Address: 6401 Holliday Hill Road, Building 5
City: Midland
State: TX
Postal Code:

CO2 equivalent emissions from facility subparts C-II, SS, and TT (metric tons):1,097,523.5
CO2 equivalent emissions from supplier subparts LL-QQ (metric tons):
Biogenic CO2 emissions from facility subparts C-II, SS, and TT (metric tons):0
Cogeneration Unit Emissions Indicator:N
GHG Report Start Date:2020-01-01
GHG Report End Date:2020-12-31
Description of Changes to Calculation Methodology:
Plant Code Indicator:N
Primary NAICS Code:211130
Second Primary NAICS Code:

Parent Company Details:

Subpart W: Petroleum and Natural Gas Systems

SubpartWSummaryDetails:

Industry Segment Number	9
Industry Segment Name	Onshore petroleum and natural gas gathering and boosting [98.230(a)(9)]
Total Reported CO2 Emissions (mt CO2)	882631.0
Total CO2e Emissions (mt CO2e)	1097523.5
Total Reported CH4 Emissions (mt CH4)	8576.71
Total Reported N2O Emissions (mt N2O)	1.593

SubpartWSourceReportingFormRowDetails:

Source Reporting Form	Onshore Production [98.236(aa)(1)]
Required for Selected Industry Segment	No
Source Reporting Form	Facility Overview [98.236(aa)(2-11)]
Required for Selected Industry Segment	Yes
Source Reporting Form	Natural Gas Pneumatic Devices [98.236(b)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	555.3
Total Reported CH4 Emissions (mt CH4)	4741.55
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Natural Gas Driven Pneumatic Pumps [98.236(c)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	19.7
Total Reported CH4 Emissions (mt CH4)	161.93
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Acid Gas Removal Units [98.236(d)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Dehydrators [98.236(e)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	133.5
Total Reported CH4 Emissions (mt CH4)	1165.24
Total Reported N2O Emissions (mt N2O)	0.000
Source Reporting Form	Well Venting for Liquids Unloading [98.236(f)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Completions and Workovers with Hydraulic Fracturing [98.236(g)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Completions and Workovers without Hydraulic Fracturing [98.236(h)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Blowdown Vent Stacks [98.236(i)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Source Reporting Form	Atmospheric Storage Tanks [98.236(j)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	46445.7
Total Reported CH4 Emissions (mt CH4)	77.34
Total Reported N2O Emissions (mt N2O)	0.073
Source Reporting Form	Transmission Storage Tanks [98.236(k)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Well Testing [98.236(l)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Associated Gas Venting and Flaring [98.236(m)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Flare Stacks [98.236(n)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	0.0
Total Reported CH4 Emissions (mt CH4)	0.00
Total Reported N2O Emissions (mt N2O)	0.000
Source Reporting Form	Centrifugal Compressors [98.236(o)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Reciprocating Compressors [98.236(p)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	14.1
Total Reported CH4 Emissions (mt CH4)	92.65
Source Reporting Form	Equipment Leaks Surveys and Population Counts [98.236(q,r)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	237.6
Total Reported CH4 Emissions (mt CH4)	1498.12
Total Reported N2O Emissions (mt N2O)	0.000
Source Reporting Form	Offshore Petroleum and Natural Gas Production [98.236(s)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Total Reported CH4 Emissions (mt CH4)	0
Total Reported N2O Emissions (mt N2O)	0
Source Reporting Form	Enhanced Oil Recovery Injection Pumps [98.236(w)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Source Reporting Form	Enhanced Oil Recovery Hydrocarbon Liquids [98.236(x)]
Required for Selected Industry Segment	No
Total Reported CO2 Emissions (mt CO2)	0
Source Reporting Form	Combustion Equipment at Onshore Petroleum and Natural Gas Production Facilities, Onshore Petroleum and Natural Gas Gathering and Boosting Facilities, and Natural gas Distribution Facilities [98.236(z)]
Required for Selected Industry Segment	Yes
Total Reported CO2 Emissions (mt CO2)	835225.1
Total Reported CH4 Emissions (mt CH4)	839.88
Total Reported N2O Emissions (mt N2O)	1.520

FacilityOverviewDetails:


FacilityOverviewOnshorePetroleumAndNaturalGasGatheringAndBoostingRowDetails:

Select the basin associated with this facility [98.236(a)(9)]	430 - Permian Basin
Quantity of gas received by the gathering and boosting facility in the calendar year (thousand standard cubic feet) [98.236(aa)(10)(i)]	365719706.221697
Quantity of gas transported to a natural gas processing facility, a natural gas transmission pipeline, a natural gas distribution pipeline, or another gathering and boosting facility in the calendar year (thousand standard cubic feet) [98.236(aa)(10)(ii)]	360753691.231697
Quantity of all hydrocarbon liquids received by the gathering and boosting facility in the calendar year (barrels) [98.236(aa)(10)(iii)]	94799585.9705994
Quantity of all hydrocarbon liquids transported to a natural gas processing facility, a natural gas transmission pipeline, a natural gas distribution pipeline, or another gathering and boosting facility in the calendar year (barrels) [98.236(aa)(10)(iv)]	94799585.9705994

PneumaticDeviceVentingDetails:

mt CO2	555.3
mt CH4	4741.55
Did the Facility have any continuous high-bleed pneumatic devices subject to reporting under 98.232 [98.236(b)]?	No
Did the Facility have any intermittent bleed pneumatic devices subject to reporting under 98.232 [98.236(b)]?	Yes
Did the Facility have any continuous low-bleed pneumatic devices subject to reporting under 98.232 [98.236(b)]?	Yes
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No

PneumaticDeviceTypesRowDetails:

Type of Pneumatic Device	Intermittent Bleed Pneumatic Devices
Total Number, Countt [98.236(b)(1)(i)]	2838
Is the Total Number estimated? (Yes / No) [98.236(b)(1)(ii)]	No
Total CO2 Emissions (mt CO2) [98.236(b)(3)]	555.1
Total CH4 Emissions (mt CH4) [98.236(b)(4)]	4734.05
Estimated average number of hours in the calendar year that the pneumatic devices were operating, Tt (hours) [98.236(b)(2)]	8784.000000
Type of Pneumatic Device	Low-Bleed Pneumatic Devices
Total Number, Countt [98.236(b)(1)(i)]	40
Is the Total Number estimated? (Yes / No) [98.236(b)(1)(ii)]	No
Total CO2 Emissions (mt CO2) [98.236(b)(3)]	0.2
Total CH4 Emissions (mt CH4) [98.236(b)(4)]	7.50
Estimated average number of hours in the calendar year that the pneumatic devices were operating, Tt (hours) [98.236(b)(2)]	8784.000000

NaturalGasDrivenPneumaticPumpsDetails:

mt CO2	19.7
mt CH4	161.93
Did the Facility have any natural gas driven pneumatic pumps subject to reporting under 98.232 [98.236(c)]?	Yes
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No

PneumaticPumpTypesRowDetails:

Type of Pneumatic Pump	Natural Gas Driven Pneumatic Pumps
Total count of natural gas driven pneumatic pumps, Count [98.236(c)(1)]	104
Average estimated number of hours in the calendar year that the natural gas driven pneumatic pumps were operated, T (hours) [98.236(c)(2)]	8784.000000
Total CO2 Emissions (mt CO2) [98.236(c)(3)]	19.7
Total CH4 Emissions (mt CH4) [98.236(c)(4)]	161.93

AcidGasRemovalUnitsDetails:

mt CO2	0
Did the Facility have any acid gas removal units that vent directly to the atmosphere, to a flare or engine, or to a sulfur recovery plant subject to reporting under 98.232 [98.236(d)]?	No

DehydratorsDetails:

mt CO2	133.5
mt CH4	1165.24
mt N2O	0.000
Did the facility have any glycol dehydrators with annual average daily natural gas throughputs greater than or equal to 0.4MMscfd subject to reporting under 98.232 [98.236(e)]?	Yes
Did the facility have any glycol dehydrators with annual average daily natural gas throughputs less than 0.4MMscfd subject to reporting under 98.232 [98.236(e)]?	Yes
Did the facility have any desiccant dehydrators subject to reporting under 98.232 [98.236(e)]?	No
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No

SmallGlycolDehydrators:

Total Number of Small Glycol Dehydrators [98.236(e)(2)(i)]	27
Vapor Recovery	No
Number of Small Glycol Dehydrators By Vent Control Type, Count [98.236(e)(2)(ii)] [98.236(e)(2)(iv)(A)]	0
Dehydrator vents to flares or regenerator firebox/fire tubes	No
Number of Small Glycol Dehydrators By Vent Control Type, Count [98.236(e)(2)(ii)] [98.236(e)(2)(iv)(A)]	0
Control devices other than vapor recovery, flare or regenerator firebox/fire tubes	No
Emissions vented to flare or regenerator firebox/fire tubes
Total N2O Emissions (mt N2O) [98.236(e)(2)(iv)(D)]	0.000
Emissions that were not vented to a flare or regenerator firebox/fire tubes
Total CO2 Emissions (mt CO2) [98.236(e)(2)(iv)(B)] [98.236(e)(2)(v)(A)]	4.6
Total CH4 Emissions (mt CH4) [98.236(e)(2)(iv)(C)] [98.236(e)(2)(v)(B)]	38.15

DessicantDehydrators:

Emissions vented to flare or regenerator firebox/fire tubes

Emissions that were not vented to a flare or regenerator firebox/fire tubes

GlycolDehydratorsMoreThanSpecifiedValueRowDetails:

Unit ID or Name [98.236(e)(1)(i)]	33187
County and State [98.236(e)(1)(xviii)]	EDDY, NM
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	0.9800000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	16.5300000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	2.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	52.8000000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	720.5500000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0070000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.8830000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	6.0
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	93.69
Unit ID or Name [98.236(e)(1)(i)]	33712
County and State [98.236(e)(1)(xviii)]	EDDY, NM
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	0.6400000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	20.3600000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	1.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	53.0200000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	578.1500000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.1630000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.6450000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	49.7
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	14.16
Unit ID or Name [98.236(e)(1)(i)]	36447
County and State [98.236(e)(1)(xviii)]	MARTIN, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	11.7500000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	17.7800000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	1.8500000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	60.0000000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	950.0000000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0030000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7380000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	3.1
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	111.78
Unit ID or Name [98.236(e)(1)(i)]	37257
County and State [98.236(e)(1)(xviii)]	MARTIN, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	1.1400000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	36.5300000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	2.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	87.7800000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	1221.8300000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0030000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7030000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	2.7
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	63.63
Unit ID or Name [98.236(e)(1)(i)]	33532
County and State [98.236(e)(1)(xviii)]	UPTON, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	3.8200000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	42.2200000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	1.7000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	91.1500000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	1133.1200000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0070000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7670000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	4.4
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	48.26
Unit ID or Name [98.236(e)(1)(i)]	33872
County and State [98.236(e)(1)(xviii)]	UPTON, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	4.8100000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	36.9400000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	2.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	87.0300000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	1159.6600000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0090000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7530000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	7.7
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	57.89
Unit ID or Name [98.236(e)(1)(i)]	33872
County and State [98.236(e)(1)(xviii)]	UPTON, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	4.8100000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	36.9400000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	5.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	87.0300000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	1159.6600000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0090000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7530000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	25.8
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	337.53
Unit ID or Name [98.236(e)(1)(i)]	33878
County and State [98.236(e)(1)(xviii)]	UPTON, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	3.2700000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	32.4100000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	5.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	83.5300000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	1210.2300000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0090000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7450000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	25.7
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	364.19
Unit ID or Name [98.236(e)(1)(i)]	33895
County and State [98.236(e)(1)(xviii)]	UPTON, TX
Glycol dehydrator feed natural gas flow rate determined by engineering estimate based on best available data (MMscfd) [98.236(e)(1)(ii)]	1.6000000
Dehydrator feed natural gas water content (pounds per MMscf) [98.236(e)(1)(iii)]	25.2900000
Dehydrator outlet natural gas water content (pounds per MMscf) [98.236(e)(1)(iv)]	7.0000000
Glycol dehydrator absorbent circulation pump type [98.236(e)(1)(v)]	Natural gas pneumatic
Dehydrator absorbent circulation rate (gallons per minute) [98.236(e)(1)(vi)]	1.0000000
Report type of absorbent used [98.236(e)(1)(vii)]	Triethylene glycol (TEG)
Report whether stripper gas is used in glycol dehydrator [98.236(e)(1)(viii)]	No
Report whether a flash tank separator is used in glycol dehydrator [98.236(e)(1)(ix)]	Yes
Total time the glycol dehydrator is operating (hours) [98.236(e)(1)(x)]	8760.00
Temperature of the wet natural gas (°F) [98.236(e)(1)(xi)]	75.2500000
Pressure of the wet natural gas (psig) [98.236(e)(1)(xii)]	1199.0300000
Concentration of CO2 in wet natural gas (mole fraction) [98.236(e)(1)(xiv)]	0.0080000
Concentration of CH4 in wet natural gas (mole fraction) [98.236(e)(1)(xiii)]	0.7670000
Were any dehydrator emissions vented to a vapor recovery device? [98.236(e)(1)(xv)]	No
Were any dehydrator emissions vented to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvi)]	No
Were any dehydrator emissions vented to the atmosphere without being routed to a flare or regenerator firebox/fire tubes? [98.236(e)(1)(xvii)]	Yes
CO2 Emissions from Venting (mt CO2) [98.236(e)(1)(xvii)(A)]	3.8
CH4 Emissions from Venting (mt CH4) [98.236(e)(1)(xvii)(B)]	35.96

BlowdownVentStacksDetails:

mt CO2	0
mt CH4	0
Did the facility have any blowdown vent stacks subject to reporting under 98.232 [98.236(i)]?	No
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No

AtmosphericTanksDetails:

mt CO2	46445.7
mt CH4	77.34
mt N2O	0.073
Did the facility send hydrocarbon liquids to atmospheric storage tanks that are subject to reporting under 98.232 [98.236(j)]?	Yes
Was Calculation Method 1 used to calculate emissions [(98.233(j)(1)]?	No
Was Calculation Method 2 used to calculate emissions [(98.233(j)(2)]?	Yes
Was Calculation Method 3 used to calculate emissions [(98.233(j)(3)]?	Yes
If Calculation Method 1 or 2 were used, were any atmospheric tanks observed to have malfunctioning dump valves during the calendar year?	No
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No

AtmosphericTanksCalculationMethodOneOrTwoSubBasinRowDetails:

County and State [98.236(j)(1)(i)]	EDDY, NM
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	84.5300000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	80.9800000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	41.8700000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	469
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	480
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	1
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3018000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3018000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0241000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0241000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.05
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	4958.8
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	4.94
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.008
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	11922083.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	653.3
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	2986.16
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	481
County and State [98.236(j)(1)(i)]	LEA, NM
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	86.3500000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	49.9400000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	36.7000000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	237
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	248
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	24
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3300000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3300000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0889000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0889000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	1.7
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	2.28
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	213.6
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.24
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	1514118.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	130.8
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	177.25
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	272
County and State [98.236(j)(1)(i)]	ANDREWS, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	84.2100000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	49.4600000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	39.1900000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	1337
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	1366
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	23
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2375000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2375000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0384000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0384000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	2.4
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	5.31
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	832.8
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.60
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.001
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	4014341.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	224.7
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	507.29
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	1389
County and State [98.236(j)(1)(i)]	CRANE, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	92.2700000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	61.0100000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	42.0700000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	82
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	86
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2322000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2322000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0869000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0869000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	49.8
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.04
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	213793.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	21.8
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	21.24
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	86
County and State [98.236(j)(1)(i)]	ECTOR, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	93.2000000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	52.1000000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	41.2500000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	442
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	448
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2999000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2999000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0419000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0419000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	135.0
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.13
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	782674.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	41.7
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	108.92
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	448
County and State [98.236(j)(1)(i)]	GAINES, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	84.3300000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	51.5800000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	39.1200000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	377
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	379
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	17
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2556000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2556000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0424000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0424000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	2.6
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	5.71
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	215.4
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.17
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	925570.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	54.6
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	120.06
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	396
County and State [98.236(j)(1)(i)]	GLASSCOCK, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	84.9200000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	57.3600000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	42.7500000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	193
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	221
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	1
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2858000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2858000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0834000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0834000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.2
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.30
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	1107.1
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	1.07
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.002
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	5323118.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	722.3
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	903.51
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	222
County and State [98.236(j)(1)(i)]	LOVING, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	103.9900000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	114.6800000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	45.7300000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	56
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	56
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3212000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3212000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0239000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0239000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	1686.4
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	1.75
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.003
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	4675569.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	339.7
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	1666.61
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	56
County and State [98.236(j)(1)(i)]	MARTIN, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	99.9800000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	53.3200000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	42.0400000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	246
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	322
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	13
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2152000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2152000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0238000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0238000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.7
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	2.47
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	6946.6
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	4.10
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.011
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	9560668.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	437.0
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	1442.40
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	335
County and State [98.236(j)(1)(i)]	MIDLAND, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	91.0300000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	70.0500000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	43.1600000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	948
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	1148
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	13
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2914000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2914000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0284000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0284000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	2.6
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	9.59
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	25835.7
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	23.88
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.042
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	17659545.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	757.8
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	2838.32
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	1161
County and State [98.236(j)(1)(i)]	PECOS, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	98.9400000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	97.8200000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	44.6200000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	100
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	100
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3376000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3376000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0295000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0295000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	1114.9
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	1.23
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.002
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	3971102.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	280.3
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	1170.85
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	100
County and State [98.236(j)(1)(i)]	REAGAN, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	101.3700000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	78.1400000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	44.3000000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	118
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	118
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	4
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2936000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2936000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0263000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0263000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.2
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.88
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	786.7
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.72
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.001
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	3100224.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	168.9
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	688.35
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	122
County and State [98.236(j)(1)(i)]	REEVES, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	85.8700000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	77.0200000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	44.9800000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	41
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	41
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3317000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.3317000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0463000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0463000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	208.0
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.23
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	879948.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	85.3
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	223.08
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	41
County and State [98.236(j)(1)(i)]	TERRY, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	82.4300000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	48.5100000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	35.5000000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	0
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	219
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2103000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2103000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.2738000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.2738000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	967.2
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.78
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.001
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	364725.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	0.0
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	0.00
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	No
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	219
County and State [98.236(j)(1)(i)]	UPTON, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	94.0700000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	61.9000000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	44.1100000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	145
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	238
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	6
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2986000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2986000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0333000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0333000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.6
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	2.04
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	607.0
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.58
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.001
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	1717416.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	86.7
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	283.92
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	Yes
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	244
County and State [98.236(j)(1)(i)]	WARD, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	91.4800000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	81.5100000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	46.1400000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	37
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	89
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.4431000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.4431000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0238000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0238000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	199.6
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.33
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	1337569.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	40.3
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	273.93
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	89
County and State [98.236(j)(1)(i)]	WINKLER, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	79.7700000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	54.0800000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	41.9700000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	0
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	33
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2970000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2970000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.0368000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.0368000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	119.9
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.11
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.000
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	35114.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	0.0
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	0.00
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	No
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	33
County and State [98.236(j)(1)(i)]	YOAKUM, TX
Select Calculation Method Used (Select from list) [98.236(j)(1)(ii)]	Calculation Methodology 2
Average gas-liquid separator or non-separator equipment temperature (°F) [98.236(j)(1)(iv)]	89.6100000
Average gas-liquid separator or non-separator equipment pressure (psig) [98.236(j)(1)(v)]	67.8500000
Average sales oil or stabilized oil API gravity (degrees) [98.236(j)(1)(vi)]	39.4300000
Count of tanks that control emissions with vapor recovery systems [98.236(j)(1)(xii)(A)]	185
Count of tanks with flaring emission control measures [98.236(j)(1)(xiv)(A)]	211
Count of tanks that vented directly to the atmosphere [98.236(j)(1)(xiii)(A)]	0
Minimum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2119000
Maximum concentration of CH4 in flash gas (mole fraction) [98.236(j)(1)(viii)]	0.2119000
Minimum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]]	0.2319000
Maximum concentration of CO2 in flash gas (mole fraction) [98.236(j)(1)(vii)]	0.2319000
Annual CO2 emissions from venting (mt CO2) [98.236(j)(1)(xiii)(B)]	0.0
Annual CH4 emissions from venting (mt CH4) [98.236(j)(1)(xiii)(C)]	0.00
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(1)(xiv)(B)]	428.7
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(1)(xiv)(C)]	0.32
Annual N2O emissions from flaring (mt N2O) [98.236(j)(1)(xiv)(D)]	0.001
Total volume of oil sent to tanks from all gas-liquid separators and direct from wells or non-separator equipment (bbl per yr) [98.236(j)(1)(iii)]	869315.00
Total CO2 mass that was recovered (mt CO2) [98.236(j)(1)(xii)(B)]	316.0
Total CH4 mass that was recovered (mt CH4) [98.236(j)(1)(xii)(C)]	105.41
Annual CO2 emissions from tanks with vapor recovery systems (mt CO2) [98.236(j)(1)(xii)(D)]	0.0
Annual CH4 emissions from tanks with vapor recovery systems (mt CH4) [98.236(j)(1)(xii)(E)]	0.00
Were any emissions from atmospheric tanks controlled with vapor recovery systems? [98.236(j)(1)(xii)]	Yes
Were any emissions from atmospheric tanks vented directly to the atmosphere? [98.236(j)(1)(xiii)(A)]	No
Were any emissions from atmospheric tanks vented to flare(s)? [98.236(j)(1)(xiv)]	Yes
Count of atmospheric tanks [98.236(j)(1)(x)]	211

AtmosphericTanksCalculationMethodThreeRowDetails:

Estimate of fraction of oil/condensate throughput sent to tanks in basin with flaring [98.236(j)(2)(i)(B)]	0.3606469
Estimate of fraction of oil/condensate throughput sent to tanks with vapor recovery system control measures [98.236(j)(2)(i)(C)]	0.1034742
Count of atmospheric tanks in basin [98.236(j)(2)(i)(D)]	408
Total annual oil/condensate throughput that is sent to all atmospheric tanks (barrels per year) [98.236(j)(2)(i)(A)]	78417

AtmosphericTanksCalcMethodThreeNoFlaringRowDetails:

County and State [98.236(j)(2)(ii)(A)]	ANDREWS, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	4
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.3
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.16
County and State [98.236(j)(2)(ii)(A)]	EDDY, NM
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	109
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.6
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.58
County and State [98.236(j)(2)(ii)(A)]	GLASSCOCK, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	26
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	1.3
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	1.76
County and State [98.236(j)(2)(ii)(A)]	LEA, NM
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	89
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	1.9
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	1.31
County and State [98.236(j)(2)(ii)(A)]	MARTIN, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	14
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.6
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.32
County and State [98.236(j)(2)(ii)(A)]	MIDLAND, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	15
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.9
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	1.52
County and State [98.236(j)(2)(ii)(A)]	PECOS, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	4
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.1
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.08
County and State [98.236(j)(2)(ii)(A)]	REEVES, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	19
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.4
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.50
County and State [98.236(j)(2)(ii)(A)]	UPTON, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	4
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.3
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.68
County and State [98.236(j)(2)(ii)(A)]	WARD, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	6
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.3
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.42
County and State [98.236(j)(2)(ii)(A)]	WINKLER, TX
Count of tanks that did not control emissions with flares [98.236(j)(2)(ii)(B)]	1
Annual CO2 emissions from tanks without flares (mt CO2) [98.236(j)(2)(ii)(C)]	0.1
Annual CH4 emissions from tanks without flares (mt CH4) [98.236(j)(2)(ii)(D)]	0.08

AtmosphericTanksCalcMethodThreeWithFlaringRowDetails:

County and State [98.236(j)(2)(iii)(A)]	ANDREWS, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	5
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	0.1
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.00
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	GAINES, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	3
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	0.4
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.00
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	GLASSCOCK, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	21
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	6.1
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.04
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	LEA, NM
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	12
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	0.7
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.00
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	MARTIN, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	19
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	2.5
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.02
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	MIDLAND, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	14
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	1.5
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.01
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	PECOS, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	8
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	0.0
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.00
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	UPTON, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	29
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	2.2
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.01
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	WINKLER, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	1
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	0.4
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.00
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000
County and State [98.236(j)(2)(iii)(A)]	YOAKUM, TX
Count of tanks with flaring emission control measures [98.236(j)(2)(iii)(B)]	5
Annual CO2 emissions from flaring (mt CO2) [98.236(j)(2)(iii)(C)]	0.8
Annual CH4 emissions from flaring (mt CH4) [98.236(j)(2)(iii)(D)]	0.00
Annual N2O emissions from flaring (mt N2O) [98.236(j)(2)(iii)(E)]	0.000

FlareStacksDetails:

mt CO2	0.0
mt CH4	0.00
mt N2O	0.000
Did the facility have flare stacks subject to reporting under 98.232 [98.236(n)]?	Yes
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No

UniqueFlareStacksRowDetails:

Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	28712
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29433
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	48796
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29437
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	107159
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29446
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	540498
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29447
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	823348
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29448
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	789123
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29449
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	423647
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29450
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	230298
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29495
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	136983
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29496
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	23581
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29497
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	623332
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29498
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	13912
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29500
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	59284
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29526
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1081258
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29530
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	519419
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29531
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	989005
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29572
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29573
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29574
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	16561
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29575
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29576
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	61815
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29578
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	13054
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29579
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	94203
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29586
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	8520
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29590
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	8880
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.238000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.039000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29638
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	149075
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.233000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.087000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29641
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	101571
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.233000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.087000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29645
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	150058
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.233000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.087000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29669
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	216626
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.300000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.042000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29670
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	30184
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.300000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.042000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29684
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	24209
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.300000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.042000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29689
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	87998
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.300000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.042000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29694
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	636098
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.300000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.042000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29711
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	117305
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.300000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.042000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29880
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	35000
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29882
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	78882
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29885
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29887
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	550
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29900
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	4212
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29902
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	777856
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29915
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	194101
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29919
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	196402
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29929
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	445292
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.256000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.043000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29953
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29956
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	6487065
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29957
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	106437
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29958
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29960
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	143205
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29961
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	253608
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29962
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	428173
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29963
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29964
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	131736
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29965
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29968
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29970
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29971
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	13561
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29973
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	10251
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29977
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29978
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29986
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	29987
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	6227
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30446
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	381729
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30447
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30448
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1319658
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30450
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	48097
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30451
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	479196
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30452
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	172636
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30456
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	413090
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30457
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	11168
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30458
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	181698
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30460
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	76338
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30461
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30462
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7979950
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30463
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2505925
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30466
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30467
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	86056
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30469
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	336294
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30471
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	163992
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30474
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	4274421
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30475
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30482
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	24531
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30485
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	21836
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30486
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3682
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.239543
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.760456
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30492
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	97537663
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30495
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30498
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2749277
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30504
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	30798
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30505
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	961418
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30514
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	33969
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30515
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	240633
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30519
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	76958
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30520
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	11650
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30522
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	424033
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30524
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	170063
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30525
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	644169
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30526
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30528
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	676406
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30530
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	162659
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30531
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	435037
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30533
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2150877
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.286000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.084000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	30726
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31236
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3562414
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.211000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.274000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31237
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2744846
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.211000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.274000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31238
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3361601
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.211000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.274000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31297
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31299
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	8382
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31300
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	120411
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31301
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31303
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	171403
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31307
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31308
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	346676
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31311
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	249778
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31319
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3682
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.239543
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.760456
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31320
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	13929
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31331
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	38705
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31332
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	335832
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31333
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	5034233
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31335
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	5805283
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31336
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	6056518
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31363
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	121307
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31365
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	38024
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31371
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	9619
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31374
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1102504
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31377
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20448
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.863067
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.136933
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31394
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	84837
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.444000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31397
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	263
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.444000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31425
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	927373
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.297000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.037000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31524
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31525
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	640662
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31526
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31530
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	366438
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31531
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	251687
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31532
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	299738
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31535
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1870083
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31538
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	424316
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31540
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31541
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	20802
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.212000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.232000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	31542
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3010
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.069767
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.930233
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32260
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	247036
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32277
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	364428
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32302
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	830119
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32303
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	88480
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32318
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	144257
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32328
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	122837
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32337
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	110012
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32346
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	44066
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32365
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	45126
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32367
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	10194
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32372
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	114531
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32374
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	49696
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32378
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	289710
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32380
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	141672
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32381
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	86064
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32392
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	207624
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32396
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	55248
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32403
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32406
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7287
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32407
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	60068
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32410
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	285648
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32430
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	207884
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	32524
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	66878
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33279
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	14216605
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.322000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33504
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	540528
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33537
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1063427
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.330000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.089000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33556
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7784057
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33559
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	6017800
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33562
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2396206
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33792
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2024565
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.338000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.030000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33806
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1696233
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33825
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	597928
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.444000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33837
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	170796
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.444000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33873
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1842652
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.332000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.047000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33919
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1777736
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.338000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.030000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	33923
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2263583
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.338000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.030000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34097
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	622760
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34120
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	6359624
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34195
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7011
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.600627
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.399372
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34226
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	56873
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.297000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.037000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34732
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	5881087
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34780
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	390191
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.338000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.030000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34809
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2303451
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34855
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	2229087
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.294000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.027000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34888
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	5107988
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34889
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	27671722
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	34944
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1095664
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.444000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	35100
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1639206
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.338000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.030000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	35172
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	4194655
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.294000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.027000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	36322
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	86453713
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.292000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.029000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	36334
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1882190
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.299000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.034000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	36449
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	7645763
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.302000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.025000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	36454
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	3458969
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.216000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.024000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000
Unique Name or ID Number for the Flare Stack [98.236(n)(1)]	37334
Does the flare stack have a continuous flow monitor on gas to the flare? [98.236(n)(2)]	No
Does the flare stack have a continuous gas analyzer on gas to the flare? [98.236(n)(3)]	No
Were CEMS used to measure CO2 emissions for the flare stack? [98.233(n)(8)] [98.236(n)(12)]	No
Volume of gas sent to flare, Vs (standard cubic feet) [98.236(n)(4)]	1407211
Flare combustion efficiency (decimal value) [98.236(n)(6)]	0.98
Mole fraction of CH4 in flare feed gas, XCH4 [98.236(n)(7)]	0.338000
Mole fraction of CO2 in flare feed gas, XCO2 [98.236(n)(8)]	0.030000
Fraction of feed gas sent to un-lit flare, Zu [98.236(n)(5)]	0.00000000
CO2 emissions (mt CO2) [98.236(n)(9)]	0.0
CH4 Emissions (mt CH4) (Eq. W-19) [98.236(n)(10)]	0.00
N2O Emissions (mt N2O) (Eq. W-40) [98.236(n)(11)]	0.000

CentrifugalCompressorsDetails:

mt CO2	0
mt CH4	0
Did the facility have any centrifugal compressors subject to reporting under 98.232 [98.236(o)]?	No

ReciprocatingCompressorsDetails:

mt CO2	14.1
mt CH4	92.65
Did the facility have any reciprocating compressors subject to reporting under 98.232 [98.236(p)]?	Yes
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No
Total annual Reciprocating Compressor emissions CO2 Emissions (mt CO2) [98.236(p)(5)(ii)]	14.1
Total annual Reciprocating Compressor emissions CH4 Emissions (mt CH4) [98.236(p)(5)(iii)]	92.65
Count of Reciprocating Compressors [98.236(p)(5)(i)]	509

OtherEmissionsFromEquipmentLeaksDetails:

mt CO2	237.6
mt CH4	1498.12
Did this facility use leak surveys to calculate emissions from equipment leaks in accordance with 98.232 [per 98.236(q)]?	Yes
Did this facility use population counts to calculate emissions from equipment leaks in accordance with 98.232 [per 98.236(r)]?	Yes
Did the facility elect to comply with 98.236(q) according to 98.233(q)(1)(iv) for any components at the facility [per 98.236(q)(1)(iv)]?	Yes
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No
Number of complete equipment leak surveys performed during the calendar year [98.236(q)(1)(i)]	2
Optical gas imaging instrument as specified in §60.18 [98.234(a)(1)]	No
Method 21 [98.234(a)(2)]	No
Infrared laser beam illuminated instrument [98.234(a)(3)]	No
Acoustic leak detection device [98.234(a)(5)]	No
Optical gas imaging instrument as specified in §60.5397a [98.234(a)(6)]	Yes
Method 21 as specified in §60.5397a [98.234(a)(7)]	No
Component count calculation method for all emission source types in Table R.1 other than gathering pipelines [98.236(r)(3)(i)]	Component Count Method 1

OnshorePetroleumAndNaturalGasProductionAndGatheringAndBoostingRowDetails:

Component Type [98.236(q)(2)(i)]	Onshore Production or GB Components, Gas Service - Connector (other)
Total number of surveyed component type identified as leaking, xp [98.236(q)(2)(ii)]	68
Average time the surveyed components are assumed to be leaking and operational, Tp,z (hours) [98.236(q)(2)(iii)]	1863.014705
CO2 Emissions (surveyed components identified as leaking only) (mt CO2) [98.236(q)(2)(iv)]	0.1
CH4 Emissions (surveyed components identified as leaking only) (mt CH4) [98.236(q)(2)(v)]	3.40
Component Type [98.236(q)(2)(i)]	Onshore Production or GB Components, Gas Service - Flange
Total number of surveyed component type identified as leaking, xp [98.236(q)(2)(ii)]	60
Average time the surveyed components are assumed to be leaking and operational, Tp,z (hours) [98.236(q)(2)(iii)]	1717.250000
CO2 Emissions (surveyed components identified as leaking only) (mt CO2) [98.236(q)(2)(iv)]	0.6
CH4 Emissions (surveyed components identified as leaking only) (mt CH4) [98.236(q)(2)(v)]	12.80
Component Type [98.236(q)(2)(i)]	Onshore Production or GB Components, Gas Service - Open-Ended Line
Total number of surveyed component type identified as leaking, xp [98.236(q)(2)(ii)]	29
Average time the surveyed components are assumed to be leaking and operational, Tp,z (hours) [98.236(q)(2)(iii)]	3077.793103
CO2 Emissions (surveyed components identified as leaking only) (mt CO2) [98.236(q)(2)(iv)]	1.1
CH4 Emissions (surveyed components identified as leaking only) (mt CH4) [98.236(q)(2)(v)]	3.51
Component Type [98.236(q)(2)(i)]	Onshore Production or GB Components, Gas Service - Other
Total number of surveyed component type identified as leaking, xp [98.236(q)(2)(ii)]	169
Average time the surveyed components are assumed to be leaking and operational, Tp,z (hours) [98.236(q)(2)(iii)]	1619.656804
CO2 Emissions (surveyed components identified as leaking only) (mt CO2) [98.236(q)(2)(iv)]	1.6
CH4 Emissions (surveyed components identified as leaking only) (mt CH4) [98.236(q)(2)(v)]	32.59
Component Type [98.236(q)(2)(i)]	Onshore Production or GB Components, Gas Service - Pressure Relief Valve
Total number of surveyed component type identified as leaking, xp [98.236(q)(2)(ii)]	79
Average time the surveyed components are assumed to be leaking and operational, Tp,z (hours) [98.236(q)(2)(iii)]	2376.139240
CO2 Emissions (surveyed components identified as leaking only) (mt CO2) [98.236(q)(2)(iv)]	0.9
CH4 Emissions (surveyed components identified as leaking only) (mt CH4) [98.236(q)(2)(v)]	16.40
Component Type [98.236(q)(2)(i)]	Onshore Production or GB Components, Gas Service - Valve
Total number of surveyed component type identified as leaking, xp [98.236(q)(2)(ii)]	97
Average time the surveyed components are assumed to be leaking and operational, Tp,z (hours) [98.236(q)(2)(iii)]	1763.907216
CO2 Emissions (surveyed components identified as leaking only) (mt CO2) [98.236(q)(2)(iv)]	1.0
CH4 Emissions (surveyed components identified as leaking only) (mt CH4) [98.236(q)(2)(v)]	22.56

LeaksCalculatedWithCountsFactorsRowDetails:

Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gas Service - Connectors
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	174582
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8784.000000
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	56.9
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	360.16
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gas Service - Open ended lines
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	5641
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8784.000000
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	2.6
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	21.39
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gas Service - Pressure relief valves
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	3458
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8784.000000
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	13.1
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	80.94
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gas Service - Valves
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	54548
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8784.000000
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	129.7
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	800.89
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gathering pipelines - Plastic/composite gathering pipeline
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	57.58
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8784.000000
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	12.7
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	13.36
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gathering pipelines - Protected steel gathering pipeline
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	906.42
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8784.000000
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	5.7
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	50.91
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Light crude service - Connectors
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	15788
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8338.267716
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	1.9
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	13.07
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Light crude service - Flanges
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	19382
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8338.267716
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	1.0
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	6.94
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Light crude service - Open ended lines
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	0
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8338.267716
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	0.0
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	0.00
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Light crude service - Other equipment leak sources (such as instruments, loading arms, stuffing boxes, compressor seals, dump lever arms, breather caps)
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	0
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8338.267716
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	0.0
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	0.00
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Light crude service - Valves
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	9945
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	8338.267716
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	8.7
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	59.20
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Light crude service - Pumps
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	0
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	0
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	0
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	0
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gathering pipelines - Unprotected steel gathering pipeline
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	0
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	0
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	0
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	0
Emission Source Type (Eq. W-32A) [98.232(c)(21)] [98.233(r)]	Gathering pipelines - Cast iron gathering pipeline
Geographic Location (according to Table W-1D) [98.236(r)(1)(i)]	Western U.S.
Total number of emission source type, Counte (for gathering pipelines, this value is the number of miles of pipeline per material type) [98.236(r)(1)(ii)]	0
Average estimated time that the emission source type was operational in the calendar year, Te (hours) [98.236(r)(1)(iii)]	0
CO2 Emissions (mt CO2) [98.236(r)(1)(iv)]	0
CH4 Emissions (mt CH4) [98.236(r)(1)(v)]	0

MajorGasEquipmentTypeRowDetails:

Major Equipment Type [98.236(r)(3)(ii)]	Wellhead
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	No
Major Equipment Type [98.236(r)(3)(ii)]	Separators
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	585
Major Equipment Type [98.236(r)(3)(ii)]	Meters/piping
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	1625
Major Equipment Type [98.236(r)(3)(ii)]	Compressors
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	158
Major Equipment Type [98.236(r)(3)(ii)]	In-line heaters
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	1
Major Equipment Type [98.236(r)(3)(ii)]	Dehydrators
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	15

MajorOilEquipmentTypeRowDetails:

Major Equipment Type [98.236(r)(3)(ii)]	Wellhead
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	No
Major Equipment Type [98.236(r)(3)(ii)]	Separators
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	1174
Major Equipment Type [98.236(r)(3)(ii)]	Heater-treater
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	No
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	0
Major Equipment Type [98.236(r)(3)(ii)]	Header
Equipment type present at facility? [98.236(r)(3)(ii)(A)]	Yes
Count of Major Equipment Type in Western US [98.236(r)(3)(ii)(B)]	377

CombustionEmissionsDetails:

mt CO2	835225.1
mt CH4	839.88
mt N2O	1.520
Did the Facility have combustion units subject to reporting under 98.232?	Yes
Were missing data procedures used for any parameters to calculate GHG emissions? [98.235]	No
Are there external fuel combustion units with a rated heat capacity less than or equal to 5 mmBtu/hr? [98.236(z)(1)(i)]	Yes
Are there internal fuel combustion units that are not compressor-drivers, with a rated heat capacity less than or equal to 1 mmBtu/hr? [98.236(z)(1)(i)]	No
Total number of combustion units meeting 98.236(z)(1) descriptions	131
Are there external fuel combustion units with a rated heat capacity greater than 5 mmBtu/hr? [98.236(z)(2)(i)]	No
Are there internal fuel combustion units that are not compressor-drivers, with a rated heat capacity greater than 1 mmBtu/hr? [98.236(z)(2)(i)]	No
Are there Internal fuel combustion units of any heat capacity that are compressor-drivers? [98.236(z)(2)(i)]	Yes

LargeCombustionUnitEmissionsRowDetails:

Type of combustion unit [98.236(z)(2)(i)]	Internal fuel combustion units of any heat capacity that are compressor-drivers
Type of fuel combusted [98.236(z)(2)(ii)]	Field gas, process gas, and/or natural gas that is not of pipeline quality
Quantity of fuel combusted in calendar year [98.236(z)(2)(iii)]	11826008.23
Unit of measure [98.236(z)(2)(iii)	thousand standard cubic feet
CO2 Emissions (mt CO2) [98.236(z)(2)(iv)]	830408.5
CH4 Emissions (mt CH4) [98.236(z)(2)(v)]	839.79
N2O Emissions (mt N2O) [98.236(z)(2)(vi)]	1.511
Type of combustion unit [98.236(z)(2)(i)]	Internal fuel combustion units of any heat capacity that are compressor-drivers
Type of fuel combusted [98.236(z)(2)(ii)]	Natural gas (pipeline quality)
Quantity of fuel combusted in calendar year [98.236(z)(2)(iii)]	88475.61
Unit of measure [98.236(z)(2)(iii)	thousand standard cubic feet
CO2 Emissions (mt CO2) [98.236(z)(2)(iv)]	4816.6
CH4 Emissions (mt CH4) [98.236(z)(2)(v)]	0.09
N2O Emissions (mt N2O) [98.236(z)(2)(vi)]	0.009