t2025 12.10.49 03/'l 1 /2025 1 2:1 0:59 0311112025 12:11:Og 03t1112025 12.11 .19 O3h1l2o25 12.11:29 03/'l 1i 2025 '1 2:1 1 :39 0311112025 12.11.49 o311112025 12:11:59 o3t1112025 12.12'.09 O3h 112025 '12:12:'19 o311112025 12.12.29 0311112025 12:'12:39 o3t1112025 12.12.49 o311112025 12j2:59 0311112025 12:13:Og O311112025 12:13.19 o311112025 12.13:29 03/'11/2025 '12:13:39 O311112025 12.13:49 03/1 1/2025 1 2:1 3:59 0311112025 12:14:Og 0311112025 12:14:19 0311112025 12.14:29 0311112025 12:14:39 O311112025 12:14:49 o3l1 112025 12.14:59 Altamont LLC Bluebell Gas Planl c-258 02_1 0.00 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 -0.01 0.00 0.00 0.00 0.00 0.00 0.01 0.0't 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.0'1 0.00 -0.0't 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.01 -0.0'1 -0.01 0.01 0.00 0.00 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.01 0.00 0.00 0.00 0.01 0.00 0.00 0.01 0.00 0.00 0.00 0.01 0.01 0.01 PBaro 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.25 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.29 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 412 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #'1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6 1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesl Run - 6'1 #1 Test Run - 61 #1 Test Run - 6l #1 Test Run - 6'1 #1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #l Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 6't #'1 Test Run - 6'1 #'1 Test Run - 61 #1 Tesl Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #1 Tesl Run - 6'l #1 Test Run - 6'1 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61ill Test Run - 61 ill Test Run - 61 #l Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 61 #1 Test Run - 6'1 #1 Test Run - 61 #'1 Test Run - 6l f 1 Test Run - 6'l #1 Test Run - 61 # 1 Tesi Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Tesi Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'l Test Run - 61 #1 Test Run - 61 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test 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 Test Run Tesl 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-1 6.48 6.48 6.50 6.53 6.53 o_3t 6.56 6.67 6.85 6.97 6.72 6.64 b.5J 6.47 6.53 6.55 6.52 6.49 6.49 7.00 7.00 6.66 6.66 6.73 6.73 6.77 o.o I 6.48 b_ /J 6.91 6.79 6.76 6.75 6.75 6.56 6.56 6.47 6.47 6.44 6.44 6.41 6.53 6.64 6.72 6.53 b.JJ 6.55 6.55 6.55 6.55 6.67 6.75 6.75 6.59 6.59 6.83 6.76 bbs o.o / 6.69 6.60 6.53 7.64 8.10 7.20 7.20 6.64 6.64 6.60 b-bu 6.49 6.49 6.36 6.38 6.38 6.59 o.oo 6.55 6.51 6.54 6.55 6.53 6.53 co-1 8.68 8.68 8.69 8.14 8.69 8.74 8.79 8.84 8.91 8.85 8.81 8.76 8.75 8.73 8.63 8.63 8.63 8.63 8.63 8.75 8.75 8.75 8.58 8.58 8.56 8.60 8.69 8.66 8.67 8.68 8.58 8.59 8.63 8.57 8.57 8.48 8.48 8.49 L59 8.67 8.71 8.84 8.84 8.88 8.88 8.75 8.75 8.69 8.71 8.77 8.81 8.81 8.86 8.88 8.88 8.84 8.7 4 8.59 8.59 8.63 8.68 8.80 8.88 8.88 9.'l 7 9.17 9.24 s.24 9.02 9.02 8.89 8.76 8.66 8.57 8.57 8.63 8.67 8.69 8.69 8.64 8.64 Ambient 47 41 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 47 41 47 47 47 47 47 47 47 47 47 47 47 47 47 47 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 Humidity 30.9 30.9 31.8 31.8 32.4 32.4 3'1.8 31.2 30.8 30.8 3'1.3 31.7 32.0 32.4 32.2 31.9 31.8 31.8 3'1.8 31 .6 3't.6 31.6 31 .6 3.1.9 31.2 31 .0 30.9 30.s 31,1 31.4 3't.4 32.6 32.6 J J.J 33.7 33.4 33.4 33.4 33.1 Jt./ 31.7 31.'1 3'1.1 31 .6 31 .8 31.8 31.7 31.7 32.0 32.4 32.8 33.2 33.2 33.'l JJ- I 33.4 33.5 33.4 33.4 32.8 32.1 32.1 31.8 31.8 31.7 Jt.o J t.o 32.0 31.8 31.5 J I,J 3't.3 31.1 31 1 Company Station Unit TimeStamp 0311112025 12.15:Og 0311112025 12'.1s:19 0311112025 12:15.29 03/1'l/2025 12:15:39 o311112025 12.15.49 O311112025 12.15:59 O311112025 12.16:09 o3t11t2025 12.16.19 0311112025 12:16.29 03i 'l 1i 2025 1 2:'16:39 O311112025 12:16:49 03/1'112025 12:16:59 0311112025 12.17:Og O311112025 12:17:19 0311112025 12:17:29 0311112025 12:17.39 O311112025 12.1?:49 O311112025 12:17:59 0311112025 12.18:Og 03/1 'l i 2025 1 2:1 8:1 I O311112025 12:18.29 o3t1112025 12.18:39 03t1112025 12.18:49 O311112025 12.18:59 Averag€ 03t'1112025 12.22.26 0311112025 12.22:36 0311'112025 12:22.46 0311112025 12:22.56 0311112025 12:23.06 O311112025 12:23.16 Averag e 0311112025'12:28:10 o3t11t2025 1228.20 o3111t2025 12.28.30 03l1't.12025 12:28:40 03111t2025 12.28:50 0311112025 12"29.O0 Average 03i 1 1/2025 12:33:39 0311'1t2025 12.33:49 03/11i2025 12:33:59 O311112025 12:34:og O311112025 12:34:19 0311112025 12.34:29 Average o3t11t2025 12.42.27 0311112025 12.42:37 0311112025 12.42:47 O311112025 12:42:57 0311112025 12:43.07 0311112025 12:43'.17 0311112025 12.43:27 o3I1112025 't2.43:37 o3t11t2025 12.43.47 O311112025 12.43:57 0311112025 12:44:07 O311112025 12:44:17 0311112025 12:44:27 o3111t2025 12.44.37 0311112025 12:44.47 03t11t2025',t2.44'.57 o311112025 1?.45:07 0311112025 12:45:17 03/11t2025 12:45..27 o3t11t2025 12.45'.37 0311112025 12.45:47 o311112025 12.45:57 0311112025 12:46.07 0311112025 12:46:17 0311112025 12.46:27 o311112025 12.46.37 O311112025 12.46:47 O311112025 12.46:57 0311112025 12:47:07 0311112025 12.47:17 o3111t2025 12.47.27 03t1112025 1?:47:37 0311112025 12:47:47 0311112025 12:47:57 Altamont LLC Bluebell Gas Plant 02_1 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.01 0.00 0.00 0.00 0.01 0.00 0.00 0.02 0.00 0.00 0.00 0.0'1 0.0'l 0.00 0.01 0.01 0.00 0.06 0.05 0.04 0.05 0.05 0.05 0.05 0.05 0.04 0.04 0.05 0.05 0.05 0.05 c. lo 3.tJ 5.14 5.14 5.14 5.14 5.14 0.01 0.02 0.00 0.01 0.01 0.00 0.02 0.01 0.00 0.02 0.01 0.00 0.01 0.01 0.01 0.01 0.00 0,01 0.01 0.00 0.02 0.01 0.00 0.02 0.02 0.01 0.01 0.0'l 0.01 0.01 0.01 0.01 0.00 001 Group name #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #'1 Test Run - 6'1 #'1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'l #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Ruh - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 61 #1 Test Run - 6'1 #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #1 Bias Check #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Run name Tesl 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run NOx_'l Bias NOx_l Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_'l Bias CO_l Bias CO_1 Bias CO_1 Bias CO_1 Bias CO-1 Bias CO_1 Bias O2_1 Bias O2_1 Bias O2_'l Bias O2_1 Bias O2_1 Bias O2_1 Bias 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 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_1 6.45 6.36 6.45 6.45 6.45 6.45 6.44 6.44 6.56 6.60 6.58 6.58 6.68 6.70 7.14 7.36 7.00 6.86 6.86 6.76 o_/o 7.46 6.99 6.81 6.61 1 86.50 1 86.65 1 86.74 1 86.98 1 87.09 1 87.1 5 1 86.85 1.45 1 .45 1 .45 1 .45 1.44 1.44 '1.45 0.9s 0.99 1.00 0.98 0.97 0.97 0.98 6.36 6.23 6.15 6.34 6.45 7.91 8.65 9.62 10.22 8.20 7.36 6.81 6.59 6.33 6.15 6.'t9 6.21 6.30 6.09 5.97 5.87 5.79 5.97 6.09 6.20 6,14 /,JJ 7.94 6.97 6.57 6.17 6.17 co_1 8.52 8.50 8.46 8.40 8.31 8.31 8.23 8.23 8.37 8.47 8,56 8.56 8.63 8.63 8.66 8.7',| 8.76 8.76 8.76 8.69 8.69 8.71 8.75 8.75 9.18 1.20 1.20 t.lJ 1.27 1 94.00 '1S4.00 1 94.00 '194.00 1 94.00 194.00 1 94.00 0.95 0.95 0.9'1 0.89 0.87 0.87 0.91 8.14 8.06 700 7.94 8.00 8.11 8.23 8.56 9.18 10.14 1 '1.50 '13.04 13.96 14.41 14.23 '13.84 13.64 13.85 14.43 't4.98 15.24 14.99 14.27 1 3.28 12.19 11.19 10.66 10.56 10.73 1 1.08 11.29 I t.zo Ambient 48 48 48 48 48 48 48 48 48 48 48 48 49 4S 49 49 49 49 49 49 49 49 49 49 47 49 49 4S 49 49 49 49 49 49 4S 49 49 49 49 49 50 50 50 50 50 5t 51 51 51 5'1 5'1 51 51 5'l 51 51 51 51 51 51 51 51 51 51 5'l 51 5'r 51 51 5'1 51 5'1 51 5'1 51 PBaro 24.28 24.28 24_28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.29 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.28 24.27 24.27 24.21 24_27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.21 24.27 24.21 24.27 24.27 24.27 24.27 24.2? 24.27 24.27 24.27 24.27 413 Humidily 32.O 32.3 32.3 32.5 32.5 32.5 32.1 32.1 32.1 32.1 31 .S 31.2 30.7 30.5 30.5 30.1 30.1 30.1 30.3 30.4 33.5 32.0 31 .4 31 .4 32.O 32.1 31.e 31.8 3'1 .3 32.1 32.2 32.1 33.0 32.8 32.5 32.1 32.7 32.4 32.3 31.1 30.8 30.8 30.8 30.'1 2e.6 29.3ao) 29.6 30.1 30.3 30.8 31.4 31.8 31.8 31.7 3'1.5 31.4 30.9 30.1 29.5 29.2 29.1 29.1 2S.5 30.0 30.4 30,4 30.2 29.7 Company Station Unit TimeStamp 0311112025 12.48:07 o3t11t2025 12.48.17 o311112025 12.48:27 0311112025 12.48:37 O311112025 12:48:47 0311112025 12:48.57 0311112025 12.49:07 0311112025 12.49:17 0311112025 12:49:27 AY1112025 12:49:37 0311112025 12:49:47 O311112025 12.49:57 0311112025 12:50:07 0311112025 12.50:17 0311112025 12'.50:21 0311112025 12:50.37 o3t1112025 12.50.47 o3l11t2A2s 12.50.57 0311112025 12:51:07 0311112025 12:51.17 O3l'1112025 12:51:27 O3l1'll2O25 12.51:37 0311112025 12.51:47 O311112025 12'.51:57 o3t1112025 12.52.07 0311112025 12.52:'17 O3h112025 12:52:27 0311112025 12:52.37 o3111t2025 12.52.47 O311112025 12:52:57 03h112025 12:53.07 O3t11t2025 12:53.17 o3t11t202s 12.53.27 0311112025 '12:53:37 O311112025 12.53:47 03t11t2025 12.53.51 o3t11t2025 12.54.O7 0311112A25 12.54:17 03t11t2025 12.54.21 o3t11t2025 12.54.37 O311112025 12:54:47 0311112025 12.54:57 03t11t2025 12.55.0? 03111t2025 12.55.17 03h112025 12.55:27 0311112025 12'.55:37 O311112025 12:55.47 o311112025 12.55.57 O311112025 12.56:07 0311112025 12.56:17 0311112025 12:56.27 0311112025 12:56.37 o3t1112025 ',t2.56.47 0311112025 12:56:57 OltlltZozS tZ:St.Ol 0311112025 12:57:17 0311112025 12:57:27 0311112025 12:57:37 o3t't112025 12.57.47 O3l1 1 t2025 12:57 .51 O311112025 12:5a:07 0311112025 12.58:17 0311112025 12.58:27 0311112025 12.58.37 0311112025 12:58:47 0311112025 12.58:57 03t1112025',|2.59:07 o3t11t2025 12"59..17 O3111t2025 12:59.27 o3t11t2025 12.59.37 031'1112025 12.59:47 0311112025 12.59:57 03/11/2025 13:00:07 03/1 '112025 13:00:17 0311112025 13.00:27 03/11i2025 13:00;37 03/11/2025 13:00:47 03/11/2025 13:00:57 0311112025 13:01:07 03111t2025 13.01:17 031'1112025 13.01:27 03/1 1 /2025 1 3:01 :37 03/1 1/2025 1 3:0'l :47 03/1 1 /2025 1 3:01 :57 Altamont LLC Bluebell Gas Planl c-258 02_1 0.o2 0.01 0.01 o.o2 0.01 0.00 0.02 0.00 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.00 0.02 0.01 0.01 0.01 0.01 0.01 0.0'1 0.0'1 0.00 0.01 0.00 0.02 0.00 0.01 0.01 0.01 0.01 0.00 0.02 0.02 0.01 0.01 0.01 0.02 0.00 0.o2 _0.01 0.02 0.02 0.01 0.01 0.01 0.00 0.02 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.00 0.01 0.01 0.01 0.01 0.02 0.00 0.02 0.01 0.01 0.01 o.02 0.01 0.02 0.00 0.01 0.01 0.01 o.o2 0.01 0.0't o.o2 0.01 0.02 0.02 NOX-1 6.10 6.04 6.37 6.58 6_43 6.35 6.26 6.22 6.21 6.20 6.25 b_ 2d 6.'1 '1 b.UU 6.13 o.zu 6.39 6.52 6.53 6.44 8.05 s.16 8.20 7.84 7.30 6.95 6.93 6.88 6.78 6.36 6.07 6.08 6.06 6.33 6.5? 6.39 6.32 6.40 6.44 o. zo 6.16 6.03 5.97 b.uo 6. 10 6.29 6.32 1.32 1.84 7.08 6.57 6.21 6.25 6.29 b. lJ 6.05 6.60 6.76 6.74 6.81 6.54 6.41 6.30 o.z J 6.18 6.14 5.e6 5.83 6.03 6.04 9.48 10.93 9.09 8.46 7.10 6.52 6.38 6.29 6.10 6.00 o26 co-1 11.07 10.71 10.36 9.98 9.61 s.38 9.20 9.05 8.90 8.69 8.57 8.71 9.02 9.42 9.70 9.65 9.35 8.86 8.35 7 .87 7.58 7 .45 7.50 7.68 7.83 8.03 8.1 '1 8.08 8.0s 8.39 8.98 9.94 10.65 '10.98 't0.88 10.56 10.20 9.91 9.69 9.64 L86 10.41 11.22 1 'l ,89 't 1.81 1 1.06 10.20 9.36 8.89 8.70 8.89 9.27 9.64 9.91 't0.00 9.96 9.81 9.57 9.21 8.90 8.77 L84 9.01 9.26 9.52 9.74 9.93 s.93 9.77 9.48 8.88 8.24 7 .73 7.42 7.81 L89 10.28 '1 1.73 12.80 13.34 13.41 13.20 12.80 Ambienl 5'r 51 51 5'l 51 51 51 51 51 51 51 51 51 51 51 51 51 51 5l 51 51 51 5'1 5'1 51 51 51 51 5'l 51 5'l 51 5'1 51 51 51 51 51 5't 51 51 51 51 5'1 51 5'1 51 51 52 52 52 52 52 52 52 52 52 52 52 52 52 5Z 52 52 52 cz 52 52 52 52 PBaro 24.27 24.21 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 414 Humidity 29.4 29.0 28.6 28.4 28.3 28.2 28.3 28.4 28.4 28.6 28.7 29.2 30.0 30.5 30.6 30.4 30.6 30.6 30.7 31.2 3'1.3 31.4 31.4 31.5 31.9 J t_o 31 .0 30.2 29.9 29.6 29.5 29.7 29.8 29.0 28.7 28.6 28.5 28.6 28.9 29.0 29.0 28.8 28.7 28.5 28.3 28.5 29.1 29.6 29.4 29.4 25.5 29.5 29.4 29.3 29.0 28.2 27.8 27.9 28.2 28.4 28.2 28.2 28.4 28.5 28.4 28.4 28.9 29.4 29.4 29.3 29.3 29.1 28.8 28.6 28.1 27.7 27.6 27.6 27.9 27.8 21 .6 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 *2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 f2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 fl2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'l #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l 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 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 Tesl 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 Tesl Run Test Run Test Run Test Run Tesl Run Test Run Test Run Test Run Test Run Tesl Run Test Run Test Run Company Station Unit TimeStamp 0311112025 13:02.07 0311 1 12025 13:02:17 0311112025 13.02:27 O311112025 13.02:37 03111t2025 13.02.47 03111t2025 13'.02.57 03/1 'l12025 13r03:07 0311112025 13:03:17 0311112025 13:03:27 03i11/2025 13:03:37 03/11/2025 l3:03:47 03/1 'l i 2025 13:03:57 03111t2025 13.O4.07 o3111t2025 1304.17 0311112025 13:04:27 0311112025 13:04:37 0311112025 13.04:47 0311112025 13:04:57 03/'l 1/2025 13:05;07 03/'t 1/2025 13:05:17 0311112025 13:05.27 03/1 1/2025 '13:05:37 03i 1 1/2025 13:05:47 03/1 1/2025 13:05:57 03/11/2025 13:06:07 03/1 'l12025 13:06:17 03111t2025 13.06.27 03/1 1/2025 13:06:37 03i '1 1/2025 13:06:47 03/'l'l /2025'1 3:06:57 0311112025 13:07:07 03111t2025 13.07.17 03t11t2025 13.07.27 o3t11t2025 13.07.37 o3t11t2025 13.07.47 o3t11t2025 13 07 .57 03/1 1/2025 13:08:07 03i 1 1/2025 13:08:17 03111t2025 13.O8.27 03/11/2025 13:08:37 03/11i2025 13:08:47 o3t11t2025 13 08 57 03/1 1/2025 1 3:09:07 03/1 1/2025 13:09:17 0311112025 13.09:27 03/11/2025 13:09:37 o3t11t2025 13.O9.47 03/1'1/2025 13:09:57 03/1 1/2025 13:'10:07 03i 1 1i2025 13:10:17 o3t1112025 13.10.27 03/11/2025 13:10:37 O311112025 13:10.47 0311112025 13:10:57 03/1 1i 2025 13:'1 'l :07 O311112025 13:11:17 o3t11t?o25 13'.11.27 03t't1t2025 13.11.37 0311112025 13:11:47 O311112025 13:11:57 03t11t2025 13.12.07 O3l1 1 12025 'l.3:12:17 o311112025 13.',tz.27 O311112025 13:12.37 0311112025 13:12.47 O311112025 13:12'51 03/1 'li 2025 13:'13:07 O3h112025 13.13:17 0311112025 13'.13.27 03/1 1/2025 13:13:37 O3h1l2O25 13:13.47 03/1 1 /2025 1 3:1 3:57 03/1 1i2025 13:14:07 0311112025 13.14:17 0311112025 13.14:27 o3t1112025 13 14 37 0311112025 13:14:47 0311112025 13:14.57 03/1 1/2025 13:15:07 o3t'1112025 13.15:17 0311112025 13:15:27 03i 1 1/2025 13:15:37 0311112025 13:15:47 03i 1 1/2025 13:15:57 Altamont LLC Bluebell Gas Plant c-258 02_1 0.01 0.02 0.01 0.00 0.0'l 0.01 0.00 0.01 0.02 0.00 0.00 0.02 0.01 0.00 0.02 o.o2 0.00 0.01 0.01 0.01 0.01 0.02 0.00 0.01 0.02 0.0't 0.01 0.02 0.02 0.01 0.00 0.0'l 0.02 0.01 0.01 0.01 0.01 0.02 0.02 0.00 0.02 0.02 0.01 0.0'l 0.02 0.02 0.0.1 0.01 0.02 0.01 0.02 0.00 0.01 o.o2 0.01 0.00 0.02 0.00 0.01 0.02 0.01 0.01 0.01 0.01 0.02 0.01 0.00 0.02 0.01 0.00 0.01 0.02 0.01 0.01 0.00 0.01 0.02 0.00 0.01 0.01 0.01 0.01 0.01 002 NOX_,I 6.48 6.28 6.20 o. l5 6.14 5.99 5.90 5.93 5.94 5.89 5,86 5.S6 6.01 6.02 6.04 6.34 6.52 6.26 6.1 1 5.99 5.89 5.91 5.94 5.87 6.02 6.17 o.u / 6.00 5,S0 5.S0 5.90 6.11 6.20 7.61 8.08 8.26 8.54 7.66 6.99 7.00 7.09 6.56 6.19 6.29 6.36 6.33 b_ Jt 6.31 6.30 6.05 5.96 5.94 5.93 5.S6 5.97 6.00 6.00 6.71 6.94 7.69 8.27 7.27 6.60 6.37 6.21 6.15 6.12 6.10 6.09 5.97 5,91 5.85 5.80 5.85 5.88 6.11 6.19 6.34 6.45 6.29 6.18 662 co_1 12.31 't 1.98 '1 1 .69 1 't.63 1 1.63 11.65 11.70 11.73 1 1.55 10.77 10.27 9.31 8.89 8.55 8.44 8.85 s.01 9.19 9.19 s.08 8.88 8.64 8.51 8.51 6 _bJ 8.78 8.88 L83 8.69 8.38 8.01 7.58 7.28 7.33 7.59 8.02 9.28 10.21 1 1.00 1 1.64 11.70 'l 1 .36 10.96 10.56 1 0.25 10.20 10.29 10.51 '10.73 10.77 10.61 10.31 9.89 9.43 8.96 8.57 8.49 8.84 9.65 10.66 11 .57 12.O2 12.12 '1 1 .9'1 11.69 1 1.69 12.O7 12.54 12.94 12.96 11.88 1 1.13 10.35 9.79 s.36 9.09 8.81 854 Ambient 52 52 tz 52 q, az 52 az 52 53 53 53 52 52 5t 52 \) 52 52 52 52 52 52 52 52 t2 52 52 52 52 52 52 53 53 53 5J 53 53 53 53 53 53 PBaro 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.2? 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.?7 24.27 24.27 24.27 24.27 24.27 24.21 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 415 Humidity 27.3 27.2 27.5 2?.8' 28.3 28.7 ,ol 29.5 29.8 29.8 30.0 30.4 30.4 29.9 29.4 29.O 28.7 28.5 28.4 28.4 28.2 21.8 21 .7 27.9 27.9 27.5 21.6 27.7 27.5 27.1 26.5 26.0 26.1 26.8 27.3 27.O 26.7 26.7 zo. f, 26.4 26.8 26.9 27.2 27.3 21.4 tt.o 27.9 28.3 28.9 29.4 29.8 29.8 29.4,o 1 28.9 28.7 28.6 28.4 28.2 28.2 28.1 28.1 28.6 28.7 28.6 27.5 27.4 21.5 27.9 28.6 28.6 28.5 28.0 28.0 28.1 28.6 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 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 Rurl 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 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 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 Company Station t Jnil TimeStamp 03i'11/2025 13;16:07 0311112025 13.16:17 o3t11t2025 13.16.27 03/1 1/2025 13:16:37 o3t11t2025 13.16.47 o311112025 13'.16:57 0311112025 13:17.07 O3h112025 13:17.17 O311112025 13:17:27 o3t1112025 13.17:37 O311112025 13:17:47 0311112025 13:17.57 03i 1 1/2025 13:'18:07 0311112025 13.18:17 0311112025 13:18.27 o311112025 13:18:37 0311112025 13.18:41 03/'1'l12025 1 3:'18:57 03/1 1/2025 13:19:07 O3h1l2O25 13:19.17 o311112025 13.15.27 03/11i2025 13:19:37 A3h1120?5 13:19.47 03i 1 l/2025'!3:19:57 03111t2025 13:20.0'l O311112025 13:20.17 0311112025 13:20:27 0311112025 13.20:37 0311112025 13.20:47 03111t2o25 13:20.57 0311112025 13.21:07 O311112025 13.21:17 O311112025 13:21.27 o3t't1t2025 13.21.37 0311112025 13:21:47 o3t1112025 13.21 57 o3t11t2025 13.22.07 o311112025 13:22.17 o3t11t2025 13.22.27 0311112025 13.22:37 0311112025 13:22.47 03t1112025 13:22.57 0311112025 13.23:07 03111t2025 13:23'.17 0311112025 13:23.27 o3t11t2025 13.23.37 0311112025 13.23:47 0311112025 13:23.57 0311112025 13:24.O7 O311112025 13.24:17 0311112025 13.24:27 o311112025 13:24:37 O3l 1 1 12025 '13:24 .47 0311112025 13.24:57 0311112025 13:25:07 0311112025 13:25.17 0311112025 13.25:27 0311112025 13.25.37 0311112025 13.25:47 0311112025 13.25:57 0311112025 13:26.O7 O311112025 '13:26.17 o3t11t2025',13.26.27 0311112025 13.26:37 O3h112025 13:26.47 O3111120?5 13:26:51 o3t11t2025 13.27.O7 O311112025 13:27:17 0311112025 13:27:27 03111t2025 13.27.31 0311112025 13:21.47 o3t11t2025 1327'.57 0311112025 13:28..07 o3t1112025 13.28.17 o3t11t2025 13..28.27 03t1112025 13.28:37 0311112025 13:28:47 O311112025 13:28:57 03111t2025 13.29.O7 o3t1112025 13.29.17 0311112025 13.29:27 03111t2A25 13.29"37 o3h 1 12025 13"29:47 0311112025 13:29.57 Altamont LLC Bluebell Gas Planl c-258 o2_1 -0.01 0.02 0.01 0.01 0.02 0.01 0.02 0.02 0.00 0.03 0.00 0.01 0.01 0.01 0.02 0.00 0.03 0.00 0.02 0.0'1 0.01 0.02 0.01 0.01 0.02 0.00 0.02 0.01 0.01 0.02 0.0'l 0.01 0.03 0.00 0.02 0.02 0.00 0.02 0.01 0.01 0.02 0.01 0.00 0.03 0.01 0.01 0.01 0.0'1 0.01 0.01 0.01 0.01 0.02 0.00 0.02 0.01 0.00 0.01 0.02 0.01 0.00 0.01 0.01 0.01 0.02 0.00 0.02 0.01 0.01 0.02 0.02 0.01 0.02 0.00 0.02 o.o2 0.0'l 0.00 0.02 0.01 0.0'1 0.02 0.01 0.02 NOX_1 6.97 7.12 6.69 6.54 6.20 6.06 6.12 6.'14 6.40 6.54 6.44 6.42 6.10 5.87 5.92 5.92 6.28 6.48 7.39 8.03 7.12 6.76 6.34 6.16 6.05 5.96 5.99 6.03 6.07 6.08 5.96 5.88 5,S2 5.89 5.87 5.78 5.71 5.89 5.96 6.45 6.81 6.5'1 6.42 6.09 5.98 6.00 5.99 5.99 6.05 6.07 5.96 6.02 5.97 5.94 5.91 5.91 s.77 5.69 5.91 5.96 6.55 b.9z 7.06 7.20 6.68 6.32 6.18 6.09 6.07 6.05 5.96 5.88 6.03 6.13 6.02 5.97 5.80 5.68 5.64 co_1 8.27 8.07 8.05 8.35 8.86 9.44 9.8S 9.98 9.77 9.56 9.66 10.31 11.64 13.42 '14.63 14.61 1 1.99 't0.73 9.99 9.54 9.46 9.61 9.79 9.97 10.05 9.99 9.94 9.86 9.79 9.66 9.49 9.34 9.25 9.35 9.56 9.71 9.73 9.49 9.08 8.68 8.34 8.25 8.30 8.48 8.67 8.75 8.75 8.70 8.58 8.50 8.4'l 8.33 8.26 8.23 8.19 8.15 8.13 8.14 8.21 8.2S 8.29 a.12 7.85 7.53 7.09 7.10 7.33 7 .64 7.95 8.26 8.52 8.69 8.8'l 8.77 8.72 8.65 8.66 8.77 8.89 9.05 s 18 Ambrenl 53 53 53 53 53 53 53 53 53 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 54 55 55 55 55 55 55 55 55 55 55 55 PBaro 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24_27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.27 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 416 Humidity 28.8 28.8 28.8 28.7 28.6 28.3 28.0 21.9 28.3 28.5 28.7 28.8 28.8 29.1 29.2 25.2 29,6 ,OA 29.4 29.0 28.6 28.3 28.2 28.3 28.0 2t.o 27.4 27.2 27.0 27.O 27.2 27.4 27 .7 27.9 28.2 28.4 28.3 28.1 28.4 28.3 28.2 28.3 28.2 28.4 27.8 27 .1 26.9 27.5 27.6 27.6 27.6 27.5 21.3 27.2 27.5 27.8 27.9 28.2 28.4 28,5 28.9 28.3 27.s 27.4 27.3 to. I 26.3 26.2 26.2 26.4 26.3 25.9 25.S Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Tesl Run - 61 82 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Teat Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6 l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 6'l #2 Tesl Run - 61 il2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 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 Test Run Test Run Test Run Test Run TeGt 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 Tesl Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Te6t Run Test Run Test Run Test Run Test Run Test Run Tesi Run Test Run Test Run Company Station Unit TimeStamp 03/1 1/2025 13:30:07 0311112025 13.30:17 0311112025 '13:30.27 03/1 1i2025 13:30:37 0311112025 13:30:47 03/1 1/2025 '13:30:57 0311112025 13:31.O7 o3t11t2025 13..31.17 o3t11t2025 13.31.27 03111t2025 13.31.37 O311112025 13:31:47 03i 1 1/2025 13:31:57 03h112025 13:32:07 0311112025 13:32:17 0311112025 13:32:27 0311112025 13:32:37 03111t2025 13.3?.47 o3111t2025 13.32.57 03/1 1i2025 13:33:07 03i11/2025 13:33 17 0311112025 1333:27 03i11/2025 13:33:37 03/1 1/2025 13:33:47 03/11/2025 13:33;57 03/11/2025 13:34:07 O311112025 13:34.17 o3t1112025 13.34.27 o3t11t2025 13.34.37 O311112025 13:34.47 03t1112025 13:31'.57 03/11i2025 13:35:07 0311112025 13:35.17 0311112025 13:35:27 03i 1 '112025 '13:35:37 03111t2025 13.35.47 03/1 1/2025 13:35:57 03/1 1/2025 1 3:36:07 03/1 1i2025 13:36:'17 0311112025 13:36'27 03/11i2025 13:36:37 03/1 '112025 13:36:47 03/1 '112025 13:36:57 03111 t2025 13.37 .O7 o3t11t2025 13 37 17 0311112025 13.37:27 O311112025 13:31:37 0311112025 13:37:47 0311112025 13:37:57 03/11/2025 13:38:07 0311112025 13 38:17 0311112025 13.38:27 03/11/2025 13:38:37 0311112025 13 38:47 03/11/2025 13:38:57 03i11/2025 13:39:07 03i 1 '1 /2025 1 3:39:1 7 03111t2025 13.39"27 03/11/2025 13:39:37 o3l'1112025 13.39:47 03/1.l/2025 13:39:57 0311112025 13:40:07 03t11t2025 13.40.17 O3t11t2025 13:40.27 03i11/2025 13:40:37 O311112025 13:40:47 0311112025 13:40.57 03t11t2025 13.41:07 0311112025 13:41:17 O311112025 13:41:27 0311112025 13:41:37 03111t2025 13.41 .47 0311112025 13:41 .5? 0311112025 13 42 01 0311112025 13.42:17 0311112425 13:42:27 0311112025 13:42:37 O311112025 13:42:47 O311112025 13:42 57 0311112025 13.43:07 O311112025 13:43.17 Average Altamont LLC Bluebell Gas Planl 02_1 0.02 0.00 0.02 0.0'l 0.00 o.02 0.00 0.02 0.01 0.01 0.02 0.00 o.02 0.02 0.00 0.03 0.00 0.03 0.01 0.01 0.02 0.01 0.01 0.01 0.03 0.0'1 0.00 0.o2 0.00 0.02 o.o2 0.01 0.01 0.03 0.01 0.01 0.02 0.00 0.01 0.01 0.02 0.00 0.02 0.00 0.03 0.02 0.00 o.02 0.02 0.01 0.00 0.03 0.00 0.02 0.01 0.01 0.o2 o.o2 0.00 0.01 0.02 0.00 0.03 0.0'1 0.02 0.02 o.02 0.01 0.00 0.02 0_01 0.01 o.o2 0.02 0.00 0.02 0.03 o.02 0.01 0.03 0.01 NOX-1 5.61 5.64 5.65 5.96 6.'13 6.14 6.08 5.98 5.92 5.75 6.20 6.40 5.99 5.83 5.93 5.97 5.75 5.67 3.O I 5.58 5.54 5.71 5.77 8.83 10.08 8.37 7.03 6.78 6,1 1 5.68 5.66 5.72 5.72 5.71 5.93 6.10 5.82 5.62 5.63 5.62 5.90 6.06 6.07 6.10 6.03 5.97 6.25 6,45 6.03 5.86 5.92 5.94 5.89 5.87 5.86 5.84 6.04 5.87 5.76 5.66 5.60 5.47 5.81 5.84 8.05 9.05 8.12 7.',t'l 6.56 6.72 6.38 co_1 9.19 9.1 1 8.87 8.66 8.36 8.18 8.09 8.06 8.06 8.06 8.06 7 .97 7.89 7.88 7.95 8,18 8.43 8.63 8.77 8.95 9.14 9.31 9,16 8.82 8.38 8.02 7.75 7.71 7.95 8.58 9.79 11,36 't3.04 14.45 15.1 1 15.06 14.53 13.8'1 13.05 12.62 12.56 12.84 13.20 13.21 12.81 12.09 11.31 10.60 10.0't 9.53 9.13 8.83 8.76 8.81 8.93 9.00 8.94 / 8.84 8.68 8.51 8.36 8.25 8.23 8.30 8.41 8.63 8.87 9.00 8.94 8.67 8.25 7.82 7.61 7.62 7.S0 8.22 8.51 8.65 9.76 Ambient 55 55 55 55 55 55 54 54 54 54 54 54 54 54 54 54 54 54 54 54 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 55 PBaro 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.26 24.27 Humidity 25.7 25.5 25.3 25.2 25.2 25.5 . 25.6 25.6 26.1 26,7 27.5 27.9 27.9 27.9 27.3 27.3 27.4 27.8 28.3 28.4 28.2 28.3 28.5 28.6 28.7 28.8 28.9 28.3 27 .5 27.2 26.7 27.1 27.2 27.6 27 .4 27.0 27.2 27.3 27.O 26.9 26.8 26.4 26.2 26.0 25.6 25.7 26.2 zo. I 26.9 27.2 27 .7 28,0 28.0 27.5 21.4 27.5 27.5 27.3 26.7 26.3 26.1 25.7 25.4. 25.4 25.7 26.0 26.4 Group name #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesi Run - 6l #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6 I #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 6'l #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'1 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 #2 Tesl Run - 61 #2 Test Run - 6'l #2 Test Run - 6'l #2 Test Run - 61 #2 Test Run - 61 #2 Test Run - 61 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 Test Run Tesl 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 Tesl 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 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 Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run Test Run 417 Company Stalion Unit TimeStamp o3t11t2025 13.47.49 03/1 't /2025 1 3:47:59 03i 'l 1/2025 1 3:48:09 03/1 1 /2025 1 3:48:1 I 03111t2025 ',t3.4829 03i11i2025 13:48:39 Average 03/1 1/2025 13:50:08 03/1 1/2025 13:50:18 03/11/2025 13:50:28 03/'1 Ii2025 13:50:38 03/11/2025 13:50:48 03i11/2025 13:50:58 Average 03i11/2025 13:54:40 03/1 1i2025 13:54:50 03/1 1/2025 13:55:00 03/1 1 /2025 1 3:55:1 0 03i11/2025 13:55:20 03i 1 'l /2025 '13:55:30 Avera ge o3h 1i2025 13:57:31 0311112025 13.57:41 03/'1 1/2025 '1 3:57:51 03/1 1i2025 13:58:0'l 03/1 '1i 2025 13:58:1 '1 0311112025 13.58:21 03/11/2025 13:58:31 03i11/2025 13:58:41 03i 1 1i2025 13:58:51 03/1 '112025 1 3:59:01 03i11/2025 13:59:11 03/1 1/2025 13:59:21 03/1'112025 13:59:31 03/1 1 /2025 '1 3:59:41 03/'l 1/2025 13:59:51 03/1 1/2025 14:00:01 03/1 1 /2025 1 4:00:1 'l 0311112025 14.00:21 o3t11t2025 14.OA.31 0311112025 14.00'.41 03i '1 1 /2025 1 4:00:51 0311112025 14:01.01 0311112025 14.O1:11 0311112025 14:01:21 0311112025 14:01:31 0311112025 14:01:41 03i 1 1i 2025 14:0'1 :51 0311112025 14.02:01 0311112025 14:02:1'l o3l'1112025 14:02:21 03111t2025 14.02.31 0311112025 14.02:4'l o3t11t2025 14.02.51 03/1 1/2025 14:03:01 03/1 1 /2025 I 4:03:1 1 0311112025 '14:03:2'l 0311112025 14:03.31 0311112025 14:03:41 03i 1 1i2025 14:03:51 03/1'l12025 14:04:01 O311112025 14.04:11 0311112025 14:04:21 0311112025 14:04:31 03111t2025 14.04.41 0311112025 14:04:51 03/1 1i2025 14:05:01 o3l1'112025 14:05:11 0311112025 14.O5.21 0311112025 14.05:3'l 03/11/2025 14:05:4't 03/1 1/2025 14:05:51 03/11/2025 14:06:01 0311112025 14:06:1'l o3t1112025 14.06.21 03/1 1/2025 14:06:31 0311112025 14.06:41 O3h112025 14.06:5'l O3h112025 14.o7:O1 0311112025 14:07:11 0311112025 14:O7:21 Altamont LLC Bluebell Gas Planl c-258 o2_1 0.07 0.05 0.06 0.06 0.07 0.07 0.06 0.06 0.06 0.03 0.07 0.04 0.05 0.05 5.12 5.13 5.11 5.14 5.12 5.15 5.13 0.02 0.02 0.0.t 0.03 0.01 0.04 0.01 0.03 0.01 0.02 0.02 0.02 0.01 0.02 0.0'1 0.01 0.03 0.00 0.03 0.01 o.02 0,01 0.03 0.01 0.03 0.00 0.03 0.00 0.03 0.0'1 0.02 0.01 0.02 0.02 0.01 0.03 0.01 0.04 0.00 0.03 0.00 0.02 0.0'1 0.01 0.02 0.01 0.03 0.00 0.03 0.00 0.03 0.00 0.03 0.00 0.03 0.02 0.01 o.02 0.01 0.02 24.25 24.26 24.26 24.26 24.26 24.26 21.26 24.25 24.25 24.25 24.25 24.25 21.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 418 Group name #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #2 Bias Check #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6't #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 d3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Tesl Run - 61 #3 Tesl Run - 61 #3 Test Run - 51 #3 Tesi Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 il3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Tesl Run - 61 Run name NOx-1 Bias NOx_'1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias CO_l Bias CO_1 Bias CO_'1 Bias CO_1 Bias CO_1 Bias CO_1 Bias O2_1 Bias O2_1 Bias 02_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias 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 Tesl 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 Test Run Test Run Test Run Test Run Tesl Run NOX-1 1 83.36 183.42 1 83.41 183.41 1 83.53 1 83.53 I 83.44 19.70 9.44 4.99 3.46 2.39 2.O2 7.00 '1.91 1.59 1 .36LO 1.24 1.22 1.44 5.91 5,81 5.96 6.05 5.S4 5.90 5.81 5.75 5.79 5.78 6.09 6.28 o ob 6.93 7.08 7.24 6.56 b. tJ 6.10 5.86 6.20 6.35 o. to 6.03 5.98 5.94 5.90 5.76 5.68 5.61 5.57 5.7 4 5.84 5.96 6.04 6.00 6.00 5.90 5.82 5.82 5.95 6.01 5.84 5.77 5.80 5.88 5.94 6.03 6.08 6.00 5.97 5.83 5.73 5.73 co_1 1.20 1.21 1 .27 1.27 1.32 1.32 1.27 191.60 I 93.00 1 94.00 1 S4.00 194.60 1 95.00 1 93.70 5.31 3.14 2.',|5 '1.56 1 .27 1 .13 2.43 8.70 8.88 9.02 9.'18 9.40 9.77 10.04 10.12 9.93 s.52 9.08 8.63 7.96 7.86 7.96 8.18 8.50 8.77 8.93 8.94 8.91 8,86 8.81 8.86 8.96 8.96 8.91 8.84 8.81 8.88 9.01 9.06 9.02 8.87 8.61 8.41 8.26 8.19 8.1 I 8.'19 8.'19 8.16 8.'t 3 8.1 3 8.16 8.21 8.25 8.20 8.1 I 8.',tl 8.09 8.02 8.00 8.02 8.19 8.38 8.54 8.66 8.66 Ambient 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 56 57 57 51 51 56 56 56 56 56 56 56 56 56 56 56 57 57 57 57 57 57 57 57 57 56 56 56 56 56 57 PBaro Humidity 27.5lt.c 27.4 27.4 27.1 27.1 27.3 25.8 25.8 25.8 25.5 25.5 25.5 25.6 27.1 27.3 27.4 27.4 21.4 27.4 26.3 zb.b 26.4 26.2 26.1 ld_ z 26.6 zo. t zo I 26.4 26.3 26.0 25.1 25.5 25.5 26.3 26.9 26.9 26.6 26.3 26.3 26.3 26.3 26.4 26.3 25.9 25.7 26.5 26.4 25.8 25.8 26.'t 25.9 25 I 26.6 27 .1 26.8 27.1 26.4 25.9 25.7 26.1 26.6 26.7 26.5 26.0 25.8 25.4 25.3 25.3 25.3 25.5 26.5 27.2 268 24.26 24.26 24.25 24.25 24.26 24.26 24.26 Company Station Unit TimeStamp 03t11t2025 14..07.31 o3t11t2025 14.O7"41 03111t2025 14.07.51 03h 1/2025 14:08:0'1 O311112025 14:08:11 0311112025 14:08:21 03/11/2025 14:08:31 03l'1112025 14O8.41 03/1 1/2025 14:08:51 0311112025 14.O9.O1 03/1 1/2025 14:09:'l 1 0311112025 14:09:21 03/1 1i2025 14:09:31 o311112025't4:09:41 03/1 1/2025 14:09:51 o311112025 14.10..01 03/1 1i2025 '14:10:1 1 4311112025 14:1O.21 03/1'112025 '14:10:31 0311112025 14:10:41 0311112025 14.10:51 03t11t2025 14.11.O1 O311112025 14:1'l:11 0311112025 14'.11.21 03111t2O25 14:11.31 0311112025 14:11.41 0311112025 14:11 51 0311112025 14.12:01 0311112025 14:12 1'l 0311112025 14.12.21 O3h1l2o25 14:12.31 0311112025 14:12.41 O311112025 14:12.51 O311112025 14:13:O1 03t11t2025 14.13.11 o3t11t2025 14.13.21 03i 1 'l12025 14:13:3'l 0311112025 14:13.41 O311112025 14:13:51 03/1 1/2025 14:14:01 0311112025 14.14:11 o3111t2025 14.14.21 0311112025 14:14.31 0311112025 14:14:41 0311112025 14.14:51 o3t11t2025 14.15.O1 0311112025 14.15..1',| 03t1112025 14'.15.21 0311112025 14:15'.31 O311112025 14.15:41 03/1 1/2025 14:15:51 o3111t2025 14.16.01 03/1 1 i 2025 1 4:1 6:1 1 0311112025 14:16:21 03/11/2025 14t16:31 0311112025 14:16:41 03/1 1/2025 14:'16:51 o3l11t2025 14"17.0',1 03t11t2025 14.17:11 O3l1'112025 14.17:21 0311112025 14.11:31 03111t2o25 14.17:41 03t11t2025 14.17.51 0311112025 14:18.01 o3t11t2025 14.18.11 03t11t2025 14.18:21 03i11/2025 14:18:3'1 0311112025 14:18:41 03/1 1/2025 '14:18:51 O311112025 14:1901 03111t2025 14.19.11 03t11t2025 14.19.21 03/1'1i2025 14:19:31 o3t11t2025 14.19.41 0311112025 1419:51 0311'112025 14:20.O1 0311112025 14:20:11 0311112025 14.20.21 0311112025 14:20:31 0311112025 14:20:41 0311112025 14:20:51 03111t2025 14.21.01 0311112025 14.21:11 03t1 1t2025 14.21 .21 Allamont LLC Bluebell Gas Plant 02-1 0.0'1 0.0'l 0.01 0.02 0.01 0.02 0.01 0.03 0.00 0.03 0.00 0.04 0.01 0.02 0.01 0.02 0.00 0.03 0.00 0.03 0.01 o.o2 0.01 o.o2 0.01 0.02 0.03 0.00 0.03 0.00 0.03 0.01 0.01 o.o2 0.01 0.03 0.01 0.04 0.00 0.03 0.01 0.02 0.02 0.02 0.01 0.02 0.01 0.02 0.01 0.01 0.03 0.01 0.o2 0.02 0.02 0.01 0.01 0.03 0.02 0.01 0.03 0.00 0.03 0.02 0.01 0.02 0.01 0.02 o.02 0.02 0.01 0.02 0.02 0.02 o.02 0.02 0.01 0.02 0.02 0.02 0.01 0.02 0.02 001 NOX-1 5.73 5.70 6.36 6.80 o.c / 6.48 6.23 6.06 6.06 6.06 5.89 5.77 5.86 5.S2 5.91 5.92 5.78 5.69 5.68 5.66 5.63 5.62 5.56 5.51 5.54 5.65 5.71 6.02 5.91 5.84 5.74 5.67 5.66 5.65 5.68 5.68 5.79 5.86 5.89 5.92 5.84 5.76 5.96 o. t I 5.87 5.72 5.64 5.58 5.60 5.60 5.78 5.88 6.08 6.25 5.96 5.77 5.86 5.90 5.84 5.80 5.77 5.76 5.79 5.80 5.90 5.96 5.81 5 /b 5.68 5.62 c./ I 5.78 5.67 5.59 5.71 5.81 5.76 5.71 5.86 5.94 5.74 5.67 co_1 8.57 8.37 8.16 8.00 7.91 7.90 7 .94 8.05 8.23 8.38 8.48 8.52 8.41 8.31 8.25 8.27 8.34 8.38 8.4'l 8.44 8.47 8.62 8.75 8.85 8.84 8.77 8.61 8.45 8.32 8.26 8.25 8.38 8.39 8.41 8.38 8.33 8.26 8.23 8.'19 8.19 8.21 8.17 8.10 8.06 8.14 8,36 8.59 8.84 8.90 8.85 8.66 8.39 8.25 8.13 8.1S 8.40 8.56 8.71 8.81 8.75 8.67 8.59 8.44 8.29 8.21 8.14 8.18 8.32 8,70 8.81 8.83 8.81 8.73 8.59 8.46 8.34 8.21 8.13 8.08 8.06 8.11 8.1 9 Ambienl 57 57 57 51 57 57 57 57 57 57 5/ 57 57 57 57 57 57 57 57 57 57 57 57 51 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 51 57 57 57 57 57 57 57 57 57 57 57 51 57 57 57 57 57 PBaro 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24,25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.25 24.25 24.25 24.25 24.2s 24.25 24.25 24.25 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 419 Humidity 26.4 26.4 ZO.J 26.2 25.7 25.3 25.0 24.8 24.7 25.0 25.6 zo.o 26.8 26.6 26.5 26.4 25.9 25.7 25.9 25.6 25.8 25.9 25.8 25.9 26.0 25.9 25.6 25.6 25.6 25.0 24.9 24.9 25.3 25.7 25.5 26.0 26.6 26.'1 25.6 25.1 25.0 24.5 24.4 24.6 24.9 25.1 25.4 25.5 25.6 25.8 25.8 25.8 25.6 25.2 25.1 25.1 25.1 25.8 26.1 26.2 26.7 27.0 26.8 26.8 26.8 26.8 26.6 26.9 Run name 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 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 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 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l f3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Tesl Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 Company Stalion Unit TimeStamp o3t11t2025 14.21.31 o3t1112025 14.21.41 0311112025 14.21:51 o3t11t2025 14.22.01 0311112025 14:22:11 o3t1112025 14.22'.21 O3h112025 14:22:31 0311112025 14.22.41 0311112025 14:22:51 0311112025 14:23.01 o3t11t2025 14.23.11 0311112025 14.23:21 0311112025 14:23:31 0311112025 14.23:41 03t11t2025 14.23.51 0311112025 14:24:01 0311112025 14.24:11 03h112025 14'.24:21 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14.32.41 0311112025 14.32.51 03111t2025 14:33.01 03i 1'1/2025 14:33:1 1 0311112025 14:33:21 03/1 1 /2025 1 4:33:3 1 0311112025 14:33:41 03/1'l/2025 14:33:51 0311112025 14:34:01 O3h1l2o25 14:34.11 O311112025 14:34:21 03/1 1/2025 14:34:3'1 O311112025 14:34'.41 O311112025 14:34:51 o3/11i2025 14:35:01 03/1 1 /2025 1 4:35:1 1 O3t1112025 14:35.21 Altamont LLC Bluebell Gas Plant c-258 02_1 0.01 0.03 0.02 0.01 0.02 0.03 0.00 0.03 0.00 0.03 0.01 0.01 0.03 0.0'1 0.03 0.01 0.01 0.03 0.01 0.02 0.02 0.01 0.03 0.01 0.03 0.01 0.02 0.01 o.02 0.01 0.03 0.00 0.04 0.01 0.02 0.01 0.02 0.02 0.01 0.03 0.00 0.03 0.00 0.03 0.00 0.03 0.00 o.o2 0.01 0.o2 0.02 0.01 0.02 0.01 0.02 0.02 0.01 0.02 0.01 0.02 0.03 0.0'l 0.03 0.01 0.0'l 0.03 0.01 0.02 o.02 0.00 0.03 0.01 0.01 0.02 0.01 0.02 0.02 0.0'1 0.01 0.02 0.01 0.01 0.02 0.01 57 24.2457 24.2457 24.2451 24.24 57 24.24 57 24.24 57 24.2457 24.2457 24.2457 24.2457 24.24 57 24.24 57 24.24 57 24.24 57 24.24 58 24.2458 24.24 58 24.24 58 24.24 58 24.24 58 24.24 58 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Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 f3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6 l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l NOX-1 5.61 5.56\ a) 5.65 5.55 5.60 5.65 5.40 5.47 5.51 5.b / 5.73 5.96 6.10 6.04 5.99 6.21 6.38 6.'15 6.0'1 5.80 5.64 5.67 5.69 5.62 5.57 5.61 5.64 5.77 6.00 6.08 6.01 6.00 5.66 5.41 5.42 5.65 5.79 6.08 6.24 6.29 6.38 6.09 5.8S 5.81 5.77 5.55 5.45 5.48 5.48 5.57 5.65 5.54 5.46 5.62 5.69 5.51 5.39 5.41 5.41 5.66 6.50 6.90 8.29 9.27 8.21 7.59 6.11 6.'14 5.76 5.56 6.02 6.34 5.93 5.67 5.67 5.67 co_1 8.25 8.30 8.35 8.48 8.68 8.82 8.98 s.07 9.24 9.49 9.70 9.81 s.65 9.36 9.04 8.76 8.47 8.06 7.92 7.83 7.88 8.04 8.21 8.57 8.80 8.94 9.00 8.98 8.86 8.70 8.54 8.1 5 8.02 8.12 8.58 9.39 10.38 11.11 11 .41 11.32 10.84 10.24 s.70 oaA s.13 9.13 9.'16 9.19 9.24 s.27 9.33o)a 9.'13 9.06 9.06 9.09 9.14 9.25 9,39 9.63 s.87 9.91 9.73 9.38 8.91 8.46 8.07 7.81 7.70 7.89 8.49 9.50 10.66 11.44 11.74 11.59 1 1.06 10.97 10,82 10 63 Ambient Humidity 21.4 27.0 26.4 26.3 26.4 26.6 zo. I 26.8 26.8 26.5 zo. I 25.6 25.2 25.3 25.0 25.1 25.1 25.2 25.3 25.3 25.2 25.4 24.9 24.7 24.6 25.0 25.8 25.6 z J.5 25.5 ,q 1 25.0 25.0 25.0 25.2 25.5 25.6 25.3 25.2 25.6 t53 25.2 25.7 25.5 zo. 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03/1 1/2025 14:36:01 03/1 1/2025 14:36:1 1 O3h1l2o25 14:36.21 0311112O25 14:36:31 0311112025 14:36:4'l 03/11/2025 14:36:51 0311112025 14 37 01 03t1112025 14.37.1',| 0311112025 1437'.21 0311112025 14.37:31 0311112025 14.37:41 0311112025 14.31:51 03/1 1/2025 '14:38:01 0311112025 14:38:11 0311112025 14.3E:21 03/1 1/2025 14:38:31 0311112025 14.38.41 03i 1 1/2025 14:38:51 03/11i2025'14:39:01 o3h1t2025 14:39:11 0311112O25 14.39:21 03/1 1/2025 14:39:31 0311112025 14..39..41 03/1 1/2025 14:39:5'l 03t11t2025 14.40.01 0311112025 14.40.11 o3t11t2025 14.40..21 o3t1't2025 14.40:31 0311112025 14'.40:41 03t1112025 14.40.51 4311112025 14.41:O1 0311112025 14:41.11 o3t11t2025 14.41 .21 03111t2025 14.41.31 o3t11t2025 14.41.41 O311112025 14.41:51 0311112025 14.42:o1 0311112025 14:42.11 0311112025 14:4221 0311112025 14:42.31 o3t11t2025 14.42.41 0311112025 14.42.51 0311112025 14.43:01 O311112025 14:43 11 0311112025 14:43.21 0311112025 14:4331 03t11t2025 14:43.41 031'1112025 14.43.5',1 O311112025 14.44:01 o311112025 14.44:11 O311112025 14'.44:21 O311112025 14:44.31 o3111t2025 1444.41 O311112025 14:44.51 03t11t2025 14.45.01 03t11t2025 14.45.11 oil1112025 14.45:21 03i 1 1/2025 14:45:31 O311112025 14:45:41 O311112025 14:45:51 O3t1112025 14:46.01 0311112025 14:46.11 o3t11t2025 14 46 21 0311112025 14:46.31 0311112025 '14 46:41 0311112025 14.46:51 0311112025 14'.47:01 O3l1'll2o25 14.47:11 0311112025 14:47:21 0311112025 14:47.31 o3t11t2025 14.47.41 03t11t2025 14.47'.51 o311 1 12025 14 4A 01 0311112025 '14.48:11 03h112025 14.48:21 0311112025 14:48:31 0311112025 14:48:41 03i 1 1i2025 14:48:51 0311112025 14 49 01 0311112025 14:49.11 03t11t2025 14.49.21 Altamont LLC Bluebell Gas Planl c-258 02_',| 0.01 0.03 0.0.1 0.01 0.02 0.02 0.02 0.01 0.03 0.00 0.03 0.00 0.04 0.01 0.01 0.02 0.02 0.01 0.03 0.00 0.02 0.02 0.00 0.03 0.01 0.02 0.o2 0.01 0.02 0.01 0.01 0.02 0.01 0.01 0.0'1 o.o2 0.01 0.03 0.01 0.04 0.00 0.03 0.00 0.02 0.02 0.00 0.02 0.02 0.01 0.03 0.02 0.01 0.03 0.01 0.01 0.03 0.01 0.02 0.01 0.02 0.03 0.01 0.00 0.02 0.02 0.01 0.01 0.01 0.02 0.02 0.00 o.o2 0.03 0.01 0.01 0.02 0.02 0.0'l 0.01 0.01 0.02 0.0'1 0.00 0.02 NOX-1 5.70 5.60 5.61 5.67 5.52 5.42 5.44 5.45 5.64 5.73 6.86 7.34 6.39 6.03 5.62 5.44 5.51 5.54 5.54 5.53 5.52 5.49 5.48 5.63 5.12 5.58 5.50 5.54 5.56 5.53 5.50 5.93 6.08 6.35 6.57 6.10 5.81 5.69 5.60 5.63 5.62 5.68 5.68 5.63 5.56 5.62 5.12 5.49 5.34 5.46 7.70 8.72 12.10 14.77 10.98 8.52 7.22 6.33 5.86 5.66 5.60 5.56 5.47 5.63 5.72 5.46 5.46 5.46 5.54 5.57 6.22 o.o I 7.37 7.93 co_1 10.32 10.11 9.89 9.71 9.59 9.51 9.51 9.54 9.45 9.29 8.98 8.70 8.71 9.26 10.77 12.68 14.58 15.61 15.51 1 4.59 't3.54 12.41 1 1.56 10.85 10.41 10.0'1 9.68 9.35 9.07 8.9'1 8.82 8.81 8.75 8.59 8.41 8.17 7.90 7.65 7.55 1.72 8.12 8.61 8.98 9.04 8.8S 8.79 8.81 8.90 9.04 9.04 8.96 8.91 10.23 1 1.19 11.86 11.79 1 1.08 8.96 8.31 8.31 8.92 10.22 1 1.94 14.O2 15.69 't7 .17 18.27 't8.61 18.33 17.70 17.05 '16.49 16.29 16.05 15.65 14.93 't3.89 12.7 4 11.39 10.47 9.74 9.32 Ambient 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 5S 5S 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 5S 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 PBaro 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.21 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.24 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 421 Humidity 25.4 25.6 25.7 aE a 24.9 24.6 24.9 za.t 25.4 25.0 25.0 25.3 25.1 24.9 24.9 24.9 24.6 24.6 24.6 24.6 24.9 24.9 25.1 25.2 25.6 25.7 t2_J 24.9 24.6 24.2 24.1 24.5 24.5 24.4 24.3 24.0 23.9 23.7 23.2 23.1 23.9 24.O 23.7 23.4 23.1 tJ_ | 23.4 23.7 22.5 23.O 22.2 22.4 22.8 23.0 23.2 22.8 22.8 22.8 22.8 22.8 22.8 22.8 22.6 22.6 22.5 22.7 23.2 tJ_o 23.8,a o 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 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 Tesl 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 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 Group name #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6l #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 Company Station Unit TimeStamp 0311112025 14.49:31 0311112025 14:49:41 0311112025 14:49.51 03i11i2025 14:50:01 03/1 1i2025 '14:50:'1 1 0311112025 14:50.21 03/1 1/2025 14:50:31 0311112025 14:50:41 03/1 1/2025 14:50:51 03t11t2025 14.51.O1 0311112025 14:51:11 O311112025 14:51:21 0311112025 14.51:31 031'1112025 14:51.41 0311112025 14.5'l:51 0311112025 14.52:01 O311112025 14:52:11 0311112025 14:52:21 O311112025 14:52.31 0311112025 14:52.41 03111t2025 14.52.51 0311112025 14153:01 0311112025 14.53:'11 0311112025 14:53:21 03/1 1/2025'14:53:31 03111t2O25 14:53.41 03i11i2025 14:53:51 03/11/2025 14:54:01 0311 1 12025 14:54:11 0311112025 14:54:21 0311112025 14:54..31 03t11t2025 14.54.41 o3t11t2025 14.54.51 0311112025 14'.55:01 0311112025 14:55:11 0311112025 14.55:21 03/1 1i2025 14:55:31 0311112025 14:55.41 0311'112025 14:55.5'l 03i 1 1/2025 14:56:01 03111t2025 14:56.11 O3l'1112025 14:56'.21 03/1 1/2025 14:56:31 0311112025 14:56.41 03/1 1/2025 '14:56:51 0311112025 14:57.01 o3rt1t2025 14.57.11 o3t11t2025 14.57.21 0311112025 14.57:31 0311112025 14:57:41 0311112025 14:57.51 03/11/2025 14:58:01 03i 1 1i2025 14:58:1 1 03111t2025 14.58.21 Average 0311112025 1,5 04:52 03/'1 'l12025 15:05:02 o3t1112025 1s.O5.12 o3l 1 1 12025 'l 5:05:22 0311112025 15:05.32 0311112025 15.05:42 Average 03/1 1/2025 15:06:57 03/1 1i2025 '15:07:07 0311112025 15:07:17 0311112025 '15:07:27 03t11t2025 15.07.37 0311112025 15:07:47 Average 03i11/2025 15:08:46 03/1 1i2025 15:08:56 03/1 1/2025 '15:09:06 03/1 1 /2025 '1 5:09:1 6 03/'11l2025 15:09:26 03/'11i2025 '15:09:36 Average Altamont LLC Bluebell Gas Plant c-258 o2_1 0.02 0.02 0.01 0.01 0.01 0.02 0.01 0.0'1 0.01 0.02 0.01 0.01 o.02 o.02 0.02 0.01 o.02 0.03 0.00 o.02 0.02 0.02 0.01 0.02 0.o2 0.02 0.00 0.03 0.02 0.00 0.03 0.02 0.00 o.02 0.01 0.03 0.02 0.00 0.02 0.02 0.01 0.03 0.01 0.02 o.02 o.o2 0.01 0.01 0.03 0.01 0.01 0.02 0.01 o.o2 0.02 0.07 0.05 0.06 0.06 0.06 0.06 0.06 0.04 0.05 0.04 0.05 0.05 0.05 0.05 5.09 5.1 1 5.1 1 5.11 5.12 5.13 5.11 PBaro Humidity Group name #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 #3 Tesi Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 6'1 #3 Test Run - 6'1 #3 Test Run - 61 fl3 Test Run - 61 #3 Test Run - 61 #3 Tesl Run - 61 #3 Test Run - 61 #3 Test Run - 6'l #3 Test Run - 6 l #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 61 #3 Test Run - 6'1 #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check #3 Bias Check 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 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 Tesl 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_1 Bias NOx_'l Bias NOx_1 Bias NOx_1 Bias NOx_1 Bias NOx_l Bias CO_l Bias CO_'l Bias CO_1 Bias CO_'l Bias CO_'l Bias CO_1 Bias O2_1 Bias O2_1 Bias O2_1 Bias 02_l Bias O2_'l Bias 02 1 Bias NOX_1 6.94 6.55 5.95 5.71 5.61 5.54 5.71 5.80 6.02 6.13 5.76 5.60 5.60 5.60 5.66 5.71 5.62 5.56 5.69 5.72 9.71 1 3.14 13.25 14.11 9.50 7.51 6.55 5.88 5.71 5.69 5.62 5.57 5.49 5.43 5.44 5.50 5.54 5.12 5.92 6.03 5.76 5.64 5.71 5.76 5.67 5.6'l 5.65 5.68 5.65 5.61 5./ I 5.78 6.02 185.14 1 85.03 185.17 1 85.26 185.24 1 85.23 't 85.18 63.78 22.69 12.45 5.21 3.42 2.17 1 8.29 1.07 1 .10 1.12 1 .00 0.96 0.91 1.03 co_1 9.48 10.15 1 1.19 12.14 12.66 12.53 '1 1.89 11.24 10.73 10.48 '10.48 tu 30 10.52 10.36 '10.09 9,76 9.44 9.'18 8.81 8.23 7.74 7.47 7.97 10.o2 16.60 19.83 24.23 24.6S 25.05 25.23 25.16 21.59 19.61 17.21 15.27 13.5S 12.51 11.71 11 .21 10.70 10.25 9.79 9.45 9.10 8.82 8.60 8.34 8.16 7.91 9.98 1 .18 1.17 1 .17 1.16 1.16 1 .17 1.'17 1 86.60 1 90.80 1 S2.50 '194.00 1 94.00 1 94.00 191.98 1 02.80 51.53 24.03 12.O1 6.28 2.S0 33.27 Ambient 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 5S 59 59 59 59 59 59 59 59 59 59 59 5S 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 58 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.23 24.24 21.23 24.23 24.23 24.23 24,23 24.23 24.22 24.22 24.22 24.22 24.22 21.22 24.22 24.22 24.22 24.22 24.22 24.22 21.22 24.2 ,t o 23.5 23.1 23.4 23.1 22.9 23.8 23.5 23.6 23.4 23.',| 23.2 23.6 23.4 23.3 23.6 23.5 zJb 23.8 23.2 23.6 23.6 23.6 23.4 23.3 23.2 23.0 22.7 22.5 22.6 22.6 22.8 23.0 22.7 22.7 22.5 23.0 23.4 25.0 22.1 23.1 23.1 22.8 22.9 22.8 21.8 21.4 zt.J 21.1 21.3 22.0 21.5 21.3 21.4 21 .1 20.8 21.2 60 60 60 60 bU 60 60 59 59 59 59 59 59 59 60 60 60 60 60 60 60 422 G.{ 61 FTIR VOG AND TOTAI. 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[ ; H 9 E E g H E I E E E E S il d d d ; d il i l d d d J d d il d d d d d d d d d d d d. l Gt il d d il n n n . l n n ; - i.l n n n il { SE E q E E S E E T : $ E S S i B E g q T 6 g B E B g S U E S J E O E E E C S S B E S B gg E r" i i r r t r r r r i i i i r i : r i i i : " r i : i i r i i i i r i i i f i + i r i : + . i Eq f i q( H E e H I e E q q q E c E E E H E e q q f ; Eq q q E E E $ E E E E E q I { h A e & q r- r d ; J ; ; ; ; i ; J d J J ; - F d d d ; d ; ; d J J i l ; d d ; J J J - , i r i i S r T i s r gE E C B B i C : 5 g P ; 5 : 3 ; C E E ; H I J S E i S T $ B U I B S F E F S E E E B s E E S d d d d Nd d d d d d d d i l d dd d d d d d d dd i l d d d d d d d d d d n d n n i { i { n n i{ ; l { FE H F B E S S : T ; H H N s E B ! 9 i l : H A H I A g E g E i S E gE 3 = H d : T E E E i E P d d d r r r r d d d d d - - - d d d d i r J J ; il ; ; i d ; I : = : - ; n . i i J = J ia ; ; ; i r ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; , ; ; ; ; ; , ; ; ; ; ; d d s d. I d d ry d d $ d N d ry d d $ d d d d.l d d d q d d d d d d N d $ d 6J qr . ! d il + d d +.l I fl iH : i P i P I H F S E F H i H R U g i l I ! t r [ P 9 S : f r hE E E E f l E H E E E S F T E R P dd ? d 9 o d ? d d q d d d Q d d q d o d d ? d d d 9 d d o d d d d d l d i i l d i i - d + q HS s E B I H g $ 3 g g E g $ E E g g S I E E ; ; E s H S E E : g 3 E I E B g I 5 5 E H * 3 9 6q H f i EE E f r Ef i Sg $ E U i 9 6 H 3 B E i H E 5 B E 3 E $ 3 R = E E E * I N : 5 3 8 U 3 3 n:i a r i a r i a i d d i a d i i d - i a d i i i d d i i i i d i d d gq $ g E q E q : q E q q E E I E q B B i E i q E I H q S ; C E I i * S E F S S E i A E E S g J; J J ; ; J ; d ; ? d ; ; ; ; J; J ; ; i J ; ; d ; ; J;J ; ; ; ; ? J;; : d ; ; ; i l ; ; i! $ ! ! g 5 3 l U ! E ! ! I T E E I F E I I !! l ! ! ! i E ! ! l l E l B I S E g ! [ AB D = i E g P E 5 5 f l S( E B F E E E N B E B E E g ; P T H 9 f r il g F P 3 [ O O E S E f l BE 6 E s 3 EB ; f, I 6 c 3 B 6 e BS 8 i t, I I c ii dd S ii S B d ; S dd S S + E 3 * ? E I I E E iq 4 i { i X E { E T E H E I E E Q T E E E E q S H I E gE s S S s T E s E E N s i N g P E N fi f fi :E S S i l E N g E : E E E t s E S 3 i l f i 3i H i l 9 f l B* i l 3 C J S f l fi d$ E E N N T g B H (F R N [ i l R I P [ [ F N R I E F R E F F R R R R F i R F R F R I R h f i Rf r fr ft AR I h R T N oo o o o o d o o o 6 6 6 6 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 d d d d d d d d TS E E E E E T E H P S N E N I S d B E F F P E i l T B S S : S U P E h i g E E B E E E i l P E : d 6 6 d d6 d d d d 6d 66 6 6 d d d d d d dd d d 3 a 6 dd ;d G G 6 ; ; ; ; i,i ;;; ; ; ; EF R f l fr NR P F E T N I N E I R H H F N R i l N N F R F i l E I E I F R h P 6 [ A R h i l [ A N H 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 d d d d d d j j j E3 : g I ; E E i E S E E E E g : B E E gE s E E H s g : E ! E i E E I g g E H g g E g B : E !E S F P H E E s N C E = E 9 N E E E i F F 9 X 3 I 9 8 U * E R F g E F A S F S = F i X E A E qt + 4 + { + rr + + + "J + "t qt + + + + + + +,! ., "j + + { .t r] + + "J "l + qt q l .l rt + +,: t + rr + "j "J + NiE E S E = E E 9 E i E ! 9 P R g i ! E E ! 9 N 8 R N E 9 F S ! i N ! g 9 E P E E E S S E E ee e q e c a ? ? i i e g + + ? i e e i e i i ( ? i i i i i e e i { e t { i + " + + i + e i " TN S N E g E I i E ? gR E E E g C E H F S S : E E ! N f l !N i 9 P i S g P T T E E T E P g B t rr h i rr i, i I I { t ri t, \. \. i rr { t i t ri t t t I { t ' r + t' } r } r ( r r r } q r ( { e e r iE T q E q E E E f i Ef i qE q E ! O E q E E q T E i A q 5 i l E E T 5 E 5 E q i q E q E E I q E cR : s 8 3 6 + H 3 R P 8 5 S 5 I B & : ! I 3 6 : B 8 B P t E r = I 3 S 9 ! I t E s h n N 9 3 g J 5 # # 5 I fi $ 5 S E { s $ E t I E fl ; d f l ii iii ri{ rii r i i fl ril E g E S g i U I H E s S g i N r = :t > r t 5 : t r E : i : : t s : t t : t l t i i : : : t I i - * 5 I . - ! a - E E E t : t s i EE 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 B E E s E E E E E E E E E a a a ) a ; i A a a ) a il a i ; a b i ) ) it a i r ;' l l :r ll ) i a ir 5 ;; ; i ; t ; t il ; i i t i ii3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 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 ! E E E g q E I I B 8 I e = I 3 :e p : 3 : Ei N R r F e Fi ( r i 8 j Ci j c $ 5 d d s j { i j c gB c E E t E E E s c c c B c c c c E c g E c E s B E E s s c E c c c E E c E E E E B t E E ! E IN ' N N f r N N N N N N NN d N N I N I N I N ' N N A =5 E 5 E 5 E E 5 E E 5 5 E E 5 E I E E E E 5 E T E E , E E , T 5 5 E 5 5 5 5 E E E E E E E E E tEht I cE l I Elf ls I 'l l l I F* = HE B qB E EE 5 BB t ii fBE i l Eg 5 88 9 EJ C dd P 8g E 33 3 49 8 $d F Rn p EEE6 iiBEECdi EHbJE$33+sB9$uRNhFSEd9UHE9 88g858 dd=3dd9F3TN+RSR*38R-EERK9XIf ;9d88 dH q H H $ 83 8 3 8 8 3R ' 6 P E Eq E E q E rr l ! i i 8R g 3 t s F Ei l P ! E P Hl( & N 8 r sq [ { H H P3 P 3 g 8 Ei q q E f l 8N E E S 8 33 3 ; 8 8 EE E E E { 5q N 5 P B il 5 9 8 3 R "+ ? i f + 888NETBECE98cpFJ dqlr IT38qq58RNs8 ;ha:ET "J "j i" 88 8 8 8 8 8 8 9 8 9 dd d d d d d d d d d 83 t 8 9 8 3 9 3 3 g8 8 t 8 g B g ! dd d d d d ; d d EC C : R 3 ; H R nil d d d d d d d 65 5 5 5 5 6 5 E 6 6 5 4 6 6 6 8 8 8 E 8 E 8 8 8 dd d d d d d d d d d d d d d d d d d d d d d d d 99 3 8 3 3 S b 8 8 3 3 8 3 8 8 8 t s 3 3 9 3 3 3 8 JJ J J J J J J : ; ; : ; J . J J J J J J ; J J ; 93 9 9 9 9 9 9 9 9 3 P : * 9 P 9 P 9 9 9 9 9 9 9 sc t r B 3 P 8 8 C 8 g 8 3 P 3 : R E I r t R E g g dd d d d d d d d d d d d d d d d d d d d d d d d [; E 0 E 3 C B A H $ f l dH C U 6 F p ; H i l E 9 i dN d d d d d ; ; d d d d d d d d i l d d d i l d d ; 8B g 5 g g 8 8 S g 5 5 8 8 B 8 g g S g 8 g 8 E 5 f ii i ! ! i i s i i i i i i e i r i r i i i i i cf r Hi l E C S C E N E t $ E S ; 3 S i l i l S 3 gr 8 ?i i e r i r i t f i+ i ? i + i i i i i i + i i RC S E g P t r S B C P F 6 F T X B B S E B F E S g dd d d d d d d d i l d d d d d d d { d d d d d d d :B R E A T P A I S 9 E 9 B B ' ; R B 8 U S 8 B B ;; d d d N ; ; ; ; ; d d d d ; J d ; J d d d d ; EE P 6 3 : 5 8 f l PN i I E E T H S E D $ F E 3 E +d d{ d + q l d N d+ + d d . J + dd d dd f dd d HR S ; E X A R g f iF R E E E H g : N : N P g P qo d q d ? ? d d d 9 9 d d 9 9 d d o d d ? d d o Pl a E c a E E ! gb p f , ug : g ; g r a E g ; s dd i d d d d d d d d d 9 d d d d d d d d 9 d d d 3C s R g 3 f R t s i 6 t s 8 3 E g E ; : 3 C & R P 8 dd d o i d d d d a d d i d d d i i d d d i d d d E3 U P 5 J g C 8 r 5 8 3 s R U B 8 8 5 8 C 8 g 8 J;J ; J ; ; J ; J; J J d J J J ; ; ; J Jd J ; ;g a H n 3 P 3 r 5s 9 9 3 3 8 N 3 9 8 3 P 9 8 5 .1 : a ! rl q q q q e4 aq q q q 6 ! q 1 1 n . i ! q 1 1 q aS B A n S l 9 B = : F 3 3 f l 8 R ; R 8 n R 3 9 = E $ dt ; E g f l E + g gd t i { { s d s g dd e s E il H * 5 3 i l E I i : $T H h E i l N B i l Ai EE 3 f i g 8U h 9 i l 3 8 8 D 8 3 3 8 8 9 9 R R 4 ; 3 r N 8 8 dd d d d d d d d d d d d d d d d d d d d d d d d &F 8 g 8 P 3 B 5 8 8 S 3 g B 3 8 R E E N E ; H t s d6 d d d d d d d dd d o d d d d d 6 o d 6 6 d d RI H f r (h f l FA E h R H f l KH H E f l H H h T E R BT E E U 6 i H E US H T g E = q E B 9 U E ; H H dd d d 9 d d 9 d d d i 9 i d d P : d P 9 d d d d +. , r + q/ + qt + + + qr + + + + rr + rr + + + + + + + + n8 g t 8 5 t s = 3 8 5 f l 38 6 8 8 8 t 6 6 5 R t 9 e{ l e i l { q f i+ q i i l f +{ e + + + + q e gc 8 8 s 3 B 8 E dd ; J ; J ; J J SP N E P B B E g i: i i i i r i q PE i l H E C E F : dd d d d d d d d N;; d J i i l d d Ps s E T g X g F d+ N N d i l + d + Fg H S ; E H N N d9 d d d d ? d q o- a 9 r o o - . dil d 9 d d d d i dd i d d d i d d d; ; J J ; ; d ; hR E R T S : 3 9 rJ ; J ; ; J ; ; 53 h P S 6 3 8 A +s d t i s H d d d TE E E H f , E R g r9 B P A 5 p r 8 ry qE8 RE N I Q S S F PF N P S C S 3S 8 R B 3 A 35 s 8 E E E .d = e P P c E9 E H S E E AE898A aaqqit E[ 9 f , SE E S E J P g E ; E E C T S E E P i E i ; E S g H T E H U : : B H E B 6 9 E E E E ? e I, { . 1 I e { e, l f ,l e 9 9 + r' r , i 9 i ( { r r f ,r r e e { { e r + + + + e e ('r + i + h 4il 3 f r EH B S f i SA i E E $ ; E f i E: S T P E f l :S f i hq B U E q E g H S S E E E f , ;A ii i r i i r i l i i i r r ! ! i r r r r i r i r t r r i ! r r r i i i i i i i r r r i t P8 g i l E e 8 & P S 8 3 6 I 8 8 R P 8 8 i l 5 3 9 8 : : 8 E 6 { 5 8 8 9 8 5 r ! 3 n 8 : ! 8 ii g * S H # S S E $ 3 { :i S I s 3 E g # l; il , i ; !d !{ fi il i i $ d ; I I J 5 I I E 3 5 I = ! ! c9 g p 9 ! 9 ! : 9 p 9 9 i e p p e 9 9 9 9 9 9 9 p e g e e r = l t : I t - 5 t l I : > : EE 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 B E E B I) i t a ' ; a a h i l r i ; ' l l ; t l a a ) ) ) a a a I a ; ) ; ) ) ; a l n i i a i l a a 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 3 3 3 3 3 3 3 3 I !i d E g i$ s i r3 5 3 B [i i i d d d E E E ti I I r d s E E I E d s s s I E EE I E EE t 5 ! ! ! E i i: e E F ! s9 e i3 s ! ! e p 93 3 P E i 9 9 i9 E ie 3 3: 3 e e 3 9 !: E e 5r 5 5 E E E S E E 5 t ! E l E 5 ! 5 S E E 5 E 5 E E 5 E ! 5 5 5 S 5 5 E q q E E t S q q E d t t t n t G t t t d d e d n t G E n n t E E t d t t e n t d d e E t n d d n d d d d d d t 42 6 GGIo;G't i56It,litfI , IIp(I rl'F I :!!ttrl t- F irt,lit!iIEitttI gg g g g s g s g g g g g s s g g s g B g g g S g g g g s g S g g S g g S g g g g g S g g S g g g g E S g S S p l q q l q l q rq r q u e o o l u sE s 4 B H E E E q E E t t g t E c E B E q H E s s : E E E E E E s s i E E u E s E B s E E E E E E E E E E s = , * ; l u ;; ; ; ; ; ; l ; E6 6 B a B 5 6 i i E ; a ; a s ; s q g g q E E E E E E E E F a 6 6 d d 6 ; ; ; ; ; ; ; E t ; ; ; ; ; ; ; ; a C E 6 E i E l - [E ! 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I E $ $ * l r p l l $ P F ? ? r B f ! $ T ? e H l l Y I F + + f 1 f l ? r $ 9 $ ; l f ? i i l i l I r i l : l l { : sl r : n * t { i {E H E P E E S { B I E N P E E T g T E T S i P H : g S H E E E E E S E g E i P S B ; g f l P E E f l E E H E P P P S : : g g E EF I g E E E E I i ;; ; ; ; ; i l ; ; i l i l i i l i l ; ; i l ; ; ; i l ; ; ; ; ; ; ; i l ; ; i l i l ; ; i l ; ; ; i l i l ; ; l ; ;; ; ; ; ; ; ; l ; ;; ; i l ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; i l ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; i l ; ; ; ; i l ; ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; ER R E E H { i l $ E P g N q E $ C f i T E g R S H i N : E g E E I S E H H : ; i A R F ; 3 B P 3 3 g 5 i g = P B N i l i l 3 A E I A fr 8 5 5 3 [ 3 I I E s: s s , - s i i * i u ; , u ; ; ; ; ; i l ; ; ; ; ; ; ; E ; ; ; ; i l ; ; ; ; ; ; ; ; ; ; = ; ; ; ; ; ; ; ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; Sg B B q $ f ; $ S s i g H E s e g l H s i $ s 5 ! s s H x s i I r r : g s H : i g l g E H g g H r E * $ : r B s l s $ t s l g Eg s g g s e c l i si l E i : 5 5 r g i 9 : 9 E i i 9 8 r l E 9 : 3 : s l s i i E g i E r E i : E s : 3 i 1 l 3 i : r : l i E i ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; EI E s i i i $ F : : 8 3 : E F : F E 3 3 5 3 i E : l E s l g i f Bf !i : E s E l r E E r i s E s i E B B E = ; ; ; ; ; l ; il ; ; i l ; ; l ; !n i E F q ; i r K E s I r s B H B a f i $ E q c ; ! r $ B B s E E s s E E r E 0 i H E : E H 8 $ E B E H E H $ - ; ; ; ; ; l ; ;= - i l - - l ; 3i i E E i S r i E ? d d e 3 g d E 9 i E d r i r i S s $ S s d E e E a g s d d E s g E d E s i c r i d i i i l i + + i i i l i c a E i; ; i i i i i l ; BE E H i I i I c f i q t s t l B E E f l B 0 N ; F E B H { ! E E s $ f i R s i E E F p e r a E r R r E $ : H c s r F u u u = u u l = ,o u o n * = = l = EU H I I E g E E $ E E E E E B E E i E i E A E i E $ d i H g E $ E E E U E E E E U E E E I E d E E g E E E $ $ s d s C d l i I+ + F F ; + ; l i ;; ; ; ; i l ; i l ; u i u u i u n * * * * E E $ B B B E E B B B T s E s E E B B u E B B B B B E B B B B B B - ; ; ; ; ; l ; BB $ E E s B B l s Es i g H B $ E ; H g l H g i g g B B s [ f l 3 * s H E H g g H H E * H n B $ E $ g $ f l H B t ; g g H g g g t * ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; ES E E B E B E E E s s s g B E S E s E u E E B B E B u E B E E B g * E E E E B B s E E E E B I i E s S s B B ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; Eq E E H E i l E H p q E t 3 : 3 B I R { E c r t s 3 p i l : F E f ; I E i n E i $ E g f f 3E { B ; E 3 B d s a u o u r dP P d d d d P d d g P d d d : o P d 6 9 p p d 9 - d d p - . p g d g : : d d d d F p g s d o p = g d p d d a ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; cE E E s ! g H p p H F E i B I : i E E I i R E N B s s R R E F F s E q i l R E F E i l F E p F B i l ; : E : p g E r u u * * * l * es s c ; s e e l r "l q J , : r + + q r + + + + + + + r r q r + + + + + f + + + . , 1 + + 4 q r + + + + + { + + + + + + * + + r r + + , r i l r t + + + + . t + + i q t q r { l . l ii i i ; i i i l i sN f , N E E E E F E e E E p E i I s E e e E E E p E p E E E p E e E i H f i E E E E p E E t s E E E i E R E E p p T u u = u u l * uu u u u u u u l u ;; ; ; ; ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ;; ; , ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; l ; ?? 3 r l $ ? E f f l l F ; l + ? ? r ? + ; [ + 1 T ] ] P ? P r ? E E I s f l f ] E I I I l f l E ? + ? l l i ? t l l l l J i ts s s s s s : l i t- t - eB t ! 9 : B t 6 ! B & N E t E t t g B R p s B B 6 g B & N p B E i l t g B E e : g B 6 s n R N p B E r : e B p g E s n s c c l t sn r e p g n e l 3 sS E s 6 i l S s i i i r d r i i d i i i h g s a S g J S g E d i i S 9 = ! r : p v e l : 9 H E N N F i i e B r x i f t S S ; i l 9 i 8 5 i l i l - i d l E Cs $ g C i - i l E P: : 9 i a i : P p p : p p E s E 9 e r g p a e e * 9 9 p s E 5 9 9 3 9 s 9 p e d d 9 e € E ' 9 U i ! d g g S E E e U U U E E K ii i d a i i E l r EE 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 F E E E E E E E E E B E E E E E B E E E E E E E E E E E E E E E I EE B E E E E E I 42 7 sS c u { [ i l u I E s s dd d d d d d d d d d d qE q T E g E E i E T H gs f l B R N n 8 E 3 f , 6 dd d d d d d d i d d i dd d d d d d d d d N d g8 5 t s E E B E 8 8 5 t rr r i r r r i i i i r 86 5 3 8 8 = 8 : i l H g +r r r r r r i r r r r C3 3 P F N g F F S E B dd d i l d d d d d d d d dd d d d d d d d d ; ; gg S E P r s p p c E s df$ r l { d d q l q l d d i l fl H E R q F N ! ! f i E n d? 9 9 ? d d ? 9 d d d ER E S E I B f i N g [ [ 9d o d d d P d i t 9 d d ry q 9 9 9 9 r y q 9 9 \ i E5 8 g S ? 3 B E 8 S C -- i a ; d ; ; J J J ; fr r R 8 f , q f i E i f , E E R3 t g r s 5 e 8 3 3 R 39 E 3 9 8 6 e ? 6 9 8 EE S i 6 s i f l i i $ U 3h 3 9 3 8 8 6 3 A 0 8 dd d d d d d d d d d d p3 3 P 3 3 i 8 ! G N E 6d d 6 d d 6 d d 6 d d IE H P R N T E N F H I :E E E n E I q T E ; E Pd d d d d P d i 9 d s l 85 8 [ 8 3 3 3 b r 3 5 qi q l il qr ql Cl qt ql q l {, i cl 38 S E t t N 6 8 E 3 8 ii i i { { e { { + e e sIcIBtriN3INcII&t.Jt 38 P & g B : S S C e B A it r P + { P { i r r r + EU E B q E A A f i E A A S 6d 6 i - d c : N N 6 a d n6 5 d . - - 5 d d d - - PE H P E E H E E H H P E .a a l i a a ; ) ) a ) i 33 3 3 3 3 3 3 3 3 3 1 3 TS : : E E ! g E p E E p ES E g E E c E E S E S E cd d d d d d t t d d d d GG'oIGx, l5eE.F i iEll I {i . t2 I rt}F I rllirlIri,IT3IJI:I iE Itii atE hglsllFF9tti r 88 8 d 6 8 3 83 r 9 3 3 3 9P 9 9 9 9 9 3t D 8 D 3 3 8E 3 B 3 E g 98 8 8 8 8 s UT s J N T 9 ei i + i e q e ii i l l + e sU l E r $ H Eg P B i F a i9 t h ; 8 3 EE E g S E g ;E 9 f l H 3 H EB E C s E E Ef l B { F E E EqlEEE 83 t E 8 C 9 g: f P E J a il L f i r i r i 6 i { R& & E & R & SS S S B g {e e e i e B8 8 8 8 8 ++ + i t i 88 5 5 8 8 8 IHd3i !P E 8 3 9 A ++ + + + " l C {e i e e i q EE : S E 3 g 99 ? 9 ? 9 9 Eg s g [ [ E ti t i i i + 8E r 3 3 3 E tE s g u s B 8P E P 8 N 5 ge s E B s a 83 8 3 8 r r lE e l e g l EE E E E E E 55 ; 5 5 5 5 3lg: aErI ry ! r y N r y q 85 8 9 5 8 p3 t 3 8 3 $H h [ ; H 3R 8 e R 8 +i { t + q + "j il ,: l cl .l le i i i i $E E i i C EE C E E E ry P P P E B dE E 9 E E ee e e + i 63i3 3 3 3 3 3 ;9 T f l H H H ic s E E c s , .B E i S T I I .l q q l t q Fb b b b b b Eq B g g E q EE q E s q B 88 8 3 8 8 8 T: 9 f , R f , P E3 S E 5 g E 8 EH 6 9 ! E I EE E E B I E gE i [ 5 8 $ ri n { e + + E3 3 : 9 C 8 8 ii i { l e Ns d E e s g gE B q s E E PT N B s E E E JB 8 R D 3 6 {e i i t i + +e e { e + i 83 t 8 3 5 s +i i q i e l EN 3 U 3 6 8 +e i e + + t 58 R P 5 T E 99 q 9 ? 9 9 H$ B ; E f i H EE C E E S E EE q E E E q EE E E E E E gg e g p g u 93 8 & 9 E r EE H H S H S 99 l E E e P ER E & E & E 5; ; ; ; ; ; 33 3 3 3 3 3 rI E E $ 8 I E Bs c E c c E c rE f f t t F r tt L t l , t r , r It t r r r r r to o o o o o o a; f , i l t , , IiE kl sl r l ,l I r (UG'o!clu, !=i5eI.?EII:i ' ,e li rlir E III{rIrlIrlIrtri(f (l!iI! .!tt E(,Iil! 42 8 Fg ' G{62 FTIRVOG AND ToreI. VOG 429 E$ 8 8 5 E E E E E E B g $ E dd d d d d d d d d d d d d d ei e q l t E E I s B s E t B ;; ; ; ; ; ; ; ; ; ; ; ; ; ; Nd d d d d d d G l d N d r ! d d $s 8 5 t t a 8 8 P 8 S 3 r B dil i i l d 6 d d d i d d d 6 d ER E E f ; R E R { H 9 ! 3 T E E* N { R H : i l $ i E T f l E f l jd d 9 d d d ; d J ; d d 6 d gH H B g H * r H H s l S g f i pg F E $ € E E ; * i l S p 3 f i dd d d - . d d d d d d d i - qg f i E $ s s s s H t u E s i l ld d n 6 i d d d d ? i d d d R3 F p g H 5 f l i l C g E H ; S 9d d d d d d d d d 9 9 d o d Ei S H g E E S g E E B g T S =: = i P P i = a I T = p ? ? HE S E : E B C E i E * R P g dd d 9 d i . l d i . ? . t d . j . r r Ei 8 ' E } B E B i l 3 E f i F ! ;; ; J ; ; d ; ; ; d ; d J ; ST t 9 E 8 T E g E T 8 E t r 8 iii i d { d i d d a d d d d gE { 8 5 E R 9 3 E 8 p e S S TB 8 T 8 R F d 3 * t r r R E d SE E E B h h g E E S r r e I EE g E g S E E B E E $ E 8 E dd d d d d d d d d d d d d d E3 6 A 3 3 S A 9 8 C 8 P g b dd d d d 6 d d 6 d 6 6 d 6 d do d d d d d d d d d d d d d $t s E q i l E g E f a E e r H I dd e 9 - o P 9 9 9 d d d d d - 8t 3 ; g 3 8 E 3 8 5 R E 5 g "i "i. i + "/ c + t. ! +. i + nl + r t tt 5 8 R C 3 S 8 8 8 8 E D r f 9l i i i e q e e i e e e e e E{ E T T E { ! A E P E f i T F 9t r i r i 9 9 9 5 r . 9 9 9 " 9 9 Uq E t q E f i f l f i g H t s T E S qETE=38tns88Hf ; 88 t9 st 8 58 t 83 c ns e s3 $ n. , "j tE t ei i 8t f , 99 C 9t 3 ff f l E E f i A f l ; f r 1 f l i E T E t$ s $ s q f l s $ f l $ t ! \ ! BB A g g A g E A A g H A H A ss N s s s s s s s s s s s s ii l i a t a a a i i a i l b i ; b r3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 ig H E E H E E H E E t r E B E g ar c a a r r r n n r r c r e * EE E E E E E E E E E 1 E E E E @o o o o 6 0 0 0 0 0 0 0 F dd d d d 6 d d d d d d d d et t t 8 8 E 8 8 E E 8 8 E i; ; i ; ; ; i r i i e a s dd d d d N d . . l d d . i r l . J r l dd d 6 d d d d 6 d d d d d ;F - i ; ; ; ; ; ; ; ; ; ; 9q q q n A a Q t i e q n q oo o o o o o o o o o o o o nn q q q n q r q q q ! t t dd d - d d d i d d d N i l ; :P F q N P N N 9 g E S B g dd d d d d d d d ; d d d d uE S f l i F v a i l E E E S S ;l l q ; s ; ; Y 9 P e e e x; H g r t 3 E 5 3 3 E g S d? . t i d 9 d d 9 d d d d d P5 8 3 3 5 3 8 8 8 : F h x ;; i J ; ; ; ; ; ; d i J < . J < . J 8: 8 F 8 = P 8 P E B T 8 di + i + i i i l i i d i E3 R 8 ! r r d d E E d E E $ qq e ! r q q r y ! q - q n $q q q ! q q q q { o o 6 6d 6 6 6 d d d d 6 d d d gS c s c S 9 r t r r c t dd d d d d d d d d d d d iii d i r d t d d d d - 85 8 8 8 8 8 5 8 8 = P R .! + + " r t . r . t . i " i , t + 4 4 9+ 9 9 9 9 9 9 9 9 + i e 9! q q N a i i q N q Q o 9q ? 9 9 9 9 9 9 9 " 9 9 q4 q i 9 N i ! q Q q n ! 9 8& 5 S 8 R 5 h P & $ 8 t C 3 r d6 S 6 t i t l N N N # - - i i flt s f l s q s r f l r y f l q t q N n RH H H H H H R R H H H H H H H ii r i l a : r l i l i ) r i a h ) ;3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 !8 N R r $ x i F i R s i i i C f r i s i l Ig 8 B 8 8 8 8 B B B B 8 g H E H o - - - - - - - - - ? F ?r - F r r F EE E E E E E E E E E E E E E E E g' T ; T T 88 8 8 8 8 58 8 8 8 8 ;s B s g s P8 E 8 P S 99 9 9 9 C 9r i 9 e t B8 ! E E A ;3 t s ! E Eq B 8 T f ; ER R E : T 99 9 9 9 i el g e e i i3 $ 3 8 6 d9 9 9 9 9 EE E 9 E I in e q i l EE g E S : 9c a i 9 9 SS S S S S "9 Q 9 9 { 8t E E 8 E ca e i i i EE E E S E 88 T 3 5 : tE i l t i f i gg 8 8 g 8 gg s g g g ss s s s s EI3"},c+sdi93flI9IIgIst8DI8!!f,ts(!a gE E E E E E TR f l R T S F CB B S H g E 99 3 8 9 3 3 r= x 8 c 8 i RH H g f r R F ET I E i ! T gE T i E E i Ft E E E E I 85 3 I 8 g S ie i q i e e 88 8 8 8 8 8 99 9 i S 9 i 9E g g g g d 38 3 8 8 8 3 ii + + e e i .t " j s . / " j r y " j rJ r S * 3 X gE H g E E E #B # i H l i g8 8 5 g g gs s B s u ss s s s s 55 ; 5 5 5 E3 3 3 3 3 3 1 ;B B E E g A I IE E E E B g E ! r ' r : l r r r to o o 0 0 o o : ## r r ; ; ; 3* = = * * * = IS S g 8 t E B EI I i I i i E BE E E E g E E 43 0 88 8 8 8 8 99 9 9 P 3 s3 8 8 8 i l 8S t s 8 3 9 33 E B E E EE t s S B E Qg d c { c 8: E g E B rt r 8 9 8 9 93 8 8 : I d9 9 C 9 9 !E B E E 3 Bg E E E E d9 d 9 9 9 E BB E E E E 6 d d d g d d g BE E E S C d d d d g d d o F!6 o o a E 5b 5 E 5 E d dg d d d d E EE E E B E d d 9 d d d d g EH E E E ! d 99 9 d d d g EE E E g g g FE R I E R d d 9 d g d d E 34 3 3 E 3 d d9 d ? d d EtEexE 39 3 4 8 8 cEaaeaEEIxgeB !Er & +N d f i i 6 d I 8g g 5 5 g g s Rs s s s s s 5 55 5 5 5 5 5 36 it siE s3 3 I 3 t EB : d i d d i $I iH H E g H {{ ir d J d r RO d Z 2 2 2 Z lE l !E l FFi . 9g;IBTdgBNT 8& J 8 f , T P ig c a i g q 88 8 8 8 8 r Pi 5 5 9 E 3 SB R S N } 5 93 8 R r s B BE E d E S E s3 3 5 g g 8 ei e c i i e el Q q e e g qq e + e e q 99 e c a 9 99 i ? 9 9 R3 5 3 s 9 88 8 8 8 8 *i H s 8 - s 5 ts g g 8 s s ss s s s s ba l D i i t g4=r3 3 3 3 3 3 !E g E g E g l! o ' o o o o o ct t r t r t EC s H C C C :I I I I E I ca g c a c c I3Isq8EIiI3II"JE9+8f;U 88 8 8 8 8 85 5 8 E E g5 3 R 8 B gF 8 n 8 e !q ! F q N E8 P E 8 5 EE 8 8 d 8 BP E S R B gY B B 9 g 5E 8 8 8 E eq i e c e TS E B E : Eisi aaiexiIi+39 tt 3 3 t t 9i c i 9 q gt r i I 8 J +i e e i i ES H E C E 8Y 6 n 9 5 =5 8 8 8 r E3 88 I 3 8 = gg 5 8 g 8 ss s s s s 55 5 5 5 5 3H ;:r3 3 3 3 3 IH E E E H aE E E E E 3I IT J ; T I 3 3 X 3 T 3 3 3 T I 3 3 i 3 3 3 3 J J I dd d d d d d d d d d d d d d d d d d d a d i a a - :i i i 3 : l = E : E : : l : : e P E E E E P : : i oo 6 o o o o o 6 d o d o c d d 85 3 = = 8 8 t s ; E : t 8 5 5 8 5 3 8 3 P e 8 8 8 8 J;d d d ; ; ; ; d d d ; ; i d d ; J d d ; ; ; ; : f; T E R T E H C S E * 3 H : $ S N T I H B i S S C M dd d i d d i d d i d i ; d d d d o t s d d d d d d ; F5 B E E 3 $ R 8 F F 9 g S g B 9 5 5 8 8 T g C E t r -$ n t q r t t n l r q \ r y i i . r y r r i { r r r y i TF F F F F F - e r r r r - I ? fi 3U H $ E O $ P T } : F F 3 * U i l f i Efr TE R E E dd d d o - d d o d F d 6 d d d d d o - F F d d g d s$ p E s t I g E H E l E c H g u f l iB $ $ $ * H ; dd d d d d d d d d o d d a d d o a o n d ; d d ; ; t5 E 5 8 8 9 5 6 8 $ 5 : 8 N e R 8 t s B 9 8 B S R : ii. d d d i ; F o d d d d i ; ; i l i o o d 6 F F F g{ s E E 8 g * S $ E t i g t ; $ e $ s E i l [ B f r h .l d d d d i d d d d d d d n d d i d d d d d I d d d Bf i il E B E E E C : 3 U t s $ i 3 E B f l Si T T H g ; 9O d d d d d d d d d d d d d d 9 o d d o d 9 o d d HH q : t E f i =a : = F E q E E 3 8 8 f i rE f i ;B r d: : = 5 P : P P e = 9 = = = d P 9 : P o 9 d P P 9 gE ; 5 3 E E T I d Q g S P 3 i l B I g $ E R f l f , E T did i d d i d i i d d i i d d d d i d d i d d d d BN h S H t s E h E E H T C T B E T E S T E f l i E T T ;; ; ; ; ; d ; ; ; ; ; F d + ; ; i i l F i l ; ; d d - EE P E gB E E I E E E I T H E ; T H E E 5 E 3 E } oi i i i i i i d i i i i d d i d d d i i i i i d d fiC E F i l P g P g g f f B E H B ; B E E H B B : E 8 E dd i l d d d F d d d i d d d i l i l d ; j i + ; d d i d FF 6 @ O O F i t s t s F 6 6 6 6 IE E E E [ f r tE a 8 f l sE r t E C E f l sE 3 i f l H gT ? P 9 6 i E I t b R S R i l E R B g N g P : 8 i C 8* E : t 5 N 9 F E g e = g : 8 8 8 3 8 P r 8 E P 9 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 3B F 3 B 8 3 } R R C 3 ' S g E P F T : F R C 3 } 3 do d d d d d d 6 6 6 o 6 6 d d d d d d o 6 d d 6 6 dd d d d d d d d o d d o o d d d o d d o d d d o d HS i S n E t F S s n i 9 ? f r Ef i iN : i l E H E H e dP P S d d : P P 9 d P : I P d d P = d . 9 o d 9 P dd d d d d d d d d d d d d d d N d d d d d d d i l d 59 S 9 83 5 P9 r 33 R 8 3 3 8 P 8 EE P= !' B P Nq N N N N N N N d N I N q N N i? 9 q i c i 9 9 9 q 9 9 9 9 i 9 ? 9 i 9 q 9 9 9 9 sP E E H E P f , ;q E H E f l HE ; f i F5 E i l E $ H f i 99 i \ 9 9 9 i 9 9 r 9 9 9 9 P q 9 9 9 9 9 i q 9 9 fl fr il H E E E E E f ; q{ { E g R q : $ q T E E { d C :b E s e s H & P : 3 h 8 9 S R F : 5 8 3 9 E S & P 85 q d € E 8 E E c 8 8 e i i I ; e ? ! i P i E E N :P P P E S 9 P 9 P E P P P P P P S P P 9 P P P P S 8B S S S S 8 8 8 8 8 g 8 g g B 8 8 8 8 8 S S S B S ss N s s s s s s s s H s N s N s s s s s s s N s s 55 5 5 5 5 5 ; 5 5 5 5 5 5 ; 5 ; 5 5 5 5 5 5 5 5 5 BI3aFg8IE9 n;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 EE q g E E E E E H H E E E B E E E E E E g g g E H H :E E E ; E ; ; E ; E ; E E ; E ; ; E E ; ; E E E E E - ne t d E d d Gc t d d e e e t t c d d c E dE E E s3 r 3 3 3 :: P t s 8 f l 59 3 8 8 9 r8 E 8 R & NB E B i + d;d d Y P E: B f ; A E Eq r d E q 39 8 5 8 S ia i i B B ' F8 E 5 3 E 99 9 i i 9 9+ e 9 i r :B 9 S : t 8 gg B B a g s TN N A A N E 55 5 5 5 5 5 g;IE r E c c E c E T; =; ; = ; EH g E E g H H ir u r u u =8 3 t l l I 8 88 5 t s 8 ;; ; i; 5J 9 S E 38 t s 3 8 88 5 8 8 ?c 9 9 9 i? 9 i e R& B 8 g IS S N F EE $ E $ 88 8 i 5 9g q d q 5$ $ : i l 8F 5 8 i r ei i i e t8 3 3 5 gE E E E 88 t s 8 8 88 8 8 8 8s 3 3 9 85{i l PFE8EEs3R899+i SE99Eg99q:BB ie38Eg??88++ 33588EEP&t F?5EET .t .l 893Ss83$$$ dd8'8T sB g s E s ss s s s s aa a t a a ;3 3 3 3 3 3 iB B s B B E EI ; I } I I !tE 'E l l F$! r TE g T E HE : E B BB : 5 e SS g N N 38 8 8 8 fr S P I E 9P E r F P+ e 6 h 85 5 3 N t3 8 R E 83 8 R S 8i 3 E S ?I s p ; :P d d d t8 8 F B Ef l q € A I 88 8 8 8 8 8 8tgEb8 .t .f 8833dt8N899999ETr9II!!at EE g E E c8 P 3 s :9 9 8 n 8R 5 = B e= i = Y gf i E E H 58 8 8 8 3: 8 R 8 s3 s 3 8 BP 9 E 8 e3 8 3 5 53 S 8 3 ii g g g 99 P ? 9 qB B E E 5? 5 5 r NN ! t N ta ; ; ; 3"J$qIt9iNa 99 9 s J r $ 38 S S B S 8 NN N N ! ! T 55 5 5 ; ; ; 3il l l t t u iE B E s s B E ;qEt p r p r e p iB B t E E B g l r r' r' r r' r ' t lp e e e c p c 43 1 E8 p g 8 8 -- : q q q EE S E E E 3N E R i l I 8g p : 3 E SS T P h E Eg E E t t s9 E S 5 5 88 8 E 8 8 88 8 8 5 8 99 i 9 9 r 59 t s r 3 $ c? 9 9 9 C rr g r l l 8e $ 3 t 3 88 S S S t sN s s s s 55 5 5 ; ; dd d d d d d d d d d 99 9 8 8 8 8 5 8 8 5 ;; ; ; : ; ; ; ; ; ; PP P P P 3 P 9 9 9 P dN d d i l d d i l . . l d d 8i l N N 8 8 I : 5 3 9 NR B i 3 B E 3 8 8 8 Il:l I l : l F . t i i \ Ei l q E f l E U E E U i d9 9 9 d d d d d ; d 93 8 3 9 r 9 5 3 8 8 dd d d d d d d d d d i.2 9 o o 6 6 6 6 N :: ! 9 : 3 3 : 3 : 9 sH E S I t f l f l p $ $ dd d d ? d d d d 9 9 fi f l : E i g 3 ! g i E dd d d 9 d d d d q Q Et s E 5 S 3 f t T E : E Y= i : 9 d d 9 = : = q5 5 S E f ; E R 5 E S 9ir y d d a d d d d d ;d d N ; d d N d ; ; id d i i d i i i + i 95 9 8 8 3 3 8 * P 8 dd 6 ; d d d i i 6 d 8f l $ E f i E E $ g E E 3P 8 B & 9 9 3 t s 5 9 ala { a ! q o o \ o 6d 6 d d d d 6 6 d d dd d d d 6 d d d d d ;q T E f l E c A s E F dP P d d d d d d d d dd d d d d d d i l d d l9 e 9 e i e f e i i 83 r t r 8 8 : 8 8 t 9 f9 9 " q 9 { 9 9 9 9 9 BH f , E f i E E i f l E T RH H & H C C S i s # gg g H g g B s B s a !T N ! N ! N N N T C 55 5 5 ; 5 ; 5 5 5 5 r3 3 3 3 3 3 3 3 3 3 3 3 3 3 I 1 iH H E E B H g H H H H B H E E E ET E E E T E E E E I E E E T E E o0 6 b a b a 6 6 6 6 6 b 6 b 6 6 Gll ,oGi(EE i5b ,lI!,E:lt!,;-l I ttJeCrti IhtdIIIBt"!Ir I rE,Eiiii{ ii i i t E E g $ 3 I 3 i i t s I l s 3 $ s 3 E s $ 3 3 3 $ I 33 t $ $ 8 3 r 3 3 S 3 3 3 3 3 S 3 J 3 3 3 3 $ $ 3 r dd d d d d d d d d d d d d 6 6 d d d 6 d d d d d d d d d d a d d d d a a - - - - d - ; - ; ; E E E ; ; ; ; - - ; :i i : i : : : i : : : I i i : : : i i : i ! i : : : i r : i i i i i : : i E i i : g E E : I I : : i i i : : ! : pp p 9 p p p p E p p p p 9 p p p ? ? p e c 9 p p p p e p a p e e s e s e p p p e g e i p F F E F F F n E F F E E HI I : i g E P l P F I S S E F I : H E E H H E H I E E E gH i S i g i E E F l i F R H E l H H i E E E E H i i H E gE P R i i T d E T ! E d E g f ; ;R T B E E f l il E i E q T $ E E H E g H E E ; H ' : 8 [ ; 3 8 ; f r BH P i l R T s @6 6 6 6 d d d d d d d d O 6 d d d F d d d d d d d d d d d d 6 d d 6 !E - i l l E ! ! q ! : ! E I q q E N E E q i E E E e E ? i E e E ! f ; EI H I E & F ! F N I n f i EP E p N S e E E T i ! E E I : ! E !E E I q E I T EE q I q i T i! E i E q EE q iE E { E E E E E ! -E q EE 5 E E T g E E I NE oo r ? r o o d d d ; r o r d d d d d F 6 d d d d d _ - d d d o - _ _ dq f f 38 1 i l 8 f l fr HE B i l C $ ; 5 i l E E q i B i l 3 $ H $ H i $ { B T E 3 ; i l B E F 5 f i EE $ E 3 I i l H I B S A E dd o d o d d d n 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 a ; ; ; ; ; ; ; ; ; - ; ; EE E q T E i f l HI E f l EE E E g E H i l g E i E h E s E s $ g i E B E E ; I $ F H B B E f l ]8 i l 8 f l FE gs h N $ P I I I P tr : : p I e : p : f p i p = : : : : : p I p > : : : : i I I i i I s ji p = s e :: : i i | : E : ii t i qE E i s q ; q u s * P 3 ; ; f l $s 5 ? i $ E H S i l t S g p i l C : $ q q i t H s g f r E: f ; tf i H8 H i l f i H i l E ? q a r 6 6 a a oa 6 6 a r a 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 d dn d.l d d i i Ad i ; ; ; n E I U fl e -E E i g s B E $ : E $ E ; J s P t EE F H E E [ $ R cE E p E ft g I ; g E ; $ EE p B E 3 h E A n E ] t d o d d d I o g d d d d o d d o d d d d d d d d d o g d d d d d d d d d j - - ; - - - - ; + ij ; ; 9 ; E ; : j ; ; i HN A I E E q E E P N g i E E E $ : C $ 3 3 E H E E $ H E B i M g T S P E H { E E T : h s i E T H P s B i : E E H dd 9 : d P P q P P 9 d 9 : 9 : p d p 9 = 4 9 : d 9 p p : p 9 ; - 9 = ? p p 3 9 9 = ; ; a 9 e p ; p = p p 3 9 j e il B ; E $ E 4 E E 8 H E p = E B E E t E { A F P 5 B B S f i HS $ E 5 P q 3 E r i l U 3 E E X f r BE f i Er E r E B e i l oo 6 r a o o S o o o o o r o r o n i i r d d i d ; d n i d - d d d j . I d i d d i i d d d o d d d d d d i d d ; d EP f r BN E B S B E i l S E H B B E E E T B T E E S 9 H E E E i 9 E f i AE B E I i H S F F S t s s B N } gT 8 f i TS E J il. \ l ; d J ; J r ; ; N d - ; d ; d - : a : ; j : il r : : d : d d = = = : d : il : : il i.i f I I I J I I I I I I ; ; B3 JE E I E E B E E E T E E B S I T E E f EE i S E T E E E f l E E B E E E S E B s E E X g X $ T s E E B E T s E dii d d i d d i i ! i i i d d i i d i i i i i i + d i i a a ; - i ; - - - - - - ; - ; ; i i i I i E l I I I i i .* i A 3 A fi i B E E E E 8 H B H ; S E C fl E E E T A } P F H E E E H T E 3 E C S ! R 3 [ 5 E F E E E C E E T ; fr * I B c p E D p { pF r E R B E B R p *p B r ai c I a r a s a Cr ri F r E d I i s ii I a ii r E E E E E E e I i il ! q E I i E E i 3 cE g I i ! E i s g - i! !s E E I { q -i i q (E q I i E E i tE N B q i 3 $ E E I ( I E 3 I E I -g E E g E E E . S - B E E E E E E E B i E E I i E E g U S I X E E H S H i l P E P I C S S d E P [ [ E E P [ : I A i l C : Es I E E S g E E s E E S E a E B E E E ! g s E s S B s E E H E E B E B E E E E : E E E E E E E E E E E g E E B E ae i E I p p t E E q H E E E B p u q f , EE E E i l E i p E E E E E E f i FF E i l s H 3 p 3 C I f i 8P N C I 3 f ; tE i l 66 6 6 6 d 6 6 6 6 6 6 6 d 6 6 d 6 6 6 d d d 6 6 6 d d d d 6 d d 6 6 6 6 d o d d 6 d ; ; 6 ; ; d d ; ; ; ; ; ; ; gE I i E { : q E E i H * 3 { ! e H E i q s s q t f , t! * i e E $ s i f l $a c 3 ? r H i l s H $ = E { 3 0 ! € C r S oo 6 6 6 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 d d d 6 d H S E i B fi B 3 E 3E E E E SE f i : E 8. 4 E { E E 8 g E i E E : E 3T E $ E I E I I 5E B i q i E il E ! E P g HE d. o P d d e d d d P d o = d 9 d d p 9 : d d : d - ; 9 p ; ; ; ; ; 9 ; ; p ; - 9 = ; ; = ; 9 9 ; ; j9 n ; ; - - q{ ( i i e s 9 q s c S i E q E U E q E E E l E i i E f l sH ! H E q E C S E ? f l rE R e 5 S 3 S f r iE r E s r l E qs r y r r y r y q q q + . r ! + ? . J . i r y i r y e ? + q J e " r . r q l + { . i . i " / . J " 6 / + + + . / i i + " j " + " i " i " i + i q " r " j + " / r y XI E ( E E i ^ i X { E r E E { E E { H N E E E E & E E & { & F E R E E E H n R s { R E € f sF I n N * N R R R H 99 9 9 9 ? e 9 e ? e 9 e q q e 9 9 9 9 ? e e c ? i 9 e i 9 9 c i i 9 + 9 i 9 i i e 9 t i 9 9 i i e i e i i + i 9 fl EE 8 i H i l i 8 E C 3 T g T i l f , SF T 3 q E ; E H $ i H E E + B E [ $ h * E E E E T H U g E E U i l E H H F E P g I fr , r 9 C 9 9 9 i I q ? 9 C I I I e I 9 e 9 9 I 9 9 9 I " I f q i I + I T " 9 I r 9 i " " " q i. C a 9 I i i 9 I + Ei q T - e T ! i T E E ! A E 9 9 I I T E E q T f ; Ei { E E E ! : H H E E & E q { g 3 9 F E q E I I E E B i $ 8 9 f ; ir s r i i r r r [ 5 i l i s i i i r i i i i i f ri r i i r i i i : r i r i i r l r 5 r r 5 ? i r i i i t i 5 r 1f l i& ? ; E f l 31 f l Ff i ;E E f l 9E s R ? ; 8 8 9 $ s R F : 5 8 s s B s R p e 3 8 9 $ 3 R & : 5 8 $ e 3 s R : = s p : e p = ? p P R E N R JR R R N R fi f i E t R B f n n t n S $ i i C $ r s $ r + + S fi fr il ri fr fi * s 6 il s H S d := r l l l S s s l > : l f #f f SS t t : : t : : t t t t i : : n n l n t n i : a : S t t t I : I = i t I E E E $H $ $ $ $ H S H $ H H H H H H H H H $ E H H H H H H H H H H H H H $ H H H S H H H H H H H H H H H H H H S E H H IIst!BE n:3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 3 i 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 I 3 3 3 E E E F g E g E E E E E E E E E E E E E E E S E d T E I I E g I E E E E E E E E E E E E E E- E S- E E E E E = I E = E I s s c c E, E E c E E E s E s E E E C C E E E E r C E g E C E s r E E . 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' - l - - 1 . 1 . - - . . - - . ; ; ; ; - : ; 9E E E ; 5 T E E E E E E E E E E E E E E T E T E' E E E E E E E E P E E E E ; T E E E E E E E E E E E E E "5 E E E E E E 43 3 TI5g8gg83PQ* Yoq$88E8 ri 8 if i8:38+e$89eg888ssa-El q =5 = Bg E 55 5 tt E GIEo=IEE, ir(eE 'l d r! i! El t!,d IteI rllE (I tl!t{r$ IrlTIoEiiIt .!rl tri qB{g8dd{qeiddEi 199l E8qq g8 e 3 9 3 e t3 T B E 3 5 ?d 9 d 9 d d EE E g E B g 9d 9 d 9 d d 88 S g g S BS E B E S 3t s J J T f +i i i e { BC E H E H 9q ? 9 C 9 tf r $ 3 i B &r > 8 5 9 F #i r i ; ; $ E* : E E * sg g H H c ss s s s s ;) ) ) ) ) 33dctttitt dqIqtsIdq199lE8qq8Edd3$99 4q5B i{33dddd{{cadd88si d9n; ;qs8ddt,9c -{ 1 1 1 1 T* I E i ; iq E r B E ff t r t r [ l 3r r s r s PP * E R 85 8 8 E -. 9 P P 9 NR i l [ R gE E E E Es E g T ?9 9 ? 9 38 8 f 3 eq Q e q ET E H F gE E E g 38 & R : 99 9 9 o EE E E E 9g Q C 6 q3 5 q r 9! E g E dd d q c fl r $ H 3 9C g g s Rtdq9BIBsIEct gE E S B IJ ' T A ec q q { 8t s S 8 S ?i l i i EE E T E EE E E E :t r 8 = 8 ii sdd 33E5tiP?oo 8ndd(\EEdd[3dd8EqqcqUHq{a*s8ddel d9Egd9Bgdd{q &t 3 3 tt eSE E gg B ss s )) t IEfiEdTIIqIqf;Hdtd RH F UI E dg d f; t E BC 8 qq q g9 g ie qHt f ; fl E e 99 d ET E gq d E8 B dd d 99 1 33 il f , trii FF st r RHdQal dgSUBC99 il gieH399Eg99EE tts ht I iE F I 43 4 G{ 63 FTIR VOG AND Torru. VOG 435 ci <i d d ci <i ci c i c i c i <i d ci d AI: I A i ' T I I I - i I q. i q q a q a { i l q f l i r q9 n q q ! q ! q a a a q a qq q q q q a q a o a a a 6 cr q q q a a e q q ! q q r +i + + + + + + i + i a r + i\r q q l a q q t q q r { etq \ c e e q q q \ h \ e 9\q n q q q t q e r e t . Se B g E E E B E = g B s g =d d d d f , d d d d ; ; J d Q. 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I E 33 t s t B E 3 "l c . r " J " j + + 99 C 9 9 9 9 dd d d . i . i . i gR E E S R s r9 B R g E N 6q c c c q E 83 1 P i l 8 e9 i i i i i 83 9 3 9 : 8 8 -; ; ; ; i J ; +a 9 9 c c c qf r q q q f i E qA A N ! N N 55 5 5 5 5 5 E3 3 3 3 3 3 ,* e i s e x B ;g E c E g c _a 8 8 8 9 S 8 E3 , 1 6 , r d 6 i- a I i r Rf l R { f r 3 8U g E t s 3 ef g q q q 9? 9 9 9 9 3q 4 E E 3 !: b r s e Pt 6 ! 8 = 6o o 6 o 6 38 9 P = S JJ J J J J 99 9 9 q 9 3t g 3 3 E ci e i g q 3t 3 3 3 3 ci e i e i 88 8 8 8 9 sE E E 8 8 NN q A N A e; ; a l i sT{q5 I gEItsgIIesaa5 gc i 9 9 9 EE E E E E ei e i i c ei e i e e ei i e i e qq e e e i ii i e i q gs E $ t J n* f ; s t n eq q a Q e 55 5 5 5 5 i9 e 99 9 CR F Ei q 9i s 33 r ?iq ii s98 8 38 8 3E : *t ! (a c bb i nEP 2 2 P P P P ltt i ! t ! f o8 8 3 3 8 b 3 Ng E E E E g g 58 8 8 8 8 8 8 :o o o o o o o 8O 0 6 6 6 6 6 :r r r I r I r 60 0 0 0 0 0 0 HR N i l R EE B q E f9 ? 9 9 99 9 9 i qq q q q fi B i 5 ? E8 5 S 8 88 : 8 5 ei e e i 33 3 3 3 ei e e i 8E 3 3 3 ii c c i 88 8 8 9 EE g E E q9 5 + i E$ E E S fl: P . f l qq q q N NN ( ( q 55 5 5 5 9qqcqgfqEiItit8qqfl(5 ?e r q t q q E iE E E E E E { :F F F F F F F EIEPaE8ciIIIIe88IxB8IEENi 83 3 9c i d +e e r- q -- q ie g 99 ? ;8 9 88 8 eE E EE E <i c i 9 65 e 88 3 ii igE E qn q ii ceq q gE r ss s 55 5 9S B 9 E8 E 8 99 9 S ?? 9 9 99 9 q t5 t s 8 88 8 * id d d qS e R sI B E ts 8 3 8 9: 9 = -9 9 4 EH E U 5E 8 8 ii i i88 8 8 ii i i5e 3 g ET S A AN N ! 55 5 5 E I03x:E i3 3 3 3 3 3 $E !g E E E E E t i !C J C ; ' r ' 6 ' c9 9 l a a ! 9 0 . $ $ ss 3 8E Ss S C S S8 S g g3 ' E 8r i * o oo o d o o d 6d d d d d d d d c i d d d d d RN 5 8 E 3 : R 8 E F R ! = 8 8 ; 3 3 8 S 3 $ rr i 9 q - r - i q r - a : q q e q r i i a q oo o o o o d d o o o o o Et E E E f IE { f i f ;E E $ q ; 3 ! f E$ i rr r r r r d d r i i . i + r i a i + r d i + EC € q E E ; q E E E E i E P R n T g s s t s g NN N N N N d d d d N d d d il. i . a . i . i . i d s l d H; B S f r E! ; B B H $ H f ; HB B f i iB s B B dd d d d d d dd d d d r i d dd c i d d d dd d qC q A E C E 4 8 R q 4 E E 8 3 8 3 e s = 5 e Nd dil N N i l d d dd d d d d . . i . i . i . i i l d . i d QQ a - i F r a o o 6 - d . i 6 - 6E C q C I 3 q 4 A E 8 h c B 8 3 8 8 B B 8 * dd d dd d d d d d i + d d d r i d d d d . i d ; E3 E 8 S i F 5 8 3 B p R 9 3 r 3 = s : B S s qt i t q q q i ! q \q qe cr < r t c s I dl e r t @o o o @ E n o @ o o o d sE q c E s c s E q f i Sq G q E S S I h E 3 i oo o o o o o o o o o o d !9 e t o E r E a o o o o . o - o o 6 @ o r F qi 3 ; E c E E E A B 6 3 5 3 R r 8 3 3 3 F e di od - d d d d d ; d ; ; d d ; d d dc i d d hr o G F - o = r P o r r - E E - - - - E - o dd d d d d d = d P d d d d d - d d d d i - g EE i E B E f r t q a I 4 I E q E B r i l - q f i 8 EE E E 8 E B 8 E S q 3 E E E 8 8 8 3 t 8 8 T dd d d d i l d Nd d d d d d d d ild . i i l . i . i . i or o o o o o o o N qE f r r* { q i E G E C q c c i l l i 4 E E f i EF 6 r a i 6 - d 6 - i 6 ild d i i l d d ; d d d d ; d d d i ; - - - - - FF F F F h F i F F d t s i qq \ q q C q q q C q q 9 i q q e q - i q q i FF r o ? e - - o t3 t t t 8 5 8 E E 5 3 5 8 5 t E 8 5 5 E E 8 9C e C ! C e C q q q n n 9 e q n q a r q i i 9. q q r - - 9 q q q q Q i q q Q i i e - - 6 !c a ! e ! q ! a a ! a l r o 6 i ! d r o - + PB R I E $ R B R B g R S 9 e ! X I 3 B q 3 = !q \ i. e . q qq i 4 ! - uH I 9q a B . t P := = : 9 9 9 = : = : 5 = : do i =9 9 9 ; 9 = "r . . t "i : r r "t " , " t t. i . , 4 5 T 4, :. r T ;. i @N O N O N O O F O qlq r y r a a l q q q q q n - q q . i q r . d 99 9 9 9 9 9 9 9 9 9 9 9 9 ? 9 C 9 9 9 9 9 9 Si q i E E g g S ; 3 E r ; : f r 83 t E H 8 h oF o o F o 6 i o o o o o o r ? o o F F d ; 6 ro N 6 6 6 0 9 6 0 P RB 3T ! 6 ES PP 8 I8 8 = 8 J 8 TI I i E d ;d d ; ; 9 Q< j ;d < i d J; ; ;; ; J 9 : : -- C 9 9 : 9 S f l ap e 9 ! o ! N . r o h 6 - -d o d ; i l d a d d t s - - d 6 J i l d ; f r 6; r $s e e 9 e 9 9 e 9 9 e e 9 : : : : l ! : a : q{ ! N a c ( N N (q ( a c N q( ! q e a ( q ! N 55 5 5 5 ; 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 ei3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 5G B 3 6 i B i 3 8 E 3 8 R F x F x p F F a a - *E q q q s E B E qE E qE Bq E Eq q E E E E aE 5 5l E 5 5 5 E 5 5 E S 5 5 S 5 5 E S 5 E E r 4d t G d t t d d d E d d t d e d n d d c d & .. i i . i d . i n d &: 9 ; 8 q * dd d P d = o i .i ; d i l . i d . , i NiJ R E R 6 R Pd d : : T 9 5! 5 q , + d r ca e i i e i sB [ 3 3 R 3 IIi ' i . Iss s s s s s 55 5 5 ; 5 5 4E1 1 1 1 1 1 1 ;E E E E i E E E .'. ' o ' o ' . ' . ' . ' o6 6 6 6 6 6 6 a^ r r r r r r r JJ J J J ] J RI E E E E S qe g c a i + 3* e * E * F qx 6 . q q 9 EB 3 ; E B E I Ef l C \ T { Ef r A q f r E 3E 5 8 9 5 3= e 3 P g -+ Q ! 5 e 8r 5 I 8 5 RA 3 8 8 E -o - q N t s Rs E q R q dd d 9 d P EB E E T { qq ( ( N ( 55 5 5 5 5 P3 8 s t 8 8 8 nq e 6 a a ! r 9t 9 d ? 9 9 C .f.tIIIQC55 qq q S c c q E$ B ; ; f ; 8 g: E 8 B E C ca e i i i i Rg 8 R E 8 P8 8 3 8 3 q\\ q ! n q q 53 3 3 3 3 8 i EE g E E E B 9S :aeqs5 ;1 1 1 1 1 1 1 iE s q E q E E ES E E E E E E :t t t t q t t 3s s r s s s s ?N N N N N N N ;: ; i ; aq ( a ! aa - a a 3.{Ir s r : r fd d c j i . i d gE g g E E E <t t a a t t 43 7 5! = E .i . i r i il i l ., i ..i ci < i c i d d d d q4 q a q ( h -- t t q : a ef r t q q E q ai. i d d d d i d:d ; d d c i d;d d J ; d qq q - q q l s: 8 9 5 8 r .i . l d d i d d ;; : J J ; ; !t o o e q . ;d i d d - d en e e q q a dd d d d d d cic i d d d d d qt q 9 9 \ \ ;;; ; d d d rq q ! q q q 99 9 9 9 9 9 q! q . . q : dd c i d d o c ; r9 9 - S l 9 ::: t : : i (( e ( t N e 55 5 5 5 5 5 6nE6 6 6 6 0 6 6 3< < < < < < < E; ; = T = = ; EE E C C E E E i or o r o r o r o ' o , o r EO 6 6 6 d 6 d G.. . . . . . -c I d c d e d 3c qq q q q q q - - i q q { $ r q !q q q q c ! q e q Q q q r q i qP 4 9 e q q q i q q i r q q q cid ci ; d d ; d ; cj d cj c j d c; ; 9; ; J d d d ; d - - d d d J d .? d i i r i . i r + d + i d d i d d NN d d N d N d ( N qq e l l c A q r q A ! i 4 a ! ! eq - 9 q q q t q 9 ! e Q N ! ! id d d i i i d d J d - d i l i d d qsilI3III.1II<iI5(5 iqd. i8858 tF9q6eNAae dd ci <i d d d d d d d d d ci c i ci o6 b n - o o r N F o d o r - G !a a l a i 1 1 1 . 1 ! . t . 1 . 4 i { dd d d d d d d d d d d c i d d d ild d - d d d d d d d ; ; ; J J qlq q q q q i q r q q N q q d 99 ? ? 9 ? 9 9 9 9 9 9 C 9 ? 9 gi B S E g i s E E s e : : e s e dd d d d d d o o o fi ; E 8 q 1 f l i 8 s f l B t s 3 R !9 - A ! 9 q i 9 o ( o o F N ? (! N ( q q ( { c N a N ( N a N N 55 5 5 5 S ; 5 5 ; 5 5 5 5 5 5 !3 : 3 3 : : 3 : 3 : iE E E E E E E E E E o or o r o r o r o l J o l o l o l I EE E E I E I E E ! E r i (E(loo!Gu, l3&EF ri rE:!E! ,P 4 iE.Prtnb :i'E IEi of!!I€i!!<l !r ! 9 9 9 ! N N - oN d F N - ? o g o -" q 9 q q q q q q q q q q q e q q q q q q q o e a e d o a a a a a a a d d ci c i d ci d d d d d d d d ci <i d d o o o o o o o o 6 - - a d ; 6 o ; ; E ; ; ; ; ; EE l ! E E I E E E ! E H = E U E E E S E S B S E S i S S s r 5 B ; s E 3 B ; 8 8 S B B E B 3 J 3 5 E E -- I I i a i i - : t a i a a t t l - a a t t - a i i t i t l i l - i i - F ? F -- - - - . J : ; ; : J ; J ; J ; J J ; J J o6 0 0 0 0 0 d 6 6 d a d d a b 6 b d a a ; ?.? - F E ; i ; - ; ; 63 E e s c : e s s t s c 3 e 3 s r p E : E E I g S E E l E g E = E E i i E E E g H H $ ; S H R R X H E A !- e - q - ! f Q q ! : t q q : ! q rr i i i + i i i i j i a a j j f; 3= H f ; ii l E q E S E E B E H P E E E i N H E : H E q E E E ! i E E ; H E * f i Ef $$ $ i l [ $ f i Ef ; ts il d N d N d d N d d i l d dd . i . i . i d d d.i d EE i l 8 f B; E { E A E E E E $ i H E T B i ' f ; ;B E ; 8 f ; if l E} i E E A T E } i H ; H E H ; S E g T oo o o 6 d o d d d d d d d d d d d d d d d ii E E I q ; E E E E E $ f , E; E E E E i l i E E e B I f i nE E E E q E f l fl Ef l qE E E E E A E E { E E i ?F N F d - N d N N d - d F d _ ? d N N d ; ; N ; ; d d d d ; J Ef r HI E E E E D T E E E E e E E E ; E E E ; $ s E i l E E E i E S $ E B E f ss H E E s s E t H E f i ;; o o r r r r r r o d o d o o i d o a o - d d d d d d d d d d d d . i . i . i d d . i r i ; d ; ;d 6 ; d ; d f r :d . * * - - - , O i 3 E f i EE E E H E R E H E E F { E E E F f ; HE E $ $ E H : E E ; E il d d d 6 c i d i i l d d d d d d o d ; @ o 6o o @ € @ d ; ; d ; ; ; ; ; ; ; ; ; ; ; ; E$ f ; $ E E E f ; E= H i $ i H E f ; iF E $ E H U H ; f ; EE E I E E E E E E E E A F s A E s E f ; $S ; $ S d d d ; j j i d . i d d d d d d d d ; o o o o o o o d ; ; ; -; ; ; ; ; ; ; ; ; ; ; ; iE i i E G E H E E E i E E E q i i E E g U E E i E E E i P E $ F E : T F F H f ; [E ; $ 3 E E i I E 5 i ci c i d d d ci d d d d <i < i d d d ci d ; d : d d ci : d . i ci 6 - d - - d d - d ci d ; Gi ; : ; ; i i E ; I ; ; ; l i E T E I E E 3 E il T fi E H : E H E q ! E E ; E S E E $ g -q E F F E ; : il } E H E ; ; R fi : F 8 i E E 8 E d I d 3 I I o oi d I oi d d d i d d p p 9 d d d d d d d d 9 g oj i e oi d ; d 9 ; * ; ; ; ; ; ; ; ; ; ; ; ; EI t E i i U i q E E H E i { $ E i n E f ; fr q8 ! E t c E E H R E E E q E I E E E i { 8 f i fr EE E E E E od o ? o d d d i i d d d n d d d a d d d d d d d d d d d i ; ; Ei i : i I H E E E E i E E i I U E E : e E E E E E E E B E s i E : E r B E E E E p E E e E S : U E E E E .i . i . i . i d . i N il i l d d N. . i r i d d i d d, i n a n - a a d - c,l - d -. 1 i i i . i . i d ;i i l i i ; I I ; I I i I J qE i i B c E s E f r qE q E q q E E q i i c i s r q E s S + i q i q E r h q q E { r E + s q h s ; E i i -e E E E i 4 i _ E i _ 8 q ' f ; E q i e E q E f r BH - E E . { [ E $ q E E $ q E E $ E i I f i El E f , XE H f i E d E E -o o o 6 . @ . e i t - o o @ - o i N N d d i d d d . o o F ? d 6 6 o @ - E 6 d i l d f; Eq q E s E E { E E H e E : i f E E H I f qH ; 8 f r EH H E E I H s $ E P t s H : s I E f l Bi E $ N s IE E E E E B E B g g E ; E g I E : E E g g E U g E E E E E g E g E E E E E E p E E E E a e E g E i e E Eq B q B q ; s E s B s B s ; ; ; ; s E E C n f l if i 8- B C a f i Hn - i E U E d C n E = ; = H H ; ; i i = d d d d ci c i c i d d ci d d d d <i .i d ci <i d d d d d ci c i <i ci d d ci d ci d ci c i o o o o =g : s E H E : g i ; E i $ : g g : H i : = i ; g l : E $ = : = $ i : g : e : g : g : : : g * g g s g : Ei { i i E E E q q E q E q E q E E i ! : q i I t q E i } $ e f , ii t i E { i { E q i e s $ $ : i r e e oo d d 6 6 d d d d d dd d d d d d d < i c i c i CE i T E E T ; { ! H E B E i ! $ q $ E E E E $ E E E E E E E S i l E g F E E g E E B X E H X i f l sF g i :: = S g I : d P P P = 9 : P 3 9 9 S : 9 = 9 = " i 9 3 : g : = ; S 9 9 9 9 S e P = P p E 9 i a 9 = = 9 p gg q i i E H g E E H E E e i E E E q E $ E s $ l g E t $ U s s s s B a I i f l EE B ; s s E 5 f r Eil s t s i "/ 5 "l "/ + r r r + r "/ i C i i r "r "i "i r + "r t r r r "i i .i + r "i ; "i d i + + + { ; ; ; ; n n "i n n ; ; 8E 8 R 6 q 3 R 3 ! 6 R E N B 8 5 E I E 3 8 p E E 3 3 ? p = r 3 = R 8 R 5 : : s S 8 8 p 3 e r : : = 5 s r q - q q q - i - ry - q -. 1 q r -. 1 q. l - ! q q c{ - I q q q q - q - {. 1 - $ q r{ q i - r i q i N ii i ; i 9? ? 9 9 9 ? 9 ? 9 9 9 9 9 9 9 9 9 e 9 c r 9 9 9 9 9 e 9 9 ? i 9 9 9 + " i 9 i i 9 C i i 9 4 i 9 9 C 4 =B ; g 3 U T ' S R 8 ; 9 5 5 } i l 9 E E g T H E E g E f i 3[ i 8 5 f l iS E H E E S B E E S E : i 3 H F E -q q ! r y ! q - q i Q Q i t n i - o Ee p e 9 9 = = p 9 F 9 = 9 = = = = 9 9 9 9 p 9 = 9 9 : ; e e 9 9 e e g e p p g p E i = 9 9 9 9 p 9 9 p EE E E i l - E I E E i $ i { E E E E E E i E E s E E q E E i E E q i l I f qE i E q i i l H f l Ef , ti l f ; qE E Fo oo o o oo o d d ?d 6 d d d d d d dd d d crd d d . j c j c j < j 9f i fi il ; E E f r 9f i $* ? ; E G q 9 E f i E; E E 3 s 3 s R = : E h 8 c 8 F n : 5 8 3 3 s 3 R = = E h E c r s P 5 e ? 3 3 6 s 3 il 3 s h G B ts I 5 q E E E. E E E E B ; i + + i ; * c i ? : fi fi ; i f l fi il R s fr e f i e !# s s * ! E l l s l s ! l s X l X n p i p p a e i a e p e e E s e n p p e p e e n s e e l n e n e l e RP S S R F R P F R E P P P * S B S R R B E S E E E E E i l E E i l i l E E E H E E H E H H H H H H H H H H H !! ( a a q q q ( ( ( G N ( e q q q c N ( N N $ N N a { Q 8 ! c c ( N N 55 5 5 5 8 ; 5 5 s 5 5 5 5 5 5 5 s 5 5 5 5 ; s 5 5 5 ; 5 5 5 5 5 8 5 5 5 5 5 5 5 5 s s s 5 s 5 s = s s .li3 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 q 3 EH E H H H H H HE g H $ H H E H gH E H H E HE fl H H H E E $ f l g H H g B g g H g E [ g i g H g[ H $ H b 5 5 5 5 5 5 E 5 5 5 5 5 5 r s 5 - s , 8 , 5 5 ! -5 , 5 g 5 5 5 5 5 5 5 5 5 5 5 5 E S I E E r 5 5 5 E 5 5 5 E E r ; e d d d n t t t t d n d d d d i t E d d d t d & & e n d. d . c d. d d e E d. e. E d. e. E d, E d. &. E E E d. & E i. 43 4 d d d d d d d ci .i .i d d d d d d d d d d ci c i d d d d d d d <i d d d d d d d 6O F e o F o o - r Fo F N N 6 F O O O 66 0 F r 6 6 0 1 qq ! q - 9 1 \ - ! 4 c q q q i \ r q q q q t e q 4 i t q e q e 9 q q i c cq e 9 q q 4 c t e a c n \ q a q q ! q t \ q i q . 9 ! \ a l ! q q a i olo - o d o o - r 60 6 0 0 - a - o o o o - o o o o 6 0 0 0 . 6 6 - 6 0 d ci .i ci d d d d c; c i c i - ci d ci c i ., d ; .i d d ci c i J ci c i d c, ci c i <i c; c i d <i d nq q E B i I f i EE q d 4 E d q q E i E q E E E B B E S S P s E e s s r B N N N N N N o N . i . i . , i . i d d d d d . i . i d d . i d . i ; d r i NO F F ' O N q { qq q q q P q q q q q q d! c q qq q q e q 9 cc e c9 q i q q9 0 1 e I ro o o @ o - N @ N o o N @ o o o @ o o qiq t i q 9 q q q q q $ q q - n t \ 9 ! t e q q q r q q 9 . q q q q q 9 3R s 3 N 3 5 ; E ; 3 8 s P B 8 8 6 q G i E i l S i q i l E q t q S S l E f r q d d d d d d d . i . i . , . i i d d d d d ; d d d d d d d d d d d d d d d d d d o q3 C E f l EI E E R S E I q S $ E ; E E E E R E E q q T S S B E C i f r '8 r:6 N * 6 b @ 6 o o 9 - 9 G o - F - F 9 - o - R o o o : r - F : r r N F E fi 83 E e E& 3 8 g; 3 i ; i 8e 3 B5 5; 33 Si B I R ; 3B 3 il g ee N oi 9 ai a ; I d d d d i - = oj 9 i d d d d d I o i d I oi oi d 9 d d d 9 d 6 d oi q : ! e i e 9 q qq ! e a i e 9 . ? 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E q q B q!1 1 ! q q q q q q ! q 4 q q q q q q c q q q q q \ q c q c c q i q r i!4 q e q e q q \ q q q q q q n q q t l i S ! . ! q ! q q e i q a - e \ sX E E I 9 g E E E E S E t E s p I s E R P B s e s E s e E s s B s r B E oo @ N F N o 6 @ - - oo o o d o o qq 4 q q e ! 9 e e n q q q q q q q q 4 e e q e e e e q c n q 9 q q q q q PS E E q ; 8 { A i i r E s E e q S E E 4 q E E E S E e S 4 E e t E q E S -F O d O F O A 4 Q e 0 N O O o t s o r O a O - F F - F O N O - @ o @ i o i d6 d d d d o d d d d d d d d d d d d d d d d d c i d d d d d d d d d d d 6 PS 9 E N g g h F s B e t S B s ! 9 t B I U n s 3 3 8 9 g E E 3 3 9 e F F \ q q -. 1 I I 6 ? i t q n q \ ! ! ia q| L \ x + c 1 q i. ? q r - -q ! v\ q 9S 9 =S e 9. : d 9 : == P9 d 9: :S = o i P * 9 99 = == P= : d9 : tE g S B E = 8 E R E g 8 g 8 S E 8 8 t 3 R C S = = H 8 S 8 P q P 3 e = 3 * "i :. r "j r : : q I :. 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R G i n 8 r 3 R 9 e ; 6 5 E i l 6 E E i q 6 3 E i 8 F 3 8 E 3 B e 3 S B B 6 s 3 B E 5 g g F R 5 s e t B C 3 9 d . i d J N il i l d d . i . i d d d d . i d d i l d d d d d i l d d i l d d . i d d d d d d d N d d d d N d { d d d l i ' r . i d. . l . i i i ai ;i , i i E 5 3 s 3 $ E 3 3 ; I s 8 3 I 3 3 s E $ t t s s g 3 S I E S 5 3 * * * B 3 s * I S r t $ I b lE S H3 5 J g Ei ; s r H g d ci d d d d d d d ci d d d d o d <i d d <i d d ci c i d d d d d d d e a - d d d ; - - - - ; - - d - - ; 6 - 6 ; c; - ; ; ; ; ta a E 9 9 a 6 a o D 9 o . o o N o o 6 it s I c E s C i C i q q q C i E S E S n q i l q t q 6 S i l S c s E E S E c S l q 4 I i E s E I E f t 93 { q S C E C a q i 9a L q q o 9 9 n 9 a = 9 9 8 € . o - N 8t 3 t r 6 s s t s 8 s t 3 3 3 8 D 5 5 E 8 E 8 8 g 5 B B 8 E 3 3 t S B 8 3 8 3 E t 3 E 3 8 g 3 E 8 8 e 8 8 3 t 8 h B 9 ia . i d d d d d ; d i d o d d d d d ; d d d d d d d d d d a ; d d d J a ; ; i a - - - ; a a + n - - d ; ; ; ; ; ; ; ; ?d 9 E E l C t q C E E R E t i 9 C { 3 8 ? 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E E E E E E :3 : : 3 3 3 : 88 8 8 8 8 8 8 EE C C C C E E Nr J N r N r d r N r d r d r ed d d c t n d 43 9 4q Q a q q q R F3 B 8 8 3 B -.- - I - - Se B t S S P 99 9 9 9 ? 9 ei + c ? + i TE E F E g E 8R : R $ 3 3 .E E $ P B ; EiE E E E E :: E F B g H EP E P E E : 99 9 9 9 9 9 EE g E E g E 99 9 < , < r 9 < ; Eg E E E E g Eq E E E E E E SE g S S S s s ?9 9 9 9 ? d d 88 t 8 9 r 8 8 99 9 9 d 9 d d flIN5IdIEIEIq Ia!aI8EI!,P 66NN55 llbBEE?,? , q1 I! q q il a a :J J 1 ;t 9 8 P8 8 8 ,5 o, o ' o ' sE E E : ! . t t ES S X ; r C S I ; rt- - r a a i l q __ . , - " _ _ t . :: : : : : : : l = oo 6 0 6 0 0 o t t TH R E R E F F I E ca e d e e d o l e Oo F 6 r o 6 6 l a 3E 3 8 3 s t E l E ?9 9 d 9 ? d d l 9 .- " _ " " ^ _ t - ." " . 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"l 999958J;9999Ti?g8Uca99 iettieRH8E iE 44 ( J C-252 FTIRVOG AND Torru- VOG 441 iB B B B B d. i . i i l . i l , i SR E B g E ., . t d r j q . / E9 9 8 H G o'o d < i 9 9 .i . i . . i i l ; i BB S S I S qr y q q q N "/ "/ ./ . i "i "i 8N 9 C E 5 qi l q - - - ?9 9 9 9 9 9Y t 9 9 9 EN f i T : H NN S S S S 5; 5 5 5 5 85 8 9 ' dd g d d ti E i l a "i r " l : = .i . i d . r . i SA S F $ dd c i 9 d I! - N o ii i S E s Pg d - ' d Hi l B T 3 tr i l B 8 qq q q q 99 r r r .! i M 99 o i d d "t . r d " i " i 99 9 9 9 ic i i i 5d 6 d 6 NN N N N 55 5 5 5 33 8 td d .i .,i . , i 38 3 RB = E\ A 8i i Gi9 C qE t qn q il 8 t s8 s qq q 3q q qq q ., "/ .i ei e 99 9 :8 8 dd 6 ss s 55 5 3fiqtIq.lqIq?Bflts5 r3 3 3 3 3 3 3 3 3 3 3 3 3 3 i H i EH H E H H H E H i H $ EE E E E E E E E E E E E E E 88?tri .i EEt$sf , qqqq ., . l qq9999Ef l 6t iNN55 qq q q q q q q q q q q q q dd i d d d d d d d d t i d qc n { q c ! ! q q c q r a -q q ! q q t t q ! e e q q ES S E 6 E E E S E E E E E ;; ; ; ; ; ; ; ; ; ; ; ; ; tE f f 3 s 6 6 8 E E 8 S E q dd d N i l d N d d N d N d N dd d d d d d d r i d d r d ?o o 6 - N o 6 o o F o a - E; 8 1 9 r 9 i = S i E N E S d. i ri d. l d ry d d ry cJ . i ' i . l -h N 6 o a l ? - O o t s a 6 9N : T F R ! 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E I oa a a o h h q q 6 6 6 6 6 b 6 88 8 8 8 8 8 i. i . i i i n i 99 9 9 e 9 i tt s s S r g EI I E ( 8 8 q8 6 E B E 3 E8 8 8 8 t 8 9d 9 . i 9 C < i 99 9 9 9 9 9 i9 9 i 9 9 9 9i 9 9 i 9 9 qq q q q i l f l 58 8 5 S 5 8 83 8 8 8 3 3 Rf , { f i f ; f i f r EE E B E B E ?? 9 ? 9 9 9 9C 9 9 9 g q 3! E 8 E e e iE E g E E g ?9 9 9 9 d 9 iE $ E E g E E833 ie EE E 8 8 IE I T T 99 9 9 9 BE E I E 9? 9 ? 9 -N f 9 r e : 8t 8 8 8 8 8 ss s s s s s 5; 5 5 5 5 5 88 8 8 8 8 8 ss s s s s s 5; 5 5 5 ; ; E3 3 q 3 3 1 3 5s $ e d d d i EE , E q q E E E tE i I , t E E I .I I I I I I I q3- - - . - . . x1 1 1 1 1 1 1 3T T T E 3 : ! IE E E E E E E iE E il ri i co o o o o o o :F F F F F F F "i " r + + " J + i q 44 2 e ii n . i n i i B: 5 t s ! 9 ii e i ? e qq q q q q 99 9 e 9 9 +i + e t e 3U U t g 5 ii i + e i .,t q . ! q . l 6 l q9 q g c c E8 8 8 t 8 99 9 9 i c ?c9aIIq99 dd 6 d 5 J : NQ A A A N ! aa i a i a a 3Et t t E t { 1 o8 8 E t t : = Eg E E E g g E I o' o'o ' o ' o ' d o qI I I I T T T 30 0 u o o o o :t! 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' 38 3 e E 9 sJ B E E B EE E E E E E 5E 8 E 5 E E Ee 3 c f ; 1 B cS S e C q q EE E E E E E SJ B s ; 8 s ; F; ; E; : 3E E t 8 6 E ET ; E E E 9P s E E + i E: ; ; 5 *: i l ; H H E5 5 E 5 3 EC C E C E e? e i i i "I " t "J . / c "/ qcd8N+ gg B E E E s 88 8 8 8 8 8 E8 8 E B 8 8 33 3 3 3 3 8 fi e i 4 e e fc a ? 9 i i 88 8 8 8 8 8 -r - - r l s !Q N C N N A ;t l a ; ; ; at 8 8 a 8 8 gB g E E S E Eg E E E g E Es E s s B s ss s s s s s 55 5 5 5 5 5 8;(IEEE8IEEEEEE8E8EE8EEEflEe5 "lgI!EE tit ?l$ l s TH IHI -- - - - - - a 6 o - - - - d., d < i e i c i < i c t d d ci d d d d d d d c o o o o o oo o 6 0 0 0 0 6 6 d d a 6 ;5 E B ; B B B 8 ; e e i i i ; a a s e e g s i qE E E c q 4 r f r Es q q c i l q s q G q h q S e NN d d N d N d N d N N d d iE € E E E d E q T E q E S i g E E 9 E S E s S R9 P 8 F 9 3 8 S 3 8 5 S 8 8 5 8 9 E 8 3 ! P A Fo - F o o - - 6 ; - F d d ;;J : ; J ; ; J J - . 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T 55 5 8 5 5 63.i56 6 6 6 6 . - El i l J l l l EE E E E E g E ! r' r ' i ' t ' r ' r'r ' "^ r r r I r r r 88 8 8 8 8 88 8 8 8 8 8 .a . a d d d d d tP S B g r e dc € q q 6 . hB B E E ! r df n Q : 5 t s EE R i l E s R \q q q q q q if f E f l E T E 55 6 6 6 5 5 NN q ! N C A )i ; : : : i 99 e ? f f +i i f e e ?9 9 9 r 5 fi $ R H ! E 3g 9 I * = 85 9 3 s = 3: ! I = 9 PS E e E R gB g P S g Sr s E t B qrd N A A 88 8 8 8 t s t4 3 3 3 3 88 8 8 8 8 88 8 8 8 8 9P . S : 9 dd d d 5 6 NS S S S S ;; i i > : -< < < < < < < ;4 4 1 1 4 4 4 iE E E E E g E ,t ?r ? r ? ' 9 r ? r ? 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P P g g b I S R = ef , U e - E X 6 ! ! r \ a { = ed d 9 9 o i d d 9 9 : 3 9 9 d "i + + . r + + + q " i 4 + i " i c s q- - r i a - i i - r n q - a 99 9 9 9 9 9 9 9 9 C 9 9 C C na ! n q q ! ! ! q ! ! ! r ! 99 9 p ? ? ? ? 9 9 9 9 9 9 9 rr r i r r ; r r r r d r " i T J: ; ; & i l i l i l d d d i ; i + fl f l q f l s s H f l $ $ q t s f i s A! q N N N N N N A N A N d q 55 5 5 5 5 5 5 5 5 5 5 s s s 8sPI !.HE8E8EIT9S8CgI3t6aN!55 E I: ; : : : : : ; : : : : : : ig H E E E E : E E E E H E E H EE T E E T E E E T E E S E T E oo a o a b b 6 6 6 6 b b 6 6 6 EE $ $ E E $ E E q E g g E E E E q E q g E E E E g E $ $ E g S E $ E E E E g $ E g E E E E g T E E E E g E d d d o d 6 d d dd d dc i c i d d c i c i d c i d d d d EE H E E E $ 8 f r SE H E E E E E E E E E E E H $ E A H 8 E $ H } E E E B $ T E B f r EX E f ; E S B i l H E H H 6B B S B B B B B B s ; ; ; ; e e a d a B B B a B B B B a B a a B i s i B i i H * H ; H ; E E i H E H H H H __ _ ; ; ; ; ; ; _ ; = _ ; s3 3 ! ; x r E E 8 N e 3 s B 3 5 s s r $ B R R x 3 5 B R r 3 c R * S B 3 E E E E E E I E p E F p p E F p i tin \ o n 9 9 \ i \ t t t n t q t i t t t t r t r r F r t s i i t s t s i F dN N NN N N N i l il N i l d d N d d N N d i l . i . i d . i . i d.i d i l d . i d d {B E + E E E E I ; E E E E E E i E E E q E S E q E $ $ $ E U f ; fi Ei l E T H E { E q R i } U E E q $ E H $ X i J a J i + i' j j i. i . a +. a ;. i i i i J j i + a r. . + r a i- - - i; +. " ; ; I I i; +l ;I I l IE E g q i E E : t q E g q l i E E g e B E i E E E E q E : I ? e s E E e E = E i B E E s E E E S : E : c I :i : : r : . : ; l : l r : r : r r : r r r 5 ! i ! ! T i : r i r : + + ! + t ' i ; ; ; + ; ; i ; ; ; ; ; ; ; 38 R x 5 E s s * i h 8 h * 5 ! F a s s r s s F e B a s H r r s r p * t r R 3 i E l B = g E i g i H I E H E E qi 9 9 q q e q a : e q q C - n C . t q \ : q ! q t 4 ! E q . l - q - o 6 a T: r T r T i : 5 : i i t T 5 : ! ! T ! 5 9 5 ! 9 t 5 ! i i r g t s r 5 l r s i f :q i r l l l q l = i t : .. . F @ O - - 6 O ' - - O - ' - ' ! H i E X i E E E g F E U E E H T S I E f i EH A E E ; P E S H g E E E C .i .i .i ., i d .i d .i d . i il .i . i .i il { .i .i N N N d N N d N - - n I a I li ;i ;i i i I I i i ;: I I i FE S E E T q H f l Eg E $ E E * E E E ; 4 f ; EH f l NE g E S E E F E P g f r g ' H E E E ; E E H I E H T E E E rS s p e p p ! r $ i : e e e I d s e S d i e e e 3 S S e e I p p f Sd I d d i I I I I S i l I e E i i i I s EF F i ; E g F E E g g { i 3 ! 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E g H B q i fr E H $ E P E E $ ! E q E P dd e d p p d d 9 9 g 9 d p 9 p d d ; 9 d d g p ; ; p 9 ; = p 9 9 : e ; 9 ; = p E - ; ; 9 ; ; j ; ; 9 = 9 9 ; q{ E h i e i ? B $ s I E $ H B e 3 $ g g E S I E * ! ? 3 E = E ! E $ e e : g $ 3 : H s s s E S S I C E ! 5 ") l + + . t " / " r + . r n / 6 / + " / " J + " , r + . / + + + . r . r + " i . t " / " / q r " i e . r " l + e . / c . / " i + + c + " i + . i " ' l + + " t . i + , i + . i ?I E E E E g E A E ; q t l E 3 i 8 S g 8 B 8 8 8 e s 3 r E s 8 5 B E = s s 8 5 8 = r e s 8 r 8 r r r 8 8 3 c n q - ! s ry q q q I $ - q q ! q - q q q I q q c qq q q q * q q n q qq { . i q { q i n il ; ii n i { E { { ;. e9 9 9 9 9 q ? 9 9 q 9 e 9 9 e c 9 9 9 9 9 9 9 9 e 9 ? 9 9 9 i e 9 i 9 i i 9 c a q 9 " + e " 9 i + i + f 9 EA S H i E H B E T E E E T E g E g * P E E E S E E E g g H E i E : T E E 3 i ! E g E E P S E g E g E E : E 9 9 9 9 9 9 9 9 p 9 9 9 9 9 I 9 I 9 9 9 9 9 q I 9 9 9 99 9 9 9 I 9 9 9 9{ 9.? 9 { I 9 r 9 { 9 I I f p. i E ?E B ; i E E E i E E E E E E H ; g * S g E J E B T E E E ; E E S P g E g E H E P g E C g T H E C E E E * g qr r y r " J . r r 5 . y + + + " / . t 6 / " i r " i i " i 5 " t i i . i 5 6 r + ^ / + i " / " / . i r " i r " / . / " i " i + " / i " / i c i . r 5 d . / 5 r E: : I N R ? E E E I E f l fi iE H E i . T f i 3i E 3 6 I i E B P E S f i 3i i l N E } 8 8 6 I 5 8 R = t g f l 35 86 f l gt E E E E A B e a S 9 s 9 c s s s E s E S $ 3 t 3 S 0 3 f r 8r 3 8 8 J 8 E S 5 E t p = r 3 : e p : r q ! ! q { ! ! 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E &. d. &. d 44 4 JT88dd83d. i qq ee e e ; a B a e a B B T B B B B B B B B B B B B B B B B B B B B B qq q q q o 9 9 c q q q q c q 9 9 q q q c 9 c c q q 9 q 9 q p q q e J; J J ; ; ; ; J ; ; J ; J ; ; ; J t5 i t i t 5 i 5 5 5 r t i i i ro q q e r a q q t ! A ! q ! q . i J; J ; ; ; ; ; ; ; J J J J J;; J - - o F - - F - F - - F - J J J dil d d d d d d d d d o d d d d d d d d d d d d d d d d d d d d d d EF F o r 6 - 6 iq q q n r \ i n a n \ \ r P \ \ i o F N N N d d d d d d N N N N N N N N N d li q il. 1 .i. i dd { d d . i dd d d lo q d r F o N o * 6 o 6 o 6 iq r r - q n q q r q - - q I r - i -q a r : l - q q q q . ? q q - e q a Yo Y o o o o o o o o o o o o -6 o 9 = d 6 d - o 6 N ! ! - N N o 6 o - 9 - 6 6 o 9 9 - o 9 9 c r Q 5 : EU = T H I * TI hE i J T g h g EX B V g EI := F' ' ; il T X Y A ; B d d d9 9 dd d d dd dP P c; o j d d dd d P d dd d 99 d P9 3 =9 9 iq \ 9 q Q q q 9 e \ t - q 9 q q - q i c q 9 - 9 q i q q q e Q q n o ;;J ; ; ; ; : ; . ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; J J J ; J J ; ; J qq q n q q r y q q q q - q q l q q n q 9 q q q q q q q q q i q r y q a n i- - q q q i i q ! q q \ q q - - d- i l d - d d . - . d F i l d i l d - i o - + d d ai d d ; d d d rd d. i Jd d F J i ci d d d i l d ; d ;d d dd ; qN q q { q q q q q q q q q q q i l q q q q q { { q i l q N N N n N N N N tc n q t h \ \ \ \ \ \ \ \ t t i \ q \ \ t t t \ 9 i q \ t q q \ q c n$ q q q q q q e q q q q e e q t q q q q q q q q q q q q q q q q Q f l E qi il ; 3 i ; 3 H3 = n B 3+ E I $P ii i id ; E s 3 3 :3 3 8 5 5 5 9P d 5 9 d 9 9 9 d 9 9 9 g P P d 9 9 9 o i 9 d d 9 3 9 = d 9 = = 9 5 3 "j ., . i e "i + "/ n "/ .,r "/ " / + "i + "/ "l + "/ " / " j "j ./ "i "r c c i .j "i e, , "r s "i 85 3 8 8 8 t 8 3 3 8 8 t h f 88 8 t 8 8 8 5 8 3 3 $ 8 8 8 ; E 3 3 E qq q q q qq q q qq q q q . , ! q q nq q ry q q nq q n q $ q q { q q { 99 9 9 9 9 9 C 9 ? 9 9 9 9 ? 9 9 9 9 e 9 9 9 9 9 9 9 9 ? ? 9 9 9 9 ? 88 S 3 S 3 B S B 8 & R F B 5 8 F 9 3 5 B 3 t g t t S 3 R e 5 S 8 3 p ?c a e ? 9 q q q q t q q c c q q q q q q q q c q q q q q c q q q q q 99 9 ? ? ? 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 ? 9 9 9 9 9 9 9 9 9 9 9 9 + + 5 "i ! r + r "/ " i r + ., "i "/ "/ r "/ + i r "j I r "j f ",r "/ r + + + + .l "i -e 9 $ - - 9 9 n ! 9 $ N - P 9 9 ! p e t - - 9 n 9 : t S f l -9 Q p ! ?e e e 9 : I v I : l ! : i f :: Q o o h 6 o o d o 6 o 6 o o o 6 6 o -- - - - - - - J I i ; ; : ; ; X ; & i l N i l N N N ss s s s s s s s s s N s s s s s s N s s s s s s s s s s s s s s s s 85 5 5 5 ; 5 5 5 5 5 5 ; 5 5 5 5 5 5 5 5 5 5 5 5 5 ; 5 5 5 5 s s s 5 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 c, ;. 1 r i + dd i l . oi d ; dd i d d i l - d d J d d J d d i l d d d ; n ; i d E{ E E E E E Ei qE E i E i E E iE E E EE AA E EE E I i E E E i E ss s s 5 5 s 5 5 s 5 5 t 5 E s E E 5 5 5 g 5 S g 5 S 5 5 S 5 S S S 5 S &e d d d d e E d c d n E d d t t d E && & &d & & d d. & e E d C d d ( 88 8 8 8 8 8 ii n i i n i ee + e e i i 85 U 3 S t S .,i . i d d i l d . i EE 88 8 8 8 8 8 II.l9 II EIiI;99 P3 B 9 : P qq N f t E T E5 3 S B 5 3t t 3 = 8 ii g i e e 99 9 9 9 9 ;8 t 8 8 8 99 9 9 9 ? 33 t S 3 ; ei 9 e 4 i ei e e + i 55 8 8 8 8 Ei t e e c c g8 5 5 E E ;; ; i l . i i l E'I ' I - N( ! N A N 55 5 5 5 5 ll l r l l iE E E E S E iE ' i l E ' ; ' l l: t ! ! ! r to o o o o o "t8liIE t6 8 8 8 a 88 r 8 8 ; 88 8 8 8 8 99 9 9 9 d 83 3 8 3 8 "i . j 4 c "/ . / ii e i e i s$ ; 3 8 H 9i * 9 9 = bq 6 e e 6 Er : q q q sE E E E E +e i f i i "i+ " 1 + " t " / .1 . { q q q n 99 9 9 9 9 ie i + e i ++ i f i + 99 9 ? ? 9 88 8 8 9 8 88 8 8 8 8 gr 9 I 9 r NG N N N E ;a a B a a ET88 it.a .i t3+dISitEGqqqq iad9 ", "/ qq99a5q. l98c9NS55 II T i I E E q q E T { { { E E E E E E T E 4 E T E E g H g E $ 4 T $ E E g E E E E g 4 E E E E { E E E E E E E 4 $ 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 <i ci c i d d d d ci <i d d o o o o EE i i E S E E H H B S H E E H E $ E H $ E E E f r fr E$ f ; EE E E B S H H B H H S t s A B s i H i s $ i H B $ f ; EH B E E E g E E i E E E E E E E E a E a E E E E E E E E E E E I I r d r t d i t t B d d H H s i il B' H H H H il H H ; ; H H ig E i i E q 9 i E i { i ! E $ E E q i $ { ! i q E q H i E E $ E i ! ! i E H B E E E E E E E q H q E E ; q E E f l E dd d d d d d d d d d d d d d d d d d d d . i d d d . i c i . i . , i . i n d . i . i . i . i i l d . i d n n - - - - i d ; i i n n n - - . - - E F il T g ; f; q E fr E ; ! i fi fi f; ts -E i i i E -C i H E f; g 5 T q ! E f; E f; E A * E E f; i E H fr $ f i f ; $ E ; ! E 8 $ E a+ i i i i + i a i ji ; r + i + a r i + r r i a i + r i + J + i + i + ? r r r r E: : F : i e ? : g = $ i ? : l E e : 8 3 : : i : e : : : : e ? E : : : s E : 3 : : : : i E E : E I : : : 1 : : : : fi 8$ E E H E E q E E f l E! $ E s E E E E E E E E B S E N E i l : E S g E g B H : g B f i HF S E E S g i E E E S B s : ir 5 9 r 9 i 9 r i i q ! i i i g r r s q i s : r i : = r t r r ! ! r r r ! + t r r r ; r i ; i 4 ; ; i ; i i ; E ; E F E iE H BE g gE E E li E F E H a q B E a B I r B E E E s r ; c s s E F 3 E ; H H H H [ il g E g H fr g [ fi * E h dd r i . . . i d d . i . , i . i . , i . i . l . , i { . , i . i . i d d d d d . i . i . i . i ; i ; i a a l i i n n n ; i ; i - ; i ; i ; i i ; i - - i i ; i i i ; i I i ; i ; i i ; i 33 B S P 3 g 8 B : 3 9 S R 5 : p s $ 3 : I 3 = t t 3 3 3 3 * r R r 8 E i 8 8 B 3 3 t : 3 5 3 ! 3 B E = 8 8 f i fl :; ai F - d o o i . 6 0 d 6 - 6 6 6 - - 6 6 6 F 4 & 6 i i = d - i = H dd . l d d d ; d d d d d d i l d d d o . i . , i . , t d d d d d d * ; l i a ; i ; - n - n - i , i ; ; i i i i ; i i i ; i i . , l i . i - ; i - i , i n ; . i ; i ; , i ; ; ii E { E ; i E A E E T E g E E i E E E f , iE E S E g S S A A I S ; B E ! : = B T ] i B ; E E $ F ; S E B : T = E E o.I q . I . r N N 9 N N N q d N d q q q . t + . I d d d d d d d d { d . i . f . i . i d . i . i . i . r . i . , i d d d d . r d c i d c d . i d c j i i a :$ g $ ; 8 3 ; : g : g g : : [ $ ] F * l E s : : E : E 3 = : c I I E E B i E E E : g = ! E B 3 $ ! ! ; = g E g * g E 3 E E E i E T E E E H E E E R E T i E _T * q E E S E E P il E ; S U T E P A g E A q E : E F B H fl ; E E : : H i E S d d 9 d I I d d I d c; o i d I I oi d d I d I d I d I ; d e d d = ; ; ; 9 ; ; ; p = I I p 9 p d ; ; U ; 9 g I ; ; 9 p ; i$ - E q i E . q E s H E E t s s $ E E t E E I i E E I € $ E E s f , HE E E $ t H ! l t B q E E E i E q n ! t E E E g I E rr r o d a i a d i d a d i i d a i i i d d d d i i i i d o d a d iI I i i 3 5 i 3 E 3 ! 5 i 3 i 3 3 : f !i : i E i i : 3 8 3 : 3 3 i = l E i : $ E I i i i E r : i r i s i S r E g @o . o d o . F o o fi E R { n il n ( E { R n E r n fl n fr fi fr c 3 e n n n I a f i [ n E R !i 3 fr fi i * fr i a !i F i ri N { R R ( E R i fi i H E B3 : s 3 8 F E t s 8 x s 6 : a R s g J s s e B E s : R 3 r e $ B E B E g B p E g g g E e g * J E = E E 6 F B g g B ; .i { d ; ; ; J ; d d d d ; - - - d il d !{ d i l = d d a i !{ ; ; ; d d d "i "i - d -.i : i ; ; + ; ; ; ; ;i d ; ; ; j ; ; - = oo o o @ @ € @ @ 6 6 o o @ o @ @ 6 6 6 6 6 € 6 6 6 6 6 @ @ O O b O d d d 6 6 U 6 6 6 d d U d 6 b U U U U U d A 6 & i3 g P i 8 6 R E B 6 8 I S 6 8 S 8 F 8 8 F B 5 R r 8 E 3 ! S 9 P 3 5 9 F = 9 R 3 3 F 9 8 R R 3 3 8 8 8 ! 8 S p 3 J Eu q u H E E E I 6 t f r ;H t ; f ; ;; E & t ; H e t H f r f; ;A E H f ; ;E g g f ; fr il ; e ; * $ H d H ; ; ; E H A ; $ H 6O O - O O F d N N F? o o o t o o o o ro o o r @ @ a o 6 6 6 O 6 h 6 6 6 b 6 o i d 6 O d 6 6 6 6 6 6 i b 6 F 6 b o 6 - 6 q q q q q q q q q q q q il q q q q q ! q ! q q q q q q q q s q q q q q. l q q {. i q n n q { q .i. i . l .i ( \. i "i. i n n { oo o d d d d O d d d O d d d d d d d d d d d d 6 O O d Ei H i E E E H E B E E E d T H E E E H f ; {B i { E E E E E E $ E E E E i E E E E U E E $ E i g I E B E f i il T $ 3 $ d d d d d d d d d d ri r i d d d d d ci o o n n o o o n i, ; i,; i i; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Fo o F € t s 8 - O . i - t s - d F i F - F o 6 - o d i F i N F F d - i . F t s d ! ! ! ! 1 l ! ! q q q s q q q q q q q <l q i $ q i.. l i q q il q.i q s q - q n "i n E ry q q s q q s - - \ i q q fr oo o d d o d d d d d d d O O O O d d 6 O d d d o o o o E ; i fi q q q i. F E T N i i q E E I E F il , 8 T i E fr E E E ! h H : i E T i i i U H E E fi q ; P S J E fr ; : $ H $ i f; d d I d I I I oi I I I oi I p = o oi d I d oi p I oi p d d I I 9 d ; oi d I I ; oi 9 - 9 = 9 = p ; a ; ; 9 g j 9 ; E I ; 9 Ei ! $ e t I E E i S * { { e E E g q H S { i l q t $ e E H 3 * e g E g I H X S S g B I E $ $ S : g $ i t I = g S $ 3 "i . , . , r d C " j " / " i + " I * . / " / " i 4 a r r " i + q . i . / " / " i " i " / " / " t i l + " t + r + + . i " i d . i . r , i . ? ' + , i . i , i " t i + + i - " / , i 4 . t " , i . i EE E E 8 3 t 8 E 3 E 8 5 8 E ? 8 5 8 5 8 8 3 8 I 8 F 8 8 E 9 8 r = E : 6 5 8 s r 6 : 5 3 8 5 8 E E E F E E 8 3 g 3 qq q q q q q r q q q q c q q q i - e : - c q - q q q * i - q q i q q q q q i r r q q { { q a { - q { \ n - i i i q 99 9 9 9 9 9 9 9 e 9 9 ? 9 9 9 q 9 9 s c 9 9 ? 9 ? q 9 9 e e 9 c a 9 9 9 9 9 i 9 i e i 9 q q e i i g 9 f q9 9 9 9 I: E E i i E E E E i i E f i ig i E E E i { { E I I E F 8 r f i fi rf r f Ef r Rs f r EI E { H f ; $I f l EH $ E s i q i s I ? I .? I I I 9. 9 9 9 I I 9 I I 9 9 9 9 9 T I I T 9 I 9 I I 9 9 T I 9, ? I i T 9 I q 9 i 9 9 9 I I I q 9 i i i { I I ;E E S E H E ; E i E E H I E E E E E E E I f IE E f r ig E g E H S H I ] : f r I E R : i E E f r PE s C g : H f i IP E rr . r r + + q : + . i + " / : . t " i + 5 . / . r " i t t c r . t r 5 + . i " j ! i T " / " / i . r 4 i " r " l c + " r . / + . / + + + + " r . r n . / . ) l " r " l EF ] ! E * i E C q i ! T i ? ! H E E I E E E : 8 H E ? i 3 f r ?I B f i E+ E 8 R P g 8 B 5 9 3 B P S 3 B ; 3 5 g R C i i l l E E _fl _ f l _ i l I -q _fr E _8 fl 8 E 5 H B I S E E e s B ? ; r r ; r ; * l i e e r il fr il il fi R i il fi f i E E f r fl r fl H S .r r r i i i i i i i a i i i i i i i a i i i i i i i i i i i i i i i i i i i i i SS S S E E S S S E S B B E E E S S E U g E S S E S E S E g S g B S E B E S S S S S S B S S S B S B E B d S E d E B $N N E N E $ N N $ N N $ S S N N N S S S S S S S S S S S S S S S S S S S S S N S S S S S S S S S S S S N N N N N N 55 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 ; 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 ; 5 5 5 5 5 5 5 88 5 t 8 t EE E E E E dd d { . i . . 1 ST B T 8 8 F9 g t 8 t rr r i : r 4E T B I 5 dn . i . I . a i l EI B r r e 9e d d o d d q"/qIaIts9l(5 fr r i N F := d o d P 99 9 9 9 99 9 9 9 NN N ! N ;) ) ) t g; J c C t ;3 q q q 3 3 3 6d i l d d d ; d o8 8 8 8 8 8 8 88 8 8 8 8 8 8 b u] - t - t - t - t . t - t -F F F F F F F FO O O O O O O e!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 ii i gH iH H H BE E E BH E E H H E H g E BH E H EI B E E H E EH H EE E E E H E gE E Ef l E H HH H BH EE E E 9J 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 E E E E E E E . E . E E E E E. E E E E E E 33 3 3 3 3 EE E E g E dq d c E 4 44 5 88 8 8 8 8 8 FS P E E E B di d g d i < j 88 8 8 5 3 8 ie i e i e ? e+ i i e i i 8? 3 * i 5 * i9 9 9 9 9 q 9i 9 i 9 9 P ?9 9 9 9 9 9 "j q l d " i q q " j SE S E g g E ci9 9 C c i d d 8t s 8 8 8 8 8 99 9 e 9 9 9 8r 8 8 8 8 8 fi i i e i i PB R S B h * :c f 9 + e $ NN N ! A N d 5H 5 5 5 5 5 IJEEEEt{PPNN 4a 4 a t 4 i c e,a , e E ;5 E 5 E E it t b b E 99 C 9 9 9 ii i i i e dr- P F Q RR R X . i B N 88 : E 8 E NE 9 8 E $ 9C C C d d E8 8 E E ' I 88 E 8 8 8 9t ? 9 9 9 9 EE E E E E A tt r S S r t e? i c f i i ie i e i + e 88 E 8 8 8 8 EE E 6 E q E N! N ! C N N 55 5 5 5 5 5 qs.. t i l l t l t l li i l i . i d J . . i :E E E E E E E B E' E ' t r ' i I ' E ' E ' pq l q l l ! , ! . ua a a a a a a .F F F F F F F -o o u o o u o 4ItsI?q$q3ncI9d8 "tEI!Ed oIcI 44 6 G.253 FTIR VOG AND ToraI. VOG 447 gE g g g g E g E g E E e g EE U E B B i l S S E f f C E E = ! ta r s s s e d s d s i i i i : EE E I H S g g g R s g D E I dd d d d d d d d d d d d d N :$ E E E g 9 E S E i A i M T dd d d d d d d d r d j i i i qE E S q q $ r E q E t i l S B E E $g F s E i l B E T E E i i l E f t i i d i l d d d d d d d d d d d d ; d d Sf l E E q E E N q E E E 9 g C P F PE h S B I i R E B S E F E S E Fi d E: Fi fi i 6i d Fi F i e e : P P Fi EE E : : E E C E S S E T H E T dd d d d d 6 d d d ; i d d i i BE [ $ S H g S S E i q E I H h d;d d d d d d d d d d d d d d $* c E s l : r e l r r g l E s pd i l = d d d d d p d d 9 ! 9 9 BE E 5 i l ; T T E g f l I E B S H dd d d d d d d d d d d d i d d INEc BsdilHrEIB3E*ilT$sHI EP i E P 9 P H t r E E P B i T E F;; J J d J ; J J J J : : : d qg q E T A s E s E E f l H i S EE ; E ; g 5 H T f l H : E E P ti N F t i d r i h i a P N N d d i d ;; ; ; ; ; ; ; ; ; ; ; ; ; ; Ei E ! I E E E E B g i B g $ tg 8 8 8 a 5 E 9 8 g t P 9 A dd d o d d d d d d d d d 6 i 3E : S g I I E P : I i N F E dd d d d 6 6 d d d d 6 d d d RP : N 8 9 X p 9 C 8 9 r a C dd d d d d d d d d d d d d d EE E p E r r i g r s ( q $ E dii i d d d d 9 d d 9 9 9 d RR H E N g I U E $ q i $ T T E + $ qt + + , : t "l + " + { t ",r qr q / "J R8 { E E H R E E N H $ 8 i l f i P 99 ? 9 9 9 9 9 C 9 9 9 9 9 t 9 TE E N P [ 3 I S E 3 E S 3 5 i l {, ? . , , ? + + + i i i " i i e . i 1 | BP t E t N r ; P n 5 6 3 & C 6d d d N t N i l d a - i d d d d6 d d d 6 d 5 5 d d d 6 d d ct E S i g 3 i S t t E n I ;J ; ; ; J J ; J ; J d d i ri r i r t ! t t ! T r t r { HH H H H H H H H H H H E H H 55 ; 5 5 5 ; ; 5 5 5 5 5 5 5 E3 E & F E N 3 5 5 H H C t s dd d d d d d d d d d d d d EB g E S ! E C $ E i l g B i l $ H d6 E d d i a E d i s 6 E d d d SE S T H I S H $ f l n p E g E g dd d d d d d d d d d d d d d d id d d + d i i d d d d d d d d J;; J ; ; ; ; ; ; ; J ; J J ; 38 8 P N 3 8 5 P $ E B S g B B dd d J d d J ; J J ; J J J ; J 85 3 E 8 E 6 B 3 F F E N F iii i d d d + i + i i i + !9 ! r y r ! q r ! 9 q 9 \ r y RB F R 9 ! : R R R & R E & hg B I B S B H E E E E S E dd d d d i d d d d d d d d E8 i : H H i l * $ f r e : t g dd d d d d d d d d d d d d En s s i E E n i i s p p r 9d d 9 : ! ! d 9 d d d d d R9 g 8 3 R E F } T E B $ g dd d i i d d i d d ; d d d 8N P F 8 E F 8 8 X ! : : C ;N J ; d i l i l J d d d i l d d HH B i l h F I T H ; ; i E h ii i i i i i i i i + i i i EE E I I E i E E E P E E B :R & B i B : = i A 8 8 E t 93 9 9 8 8 & E B E t P B B E. E s g E s a 3 [ l ; E E E EH 8 8 5 8 3 g g ; 5 ; s ; dd d d d d d d d d d d d d EE g E 6 E E q s T s i S E $H i l 5 S E 9 3 B E 3 l S r SE P D E F N E P C s C g H dd d d 9 9 ! d d d . d d i ia E u 9 9 $ i $ h i l R I 9 ild d d d d d d d i l i l d d d !- n q n q r y n i q r r r y q ?9 9 9 9 9 9 ? 9 9 9 ? 9 q TF B E I A E ! D P 8 E 5 h d; ; J J d d d J J J ; : J BdItEIgI+II3III EE R S ! 3 5 f l g O E 5 B E 3 ?? e . i i i i i i " t + , i + . i { 5i 8 9 t 8 8 N t ; P 8 C E 3 98 9 9 9 9 = : i = ! g ! ! ! E9 g E 9 E 9 9 E 9 E E 9 E g HH H H H H H H H H H H H H H ;; 5 5 5 ; 5 5 5 5 5 5 ; 5 5 ;3 3 3 3 3 3 3 3 3 3 3 1 1 3 1 3 iE E g g B E E E E g I E g g E E lt t t r r r r r r r t t r r r r eE d t aE Ed a d d8 d d d8 8 88 t 3 s B EF E E E E qE n $ f l f i 3P 8 t r 5 * ++ + . / + l t ei i e e i gt 8 b t s g ee i i l i EE E E E U EE B B E : Eq q E i J i: R R E i EF N 8 E 8 f{ e e ? ? Eq q E E E 33 3 8 9 f l R8 T g 9 E a9 9 N P 9 f{ + c i { EE E g E g eC C a 9 9 B; 3 f $ f i H f{ + i i i f E8 8 b E 8 E ei i { i ? i 3A E g E 3 5 E9 E ! P E E 88 g E P 8 3 8B 3 A g 5 A dd d d i s i ti 8 8 8 g g g HH P H H H H NN N N N N N 5; 5 5; 5 ; t$gE5 58'NN5 gg E = t I g t3 3 3 3 1 3 q !P r i C ; c i i !E g E E B B E Ir E r E r r t :# r f i l r r , 44 8 PtcgEtcgEcEEEgE ;giItEE EEaEIctaBex lI elJEl f <l llr NtgHi 3d!sIIiE+if,I+aoBu3 Ef r E E 3 h } &' R B 8 8 R 33 3 8 3 t 3 E8 g E E 8 8 :P P } R 8 B 33 3 3 tE t { EE E E NN E R BE g S ia : - il : t B HS H S 88 i l 8 83 t 3 38 8 C 85 t s 3 ii t q gB 8 8 ++ + i :: : : gd p g 8r t s 8 i? c l + "J . l . i 8E E * f l 8 iii l l l 88 i l 8 = t gS B C B q ?i 9 ? + i g8 8 g 8 g Pi 5 5 9 E 9E R 8 N : !3 8 8 e P Eu s E C s +i i e e i +i i i i ? R3 8 9 8 8 9+ 9 ? 1 9 ii e i i + ie 9 i i 9 E8 E E 5 3 "g c i ? 9 RR F [ i l f l Bg B E s g aE 8 E 8 8 Et D 3 8 6 g9 il39 ddr-3ETSticc $E++aI IilgIc HagI IxBIiIIIIs8 88 8 55 8 EB F Ng 8 Eg & NH R EE E hr 3 RB S 53 H EE E EgH$EE f, # f , # $ 86 g d g HR H H H 5; 5 5 5 ts N B P 3 f , P gg g g g g g tj H S g H # ; gB S s 6 S s HH H H H H H 55 5 5 5 5 ; gH * : T E E gg g r i t i 6 s HH H H H H H 5; 5 5 5 5 ; 6{r- 3 3 3 3 3 ,i n : 9 9 r :g g g E B tr r r r r [ ]; ] ] ] b ee e e e 6b b b b b :JP z P P P ? , ttt i J l IH B g E H E Be e ' d e e ' e ' "b t J t r t i U l J ag g B 9 gg g p g EH B E C ++ + + " 85 8 t s t ++ q t q t . . l R8 & 3 N E3 t t 3 99 9 ? 9 EE E E C ei + { i NF R N N EH T E E =S a B a t p 3=ig s I l s r r EH E g g g B B lq ' q o o s q q !g f i H * g $ * ;5 E 5 E 5 E E s8 8 S 3 g 8 93 8 6 8 i l 8 3a 3 3 E 3 E >9 8 8 9 1 ' s'E E E E E E HH H H H H H 5r 5 5 5 5 ; 3o ,{ nii {3 3 3 3 3 3 3 tE Ig B H H H H g *I Sr s d e s r E EE U E U g C UE E $ S q e 33 E U E E EE E g g B E8 s E 6 8 EE E C E T iJ E S i ! 8 !6 3 N 8 8 8 EH E g C E B RN N R f i I N er R F : & N g N9 t s t s C I B EE E E E E E CE C H C g E Sb s E : 8 5 sE T E g g E HS S E E E B EE T E E E C [[ R E E N F HB F H S B S H f i $9 f i AB H E H H g B B S A S B E A A B B ; dd d d d d d d d d d d d d d d d d d d d d d d d d d d d d d EE g : E t t E E E t B { t E gt s S E g E E t s g s E B E g E E g$ S E U H N E f r EE E H d g T E E S E h i l E H P C B ; P g g dil d d d i l d i l d d d d d i l d d d d d d d d d d d d d d d i l a Et s [ H $ S $ $ e E i l { 4 f l $q r 9 N d ! 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E ! ! i r ! ! ! ! s l l : i l r r 3 : ! t : : : PP E H H H P P H H E E E E E H H H P E H H P H H P H H E E P r) a i i D a ; ) i a . i a i ; ) ) a ; a a ) l a ) ) ) a a a a 4i3 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 1 3 9 3 EE s H E i E f rg s E H { H E E H E g E E r H E i l H E E g E E EE E E E E E g E E E E E E E E E E s s S E E s E E s E E E E E BT E E E T E tsEE5sF 89 n 5 5 * a Hi l i l E i l i l S 88 E 8 b 5 3 ,s g 5 R 3 8 =E l : h g X qf i A E E q E 39 8 ; 8 3 8 h8 r 8 9 8 P RE E E E i E 5R g E 3 E 8 b5 8 8 3 8 E ilH = f i g H H iP E i l E q EB B B E B h 6 EE S F H U d9 d d 9 = P; 5 R 8 8 8: P N B 8 8 gIIiEfNii Bd T C ' Ei F g E 3[ 6 N R Jg S E B :3 8 8 9 ii { i 9 3g g ; t 9e { i i EB ! B $ E3 E i l R sE I S g BE E a E EE T i l H ;B i g p ie l { e fr i i i ti u E u cI c g s BH C B B BE E E B XB E g E BER36-=:559i il 3fl ;++38q:BUHEgB{9EC ie5E BE88 88 3 8 t s 5 SI N E R g = gi l i l E 3 f l E ie n g i g e EE 3 c H i l 8 :8 8 9 9 ! A +i i e i i + 93 R 8 8 t gE E I g ! HH H H H H 55 5 5 ; 5 H# H # ; i i f l 99 9 9 9 9 9 HH H H R H H ai r i i a a gi 5EPHR55 3=iI3 3 3 3 3 3 3 UB i * & t r F R iH H E E g E E Et t t t r t t ;3 3 3 3 3 3 3 ;h h h * n 3 , !E E E E , E E E 'E I I T I T I lt l L t L t t 6t t t t t t i 44 9 33sg33 II HA 6 H H H g U i l i l i l S f r H ; dd d d d d d d d d d d d d d BE 8 8 t g 8 g g E 8 8 B h * ;d ; d d ; 6 i i i ; ; d d d Hh 3 i l 3 U B T $ B F R H S E F dd d d d d i l d d i l d i l i l d d d N3 E 3 g U 5 E F 3 R S E B E t s e: 9 5 : : 9 i : P e j j j i s IE E T E E E E E S I E E E E i 9t f , $ b R b E H 8 F 6 8 3 5 t 3 dN i d d d d r d d d d d ; d d FB S X i P n g 8 E P 8 8 g 9 t r id d d d 6 d d i i i i 6 i d d il B B O E N A B ! R f r H B F * E dd d d d i l d - d d 6 d d d i l d p3 9 g i l E f i H B 3 S B F S 3 $ dd d d d d d d d d i d d d n d gE h E g B B S 9 E S S E i T A dd d d d d d d d d d d d d d d $is F t s B E A E s H g i s F H g dS d S = = 9 d d d d d d d 9 9 g dii i d i d d d d d d d d i 9R E E E T B $ g E I ; E H F B dd ; ; d d ; ; ; d d J ; i d ; il T E S q I S H { 5 D i l S S E I ii i i { a i i i i i i i i i i g! E q E N 3 $ i E ; E H E i H EE S S i g S E E E E ! E 3 l $ E SS E E E f l H E f i g E E P F g T 3d s $ r E s E $ f l h q i i E B q gS H H g r g S & s f l s R 5 f r 9 dd d d d d d d d d d d d d d d 66 d d d d d d d d d d d d d d nf i q g q $ i H H g n l H E g g dd d d d d d d d d d d d d d d pB t s s E E B a c s ; s r E E $ d:: = = ! = o d d d d o 9 = = Es E I S i l N H S ; F ! E g i l dd d d d d d N d d d d d i l d 98 E t r 8 8 P N F P ? E E N g {e q { { { e e + C i e i + e ;d d d d d d d d d i d d ; ; EIE5 ii t r g E { B N f r e i g c It i . r Y T t q 9 9 9 9 9 ? ti i: Fi ii Fi N N N (i t i, Fi rl i! 6d d d d 6 d d d 6 d d d d HH H H H H E E H H H E H H )a ) l ) ) i l i i t ) ) : t r3 3 3 3 3 3 3 1 1 3 3 3 3 3 3 iH H H E H H g E H E E E H E E !l l r r i r i r r l r r r t l 88 5 3 8 8 8 il s a 8 5 a EH h E h H S ET gR ; R 8 $i q h c d9 9 d d 88 8 N L sr 8 5 ; E: 8 t 8 53 8 0 8 i3 ; B E EE E E ! i Er g B g SB g a a :E E 3 H dP : P d SE E S R Eq B A q , a: 8 N: gE F E h H :8 R 8 N E FI E i l R il 8 $ t s 99 E 9 9 HH H H H iB a . - E;3 3 3 3 3 IH B g H g s 8, * , $ 8 . * 5a a E 5 58 E A p qE 6 f i T B P $p a r N c t s PB I g g S B qR f , $ E 3 F 3{ ; t E f l k 99 d 9 9 d 9 ;, 8 ; : 8 R sl i U R $ E SE S E g d E 5P E 8 R B 8 &B s c g B s 88 5 3 3 t s 8 8I 3 5 8 : 8 38 8 9 8 9 h ip i f ; E E c d- - = 9 9 d 53 R : R l 5 "i + + . , , ", , , i + KE S i l H N E f, 3 8 N 3 t 9 (ii r i x i r ( l d F i ii i i i i i 5 5; ; ; 5 5 g:il 3 t 3 q q q iB B g E E E E ii l I I t r c .,, i. T3sf i d= HEt?fi I !EP: ?E fl ldd&8FEtr i 8E38 :EE8EHqq$I FHiHqs =dEB fr ! sgEE=8qe::6NdN il t rgEq$ 'TEg8Un8 i Ed ;gAB9gNR IIdsBf, EH E q 4 E E E H B H H f l BH B E S H H H H H H H h A B B H H E H H C B ' B E H E H H H H H B B B 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 a d a - a d d - 3 J ; ; ; 93 3 8 8 & 9 E U 8 9 P B 5 N ! 8 E 5 9 8 8 F 3 ! g E 8 5 E 8 E F 8 gg 5 5 : : 8 t & S 9 E h E 8 i E r r' d r r e . i E i E r ii I I d a I d a s i ii I ii i I n E 6 ii 5 a d n e E $ ii I li $ E l d i i 6 i ET A H E E i B E E E i l E S f l FE H E E P H E S E B ! 3 3 E S E A g gP E E P F P P P S E E B T P dd d d d d d d d d d d d d d d d d d d d i l d d d N N d i l i l d i l d n N d d d d d d d d d i l d i - ; i A E E 3 8 FE 8 C i P $ T H X 3 E{ E E g R A E fl E R il il E i ; il 3 9 SF f r A. C g EE 3 $ TT $ C :P : g : : : : : : : : : 9 : : = 9 : : : p : : : : : : j i 9 : j i r i = j j i : i i j j j i : i E9 e E E E E E E E I E I E [ 9 E E E E E E I E E I E E I U E E q E E E E T E I E E I q E g E g ! BE F ; B R ; 6 T F i l E $ E i E f i EN E E H E i l S P f i I E B U S P U f i il H g i l i q T i f i ER i l E T d d d d d d d d d d d d d d d d d d d d N d { d d ; d d d d i i l ;r n n i.i ;.i n i,i n n n i{ .i . i l i l i l i ; Ei l E t e c B E d s s E S p 9 S i l p 9 S E R E H E 3 g E E n h B : 9 f l F$ E J C g : C 3 U s r C 3 6d d d i d d d i d 6 d d i d 6 i d d i d d d i d d i a ; - d ; d d ; d : ; ; ; ; ; ; ; ; ; ; ; ; EH H p 6 i l E f r 53 E E l N p f l *E ; U 3 E h 3 l 3 $ g E ? n E 9 i 1 H 9 3 E B r = F : p $ B U i :5 t r t i t r t n : : r r r 9 $ i = : s : : > : 3 3 : r ? p p : 9 p S : : : : S : : E i : : = i i i iB q I f l $s E H q O h E i T q R S E I H B ' i f i $E h R E E S I E E ; E ; C 3 E S H ; F ! T ; F do a o o d o o d d d d d d d d ? d d d d d d d d T d d d d d d g d d d d d S: B B s B E F C T i l E E B E A H I h H ; E T E S E P B [ ; T i f l =S E : H P P [ ! : 3 = i l f i EI 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 9 d d d d d d { d a a a d EB E t p R E E E E S f ; iE 0 ! E S B : I H 8 $ s E E E n E ; ! t i f r SR i F E E S s g E r $ t ; 9= = : 9 9 9 9 d = 9 P 9 d 9 N 9 9 9 9 d : 9 9 9 P ; - d d 3 9 : : = 9 9 = 9 9 = 9 a E - ; E 9 9 EE S S $ E I S E T A E E 9 S A E S R S h $ E H A E i P f l EE g i E E S E E P R E ? E E S E S C i iii d d d d d d i i i d d d d d i i d d i d d a d d d ; d i i a i d i i - d l a ; i - ; ; i - ; EB i E E € E C E E E q E E i f l EB q E E E E ! E q i { q q q A s O I { [ E E E i E S E E E E q q :;; ; i ; ; J ; ; ; ; ; i l ; i d ; ; J J J ; J ; ; ; ; ; d d : ; : : : : : _ _ _ _ - _ _ - - - - $i t s B T t s i B I i ? 3 8 ! E i l E E R q E B T H i l i l H $ E H i q h I H i l f r ;: H [ ; $ F F S B N ; +ii i i i i i i i i i i i i i + r i i i i i i i i r i i i a a a J i i J i i i r i i i r i . a l . j HR S E H i S E A H E E T N : E H : R q E i 5 H S 9 & U E 3 g A 5 9 E N E 3 E f f IH : i l U E g E E E N N e R F R 3 N p R : : F 3 r R 3 S X R 3 F E K F R B N N r i F R p S K N H Fi {i N N S ( ri Fj J rj ;; ; ; = ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; HH E E E g E H E S d : g E 5 E H E E 8 $ T B S U f i ;i H E S F S E : i l ! U $ ; $ l 9 g f i gE I g ; EB E 3 E i 9 H f l [9 E S 9 ; ; H f i NR H ; H f f il S i l [ A f i fi N; ; ; H I R g i l 9 9 F R ' ; f l 9i l d d d d d d d d d d d d d d d d d o d d d d d d d o d d d d d d i o d d o <i d d d d d J d ; J J J $E ; i i H 6 S E T E E E I d E F S E P B E E N I U = E P P S F E U E U E B E P T $ E T : E i l P ! dd d d d d d d d d d d d d d d d d d d d 6 G d a a d d d 6 d d ; ; ; ; ; ; ; ; ; ; i l u i ; ; ; ; i ; qs 0 8 s p gE B s ! g H 5 $ q E I g H c q g B s q f r HE E 0 S S E I { B n 9 [ S = i l E S e C i l h d d d d d d d d d d d d d d d d d d 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.t 6 a d gE E E g E E : : I E E T ! 9 E H I E i E l ; S E E 3 I : S ! 3 E E ! E E E g s E g $ I B E E E s EE I q U E S ! 5 ; ; S t f i eU R F H i H C S U H T C S S H S S ! e i i l g E ; I a H E t U E E I E dd . d d d d d N N d d d d d d d d d d d d d d d { d N d d d d d d d d N d d N d N N d d d d i i EE ( E N i { i l N R H R R H f l il B E N N F E R N $ R F R F X R E F E E i l E N N N P N i l F i N N R F 9? ? ? ? c ? 9 9 9 ? ? 9 9 9 ? 9 ? 9 9 9 9 ? 9 ? p 9 9 9 9 9 9 i 9 i i i + i i i 9 i e + 9 + { C 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 EE E T E T B T i i q E E E E S E T q q E E E T E E E q E EB S J g = 9 6 ' 9 3 3 9 5 8 8 3 3 9 5 ' S E H B R R J E dd d d d d d d d d d d d d d d d d d d d d d d d i l d d d 8E 5 8 P 9 C 9 F t 8 R 8 8 3 8 6 9 8 i C 3 9 3 8 8 8 r 9 i l d6 d d d d 6 d 6 d d i d i d i d r i 6 i i i r i d d i r r iE E B E E ! E B E T q E E E E q E B E f l qq E E A E E H B AE J N g { f l F ; g T B i B E $ E E E 8 f l H S 3 f l H H g F dil d i l 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 se n : e e q { P E q c e q N E & q E i 4 E q 6 E & q c q iid i ; d d 6 - d d d - d i d d * d d 6 i d d - i d d d F 3B g q r g g e 5 9 r t c 3 9 t s E 3 R . D c { q E q c N s dd d d d d d d d dd + d d d d d d i o o a o i n d o d a dd d d d d d o d d d 9 d d d d d d d d d d d d d d - o d $E h i H F : P 3 SE ; E T q E E S C S E i l I F H E E H : 99 d 9 9 i P P P 9 9 d : 9 = P P d 9 P d d d P d e d d P fi Ug A E T U C H C T h g f ; ES E E S B E E ; E 3 * E f l E d d i d a n . d a 6d a i d . d d a d d d o d d d i r d d 83 5 C 8 8 C 8 5 J 3 8 8 8 8 8 3 9 8 8 : 3 3 8 3 9 U r 8 ;;; J ; ; ; ; ; ; ; ; ; ; ; J ; ; ; ; d ; J ; ; d ; J ; 9g x E 8 i l 3 g t 9 3 e i 9 : C f , 8 8 F 3 ; 8 9 3 : 3 R t ii i i i i i i i i i i i i i i i i i i i i i i i i i i i PA B E t 9 5 3 8 93 3 = B C 3E g 88 8 R 3 p ; A I8 X I g N N d F: N F i e si Fi Fi C N ti r i t i Fi xi Fi d Fi Fi F : d Fi : I E d $t ; g E 5 g E s U i l : H g H { i i 5 f l rg t g d E u i E $ E :8 f r i i l H H ; S ; T R 3 C ; h H R N ; ; H K H C $ 9 R H dd d d d d d d d d d d d d d d d o o d d d d d d d d d d 9B B 8 A 5 C g E gP 8 R E 8 E 9 8 P 9 3 E I C 5 9 9 t P 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 hJ s J t E B 8 t r 9 B r 8 8 6 t N 8 t F 8 t s = E S 8 N 8 3 dd d d d o d o d d d d d d o d d d d d d d d d d d o d d ;i l D E t s E E f uh e E H E s s I H q u E : F 9 $ s E p =9 d 9 9 e 9 = 9 9 P d : 9 = d 9 d 9 : d 9 d 9 9 I = d 9 dd d d d d i l d d d d d d i l d d d d d d N d d d d d d d d fl Nf i NN E H F d E E R E F : i T i l F E ? f r Ni& 3 B N H 99 9 9 ? 9 9 9 9 9 9 9 9 9 C 9 9 ? 9 9 9 9 9 9 9 ? ? 9 9 EE R E g E E N H E ! 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HH H H H H H 5; 5 5 5 5 5 qIii r l s t s .r 9 : 9 9 5 3 3 iB E B B B B E lt r r r r r r ,q q q l ! , 1 , t Ee r e e e e e 55 9 5 8 5 33 t 3 3 3 S +i i f + { ? gu s s H g g qt + i + i l CE E E E E E :S S B E g g HS ; f l f i H U $$8PE5gu itPT i+PE3HitR8EPEgdEpts{{3{3i44ER5AUE 33ci EB IE!, t ttooii 3{E5IIo E3 5 g C A 8 :T 8 8 F F 8 EE E f i f l S f i J: : : : : : HH H H H H 5; 5 ; ; 5 EF 6 H U $ T 88 8 5 9 Ec E E E 83 B B F B8 C i 8 .1 .i +. J "j IB $ E g SE H E E 88 t 8 8 ii i i e hE s h $ Eh H U ; PE R 9 R BS B E C 8H T 9 ! ii i i + ee q l { ER F P F te l i { 85 t s 8 3 ii r i l tt 3 3 h ii { { f 88 8 8 8 99 1 { ? iN f l i l N CB E E E EE E g E 88 C 3 5 EE ! S g E gt u E s a ii i l l c 88 E t s 8 8 il { e i i 88 6 f l 8 8 88 8 8 9 8 e{ 9 9 1 q E8 B ; 8 9 ii i e q q gg E E E E BB d d g E :rqE{aUN?gi=q iNisrJI+Tii:Fi Ii8{I+c{E9I+:flijBiI5IEiq?II 8g a 8 *g i l H ie g i 85 E i i{ i i Et N B Hd E H gT E B 8E E 3 3: R s PP 9 9 Ef r H E Hi l E q EE ! 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P ; R i l E N H S E E F E B H ; 3 B E 3 E E S T = I i l D E E F dd d d q d q 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 d d d d d d d d d d d d qE E E B E B q q ; ; E I E E S E B E E F E E 3 O : g B B E { T E F q T i E q U U E H S E P9 9 9 P 9 9 e P i d P d d = P d 9 9 = d d d 9 d d d - d 9 = d p d 9 3 9 9 ! 9 - j; ; ; HS H B B I p p C E N 6 f i ts B i I S 3 P F 3 8 i E H h ; 8 5 : 3 S 8 3 3 i i t r f l il R i l $ 8 dd d i i d d d d d i d d i i i d d d d d d d d d a d dd d i a d d d i d d i d d i d d i ;3 A T { S i A g E E ; ; f l TE ; E B S E E g g * F E 9 ; H f l B3 5 g B T H 3 6 B i S 5 i l ;;; ; ; d ; ; J d d J ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; d ; J ; ; d r ; ; ; J J J;J ; ; ; iE n E E E i f , f, E{ i E q H i q i g E q e f ; qf t Ni H a i R E A t t f l Ef ; ii q f l Eq N rr i i i i a a i a a i TS T F i S E 5 q F F E F B f i iF H f l E5 E E f l EP ] gP P B S U E P E E f ; ES E E B T f l N( E : r i F i ( r i J r i d r i l ( N F i N J d x i r i K r l x i x i N d { F i C ( F i R r i s i F i F i ( F i i i r i N F i J S F i i ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; E; g E E I g ; i l r 5 d $ I S S u l ; 3 A A $ N i l r s g i l a d H h n s i S t E E d ; i $ f g[ : 9 H ; E H ; H ; 3 i l 8 H : H h ; ; R f r HS H H R B ; 3 H 8 f i A: I H E : T C i I H 3 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 o d d d o d d d d d d d i d d UP U B A P E S I E F B P f EE E P E U E P P S B E P E B B 6 E T F E E E F B E E E E P f l dd d d d d d d d d d 6 4 d d 6 d d d d d 6 d d d d d d d d d d d d d d d d r r d d d d d d *8 $ i l S ; i l t g F H E B f r il E q H S C H i l q $ e A B E $ g i i l E H $ f i SC U h C 0 E H U 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 d d d d d d d qt s E E P 8 S E E 5 E 8 P ; i l q 3 i l 8 = E E D E N E f l NF E H S B H E E I d E ! 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T i S S P H i l F i l E C T i l i E S N E S H U i i l T : S H g $ f l $U E E S S f i E: I i P A E 3 3 9 S E 3 B B A 3 3 i I i ? e q e e ? r/ . , i i ". r "I i t i i. 1 t + r i i ?. r i i r i ? ? i i i + ? i i e i { { i i i i i + { i + e i + + Efl CT B R P E U B S s $ N R 9 I 8 8 g 3 B R 9 8 U B ? 5 T F R 9 8 E 8 + h B R P B B S + 5 T R R P 8 K P : 8 6 8 fi f i l: t { r ? ! { r t { 6 i 6 i l 8 f r E? c 6 f i fi iE E u s t i B s 6 q g g e : c p l i e e s + * f iN R i { ( F f i fi eI g I I E g n n i 9 E e e c I p I p p p p e p i : : : : : j i : j j ji : : : i : : J : : f :: J : : : J : : f $$ H H E E H H H B H H H H s HE H H H H E E HH E EH H H H H E E EE HH H E B E E E E E E H H H B H H E E H H 5r 5 5 5 5 5 5 5 5 5 5 s 5 5 ; 5 5 5 5 5 5 ; 5 5 5 5 5 5 ; 5 5 5 ; 5 5 5 5 5 5 5 5 ; 5 5 5 5 5 ; 5 5 5 5 5 5 5 5 ii3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 1 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 i H B E H H H H BH H H H BH g H H Bg E g E EH H E H H H H H gE H H H H E EE B E E H H E H H H H g H g H B H B H H SE E E E I S E I E E E E S E E E E E E E E E E E S E E E E E E E E E E E E i T E E E E E E E S E E E E E E E E E g , E 45 1 88 8 5 8 b EE E E E E E Fi l E R i l X N 83 B 3 g E E EE I E U B T R3 E [ f r S 3 99 9 ? 9 9 9 83 F C 5 e B {e e i i e i PE B E E T BB E : E E E RB f r } T ; I EA B E E T E qH ; a [ ; f l SP N E T E E 85 9 C 8 C 5 qq l ? e q i 8: S C g B 5 ql Cl .l Cl Cl ql "j Es S i : E T dC C E E E H gB s g s s il3 86 8 5 5 5 5 ti s E E l l g l , 9l { e l q e SE B C E C E ttE g3 8 8 B f l E 8P R 8 5 E t s E: 8 ? 8 P ' gE E E E E E HH H H H H H ;5 5 ; 5 5 5 :3 3 3 3 3 3 =t 8 f l t s t t s iB B B B B B EI I T T I T I t r , t t r , ! . at t : t t t o.Eo3clE t-i5IEIE )d IIire IIhII !ti, t {TI f- l rBriitT3:lF'Ii!Eitii Fgtti t 45 2 C-258 FTIR VOG AND ToraL VOG 453 ttI3; i?96s!EB98EEEfl [;E! 9S5! ilil!B$ dd d d d d d d d d d d d d d gg g g g E E g B g E E s g g r:. . ; : J J J J ] J J J J oo o o 6 0 0 0 o o o o 6 0 6 F3 R 3 & P 9 : 3 9 C E n S p dd d d d d d d d d d d d d d dd d d d d d d d d d d d d d dd d d d d d d d d d d d d d EP T E J [ ; E B I $ ; E 8 E ;d d ; ; d ; d d d d d ; ; ; 88 5 8 3 9 3 8 8 8 8 3 8 3 8 Jd d J ; J ; J ; ; i l J J J J 35 h 9 5 3 g g I g 8 t s : s E qe N o r a 9 r 6 . r o b F 6 99 C 9 ? 9 9 9 ? ? 9 9 9 9 ? Sq H B E f l E f i i l I ; h g E g iY . ? ! t i t i j ! r Y i Y Y i Y 9g E E E g E S : E E H S T E d9 9 ? d 9 ? d 9 q q 9 9 d 9 BE i l ; E C E F C P E C H H S dd d d d d d d d d d d : J d IP g r P e t f l n c g s p s : 9d i l i l i d ; ; d o @ a 6 d a E5 8 8 8 9 g E E E g P B B E dd d d d d d d d d d d d d d 38 8 t 3 f , 8 6 3 8 t 8 f l 8 9 dd d d d d d d d d d d d d d 8E B i 3 3 E R & 3 B E 9 N 5 dd d d d 6 d 6 d d d d d d d ir e E d t i r i d l r F i c R f i d dd d d d d d d d d d d d d d dd d d d d d d d d d d d d d dd d d d d d d d d d d d d d fl p 3 H i : 3 8 5 H $ 3 i l ! t iii i i i i i i i + i i a i il g E P g E E I E P S B S B S JJ ; J : ; J ; F ; ; ; ; ; ' Eg E E P E E E E E I 9 g g P +e i e 9 " i 9 9 e 9 e e e l 8A 8 6 q q f l i q q q B E 6 q i l :3 3 P S 3 3 : 5 8 8 [ 8 3 8 r dd d d d d d d d d d d d d d d ri t i t i t i R i H H H H # ; E i i l f l i l dd d d d d S d 6 d d d d d d 6 EE E E E E E E E E E E E E E B ar i i a l i i r i i l i i i t ;3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 iE S B E E E g E E E E E E E E lr t r r t r r t r t t t l t t Sd d d d d a d a a d B E d d d t3 3 3 q 3 3 3 6s I 8 E E l B IE B E g E , B E lt r r r r r r {o o o o o o o 8. . . . . . . : r, t, ti ,:#IEi RE 8 8 f , dd d d d re n i f l 88 8 6 8 RR E R R == : : : aia a i IReiIisIEI3i 88 8 EE E il i R BE B :- a38 8 ii tEH E dB s i3 3 IE g -- g8t E B: 8 F9 E 8r 8 ii i*6 3 *+ r r pE E gE c 33 t E3 J i+ l BE E IIE33+I33ccEEbb IagII!tE li l I rH I lf l , 1 Fg n 88 8 8 58 8 8 :B P 5 qq B s ?; i ; t8 5 a &n E a EB B E EE S E BH h $ EE B B 8: 8 8 +i f i IE T S 88 8 8 33 t t +9 9 i 3t t t ei q i gB 8 8 I 33 8 3 8 3 33 3 8 8 8 59 5 3 5 3 8J 5 S g 8 Faf BN 3 g 6 E gg g g g g 5g g 8 g g EE E E E E NN N R [ i R B8 8 8 g g EE E E E E 55 5 5 5 ; EE E E q EE E E E Hs R E N EE E E E ss E 3 3 SR B s E E[ f t R E P& 5 E I sB E B q E8 S T 9 ES f , n B 3C s 5 E Ef i E 8 R gE E E E eq + 9 e 3R B 8 J EE g E T 33 t 3 3 tr E 3 3 el l i l EE E E E SS E g E TERN5t:: i9ET iifl i l 388B!g5HEA8E:: i?gt s++a5 ,t3:99888E 5; Y e 3 q = 5t s 4 8 8 8 5 TI C H 3 3 B ee + i + i + ie g l g e e +? i e i + i ts f i $ c t s f l 9 99 e 9 9 + i 38 3 8 8 8 8 ii i i ? i + RN N R & B N EE E E E b b E5 E i l H B f , f; f l E i g E E 45 4 R$ 8 : 9 5 8 sg 8 8 8 6 g ' EE E E E E E rl a i . i a sIi3 3 3 3 3 ;s r E E r ;! i t i i E A'A A A a 6b b b b b a;I : ; ; ! : iE E , s B E E SE E E E E E ?&IE5 38 5 t s 5 5 99 9 9 P 9 Eg t E 3 8 EC s C E E JS S S S S EE E E S D IE S i S E fl E f r 9 R E E: : 8 E I ;E 5 ; : e 88 B 8 8 8 98 3 s 5 3 EE s E E E E8 P N 8 R EE E g g E 3E 3 S E E 55 5 B a B BC 5 E 5 E t3 r r 3 E 3 BE 6 A 3 8 8 3icITIgtscteaIg 3I5 3 iP:E 83 3 3 1 3 3 3 l: 3E E ! ! I 9 E FE iB E g B E E E *l Sr q d d s s s ' 35 8 8 8 9 9P 9 f : E 89 5 8 6 6 RR H E E & ; s; ; ; ; aItscceEaacceatgcEeBeaEgR6gEEgNEa tuil lo=.l lt i5EE( IEI5Ilet;tEtr!tt{I ri .I EriT] r. t ,E rl iI.II;!T,,t_!i{ E$ $ H i l H i l i l I B ;; ; ; ; ; ; ; l ; sE E E E E 9 E I I sD B s T E g T I E ;; i l ; l ; ;; i l ; l = ff i ; 1 , ;; ; ; ; ; ; ; l ; .;; J J ; ; J I J ER r s F $ 3 E I i il ; ; ; ; ; l ; ;; ; ; = ; ; l ; ;- ; ; ; ; ; l = od - a d d - d l i l EE E i l E E s E I E ;; ; ; ; 1 , ;; ; ; l ; ;, f f i ; 1 , ;; ; ; ; ; ; ; l ; cE - - P s B i C l C =r * r o * * * l * : i: : : J; : l : S= f ; I S R ( R I E so e u e q e a l i ;; ; ; ; ; ; ; l ; did d t d d a l J r3 E s p , 8 E F l , il = ; ; ; l ; ee d e e d d e l e EE f l B f E f l N h "' t ' Fi H I E T s E I T .o " " o o " " l : rs p s r e e s l t dd i l i l i l - 5 & | f r :: r -: -: rls ff i ; l iib i e a i i l .l+l ir s g t g r r l iH E E B B g g H I t. . . ' . ' . 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EE E E E E E ii l ; a i a a :3 1 3 3 3 3 3 is s E q E E E ET E E I T I f Et t t t t t t 88 8 8 8 8 TE B f ; H } 65 8 t 8 8 ;P 8 9 g U i9 ? ? 9 9 SS t s E 3 6 Bq q & 8 3 P€ I N N 9 5 ,8 ; g P B e5 8 g N P sg g g i E t3 8 r ; 5 tE$tg!B! ti9SEI::BS3t HC E E S C EE E i i i a i 68 8 S g g 58 8 8 R F fl B i l B E T E8 F E g 8 Ci r i " l + q t + EE i h I R si E g E E CE E i E R 83 8 8 3 5 E: H H g i l g8 E 3 H i ;3 F 9 h S 38 t : S E 5N 3 3 N P aE d d s s i RR P 8 3 A fr H ; R S C 88 9 : P 8 ga B N E A 8E E , g IP g A U 9B a p r 9P d d i E{ f i H H gB i F F JP : J . fl [ ; g H ir i . i , ! +e e { 9 tNI 3Ei 4E B R T i E fi I ; F p g f l r9 t N t E S g EE N A T P !! ! ! ! ! EE E E E E R3 3 9 E C 3 EE 9 E E 9 E EE E E E E E 3:3 3 3 3 1 3 3g $ f l E H B gE E E T E H :t r f r ; ; 33 3 3 3 3 3 ei i C g j s BB g g H g B tt t l t t l tt t t l l l 45 5 5E E E 5 U E T 8 E E " " " I U ff i ; ; ; ; ; ; ; l = us p ; u g : E E p E r * u * u u l , ;; = ; ; ; ; ; ; ; ; ; ; l ; ;f f i - ; ; ; ; l = ;; ; ; ; ; ; ; ; ; ; ; ; ; 1 , ;; ; ; ; ; ; ; ; ; ; ; ; ; , , 1 ; ;; ; ; ; , i l ; i l ; 1 , +e ( i e + r ! r i i r r e r e e l { Oi l $ h f l H B f f E E E T F H i l E E I i ;; = - ; ; ; ; ; ; ; ; ; ; ; l ; ;= ; ; ; ; ; ; ; ; ; t , is ! d d l 9 : 3 9 e P e ? ! e l l d nS a H e s s E s B p n p E a s g l i ;; ; , ; ; ; ; ; ; ; ; ; 1 , ff i ; ; ; ; 1 , ;- ; ; ; ; ; ; ; f f i ; ;; ; ; = ; ; ; ; . ; , ; ; ; ; ; 1 , 8r 6 8 f , i E E i R E g i s p i P l l il s i s s B H g i l p u n u r r r l , ;; ; ; ; ; ; ; , ; = ; , ; ; ; l ; ff i ; ; ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; ; ; ; ; ; , 1 ; id i i i i { d d d d i d d 6 d 6 l a ii s c s E c B p H ? u * u u u u l = ;; ; # , ; i l ; ; l ; 99 9 ? ? ? ? 9 o 9 9 " 9 9 ? 9 9 1 { -. - * - - t - ;J J J J J d d d d d . . r r . - 1 . CI B $ h 9 i l 8 : E I A n g r ; r U l p dd d d d d r r d d J . . . " " " l : rP & q 3 : & 9 5 : B e e e s g u l t dil i + N N N a f i d r j i . g r l h d6 d 6 5 d 6 d 6 d d d 5 d d d d l , :: . : : : : : : : : : : : : : : l - EE E E E E E E B E E E B E E E E I s5 ; 5 5 5 5 ; ; 5 5 5 ; ; 5 5 5 1 t, lili i3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 I !C B P : * ! : P P ! P g F i i N d : l IE g E g q t E B E E E g B B E B B I i ,i ; ; i i i E ! ; ; ; i i i i E ; l ! dd d d d d d d d d o d d d d d TE E C g B g E E B A q g g g E E ET E i S E E g S E E E E S g O dd d d d d d d d d d d d d d d FN N N i N N E R S R i E 9 E : dd d d d d d d d d o d d d d d Tf ; h S H $ B B f i f i f l B f i g E E dd d d d d d d d d d d d d d d 8& g t N 9 8 B 9 8 8 t E E F dJ ; ; ; ; ; ; ; d F d d d d ;; 8 i l ; S C S E g 9 C E T B ;;; ; ; ; ; ; ; ; : d d d d +i + l l { e e e i + e q i t p; $ 1 E 3 E A E l i l 5 t e f r s t. r . f .l . t . f ti . l t i i . f i T + AH h E S E F S T B ! B H E E ?9 9 9 9 ? 9 d 9 9 d d g d 9 F; d * F i l H E E H B d S f r E dd - ; d i l d d d d d d i l d d rE E S S $ S F T E E f l F f i H E U d d i d d i d il d i - il d i a id s6 s n g S c E g u b h E g S dd d d d d d d d d d i l d d d TE E E A I N 8 B ; g B E 3 3 dd d d d d d d d d d d d d d $f , 5 f ; r f l H 8 i f i i l 3 f l 3 9 6d d d d d d d 6 d d d 6 6 d EH B F B F f l E E f i g N S [ i l i ri N F i d d S i t f d d d d d S i :g B 3 l r = B ? 9 f , 3 5 5 9 ? !1 1 ! a l l ! a t l t l r t t !E E g E S R P E I ! a E 3 3 E dd d 9 9 9 9 9 9 9 9 9 9 9 9 9 EB 8 B 9 3 H = t 5 g 8 R p t r P dd d d d d d d d d d d d d d d :j i n ! t r i j j i : f e e i Hq h q q q q f f q E q i E E E E Pg 9 9 P 9 : 9 9 P E I E 5 E E ii e e + e q f e + i i i i { ? SE H E t q f i $ q q q f l u E q t iI E g S E R F I E B S B A N E dd d d d d d d d d d d d d d d iE kt il i l , SE H I B H H H H f i f , f r s S S 9P 9 9 9 E 9 9 9 e 9 9 9 9 EE E E E E E E E E E E E E iia i a t i E - i i > i b r3 3 3 3 3 3 3 3 1 3 3 3 3 3 iE H H g B H H E g E I E I E Ir r r t t r t r r r r r r r st # 8 8 ; ; i ; # t l f # ; BS S S S C S S B E B S C C B C B B C C C H H S B g g S S g H 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 E! E E E E A B d S E C E E S E g E E E E g ; g T U E E E S g B EE E E E ! E E E i E E ! E i E E E E E E E E E E E F F E E E E EB E $ B T 3 E $ 8 8 T E T E A S 3 E E E $ t s T 8 f l 8D E B 8 ; f 9 - d i 9 d ? ? r ? 9 9 9 9 ? ? 9 ? ? " d 9 9 9 9 9 9 9 ! ; 9 EE ; c E t E q E t s E E l g H q t E E q E t g E ? i E B E E B 9? d d 9 9 d 9 9 g d ? 9 9 9 9 9 9 9 ? ? d 9 ? 9 q 9 9 9 ? d ? iB i g E S h E i l i l } g E ; B $ 4 f ; ;E E g E g E 6 E E g 3 i l i l 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 sE a E B 3 9 S i l 3 E h E g; 3 3 F d C t E t h f l FA : E $ f i I dd d d d d d d d d d i l d d d d d d d d d d N d d d d d d d d d SE E E C g : T E S E g E E E : S E E S E P E E C T H T E B E S E +r r t i + r ri i ++ i i ii r + r r i + i : r r : r : :q r . l r : il 3 P E C ; E : i l H i l 9 f i gE 9 i l B f l il T S f i SS B U : 8 0 i l i l + + + + + + + + + ri . , r rt + "J + qt rj + { + + qt + rr + + + + i + + . , r Eq B S P E $ i $ H g B E E I A B $ $ H i $ 3 gi h E I E i l i l E t Y I Y rY Y + Y ' f f 'f T' l t ' l rY . l ' f 'f t r Y f Y rY rt I I t t SH E S E H S I E E f i qs 5 3 8 E I q H : : E E $ * s : s E ?? 9 d 9 C d 9 ? 9 9 9 9 9 ? d 9 9 9 g l d 9 ? 9 ? 9 d 9 9 EE 8 f l EE q S E N q ? B q E E E i q N E E : U E B h A E P B : ;: B E I H g B E 3 8 H i l f i gi E S E S P H D i l B E q H i l F E T ! f ad N i : N d d d d d d d d i d d : d d - d i i - : d i d : d 9 6= S 9 U 9 P S 8 t 3 6 : 8 B R 3 R N 3 R E R N A 9 r p 8 A 9 9 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 f Pf r Eg E : F F T B E E E : P B E $ 8 f l =E P i I E P T C H E 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 E: i E 3 ! E X S U E U : E 8 9 B i [ 5 T E H E 5 E 3 E T E 8 h 6d 6 6 d d 6 d d d d d d d d d d d d d d i d d d d o d i d d d :F E T S H H E F E H U = 8 8 5 8 ! E 3 R ; E F H B f i HP N F I pd R S N J [ i i pR C C s NE E B F 8 r* F r d ri R a i d ji r , Ei E i s { 3 i e s i q u q 3 3 E 3 q q s l 5 [ g 3 E ] 3 5 0 3 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 AS T B H F T B S i N F E P S S E ; E E : E F E N I P ; g F P 5 dd d d d d d d d d d d d d d d d d d d d 9 d d c d d d 9 d d d 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 EE N s T i S h E ; $ E $ E E S i U E E F H B H S E S H S i l * T dd - d d i d d i l d d i l ; i l d d d @ i l i l d G d i i d d d d - d d UE $ E q E $ E E S [ $ i T i T B E h f r EE E H E E i E H E T A ee l + + + + e { + i + + + + i i + i i { e - ? i + ? e t q e q EE 9 E S E H E : E E E E S i E i A E S E E E g s S E g g E E E ie + e e + i ? e i e { i { + e e i e i l i 6 q i l { e t i + + g! E E : E E E E E E I ! S E I E E E 9 E E E ! E 5 ! 3 i : E i 5 i E ! g I ! 9 3 9 E E g i I I 9 E : : E E ! I I H I E :: s i E I E I E g l g g B i S E 9 S E B S 9 E E g g g g E S $ E 5 : E g g g E g E g E s S I S g l g E g E E ? E i 3 E 45 6 Ng u s c c c c c H u c u u s g s c c u g c c s B B s g dd o d d d d d d d d d d d d d d d d d i o o d d d d d HE I E E E E g E g gE 9 9 E E E E E i E = t ! : E E g ts h c ; h g $ E t s u c E $ i l 8 1 6 8 8 f l u; $ s t h g dd ; d ? - ? 1 9 - d ; 9 9 d ; 9 ? ; 9 9 9 d 9 d 9 ? 9 8E 5 E g : B E I S E g E S E C H B E B E T E E s C q E dd d d 9 d 9 9 ? d d d ? 9 d d ? 9 d 9 9 ? d ? d 9 9 ? s8 i 3 8 3 6 8 8 t 8 t 3 8 3 r 8 t s U 6 8 8 E 8 8 3 6 8 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 d d d d d d d d d d d d d d d d PI 8 f , 8b E F t s 8 F 5 3 8 N 8 N P 6 5 N E N E E b E 5 JJ d ; ; i l ; ; Jd ; d ; ; ; d ; ; d ; ; ; ; J d ; ; ; 5E E : E 9 S r C B i ; : g i l g F i ; t ? S h H i E t B ;;d d d d ; d d N d d d d d d d d d d d d d d d ; d d $[ E E B E i 3 i l E 3 E f l B$ [ $ 9 8 f l 5t s : i l E i E f l ra Y i l Y r r i t r Y . f iif rr r Y r Y r r r f Yl EE S E T : P i E H E f r Ef l Ig T E N q U H E E E E T 9 od q d 9 9 9 d 9 9 d ? 9 9 d q d d q g d 9 o 9 9 9 9 9 9A 8 t r R B 8 C R f l ;: 3 C 3 S : 3 S 3 C C B 8 E E E E Pg P P P S S S i : n P ji e 9 ! r g i n i h n e P P : iE E E ; 9 R E 3 B ! E P E E E $ U N R g H R g P B F H td d d d i i d d d d d d d d d d d = d 9 d 9 d d { d d gi l E T : E E E E 3 g E T E E ] gS E C 3 3 g g E 3 E 9 dd d d d d N N d d i l d d d d d d N d d d d d d d d d d 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 sE a S R E t R = = h E 8 R 8 P 9 8 B g t t P & ; E 8 B dd d d d d i d d d d d 6 d d d d 6 d d 6 d d 6 d i d 6 E3 B = B $ i E B H S p ; p E p $ B ; S 3 H { i $ 1 9 f l E$ E i d d S S g p S d p d d F E S F B E * i e d i P $ ls E t s P R g B s g S r h t S : E b 5 3 5 8 5 8 9 8 3 dd d d d d d d d d d o d d d d d d d d d o d d d d d d 3B g E p f l Sg i B E H B E i l s f i EF H T E C E p B $ s dd d P d d 9 d i d i d d d d d d d d d d d P d d P d d dd d d d d d d d d d d d o d d d d d d d d d o d d d d EE A q E A E ! q B C E H B E 9 R H 9 d i N E E g B q E PP a P ! 9 i 9 = E P P P t 9 e 9 P i e P 9 e e ji t r e uH S S ; E E H E C H ; A t c 3 $ f ; 5E s 3 6 E s f l E; d9 9 99 C 9 C 99 C ? ? I d? 9 9q r 9 d? ? 9 9 C 9 9 EE B E g E E E g E E : 3 C E [ 8 E e S E 3 : S E S U g d9 9 9 9 9 9 9 q C 9 9 9 9 d 9 9 9 9 9 d 9 9 9 9 9 9 C N: 8 5 [ 5 e B & : ! C 3 6 C 8 R N p t E i l 5 9 B & : S E 6 8 ? E R N P t E t t e g E 9 ! 8 6 8 9 8 & N 9 t 6 i l t e B :I I E I ! g } ! ! I 3 I I ! i ! : : I : : : I : I E 9 I E I I I E I I E F E H E E ! E E E ! i i F $ E E E E i I E i EE 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 S E E E E E E E E E E E E E E E E E E E E E ;; ; 5 ; 5 ; 5 5 5 ; 5 5 5 5 ; ; 5 5 ; 5 5 5 ; ; ; 5 5 5 5 5 ; 5 5 5 5 5 ; ; 5 ; 5 5 S 5 5 5 ; 5 ; 5 5 5 5 5 5 t 5 5 33 3 3 3 3 3 3 3 3 3 q 1 3 3 3 q Eg B E E q E q s E E E B g q H q ri i S E E E E E E S S i i i i E 11 3 3 3 3 1 1 1 q 3 1 3 3 3 3 1 E q 3 3 3 3 3 3 3 3 3 3 1 3 qq g q g g gs s s q g s q q g gs gq q s s s Eg gs B H H EE E i E E E E E F s E E E i i E i E E E E E E i E F E E i E ;:3 3 1 3 3 3 3 1 3 q iH s g s E s q q s H Es s E E I s s s E F oIEoi(Et i56tF rlEi td III! rllErlil I i# I rt'I irt lg 3 i:li I .tIt E8Iil! EagiIiEE il f l , FttEi r EE ; ; * : H H ; ; f i HE H E B E E ; E N B ; ; 8 8 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 H$ [ E H f l E{ E E B E E T E T g E T E U E g i E E ;B B B B B d B E E E ; d d i B a d d i d i i a i i EE H E ' E S $ t s E E i l E 3 I P E : S B ; ; T T E E ?d ? 9 9 9 d ? 9 ; 9 d d ; ? 9 9 d d ; d 9 d r - d EI E g E E S : 3 8 E 8 = C S E T B E S S E C C E E 9d 9 9 9 9 d 9 ? o 9 d d d 9 9 9 d d d d q d 9 9 d H; ; $ E E 3 E E H H f i fl $8 8 $ T A T f l $U B i l I 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 ES B H g E g : H ! 8 H 1 E B 8 E $ A E ? 8 3 8 t s ; ;;; i ; d J i ; i ; i ; ; ; i ; ; J d J d d ; : ; Ei l C $ ; C P B C E i l i F T S : E P : g : U ! T E P i i f i r i i i i . l i r i { i i ii r + f i+ + : i 9; B E E S F i g B I h S B E S T E E R E t s E E H = ;F J;d d ; ; d ; d ' ; J ; ; : ; ; i l ; J d d J J EE l E c E t + B ( E s i B l $ E q I E E E B : u u tr t l r l r l r l r r r Y t T Y t r r r l t t . f r Ns s 9 i s i I q E q s E E [ ! E t p t E e i l E E a ?d ? ? 9 ? 9 9 9 ? 9 ? 9 9 9 9 ? ? d 9 9 g C e e d 39 g C E E S 3 : i l 8 ; g E I F T T N C E E G I E i 9$ 3 ! ji n 9 i ! i P e i s : n P P s f :s ji n gi H E H E $ E S i T E T U 9 c T E E E E I J F E f l dd F i d d d i d d d d d d = d - i d d d d 9 d d d E8 E 9 $ 8 5 8 f l I! E N E I T E E h ! i l g E E ; 9 dd d d d d d d d d d d d d l d d d d d d d d d d N il = 9 F 3 E 9 T R T E ; : E E I E B C f l SR : T T t r 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 ES $ U $ I i B S A q B ! ; 8 g B E S U I S 3 i l 8 8 J+ i i d d d i d d d i d d d i i d d d d d d d d d ER n s g S i l E n q p e E t E : I 3 * i E I [ : c : Cd + i E b F g U g i c s R i i s F B B r B E r i F uE E E i t r { q s { i r s $ { $ { i E r E 5 $ u r dd d d d d d d d d d d d d d d d d d d d o d d d d EE E E S S g E E I E I E S H g E E g E E ; E E I B eg S s E t s $ g ; t 5 3 f l 5E ? t 3 ; ! e ; s E t do o d o o d d d d d d d d d d d d d d d d d d d d ?I E E i 6 i l O E E E 8 I E E i 5 8 : S E E C E i P dii i d d d i i d F d d c d d 6 d d - d d d d o d il: F U E E f l il f l C; ; E E E S E E g E A E T S S H ii i i { l i { i l l l { r i i + q { { { e { e { e EC B 5 3 3 E : S E S g E E E E E ; T P E E C 9 E E e+ e ? + t i f {{ ? i i { i i e + i { i i q { 9 i !E I ! 9 E E ! 3 H 8 E E i : S i E E i E E ! I I 8 gB A E ; E i l N S 3 i l E d 5 H P C E T F 3 i l I C E I d d d d d d d dd d d ; - d d d d J ;d - a i a a i ; : ar N R e 8 8 3 9 e 5 E = 9 g S 3 5 t F 8 P 8 r U 9 i c a t + $ E H fi dl , ii i r i { rii d d fi tt H i il g i J 5 E {N i l N N f l d N i l N N { d i l N { N N d d A d i l f i d6 ii i l i i E i i i i i i i i i i i i i i i i i i i 55 5 5 ; 5 5 5 5 5 5 5 ; 5 5 5 5 5 5 ; 5 5 5 s 5 5 E5 ;i3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 1 3 3 3 3 3 3 3 EE gH q g q H H g g gI H gH H gH gH E E H E E H EN N N N N N R R f t N ES E E S E E T T E T S E E S S E E E E E E E S E S E I Aq E E E E E q B q $ r ; 8 8 ; s U $ - q q E E E e E E q E H q q H ; E l 8 EE B s H H E H $ ! E ; B B B s B f i $ s H E B t s s B E E H E s B t s ; ; s ; ; E i l H E E E s ; ; B i l E s E s f i s 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 d d d d d d o a -; l - ; a ; ; - J; ; J; J; a ; ; ; ; 6 : r ; ; ; a ; ; i ; ; ; ; ; ; J; a ; e ; a c; a J - J; ; d a e; ; -; ; ; ; PE E E E g E : E E B g E E T E q q i E E E E E E T . t i q q q q E E i h q 8E E E 8 8 B B 4 E - E ; q E g E E E g $ q g E E E B E g E E s E T E E q E B q E E H g E E g g H g B E E B 65 5 6 E 6 E E E 6 E A 5 8 B E E 6 E 6 6 6 E E E E E E E E E E g E E F EE E E E E E E E E E E E E E E E E E E E E g E E E E E F E E E E a a a I n a a n E n I I S E a e a I a a E E tE E E E E e E i q e E E E E q q q E E l c t ; ; ; ; ; ; ; ; ; ; ; ; l ; ei , H ; r B E E q q t E q t t E E t e E E E E B s B H B t c B , r s s E h B E E E s i i E c r * s s B H a ; I ? r ? I I ! I ? o r I - 9 d ! d d 9: 9 J d 9 9I 9 ? ! ? d I ? -d l { d - - - - e ! ! ? 9 99 = I I 9 - ? I i : ? I I i I I I ? 9; 9 i 9 i 3 i e , i i C i 9 { i : { + i i + a + I I HE F H H H F S $ s $ B E H s g s g g B F s E H E B $ g B B 3 E H s s l 5 ss s E E s E s ; g H H s g E H g g H g H H B g H $ B H H H S B g H H S H H H H g H H g g g S E B H g E S g H I EE E i l E i E B q 4 E S q i E E q q E E q E $ H E H E q q E A B B S A I S f; N E ; s H E U E B E ; B C ; 8 6 3 E ; N S C : S B C H E S E U n E E T i l D E E i l f i B H E B E B E a E E E E i l 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 d d d d d d d ao l a e J -- J;- ; - -; ; ; ; ; ; ; ; ; ; ; -< ; -; -; - ; ; ; ; ; ; ; J ; -; a -; d ; ; ; ; ; ; ; ; ; ; ; ; I IE E E g T { N E 8 ? q E E q g q q { T q q E E E q E E ! f l E E i l E P I E iE E E q T q E E q S E E T d E i l q E I N i i T I E E E f l E H E B E E E U S B i E I E q i E q E E q E q R q E d d d dd d d r d J d dd ; ; N ; ; d d d d r;. . 1 d d N d d; d: a - l ; - J: : : ; : ; : : ; : : =: : : : ; : : l; ; : : : : j ; r'; : : : : : : -- _ - _ _ _ _ I 9I 9 E ? ? 3 ? l l l ? ; I f i * E ? i ? i f f ] g l l ? * ! { f F i l : q9 1 ? * E H F ? 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J . t + + f r + q r + " / i + i r + q ] " , i + ! i + + + + + + r + i + i l ' ;i ; ; + ; ; i + + i r r r r i i i r r : r ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; i i ; ; ; ; ; ; ; i ; ; ; ; i ; q- q s i ! ! q l { q i q E . q : H s E A E E t H q B B i E S i l i A [ [ E l i q$ u e s : B E E q f l B E a E B B E E a n u f r u E B H ; E ; B s B i r s N p B B ; B B 6 E p E H E i E E e ; B .r . r y r f r . r . r . r . r . f . r . r . r . i ' f i. r . r . r . r r i r i y r r I t r t. r y il 7 i i i i ii i i i i r i i r i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i I il E S E H q i T ? ! i $ H 9 E E E E h I ; ; E E f i E f l 3 i l E E f l F } C I i 53 8 8 S 9 6 f r f i f r $ ? Q f l f r ; $ i l S g 3 H f i H H I A E ; A R 3 f ; E E E H E H T f l E E f i i H 3 E 3 E 3 H E i l E 9 " I9 ? I I9 9 I ? ? 9 9I 9 d 9 ? ? I ? " 9 9I 9 e I I I I 9 9? 1 9 I I g i Aii + i + 9 i 9 9 c i e 9 ? 9 9 9 9 i { i 9 i 9 ? 9 i 9 9 i9 g i i 9 i 9 i i 9 9 q 9 i i 9 9 a c i I i$ E S 9 s E E g g E I S E g E g l g i ! i 3 i 5 3 $ 9 s g x E l g E l : 3g g l ; E 3 3 E : : ! E I s r E : E : 9 3 3 i : : E i : : 5 3 r 1 3 i l r E $ ! : $ 3 $ E i 3 3 3 E 5 E g E I qa s f l E E E l E E i E q s E E f i U s l s P E E & E a E c p e ; s E n l e si l r F c c E t s p E E i E c i l E E H E E p ? E E H s f l s E H E s H $ c s E i B H E F s s r i c s p r E E p i g * d d d d d P d d I d d d F ts d d d o I o d d d = d d d d d - a d 9a l - - - i i -i - -; -;; ; ; ; ; ; -;; ; ; il; ; ; ; ; ; ; ; ; ; ; f, ; ; ; ; ii t ; i ; ; ; ; ; ; ; ; ; : ; ; ; ;o - o - ; . . . o o " r - = - [ E! = E E ! 1 9 8 3 3 ! 9 } E F E B E T E R A I U i I E : s U : A P A I S TE B n S H s s ! 9 ! T 3 i 3 E ! E E 3 g 3 N s F E 3 E F : E g i i I E E E p F i S E I E E R E E . s E E B : E d d d d d d d d d d d d d N d d d d d d o o d N d d d d d d d d il d d l ; d d d a d d d d d , d d a r 6 a d i d d i d d d n d A n ; j ; n e ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; | ; ; ; ; ; ; ; ; I gE p E E E q E i E q R q E N E E i l p E E c P F s E i $ N p E s E ; : l E NE E I E P R p P S p p ; E N : 3 E E [ : P P p P E E F S : i l P p P N i I p P E E E I E = P E E P E p : E : p d d d d d d d d d dd d d d d d d d d d d o d d o d d d d d d d d d ol d d iJ ij b ai ir b ; a ; ; i J ; ; ir b b; ; ir iJ ij ; ; i r ; ; ; ; i j ; 3 ij b u ui j E E E E E E E EE E E E E E 3 ll E l ; I qr y q q \ f i 8 s $ i t q H : E t t E 6 ( 5 e f t n 5 f l i q A $ R s E E c l l $I 0 P s ; s p B d r i E a p E E F P i l p P H ; p f l 3 E a F i : i l E p s e s f i E N E B E s E E p i l E i E H a E d 6 6 d d 6 d d d d d d d d d d d d d d d d 6 d D d 6 d h h d d d d dld d A ; d 6 d d 6 ; ; ; ; d;; ; ; ; ; ; ; ; ; ; ; d ; ; ; ; ; ; ; ; ; ; ; ; ; l ; h id ; ; ; ; ; ; ; ; ; ; ; ; ; ; E$ [ T E U ? { E 6 i $ E A q $ q i q E E E E E R i l E q E g I B E B i L e: q E h B ! - q E c g f r s E E i s B I B f l H s g f t c ; $ H f l T g i l E e g E E F E a T g s E a E B p s d I E : E 8E H n 6 E c 8 f , e E B 8 N E 8 E F ; : P g C E d s F i g p F r p d 6 l l SS E s P C C E S i S i E R t a ; C 5 E E E 3 E S ( 5 r i 8 i : E e r d s d E F s d d p i a E i C E d r d s s i $ I qq s s q u E q E q l q q 0 q q u t i q i q q q i i i i q ! q ! q q q E qs i E E q r s s s i i ? r r E q q $ 3 3 3 3 5 u r s 3 i 3 E s q u i 0 q E U r 3 ? [ ] $ [ 5 q 3 s u E i 3 i d o d d d d d d d d d d d o d d d d d d d d d d do d d d d o o d d dl c o o o o o A oo o o o o o o io o d o o o o d o d o d d d d d d d o o o c, i j i i i i i ; ; ; ; ; ; ; ; ; ; ; EE E T A E I A E B { E $ E H E E B B E D S E q i E E H H h E E q B i I E HE i E E E P : E S E E B E B E s E E E E E $ E F s H E E s F E p p g H F N F T ; 3 F E 3 E H E B s E a H 3 3 d d d d d d d d d d d d d I9 d 9 d d o o o d I d d d d o; 9 d 9; 9 l d o 9 p 9 9 e -;; a - e; e d d d d - e; ; ; ; ; - ; ; ; - b; ; e ; ; ; ; ; ; ; ; i i ; ; ; ; ; ; -; ; ; ; ; qq q q E q q H q I E I B s l q E q E q q E q c c e q { c E c E q H ? l i EI $ { e E e E g i E u H g s { s E q E r s q r E i ] E s i H q q q s r E q q q E s E i r q H ? 3 e $ r i r E d d d d d d d d d d d d d d dd d d d d d d d o o o d d d d d d d d d l d d d d d da d a 6; d a d a a ; d ; ; ; d; a; ; ; i; ; ; ; ; ; ; ; ; d; ; ; ; i i ; ; ; J d a ; d ; ; ; ; il B s E E g E E I i l q E f i H $ H E N t H i l E p s E u a q a : p e u u ; h Bi l h $ E E $ E H r : E i l s g E E r E E i N f f f ; E : ! p c : N i i E i E n I B : 1 H f i E c ; E E f l F ; B s h H i il i i i i d d i d d N d d d d d d i i d d d 6 F d d d i d d d d d 6 t J 0; ; ; ; ; i; d ; ; U U -; ; i I i i b ; i A l ; ; : ld ; ; ; ; J i i; ; ; I i ; ; ; ii i d ; i ; I ; I d ; ; ; ; ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; = ; ; ; ; ; ; ; ; ; ; l ; ;; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; {i { { q { r + f t { { e t i l { ? e e e i e i e + i + i + e i + i i l i i+ i 4 i + i i + + i + i + i i i e i + i + i i + i i i e i i i i i i i i + + i i i i i ; + F + i + + i E i + Eu E E B B q E E E g g q E E E E E E t s t E = u r r r u u r r r = = = l u sB : B B B E E l E B s e s B s s B E d E ; r i E r E c s r : ; s E E B B E E E E E E E E E E E s B E E E E E ii i { i { i l f i c i i i i i f + r i + i { q i e + i i e + + e i + l { ++ i + + i i i i i + i c + i i + i i i i i i i i i i i i i i i i i i i i i i i i i i i i i i ; i i i ; i i + I !I i E E E E g i l i s i E E E E I S E i E E S r [ 8 i 3 E f : r E P l ! E8 9 ! i E r l E 9 3 3 ! E E E P : ! 3 9 : E : P i l i ! i g S i B E ! p E P E i E E E ! 9 3 B g E i E E ! g I qE q E E E e q E B E f , E E t E E C U q B E q A i l B A f ; f l f ; E B q E U l t ;s i l [ ; i l 8 $ t f , ; H E n ; I H * ! i r y f l r f r s f l H s s c a ; b H $ h E E s f l c f i i E H H s r i s c s s f l d d d d d d d d d ; d d d J; d i ; d d d d F d d d d d d d; d d dJ l d d ; d d; d - a a - e a - J a a J; ; - a; ; ; -; ; J; ; -; - ; J J A ; ; J ; -; d c; A;; ; ; ; ; -; J t- tq r E ? H f l i : t l \ R * q f l f l ? f l i & ? B s n r i r t e e c e q c e l 3 qE e N ? 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( ! , =t t I I I I :t9Eq; 33 5 E 8 BB .,r + iiSREg8E8Bdd exgH99 iI*iI9di3{igitId 58 8 99 9 if i f i uE l f, l ! b i l lr y q N q 85 8 9 5 p3 ; E 8 i;5Ei 9Nil t99EB ii 89 8 8 i, fl- ri rl 99 g e EE E B ;5 5; atXQ P P P P ? :1 4 4 4 J . 4 Jg H H H H g is c c B E s ;E E r ' 8 f f ,L L L t t l , ie e e e e e ss h I 83 9 t s el i + $E i : 8E 8 6 iE ; i a8 8 8 ii + e :P B 8 e+ i i Eg E B i+ i + 58 5 8 +i e e sg t S tg s B 8i39tEg iiUE88$B ;9 p 8 9 8 : 89 N P 8 N 5 qgn?sitdgPqc Eg l Ei l i ni , 9iBJ38 iihD+i 85 l90g i+389i8E{i3Gq9 r+ ? :g B ig 3 5;93EE f, Ren++8N{9SBdND59i++FPgE8EBT+i s3{9EE{{E69q i+;$EE85 EE E 38 8 88 8 c5 f Ji l 5 NE E a9 e €$ E r8 8 i? 9 ii i83 S +c ? iq i E8 E Hi l E tE c EB E EE B g g E E E b8 E E 8 8 E BB 3 8 = 9 5 == = = o = l * or * " r r r r l , dd d 6 d 6 l J ;; ; ; ; J J J I ; ,= n * r = l u u* u o = = r r l = E6 6 e e E l : 88 8 8 8 8 8 8 1 8 ;; ; ; ; ; l ; ; ; ; ; ; ; ; ; l ; ff i , l ; il i l ; l = ;i l I , ff i ; ; | , ;i l | , ff i ; ; l ; ;; ; ; ; ; l ; ff i ; ; l ; ff i ; l ; ff i , , l * ;; ; ; ; ; l ; ;; i l ; ; 1 , il i l ;; ; ; ; ; ; t ; ff i [ ;; ; ; ; t ; ;; ; ; ; l ; ;; ; ; ; ; ; l ; ;; ; ; 1 , ;; ; ; l ; ;; ; i l ;; ; ; ; ; l ; dd d d d d l d gB g 8 8 s 8 8 l : nu * * u = 1 , uu = * u r u u l , ;; ; ; ; ; 1 , ff i , ; 1 , ;d ; a d - l d ;;; : ; - i J l J ,r r u * u l , ou u * * r n n l u ;; l ; ; i l I , ;; ; ; l ; il i l | , ;; ; t ; ff i , ; t , ;i l ; l ; ff i , ; ; l ; ;; i l ;; ; l ; =; 1 , ; , ; ; , ] , ;; ; , ; 1 , - ; l = "" " " " " 1 : ." . " " " . " 1 : :s s a e c l l s* r : n s a * l t ir E r B S B l E $$ $ E e g g E l E +ii i i 6 1 2 d d d d d d n d l z HH E H p p I Hp p H H H H E I ;; ; ; ; J J tEF I?HIsaESg6EEEE5; il U 5 B F gg e 9 g 8f r 8 e e EE t t g f , P9 T E I EE E E E 5; ; 5 ; 33 il i l gEtr ' lloo&& 33 3 3 3 rR f i i i d f i gs , g E E E iT I T T I €l. ! . t ! , t ir r r r r to o o o o a# , # , t dd lF l I iE l , l LAST PAGE OF REPORT |.IAY - B 2r?5 Dl\/lsloN oF AIR Olrn I ITY 459 KMA Bluebell C-161 2025 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont Bluebell CS Company Contact:Fariba Mehdizadeh Contact Phone No.713-420-6182 Stack Designation:Engine C-161 Test & Review Dates Test Date:3/11/2025 Review Date: 5/9/2025 Observer:Robert Sirrine Reviewer:Robert Sirrine Emission Limits Emission Rates VOC NOX CO VOC NOX CO g/BHP-Hr 0.70 1.00 2.00 0.13 0.49 0.02 lbs./hr. 1.07 0.76 1.24 0.15 0.58 0.03 ppm 60.00 82.00 270.00 8 30 2 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.) 16.00 1.396 Contractor Information Contact: Wyatt Dickey Contracting Company: Kinder Morgan Emissions Testing Group Address: 1001 Louisiana St Suite 1000 Houston TX 77002 Phone No.: 713-420-2427 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 Correct For O2 CO2 Interference w/CO Yes Yes Yes KMA Bluebell C-161 2025 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont Bluebell CS Engine C-161 Average Emission Dry VOC NOX CO g/BHP-Hr 0.1 0.5 0.0 Average % concentration lbs./hr.0.15 0.58 0.03 CO2 O2 ppm corrected for %O2 8 30 2 9.70 Run 1 Enter O2 or CO2 Dry VOC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)2.94E-02 1.12E-01 5.21E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.797E-06 6.837E-06 3.189E-07 lbs./hr.0.15 0.58 0.03 6.88 9.77 ppm corrected for %O2 8.34 30.34 2.33 9.45 Run 2 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)2.95E-02 1.12E-01 5.18E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.824E-06 6.928E-06 3.207E-07 lbs./hr.0.15 0.58 0.03 5.53 9.64 ppm corrected for %O2 8.36 30.40 2.31 9.43 Raw Value Run 3 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)2.98E-02 1.10E-01 5.06E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.837E-06 6.751E-06 3.118E-07 lbs./hr.0.16 0.57 0.03 6.81 9.70 ppm corrected for %O2 8.47 29.77 2.259 9.42 Raw Value Run 4 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU KMA Bluebell C-161 2025 rev Calibration Error Test Test Date March 11, 2025 O2 CS - Cal. Span 20.90 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 -0.01 0.01 0.05% Passed Cal. Mid-level 11.02 10.96 0.06 0.29% Passed Cal. High-level 20.90 20.88 0.02 0.10% 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 52.73% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date March 11, 2025 NOx CS - Cal. Span 463.00 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 0.01 0.01 0.002% Passed Cal. Mid-level 200.00 195.84 4.16 0.898% Passed Cal. High-level 463.00 460.97 2.03 0.438% 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 43.20% 100% of Cal. Span High-level 100.00% Test Date March 11, 2025 CO 1.24 CS - Cal. Span 454.00 270 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 0.15 0.15 0.033% Passed Cal. Mid-level 197.00 196.00 1.00 0.220% Passed Cal. High-level 454.00 452.23 1.77 0.390% 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 43.39% 100% of Cal. Span High-level 100.00% KMA Bluebell C-161 2025 rev Division of Air Quality Stack Test Review ofKinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-161CS Calibration Span 463.00 454.00 20.90 Units ppm ppm ppm % % Unprotected CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 11.02High-Level 463.00 454.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 200.00 197.00 11.02Calibration Error Test Cs - Measured Concentration VOC NOX CO CO2 O2 Low-Level 0.01 0.15 -0.01 Mid-Level 195.84 196.00 10.96High-Level 460.97 452.23 20.88 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 195.84 196.00 10.96 Low-Level 0.00% 0.03% 0.05% ppmdv Difference 0.01 0.15 0.01StatusPassed Cal. Passed Cal.Passed Cal.Mid-Level 0.90% 0.22% 0.29% ppmdv Difference 4.16 1 0.06 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.44% 0.39% 0.10% ppmdv Difference 2.03 1.77 0.02StatusPassed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System BiasInitial Values VOC NOX CO CO2 O2CO - Low-Level 1.03 1.17 0.06 System Bias. SBi - Zero Bias TRUE 0.22% 0.22% TRUE 0.33%± 5% of Span Difference TRUE 1.02 1.02 TRUE 0.07 Pass or Failed Invalid Run Passed Cal.Passed Cal.Passed Cal. CM - Up-scale Gas 185.18 191.98 10.53 SBi - Up-Scale Bias TRUE 2.30% 0.89% TRUE 2.06%Difference TRUE 10.66 4.02 TRUE 0.43 Pass or Failed Invalid Run Passed Cal.Passed Cal.Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2VOCNOXCOCO2O2NOX15.73$ 54.05 5.43 9.45 CO0.0% 11.7% 1.2% 0.0% 45.2%CO2/O2Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100Final Values VOC NOX CO CO2 O2CO - Low-Level 1.49 1.18 0.05 System Bias. SBi - Zero Bias TRUE 0.32% 0.23% TRUE 0.29%± 5% of Span Difference TRUE 1.5 1.0 TRUE 0.1 Pass or Invalid Run Passed Cal.Passed Cal.Passed Cal. CM - Up-scale Gas 186.26 192.63 10.77 SBi - Up-Scale Bias TRUE 2.07% 0.74% TRUE 0.91%Difference TRUE 9.6 3.4 TRUE 0.2Pass or Invalid Run Passed Cal.Passed Cal.Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.10% 0.00% TRUE 0.05% DriftDifferenceTRUE 0.5 0.0 TRUE 0.0 3% of SpanPass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.23% 0.14% TRUE 1.15% Difference TRUE 1.1 0.7 TRUE 0.2Pass or Re-Calibrate Pass Pass PassEngine C-161 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms1.396 0.00 0.00 0.00 9.77 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws #NUM! 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat InputBtu/hr Low Mid High #VALUE! 84,700.00 5.182556486 Enert > #1 - TimesDate Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi11.00 1.00021.00 1.000 3 4 56789101112 13 14 15 1617181920212223 24 NOTEThese cells scans for the appropriate Cdir gas after the Cmentered. If this scan is incorrect change the Cdir to the correct gas value. Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog KMA Bluebell C-161 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-161 CS Calibration Span 463.00 454.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 11.02High-Level 463.00 454.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 200.00 197.00 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.01 0.15 -0.01 Mid-Level 195.84 196.00 10.96 High-Level 460.97 452.23 20.88 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 195.84 196.00 10.96 Low-Level 0.00% 0.03% 0.05% ppmdv Difference 0.01 0.15 0.01 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.90% 0.22% 0.29% ppmdv Difference 4.16 1 0.06 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.44% 0.39% 0.10% ppmdv Difference 2.03 1.77 0.02 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.49 1.18 0.05 System Bias. SBi - Zero Bias TRUE 0.32% 0.23% TRUE 0.29%± 5% of Span Difference TRUE 1.48 1.03 TRUE 0.06 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 186.26 192.63 10.77 SBi - Up-Scale Bias TRUE 2.07% 0.74% TRUE 0.91% Difference TRUE 9.58 3.37 TRUE 0.19 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX15.96 56.12 5.36 9.43 CO 0.0% 12.1% 1.2% 0.0% 45.1% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 1.44 0.97 0.04 System Bias. SBi - Zero Bias TRUE 0.31% 0.18% TRUE 0.24%± 5% of Span Difference TRUE 1.4 0.8 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 193.60 192.23 10.77 SBi - Up-Scale Bias TRUE 0.48% 0.83% TRUE 0.91% Difference TRUE 2.2 3.8 TRUE 0.2 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.01% 0.05% TRUE 0.05% Response Spec. Difference TRUE 0.1 0.2 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 1.59% 0.09% TRUE 0.00% Difference TRUE 7.3 0.4 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-161 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 24.48 0.00 24.48 9.64 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 83,756.00 5.18365575 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog KMA Bluebell C-161 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-161 CS Calibration Span 463.00 454.00 20.90 Units ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 11.02High-Level 463.00 454.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 200.00 197.00 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.01 0.15 -0.01 Mid-Level 195.84 196.00 10.96 High-Level 460.97 452.23 20.88 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 195.84 196.00 10.96 Low-Level 0.00% 0.03% 0.05% ppmv Difference 0.01 0.15 0.01 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.90% 0.22% 0.29% ppmv Difference 4.16 1 0.06 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.44% 0.39% 0.10% ppmv Difference 2.03 1.77 0.02 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.44 0.97 0.04 System Bias. SBi - Zero Bias TRUE 0.31% 0.18% TRUE 0.24%± 5% of Span Difference TRUE 1.43 0.82 TRUE 0.05 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 193.60 192.23 10.77 SBi - Up-Scale Bias TRUE 0.48% 0.83% TRUE 0.91% Difference TRUE 2.24 3.77 TRUE 0.19 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX16.08 56.76 5.06 9.42 CO 0.0% 12.3% 1.1% 0.0% 45.1% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 5.29 0.98 0.05 System Bias. SBi - Zero Bias TRUE 1.14% 0.18% TRUE 0.29%± 5% of Span Difference TRUE 5.3 0.8 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 191.04 185.00 10.62 SBi - Up-Scale Bias TRUE 1.04% 2.42% TRUE 1.63% Difference TRUE 4.8 11.0 TRUE 0.3 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.83% 0.00% TRUE 0.05% Response Spec. Difference TRUE 3.9 0.0 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.55% 1.59% TRUE 0.72% Difference TRUE 2.6 7.2 TRUE 0.2Pass or Re-Calibrate Pass Pass Pass Engine C-161 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 24.44 0.00 24.44 9.70 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 84,555.00 5.20669422 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog KMA Bluebell C-162 2025 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont Bluebell CS Company Contact:Fariba Mehdizadeh Contact Phone No.713-420-6182 Stack Designation:Engine C-162 Test & Review Dates Test Date:3/12/2025 Review Date: 5/12/2025 Observer:Robert Sirrine Reviewer:Robert Sirrine Emission Limits Emission Rates VOC NOX CO VOC NOX CO g/BHP-Hr 0.70 1.00 2.00 0.22 0.55 0.16 lbs./hr. 1.07 0.76 1.24 0.25 0.62 0.18 ppm 60.00 82.00 270.00 15 35 17 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.) 16.00 1.396 Contractor Information Contact: Fariba Mehdizadeh Contracting Company: Kinder Morgan Emissions Testing Group Address: 1001 Louisiana St Suite 1000 Houston TX 77002 Phone No.: 713-420-6182 Project No.: 8702 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round 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 Correct For O2 CO2 Interference w/CO Yes Yes Yes KMA Bluebell C-162 2025 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont Bluebell CS Engine C-162 Average Emission Dry VOC NOX CO g/BHP-Hr 0.2 0.5 0.2 Average % concentration lbs./hr.0.25 0.62 0.18 CO2 O2 ppm corrected for %O2 15 35 17 9.76 Run 1 Enter O2 or CO2 Dry VOC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)5.09E-02 1.27E-01 3.72E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.117E-06 7.772E-06 2.274E-06 lbs./hr.0.25 0.63 0.18 6.88 9.77 ppm corrected for %O2 14.46 34.48 16.58 9.65 Run 2 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)5.14E-02 1.27E-01 3.71E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.144E-06 7.801E-06 2.274E-06 lbs./hr.0.25 0.61 0.18 5.53 9.76 ppm corrected for %O2 14.58 34.60 16.57 9.65 Raw Value Run 3 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)5.17E-02 1.28E-01 3.71E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.167E-06 7.867E-06 2.271E-06 lbs./hr.0.24 0.61 0.18 6.81 9.75 ppm corrected for %O2 14.67 34.86 16.536 9.63 Raw Value Run 4 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU KMA Bluebell C-162 2025 rev Calibration Error Test Test Date March 12, 2025 O2 CS - Cal. Span 20.90 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 -0.03 0.03 0.14% Passed Cal. Mid-level 11.02 10.94 0.08 0.38% Passed Cal. High-level 20.90 20.87 0.03 0.14% 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 52.73% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date March 12, 2025 NOx CS - Cal. Span 200.00 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 -0.02 0.02 0.010% Passed Cal. Mid-level 94.20 93.66 0.54 0.270% Passed Cal. High-level 200.00 200.45 0.45 0.225% 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 47.10% 100% of Cal. Span High-level 100.00% Test Date March 12, 2025 CO 1.24 CS - Cal. Span 197.00 270 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 -0.02 0.02 0.010% Passed Cal. Mid-level 97.80 98.00 0.20 0.102% Passed Cal. High-level 197.00 196.52 0.48 0.244% 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 49.64% 100% of Cal. Span High-level 100.00% KMA Bluebell C-162 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-162 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % Unprotected CV - Cylinder Value: VOC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7%100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 94.20 97.80 11.02 Calibration Error Test Cs - Measured Concentration VOC NOX CO CO2 O2Low-Level -0.02 -0.02 -0.03 Mid-Level 93.66 98.00 10.94 High-Level 200.45 196.52 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 93.66 98.00 10.94 Low-Level 0.01% 0.01% 0.14% ppmdv Difference 0.02 0.02 0.03StatusPassed Cal. Passed Cal.Passed Cal. Mid-Level 0.27% 0.10% 0.38% ppmdv Difference 0.54 0.2 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.22% 0.24% 0.14% ppmdv Difference 0.45 0.48 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 2.19 1.76 0.03 System Bias. SBi - Zero Bias TRUE 1.11% 0.90% TRUE 0.29%± 5% of Span Difference TRUE 2.21 1.78 TRUE 0.06 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 94.96 99.50 10.87 SBi - Up-Scale Bias TRUE 0.65% 0.76% TRUE 0.33% Difference TRUE 1.30 1.50 TRUE 0.07 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX 27.28$ 66.50 32.99 9.65 CO 0.0% 33.3% 16.7% 0.0% 46.2% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 2.19 1.87 0.06 System Bias. SBi - Zero Bias TRUE 1.11% 0.96% TRUE 0.43%± 5% of Span Difference TRUE 2.2 1.9 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 95.64 99.06 10.89 SBi - Up-Scale Bias TRUE 0.99% 0.54% TRUE 0.24% Difference TRUE 2.0 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 0.00% 0.06% TRUE 0.14% Drift Difference TRUE 0.0 0.1 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.34% 0.22% TRUE 0.10% Difference TRUE 0.7 0.4 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-162 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.396 0.00 0.00 0.00 9.77 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws #NUM! 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 81,098.00 4.99422 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 7 8 910 11 1213 14 15 16 17 18 19 2021 22 23 24 NOTEThese cells scans for the appropriate Cdir gas after the Cmentered. If this scan is incorrect change the Cdir to the correct gas value. Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog KMA Bluebell C-162 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-162 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 94.20 97.80 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level -0.02 -0.02 -0.03 Mid-Level 93.66 98.00 10.94 High-Level 200.45 196.52 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 93.66 98.00 10.94 Low-Level 0.01% 0.01% 0.14% ppmdv Difference 0.02 0.02 0.03 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.27% 0.10% 0.38% ppmdv Difference 0.54 0.2 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.22% 0.24% 0.14% ppmdv Difference 0.45 0.48 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 2.19 1.87 0.06 System Bias. SBi - Zero Bias TRUE 1.11% 0.96% TRUE 0.43%± 5% of Span Difference TRUE 2.21 1.89 TRUE 0.09 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 95.64 99.06 10.89 SBi - Up-Scale Bias TRUE 0.99% 0.54% TRUE 0.24% Difference TRUE 1.98 1.06 TRUE 0.05 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX27.52 67.32 32.98 9.65 CO 0.0% 33.7% 16.7% 0.0% 46.2% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 2.35 1.86 0.06 System Bias. SBi - Zero Bias TRUE 1.19% 0.95% TRUE 0.43%± 5% of Span Difference TRUE 2.4 1.9 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 96.56 99.30 10.87 SBi - Up-Scale Bias TRUE 1.45% 0.66% TRUE 0.33% Difference TRUE 2.9 1.3 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.08% 0.01% TRUE 0.00% 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 0.46% 0.12% TRUE 0.10% Difference TRUE 0.9 0.2 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-162 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 24.48 0.00 24.48 9.76 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 78,667.00 4.8125022 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog KMA Bluebell C-162 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-162 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 94.20 97.80 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level -0.02 -0.02 -0.03 Mid-Level 93.66 98.00 10.94 High-Level 200.45 196.52 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 93.66 98.00 10.94 Low-Level 0.01% 0.01% 0.14% ppmv Difference 0.02 0.02 0.03 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.27% 0.10% 0.38% ppmv Difference 0.54 0.2 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.22% 0.24% 0.14% ppmv Difference 0.45 0.48 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 2.35 1.86 0.06 System Bias. SBi - Zero Bias TRUE 1.19% 0.95% TRUE 0.43%± 5% of Span Difference TRUE 2.37 1.88 TRUE 0.09 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 96.56 99.30 10.87 SBi - Up-Scale Bias TRUE 1.45% 0.66% TRUE 0.33% Difference TRUE 2.9 1.3 TRUE 0.07 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX27.72 67.44 33.01 9.63 CO 0.0% 33.7% 16.8% 0.0% 46.1% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 2.29 1.99 0.03 System Bias. SBi - Zero Bias TRUE 1.16% 1.02% TRUE 0.29%± 5% of Span Difference TRUE 2.3 2.0 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 94.36 99.19 10.87 SBi - Up-Scale Bias TRUE 0.35% 0.60% TRUE 0.33% Difference TRUE 0.7 1.2 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.03% 0.07% TRUE 0.14% Response Spec. Difference TRUE 0.1 0.1 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 1.10% 0.06% TRUE 0.00% Difference TRUE 2.2 0.1 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-162 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 24.44 0.00 24.44 9.75 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 77,254.00 4.730022 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog KMA Bluebell C-163 2025 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont Bluebell CS Company Contact:Fariba Mehdizadeh Contact Phone No.713-420-6182 Stack Designation:Engine C-163 Test & Review Dates Test Date:3/11/2025 Review Date: 5/12/2025 Observer:Robert Sirrine Reviewer:Robert Sirrine Emission Limits Emission Rates VOC NOX CO VOC NOX CO g/BHP-Hr 0.70 1.00 2.00 0.10 0.40 0.02 lbs./hr. 1.07 0.76 1.24 0.09 0.37 0.02 ppm 60.00 82.00 270.00 8 29 2 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.) 14.50 1.147 Contractor Information Contact: Fariba Mehdizadeh Contracting Company: Kinder Morgan Emissions Testing Group Address: 1001 Louisiana St Suite 1000 Houston TX 77002 Phone No.: 713-420-6182 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 Correct For O2 CO2 Interference w/CO Yes Yes Yes KMA Bluebell C-163 2025 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont Bluebell CS Engine C-163 Average Emission Dry VOC NOX CO g/BHP-Hr 0.1 0.4 0.0 Average % concentration lbs./hr.0.09 0.37 0.02 CO2 O2 ppm corrected for %O2 8 29 2 8.82 Run 1 Enter O2 or CO2 Dry VOC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)2.68E-02 1.08E-01 5.64E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.786E-06 7.166E-06 3.753E-07 lbs./hr.0.09 0.38 0.02 6.88 8.80 ppm corrected for %O2 7.62 29.25 2.52 8.55 Run 2 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)2.69E-02 1.06E-01 5.60E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.780E-06 7.010E-06 3.704E-07 lbs./hr.0.09 0.37 0.02 5.53 8.87 ppm corrected for %O2 7.64 28.78 2.50 8.51 Raw Value Run 3 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)2.62E-02 1.07E-01 5.46E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.741E-06 7.145E-06 3.634E-07 lbs./hr.0.09 0.36 0.02 6.81 8.80 ppm corrected for %O2 7.43 29.16 2.436 8.51 Raw Value Run 4 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU KMA Bluebell C-163 2025 rev Calibration Error Test Test Date March 11, 2025 O2 CS - Cal. Span 20.90 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 -0.04 0.04 0.19% Passed Cal. Mid-level 11.02 10.90 0.12 0.57% Passed Cal. High-level 20.90 20.87 0.03 0.14% 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 52.73% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date March 11, 2025 NOx CS - Cal. Span 463.00 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 0.22 0.22 0.048% Passed Cal. Mid-level 200.00 198.71 1.29 0.279% Passed Cal. High-level 463.00 460.34 2.66 0.575% 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 43.20% 100% of Cal. Span High-level 100.00% Test Date March 11, 2025 CO 1.24 CS - Cal. Span 454.00 270 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 0.02 0.02 0.004% Passed Cal. Mid-level 197.00 197.00 0.00 0.000% Passed Cal. High-level 454.00 454.00 0.00 0.000% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 43.39% 100% of Cal. Span High-level 100.00% KMA Bluebell C-163 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-163 CS Calibration Span 463.00 454.00 20.90 Units ppm ppm ppm % % Unprotected CV - Cylinder Value: VOC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 11.02High-Level 463.00 454.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 52.7%100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 200.00 197.00 11.02 Calibration Error Test Cs - Measured Concentration VOC NOX CO CO2 O2Low-Level 0.22 0.02 -0.04 Mid-Level 198.71 197.00 10.90 High-Level 460.34 454.00 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 198.71 197.00 10.90 Low-Level 0.05% 0.00% 0.19% ppmdv Difference 0.22 0.02 0.04StatusPassed Cal. Passed Cal.Passed Cal. Mid-Level 0.28% 0.00% 0.57% ppmdv Difference 1.29 0 0.12 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.57% 0.00% 0.14% ppmdv Difference 2.66 0 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level -0.70 0.19 -0.09 System Bias. SBi - Zero Bias TRUE 0.20% 0.04% TRUE 0.24%± 5% of Span Difference TRUE 0.92 0.17 TRUE 0.05 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 189.69 194.18 10.79 SBi - Up-Scale Bias TRUE 1.95% 0.62% TRUE 0.53% Difference TRUE 9.02 2.82 TRUE 0.11 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX 15.63$ 57.82 5.48 8.55 CO 0.0% 12.5% 1.2% 0.0% 40.9% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 3.09 0.54 -0.09 System Bias. SBi - Zero Bias TRUE 0.62% 0.11% TRUE 0.24%± 5% of Span Difference TRUE 2.9 0.5 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 190.23 197.00 10.65 SBi - Up-Scale Bias TRUE 1.83% 0.00% TRUE 1.20% Difference TRUE 8.5 0.0 TRUE 0.3 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.42% 0.08% TRUE 0.00% Drift Difference TRUE 3.8 0.4 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.12% 0.62% TRUE 0.67% Difference TRUE 0.5 2.8 TRUE 0.1Pass or Re-Calibrate Pass Pass Pass Engine C-163 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.147 0.00 0.00 0.00 8.80 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws #NUM! 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 53,192.00 3.536725806 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 7 8 910 11 1213 14 15 16 17 18 19 2021 22 23 24 NOTEThese cells scans for the appropriate Cdir gas after the Cmentered. If this scan is incorrect change the Cdir to the correct gas value. Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog KMA Bluebell C-163 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-163 CS Calibration Span 463.00 454.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 11.02High-Level 463.00 454.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 200.00 197.00 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.22 0.02 -0.04 Mid-Level 198.71 197.00 10.90 High-Level 460.34 454.00 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 198.71 197.00 10.90 Low-Level 0.05% 0.00% 0.19% ppmdv Difference 0.22 0.02 0.04 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.28% 0.00% 0.57% ppmdv Difference 1.29 0 0.12 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.57% 0.00% 0.14% ppmdv Difference 2.66 0 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 3.09 0.54 -0.09 System Bias. SBi - Zero Bias TRUE 0.62% 0.11% TRUE 0.24%± 5% of Span Difference TRUE 2.87 0.52 TRUE 0.05 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 190.23 197.00 10.65 SBi - Up-Scale Bias TRUE 1.83% 0.00% TRUE 1.20% Difference TRUE 8.48 0 TRUE 0.25 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX15.58 57.82 5.72 8.51 CO 0.0% 12.5% 1.3% 0.0% 40.7% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 2.53 0.81 -0.09 System Bias. SBi - Zero Bias TRUE 0.50% 0.17% TRUE 0.24%± 5% of Span Difference TRUE 2.3 0.8 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 190.33 194.55 10.52 SBi - Up-Scale Bias TRUE 1.81% 0.54% TRUE 1.82% Difference TRUE 8.4 2.4 TRUE 0.4 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.12% 0.06% TRUE 0.00% Response Spec. Difference TRUE 0.6 0.3 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.02% 0.54% TRUE 0.62% Difference TRUE 0.1 2.4 TRUE 0.1Pass or Re-Calibrate Pass Pass Pass Engine C-163 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.15 24.48 0.00 24.48 8.87 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 52,472.00 3.467614806 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog KMA Bluebell C-163 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-163 CS Calibration Span 463.00 454.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 11.02High-Level 463.00 454.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 200.00 197.00 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.22 0.02 -0.04 Mid-Level 198.71 197.00 10.90 High-Level 460.34 454.00 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 198.71 197.00 10.90 Low-Level 0.05% 0.00% 0.19% ppmv Difference 0.22 0.02 0.04 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.28% 0.00% 0.57% ppmv Difference 1.29 0 0.12 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.57% 0.00% 0.14% ppmv Difference 2.66 0 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 2.53 0.81 -0.09 System Bias. SBi - Zero Bias TRUE 0.50% 0.17% TRUE 0.24%± 5% of Span Difference TRUE 2.31 0.79 TRUE 0.05 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 190.33 194.55 10.52 SBi - Up-Scale Bias TRUE 1.81% 0.54% TRUE 1.82% Difference TRUE 8.38 2.45 TRUE 0.38 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX15.24 57.37 5.61 8.51 CO 0.0% 12.4% 1.2% 0.0% 40.7% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level -1.46 0.61 -0.09 System Bias. SBi - Zero Bias TRUE 0.36% 0.13% TRUE 0.24%± 5% of Span Difference TRUE 1.7 0.6 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 190.79 193.12 10.83 SBi - Up-Scale Bias TRUE 1.71% 0.85% TRUE 0.33% Difference TRUE 7.9 3.9 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.14% 0.04% TRUE 0.00% Response Spec. Difference TRUE 4.0 0.2 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.10% 0.31% TRUE 1.48% Difference TRUE 0.5 1.4 TRUE 0.3Pass or Re-Calibrate Pass Pass Pass Engine C-163 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.15 24.44 0.00 24.44 8.80 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 50,904.00 3.862534806 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog KMA Bluebell C-252 2025 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont Bluebell CS Company Contact:Fariba Mehdizadeh Contact Phone No.713-420-6182 Stack Designation:Engine C-252 Test & Review Dates Test Date:3/12/2025 Review Date: 5/13/2025 Observer:Robert Sirrine Reviewer:Robert Sirrine Emission Limits Emission Rates VOC NOX CO VOC NOX CO g/BHP-Hr 0.70 1.00 2.00 0.11 0.50 0.01 lbs./hr. 2.13 2.13 2.44 0.35 1.55 0.03 ppm 60.00 82.00 270.00 9 38 1 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.) 16.00 1.396 Contractor Information Contact: Fariba Mehdizadeh Contracting Company: Kinder Morgan Emissions Testing Group Address: 1001 Louisiana St Suite 1000 Houston TX 77002 Phone No.: 713-420-6182 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 Correct For O2 CO2 Interference w/CO Yes Yes Yes KMA Bluebell C-252 2025 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont Bluebell CS Engine C-252 Average Emission Dry VOC NOX CO g/BHP-Hr 0.1 0.5 0.0 Average % concentration lbs./hr.0.35 1.55 0.03 CO2 O2 ppm corrected for %O2 9 38 1 9.62 Run 1 Enter O2 or CO2 Dry VOC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)3.19E-02 1.40E-01 3.03E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.985E-06 8.745E-06 1.888E-07 lbs./hr.0.35 1.55 0.03 6.88 9.58 ppm corrected for %O2 9.05 38.14 1.35 9.37 Run 2 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)3.17E-02 1.43E-01 3.04E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.957E-06 8.842E-06 1.878E-07 lbs./hr.0.35 1.58 0.03 5.53 9.66 ppm corrected for %O2 8.99 38.87 1.36 9.41 Raw Value Run 3 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)3.08E-02 1.39E-01 3.28E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.912E-06 8.645E-06 2.033E-07 lbs./hr.0.34 1.54 0.04 6.81 9.61 ppm corrected for %O2 8.75 37.83 1.461 9.44 Raw Value Run 4 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU KMA Bluebell C-252 2025 rev Calibration Error Test Test Date March 12, 2025 O2 CS - Cal. Span 20.90 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 0.01 0.01 0.05% Passed Cal. Mid-level 11.02 10.94 0.08 0.38% Passed Cal. High-level 20.90 20.80 0.10 0.48% 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 52.73% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date March 12, 2025 NOx CS - Cal. Span 200.00 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 0.02 0.02 0.010% Passed Cal. Mid-level 94.20 94.45 0.25 0.125% Passed Cal. High-level 200.00 200.25 0.25 0.125% 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 47.10% 100% of Cal. Span High-level 100.00% Test Date March 12, 2025 CO 2.44 CS - Cal. Span 197.00 270 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 0.09 0.09 0.046% Passed Cal. Mid-level 97.80 97.55 0.25 0.127% Passed Cal. High-level 197.00 196.08 0.92 0.467% 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 49.64% 100% of Cal. Span High-level 100.00% KMA Bluebell C-252 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-252 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % Unprotected CV - Cylinder Value: VOC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7%100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 94.20 97.80 11.02 Calibration Error Test Cs - Measured Concentration VOC NOX CO CO2 O2Low-Level 0.02 0.09 0.01 Mid-Level 94.45 97.55 10.94 High-Level 200.25 196.08 20.80 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 94.45 97.55 10.94 Low-Level 0.01% 0.05% 0.05% ppmdv Difference 0.02 0.09 0.01StatusPassed Cal. Passed Cal.Passed Cal. Mid-Level 0.13% 0.13% 0.38% ppmdv Difference 0.25 0.25 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.13% 0.47% 0.48% ppmdv Difference 0.25 0.92 0.1 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 0.16 0.97 0.02 System Bias. SBi - Zero Bias TRUE 0.07% 0.45% TRUE 0.05%± 5% of Span Difference TRUE 0.14 0.88 TRUE 0.01 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 94.24 97.58 10.90 SBi - Up-Scale Bias TRUE 0.11% 0.02% TRUE 0.19% Difference TRUE 0.21 0.03 TRUE 0.04 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX 17.37$ 72.45 3.81 9.37 CO 0.0% 36.2% 1.9% 0.0% 44.8% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 1.24 1.51 0.05 System Bias. SBi - Zero Bias TRUE 0.61% 0.72% TRUE 0.19%± 5% of Span Difference TRUE 1.2 1.4 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 91.81 98.47 10.66 SBi - Up-Scale Bias TRUE 1.32% 0.47% TRUE 1.34% Difference TRUE 2.6 0.9 TRUE 0.3 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.54% 0.27% TRUE 0.14% Drift Difference TRUE 1.1 0.5 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 1.22% 0.45% TRUE 1.15% Difference TRUE 2.4 0.9 TRUE 0.2Pass or Re-Calibrate Pass Pass Pass Engine C-252 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.396 0.00 0.00 0.00 9.58 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws #NUM! 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 176,792.00 11.0033022 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 7 8 910 11 1213 14 15 16 17 18 19 2021 22 23 24 NOTEThese cells scans for the appropriate Cdir gas after the Cmentered. If this scan is incorrect change the Cdir to the correct gas value. Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog KMA Bluebell C-252 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-252 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 94.20 97.80 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.02 0.09 0.01 Mid-Level 94.45 97.55 10.94 High-Level 200.25 196.08 20.80 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 94.45 97.55 10.94 Low-Level 0.01% 0.05% 0.05% ppmdv Difference 0.02 0.09 0.01 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.13% 0.13% 0.38% ppmdv Difference 0.25 0.25 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.13% 0.47% 0.48% ppmdv Difference 0.25 0.92 0.1 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.24 1.51 0.05 System Bias. SBi - Zero Bias TRUE 0.61% 0.72% TRUE 0.19%± 5% of Span Difference TRUE 1.22 1.42 TRUE 0.04 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 91.81 98.47 10.66 SBi - Up-Scale Bias TRUE 1.32% 0.47% TRUE 1.34% Difference TRUE 2.64 0.92 TRUE 0.28 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX17.13 72.23 4.26 9.41 CO 0.0% 36.1% 2.2% 0.0% 45.0% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 2.21 1.93 0.06 System Bias. SBi - Zero Bias TRUE 1.10% 0.93% TRUE 0.24%± 5% of Span Difference TRUE 2.2 1.8 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 91.08 97.33 10.79 SBi - Up-Scale Bias TRUE 1.69% 0.11% TRUE 0.72% Difference TRUE 3.4 0.2 TRUE 0.2 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.49% 0.21% TRUE 0.05% Response Spec. Difference TRUE 1.0 0.4 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.37% 0.36% TRUE 0.62% Difference TRUE 0.7 1.1 TRUE 0.1Pass or Re-Calibrate Pass Pass Pass Engine C-252 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 0.00 0.00 9.66 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 178,660.00 11.033022 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog KMA Bluebell C-252 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-252 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 94.20 97.80 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.02 0.09 0.01 Mid-Level 94.45 97.55 10.94 High-Level 200.25 196.08 20.80 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 94.45 97.55 10.94 Low-Level 0.01% 0.05% 0.05% ppmv Difference 0.02 0.09 0.01 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.13% 0.13% 0.38% ppmv Difference 0.25 0.25 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.13% 0.47% 0.48% ppmv Difference 0.25 0.92 0.1 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 2.21 1.93 0.06 System Bias. SBi - Zero Bias TRUE 1.10% 0.93% TRUE 0.24%± 5% of Span Difference TRUE 2.19 1.84 TRUE 0.05 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 91.08 97.33 10.79 SBi - Up-Scale Bias TRUE 1.69% 0.11% TRUE 0.72% Difference TRUE 3.37 0.22 TRUE 0.15 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX16.73 70.53 4.61 9.44 CO 0.0% 35.3% 2.3% 0.0% 45.2% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 0.77 1.80 0.06 System Bias. SBi - Zero Bias TRUE 0.38% 0.87% TRUE 0.24%± 5% of Span Difference TRUE 0.8 1.7 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 91.63 98.44 10.84 SBi - Up-Scale Bias TRUE 1.41% 0.45% TRUE 0.48% Difference TRUE 2.8 0.9 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.72% 0.07% TRUE 0.00% Response Spec. Difference TRUE 1.4 0.1 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.27% 0.34% TRUE 0.24% Difference TRUE 0.5 1.1 TRUE 0.1Pass or Re-Calibrate Pass Pass Pass Engine C-252 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 0.00 0.00 9.61 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 177,665.00 11.0208978 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog KMA Bluebell C-253 2025 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont Bluebell CS Company Contact:Fariba Mehdizadeh Contact Phone No.713-420-6182 Stack Designation:Engine C-253 Test & Review Dates Test Date:3/12/2025 Review Date: 5/14/2025 Observer:Robert Sirrine Reviewer:Robert Sirrine Emission Limits Emission Rates VOC NOX CO VOC NOX CO g/BHP-Hr 0.70 1.00 2.00 0.22 0.47 0.07 lbs./hr. 2.13 2.13 2.44 0.70 1.46 0.23 ppm 60.00 82.00 270.00 16 33 8 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.) 16.00 1.396 Contractor Information Contact: Fariba Mehdizadeh Contracting Company: Kinder Morgan Emissions Testing Group Address: 1001 Louisiana St Suite 1000 Houston TX 77002 Phone No.: 713-420-6182 Project No.: 8702 Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round 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 Correct For O2 CO2 Interference w/CO Yes Yes Yes KMA Bluebell C-253 2025 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont Bluebell CS Engine C-253 Average Emission Dry VOC NOX CO g/BHP-Hr 0.2 0.5 0.1 Average % concentration lbs./hr.0.70 1.46 0.23 CO2 O2 ppm corrected for %O2 16 33 8 9.76 Run 1 Enter O2 or CO2 Dry VOC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)5.78E-02 1.18E-01 1.93E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.568E-06 7.262E-06 1.189E-06 lbs./hr.0.70 1.43 0.23 6.88 9.67 ppm corrected for %O2 16.41 31.94 8.59 9.57 Run 2 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)5.80E-02 1.19E-01 1.85E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.526E-06 7.261E-06 1.126E-06 lbs./hr.0.71 1.46 0.23 5.53 9.84 ppm corrected for %O2 16.47 32.44 8.27 9.62 Raw Value Run 3 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)5.69E-02 1.22E-01 1.84E-02 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 3.486E-06 7.485E-06 1.124E-06 lbs./hr.0.70 1.50 0.22 6.81 9.76 ppm corrected for %O2 16.16 33.20 8.190 9.65 Raw Value Run 4 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU KMA Bluebell C-253 2025 rev Calibration Error Test Test Date March 12, 2025 O2 CS - Cal. Span 20.90 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 -0.03 0.03 0.14% Passed Cal. Mid-level 11.02 10.94 0.08 0.38% Passed Cal. High-level 20.90 20.87 0.03 0.14% 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 52.73% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date March 12, 2025 NOx CS - Cal. Span 200.00 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 -0.02 0.02 0.010% Passed Cal. Mid-level 94.20 93.66 0.54 0.270% Passed Cal. High-level 200.00 200.45 0.45 0.225% 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 47.10% 100% of Cal. Span High-level 100.00% Test Date March 12, 2025 CO 2.44 CS - Cal. Span 197.00 270 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 -0.02 0.02 0.010% Passed Cal. Mid-level 97.80 98.00 0.20 0.102% Passed Cal. High-level 197.00 196.52 0.48 0.244% 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 49.64% 100% of Cal. Span High-level 100.00% KMA Bluebell C-253 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-253 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % Unprotected CV - Cylinder Value: VOC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7%100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 94.20 97.80 11.02 Calibration Error Test Cs - Measured Concentration VOC NOX CO CO2 O2Low-Level -0.02 -0.02 -0.03 Mid-Level 93.66 98.00 10.94 High-Level 200.45 196.52 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 93.66 98.00 10.94 Low-Level 0.01% 0.01% 0.14% ppmdv Difference 0.02 0.02 0.03StatusPassed Cal. Passed Cal.Passed Cal. Mid-Level 0.27% 0.10% 0.38% ppmdv Difference 0.54 0.2 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.22% 0.24% 0.14% ppmdv Difference 0.45 0.48 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 0.33 0.63 0.03 System Bias. SBi - Zero Bias TRUE 0.18% 0.33% TRUE 0.29%± 5% of Span Difference TRUE 0.35 0.65 TRUE 0.06 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 92.02 95.13 11.17 SBi - Up-Scale Bias TRUE 0.82% 1.46% TRUE 1.10% Difference TRUE 1.64 2.87 TRUE 0.23 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX 31.23$ 60.60 17.19 9.57 CO 0.0% 30.3% 8.7% 0.0% 45.8% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 1.95 1.57 0.01 System Bias. SBi - Zero Bias TRUE 0.99% 0.81% TRUE 0.19%± 5% of Span Difference TRUE 2.0 1.6 TRUE 0.0 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 94.53 99.46 10.63 SBi - Up-Scale Bias TRUE 0.44% 0.74% TRUE 1.48% Difference TRUE 0.9 1.5 TRUE 0.3 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.81% 0.48% TRUE 0.10% Drift Difference TRUE 1.6 0.9 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.38% 0.72% TRUE 0.38% Difference TRUE 2.5 4.3 TRUE 0.5Pass or Re-Calibrate Pass Pass Pass Engine C-253 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.396 0.00 0.00 0.00 9.67 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws #NUM! 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 197,372.00 12.177 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 7 8 910 11 1213 14 15 16 17 18 19 2021 22 23 24 NOTEThese cells scans for the appropriate Cdir gas after the Cmentered. If this scan is incorrect change the Cdir to the correct gas value. Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog KMA Bluebell C-253 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-253 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 94.20 97.80 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level -0.02 -0.02 -0.03 Mid-Level 93.66 98.00 10.94 High-Level 200.45 196.52 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 93.66 98.00 10.94 Low-Level 0.01% 0.01% 0.14% ppmdv Difference 0.02 0.02 0.03 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.27% 0.10% 0.38% ppmdv Difference 0.54 0.2 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.22% 0.24% 0.14% ppmdv Difference 0.45 0.48 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.95 1.57 0.01 System Bias. SBi - Zero Bias TRUE 0.99% 0.81% TRUE 0.19%± 5% of Span Difference TRUE 1.97 1.59 TRUE 0.04 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 94.53 99.46 10.63 SBi - Up-Scale Bias TRUE 0.44% 0.74% TRUE 1.48% Difference TRUE 0.87 1.46 TRUE 0.31 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX30.86 61.85 17.13 9.62 CO 0.0% 30.9% 8.7% 0.0% 46.0% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 1.16 1.69 0.02 System Bias. SBi - Zero Bias TRUE 0.59% 0.87% TRUE 0.24%± 5% of Span Difference TRUE 1.2 1.7 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 95.45 99.50 10.90 SBi - Up-Scale Bias TRUE 0.90% 0.76% TRUE 0.19% Difference TRUE 1.8 1.5 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 0.40% 0.06% TRUE 0.05% Response Spec. Difference TRUE 0.8 0.1 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.46% 0.02% TRUE 1.29% Difference TRUE 0.9 0.0 TRUE 0.3Pass or Re-Calibrate Pass Pass Pass Engine C-253 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 24.48 0.00 24.48 9.84 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 201,041.00 12.212178 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog KMA Bluebell C-253 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-253 CS Calibration Span 200.00 197.00 20.90 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 94.20 97.80 11.02High-Level 200.00 197.00 20.90 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 47.1% 49.6% 52.7% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 94.20 97.80 11.02 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level -0.02 -0.02 -0.03 Mid-Level 93.66 98.00 10.94 High-Level 200.45 196.52 20.87 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 93.66 98.00 10.94 Low-Level 0.01% 0.01% 0.14% ppmv Difference 0.02 0.02 0.03 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.27% 0.10% 0.38% ppmv Difference 0.54 0.2 0.08 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.22% 0.24% 0.14% ppmv Difference 0.45 0.48 0.03 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.16 1.69 0.02 System Bias. SBi - Zero Bias TRUE 0.59% 0.87% TRUE 0.24%± 5% of Span Difference TRUE 1.18 1.71 TRUE 0.05 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 95.45 99.50 10.90 SBi - Up-Scale Bias TRUE 0.90% 0.76% TRUE 0.19% Difference TRUE 1.79 1.5 TRUE 0.04 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/12/2025 SO2 VOC NOX CO CO2 O2 NOX30.51 63.89 17.18 9.65 CO 0.0% 31.9% 8.7% 0.0% 46.2% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 2.19 1.76 0.03 System Bias. SBi - Zero Bias TRUE 1.11% 0.90% TRUE 0.29%± 5% of Span Difference TRUE 2.2 1.8 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 94.96 99.50 10.87 SBi - Up-Scale Bias TRUE 0.65% 0.76% TRUE 0.33% Difference TRUE 1.3 1.5 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.52% 0.04% TRUE 0.05% Response Spec. Difference TRUE 1.0 0.1 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.25% 0.00% TRUE 0.14% Difference TRUE 0.5 0.0 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-253 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.40 24.44 0.00 24.44 9.76 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 199,923.00 12.2309022 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog KMA Bluebell C-258 2025 rev Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Kinder Morgan Altamont Bluebell CS Company Contact:Fariba Mehdizadeh Contact Phone No.713-420-6182 Stack Designation:Engine C-258 Test & Review Dates Test Date:3/11/2025 Review Date: 5/14/2025 Observer:Robert Sirrine Reviewer:Robert Sirrine Emission Limits Emission Rates VOC NOX CO VOC NOX CO g/BHP-Hr 0.70 1.00 2.00 0.04 0.02 0.02 lbs./hr. 2.09 2.09 3.35 0.13 0.08 0.08 ppm 60.00 82.00 270.00 3 2 2 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.) 14.00 1.069 Contractor Information Contact: Fariba Mehdizadeh Contracting Company: Kinder Morgan Emissions Testing Group Address: 1001 Louisiana St Suite 1000 Houston TX 77002 Phone No.: 713-420-6182 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 Correct For O2 CO2 Interference w/CO Yes Yes Yes KMA Bluebell C-258 2025 rev Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Kinder Morgan Altamont Bluebell CS Engine C-258 Average Emission Dry VOC NOX CO g/BHP-Hr 0.0 0.0 0.0 Average % concentration lbs./hr.0.13 0.08 0.08 CO2 O2 ppm corrected for %O2 3 2 2 -0.06 Run 1 Enter O2 or CO2 Dry VOC NOX CO CO2 O2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)1.04E-02 5.98E-03 5.32E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.200E-06 6.889E-07 6.130E-07 lbs./hr.0.14 0.08 0.07 6.88 -0.06 ppm corrected for %O2 2.83 1.62 2.37 0.00 Run 2 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)9.63E-03 5.83E-03 5.49E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.109E-06 6.715E-07 6.329E-07 lbs./hr.0.13 0.08 0.07 5.53 -0.06 ppm corrected for %O2 2.73 1.58 2.45 0.01 Raw Value Run 3 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)9.28E-03 5.42E-03 5.68E-03 E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 1.069E-06 6.244E-07 6.548E-07 lbs./hr.0.13 0.07 0.08 6.81 -0.05 ppm corrected for %O2 2.64 1.47 2.536 0.02 Raw Value Run 4 Dry VOC NOX CO CO2 O2 Atomic Weight 44 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm corrected for %O2 Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU KMA Bluebell C-258 2025 rev Calibration Error Test Test Date March 11, 2025 O2 CS - Cal. Span 11.02 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 -0.01 0.01 0.09% Passed Cal. Mid-level 5.19 5.17 0.02 0.15% Passed Cal. High-level 11.02 10.96 0.06 0.54% 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 47.06% 100% of Cal. Span High-level 100.00% Test Date CO2 CS - Cal. Span Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date March 11, 2025 NOx CS - Cal. Span 463.00 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 0.01 0.01 0.002% Passed Cal. Mid-level 200.00 195.84 4.16 0.898% Passed Cal. High-level 463.00 460.97 2.03 0.438% 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 43.20% 100% of Cal. Span High-level 100.00% Test Date March 11, 2025 CO 3.35 CS - Cal. Span 454.00 270 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 0.15 0.15 0.033% Passed Cal. Mid-level 197.00 196.00 1.00 0.220% Passed Cal. High-level 454.00 452.23 1.77 0.390% Passed Cal. % of Span 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 43.39% 100% of Cal. Span High-level 100.00% KMA Bluebell C-258 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-258 CS Calibration Span 463.00 454.00 11.02 Units ppm ppm ppm % % Unprotected CV - Cylinder Value: VOC NOX CO CO2 O2 Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 5.19High-Level 463.00 454.00 11.02 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 47.1%100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 200.00 197.00 5.19 Calibration Error Test Cs - Measured Concentration VOC NOX CO CO2 O2Low-Level 0.01 0.15 -0.01 Mid-Level 195.84 196.00 5.17 High-Level 460.97 452.23 10.96 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 195.84 196.00 5.17 Low-Level 0.00% 0.03% 0.09% ppmdv Difference 0.01 0.15 0.01StatusPassed Cal. Passed Cal.Passed Cal. Mid-Level 0.90% 0.22% 0.15% ppmdv Difference 4.16 1 0.016 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.44% 0.39% 0.54% ppmdv Difference 2.03 1.77 0.06 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.35 0.52 0.05 System Bias. SBi - Zero Bias TRUE 0.29% 0.08% TRUE 0.54%± 5% of Span Difference TRUE 1.34 0.37 TRUE 0.06 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 193.14 195.85 5.18 SBi - Up-Scale Bias TRUE 0.58% 0.03% TRUE 0.09% Difference TRUE 2.70 0.15 TRUE 0.01 Pass or Failed Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX 10.05$ 6.61 9.18 0.00 CO 0.0% 1.4% 2.0% 0.0% 0.0% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 0.98 1.23 0.05 System Bias. SBi - Zero Bias TRUE 0.21% 0.24% TRUE 0.54%± 5% of Span Difference TRUE 1.0 1.1 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 186.85 194.00 5.14 SBi - Up-Scale Bias TRUE 1.94% 0.44% TRUE 0.27% Difference TRUE 9.0 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 0.08% 0.16% TRUE 0.00% Drift Difference TRUE 0.4 0.7 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 1.36% 0.41% TRUE 0.18% Difference TRUE 6.3 1.8 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-258 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.069 0.00 0.00 0.00 -0.06 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws #NUM! 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 119,021.00 13.67629681 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 7 8 910 11 1213 14 15 16 17 18 19 2021 22 23 24 NOTEThese cells scans for the appropriate Cdir gas after the Cmentered. If this scan is incorrect change the Cdir to the correct gas value. Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog KMA Bluebell C-258 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-258 CS Calibration Span 463.00 454.00 11.02 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 5.19High-Level 463.00 454.00 11.02 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 47.1% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 200.00 197.00 5.19 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.01 0.15 -0.01 Mid-Level 195.84 196.00 5.17 High-Level 460.97 452.23 10.96 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 195.84 196.00 5.17 Low-Level 0.00% 0.03% 0.09% ppmdv Difference 0.01 0.15 0.01 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.90% 0.22% 0.15% ppmdv Difference 4.16 1 0.016 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.44% 0.39% 0.54% ppmdv Difference 2.03 1.77 0.06 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 0.98 1.23 0.05 System Bias. SBi - Zero Bias TRUE 0.21% 0.24% TRUE 0.54%± 5% of Span Difference TRUE 0.97 1.08 TRUE 0.06 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 186.85 194.00 5.14 SBi - Up-Scale Bias TRUE 1.94% 0.44% TRUE 0.27% Difference TRUE 8.99 2 TRUE 0.03 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX9.71 6.38 9.76 0.01 CO 0.0% 1.4% 2.1% 0.0% 0.1% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 1.44 1.27 0.06 System Bias. SBi - Zero Bias TRUE 0.31% 0.25% TRUE 0.64%± 5% of Span Difference TRUE 1.4 1.1 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 183.44 193.70 5.13 SBi - Up-Scale Bias TRUE 2.68% 0.51% TRUE 0.36% Difference TRUE 12.4 2.3 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 0.10% 0.01% TRUE 0.09% Response Spec. Difference TRUE 0.5 0.0 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.74% 0.07% TRUE 0.09% Difference TRUE 3.4 0.3 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-258 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.07 24.48 0.00 24.48 -0.06 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 118,225.00 13.58414881 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog KMA Bluebell C-258 2025 rev Division of Air Quality Stack Test Review of Kinder Morgan Altamont Bluebell CS VOC NOX CO CO2 O2 Engine C-258 CS Calibration Span 463.00 454.00 11.02 Units ppm ppm ppm % % CV - Cylinder Value: VOC NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 200.00 197.00 5.19High-Level 463.00 454.00 11.02 0 to 20% of Cal. Span 0.00% 0.00% 0.00% 40 to 60% of Cal. Span 43.2% 43.4% 47.1% 100% of Cal. Span 100.0% 100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 200.00 197.00 5.19 Calibration Error Test Measured Concentration VOC NOX CO CO2 O2Low-Level 0.01 0.15 -0.01 Mid-Level 195.84 196.00 5.17 High-Level 460.97 452.23 10.96 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 195.84 196.00 5.17 Low-Level 0.00% 0.03% 0.09% ppmv Difference 0.01 0.15 0.01 Status Passed Cal. Passed Cal.Passed Cal. Mid-Level 0.90% 0.22% 0.15% ppmv Difference 4.16 1 0.016 Status Passed Cal. Passed Cal.Passed Cal. High-Level 0.44% 0.39% 0.54% ppmv Difference 2.03 1.77 0.06 Status Passed Cal. Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values VOC NOX CO CO2 O2 CO - Low-Level 1.44 1.27 0.06 System Bias. SBi - Zero Bias TRUE 0.31% 0.25% TRUE 0.64%± 5% of Span Difference TRUE 1.43 1.12 TRUE 0.07 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 183.44 193.70 5.13 SBi - Up-Scale Bias TRUE 2.68% 0.51% TRUE 0.36% Difference TRUE 12.4 2.3 TRUE 0.04 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:3/11/2025 SO2 VOC NOX CO CO2 O2 NOX9.36 6.02 9.98 0.02 CO 0.0% 1.3% 2.2% 0.0% 0.2% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values VOC NOX CO CO2 O2 CO - Low-Level 1.03 1.17 0.06 System Bias. SBi - Zero Bias TRUE 0.22% 0.22% TRUE 0.64%± 5% of Span Difference TRUE 1.0 1.0 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. CM - Up-scale Gas 185.18 191.98 5.11 SBi - Up-Scale Bias TRUE 2.30% 0.89% TRUE 0.54% Difference TRUE 10.7 4.0 TRUE 0.1 Pass or Invalid Run Passed Cal. Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.09% 0.02% TRUE 0.00% Response Spec. Difference TRUE 0.4 0.1 TRUE 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.38% 0.38% TRUE 0.18% Difference TRUE 1.7 1.7 TRUE 0.0Pass or Re-Calibrate Pass Pass Pass Engine C-258 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 1.07 24.44 0.00 24.44 -0.05 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 0.0000 #DIV/0! 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High #VALUE! 119,041.00 13.67849322 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 1.00 1.000 2 1.00 1.000 3 4 5 6 78 9 1011 12 1314 15 16 17 18 19 20 2122 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog