GHG Summary Report

CO2 equivalent emissions from facility subparts C-II, SS, and TT (metric tons):897,117.2
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:324110
Second Primary NAICS Code:

Parent Company Details:

Parent Company Name:SUNCOR ENERGY (USA) INC
Address:5801 Brighton Boulevard, Commerce City, CO 80022
Percent Ownership Interest:100

Subpart C: General Stationary Fuel Combustion

Gas Information Details

Gas Name	Carbon Dioxide
Gas Quantity	457,281.1 (Metric Tons)
Own Result?

Gas Name	Biogenic Carbon dioxide
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Methane
Gas Quantity	38.76 (Metric Tons)
Own Result?

Gas Name	Nitrous Oxide
Gas Quantity	7.712 (Metric Tons)
Own Result?

Unit Details:

Unit Name : P1 Rail Rack VC
Unit Type : TODF (Thermal oxidizer, direct fired, no heat recovery)
Unit Description :

Individual Unit Details:
Use Ivt Indicator: N
Maximum Rated Heat Input Capacity: 30 (mmBtu/hr)

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)

Tier Fuel Details:

Fuel : Fuel Gas
Tier Name : Tier 1 (Equation C-1)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
330.3 (Metric Tons)	0.02 (Metric Tons)	0.003 (Metric Tons)	0.4 (Metric Tons)	1 (Metric Tons)

Equation C1/C8 Inputs :
Fuel Quantity : 4032902 (scf/year)

Unit Name : #3SRU TGI
Unit Type : ICI (Incinerator, commercial and industrial)
Unit Description :

Individual Unit Details:
Use Ivt Indicator: N (EGU)
Maximum Rated Heat Input Capacity: 1.95 (mmBtu/hr)

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)

Tier Fuel Details:

Fuel : Natural Gas (Weighted U.S. Average)
Tier Name : Tier 3 (Equation C-5, gaseous fuel)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
286.5 (Metric Tons)	0.00 (Metric Tons)	0.000 (Metric Tons)	0.1 (Metric Tons)	0.1 (Metric Tons)

Equation C5/C8 Inputs :
Fuel Quantity : 4717870 (scf/year)
Use Default High Heat Value : true
Equation C2b Inputs :

	Fuel Combusted	Molecular Weight	Carbon Content
January	1559979 (scf/month)	18.8307 (kg/kg-mole)	0.7464 (kg C per kg)
February	1507180 (scf/month)	18.8265 (kg/kg-mole)	0.7463 (kg C per kg)
March	1586996 (scf/month)	18.8666 (kg/kg-mole)	0.7477 (kg C per kg)
April	63715 (scf/month)	18.8600 (kg/kg-mole)	0.7475 (kg C per kg)
May
June
July
August
September
October
November
December

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 4
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Monthly
Total number of operating hours in the reporting year for which missing data substitution was used for fuel usage : 2232

Molecular Weight Information :
Total number of valid molecular weight determinations : 4
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Monthly
Molar Volume Constant (MVC) used : 849.5 (scf/kg-mole)

Unit Name : B504
Unit Type : OB (Boiler, other)
Unit Description :

Individual Unit Details:
Use Ivt Indicator: N (EGU)
Maximum Rated Heat Input Capacity: 189 (mmBtu/hr)

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)

Tier Fuel Details:

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
10015.0 (Metric Tons)	0.17 (Metric Tons)	0.017 (Metric Tons)	4.2 (Metric Tons)	5 (Metric Tons)

Equation C5/C8 Inputs :
Fuel Quantity : 164686996 (scf/year)
Use Default High Heat Value : true
Equation C2b Inputs :

	Fuel Combusted	Molecular Weight	Carbon Content
January
February
March	6113340 (scf/month)	18.8666 (kg/kg-mole)	0.7477 (kg C per kg)
April	40068418 (scf/month)	18.8600 (kg/kg-mole)	0.7475 (kg C per kg)
May	36982765 (scf/month)	18.8442 (kg/kg-mole)	0.7468 (kg C per kg)
June	43103859 (scf/month)	18.8691 (kg/kg-mole)	0.7458 (kg C per kg)
July	35469973 (scf/month)	18.9118 (kg/kg-mole)	0.7461 (kg C per kg)
August	2948639 (scf/month)	18.9412 (kg/kg-mole)	0.7458 (kg C per kg)
September
October
November
December

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 6
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Monthly
Total number of operating hours in the reporting year for which missing data substitution was used for fuel usage : 3072

Molecular Weight Information :
Total number of valid molecular weight determinations : 6
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Monthly
Molar Volume Constant (MVC) used : 849.5 (scf/kg-mole)

Unit Name : GP-1a
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :

Small Unit Aggregation Details:
Use Ivt Indicator: N
Highest Maximum Rated Heat Input Capacity: 1.21
Cumulative Maximum Rated Heat Input Capacity:

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 1457.7 (metric tons)

Tier Fuel Details:

Fuel : Distillate Fuel Oil No. 2
Tier Name : Tier 1 (Equation C-1)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
1457.7 (Metric Tons)	0.06 (Metric Tons)	0.012 (Metric Tons)	1.5 (Metric Tons)	3.5 (Metric Tons)

Equation C1/C8 Inputs :
Fuel Quantity : 142821 (gallons/year)

Unit Name : GP-3
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :

Small Unit Aggregation Details:
Use Ivt Indicator: N
Highest Maximum Rated Heat Input Capacity: 189
Cumulative Maximum Rated Heat Input Capacity: 784.44

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 102554.6 (metric tons)

Tier Fuel Details:

Fuel : Fuel Gas
Tier Name : Tier 3 (Equation C-5, gaseous fuel)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
102554.6 (Metric Tons)	11.27 (Metric Tons)	2.253 (Metric Tons)	281.6 (Metric Tons)	671.4 (Metric Tons)

Equation C5/C8 Inputs :
Fuel Quantity : 2705358616 (scf/year)
Use Default High Heat Value : true
Equation C2b Inputs :

	Fuel Combusted	Molecular Weight	Carbon Content
January	358273811.09 (scf/month)	14.0879 (kg/kg-mole)	0.6819 (kg C per kg)
February	338643133.75 (scf/month)	14.1894 (kg/kg-mole)	0.6562 (kg C per kg)
March	256677391.92 (scf/month)	18.1508 (kg/kg-mole)	0.6163 (kg C per kg)
April	146911.90 (scf/month)	20.6787 (kg/kg-mole)	0.6791 (kg C per kg)
May
June
July	64213.90 (scf/month)	20.0740 (kg/kg-mole)	0.6701 (kg C per kg)
August	257706839.93 (scf/month)	17.0564 (kg/kg-mole)	0.6942 (kg C per kg)
September	340177866.09 (scf/month)	12.0884 (kg/kg-mole)	0.6192 (kg C per kg)
October	394050828.55 (scf/month)	11.0885 (kg/kg-mole)	0.6597 (kg C per kg)
November	359243604.55 (scf/month)	11.7780 (kg/kg-mole)	0.6512 (kg C per kg)
December	400374013.92 (scf/month)	12.3234 (kg/kg-mole)	0.6244 (kg C per kg)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 52
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Weekly
Total number of operating hours in the reporting year for which missing data substitution was used for fuel usage : 127

Molecular Weight Information :
Total number of valid molecular weight determinations : 52
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Weekly
Molar Volume Constant (MVC) used : 849.5 (scf/kg-mole)

Unit Name : H-25
Unit Type : ICI (Incinerator, commercial and industrial)
Unit Description :

Individual Unit Details:
Use Ivt Indicator: N (EGU)
Maximum Rated Heat Input Capacity: 10 (mmBtu/hr)

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)

Tier Fuel Details:

Fuel : Natural Gas (Weighted U.S. Average)
Tier Name : Tier 2 (Equation C-2a)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31
Frequency of HHV determinations : Monthly

Tier 2 Monthly HHV Details :

January	February	March	April	May	June	July	August	September	October	November	December
N	N	N	N	N	N	N	N	N	N	N	N

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
2774.6 (Metric Tons)	0.05 (Metric Tons)	0.005 (Metric Tons)	1.3 (Metric Tons)	1.6 (Metric Tons)

Equation C2a/C9a Inputs :
Fuel Quantity : 49883877 (scf/year)
Use Default High Heat Value : false
Equation C2b Inputs :

	Fuel Combusted	High Heat Value
January	4070667 (scf/month)	0.0010597 (mmBtu/scf)
February	3929209 (scf/month)	0.001058 (mmBtu/scf)
March	4113124 (scf/month)	0.0010452 (mmBtu/scf)
April	3868077 (scf/month)	0.0010516 (mmBtu/scf)
May	3857758 (scf/month)	0.0010464 (mmBtu/scf)
June	4085435 (scf/month)	0.0010412 (mmBtu/scf)
July	4185172 (scf/month)	0.0010435 (mmBtu/scf)
August	4385460 (scf/month)	0.001044 (mmBtu/scf)
September	4391542 (scf/month)	0.0010458 (mmBtu/scf)
October	4094104 (scf/month)	0.001046 (mmBtu/scf)
November	4124128 (scf/month)	0.0010483 (mmBtu/scf)
December	4679200 (scf/month)	0.0010505 (mmBtu/scf)

Unit Name : P2 Truck Rack VC
Unit Type : ICI (Incinerator, commercial and industrial)
Unit Description :

Individual Unit Details:
Use Ivt Indicator: N
Maximum Rated Heat Input Capacity: 2.74 (mmBtu/hr)

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)

Tier Fuel Details:

Fuel : Fuel Gas
Tier Name : Tier 1 (Equation C-1)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
465.1 (Metric Tons)	0.02 (Metric Tons)	0.005 (Metric Tons)	0.6 (Metric Tons)	1.4 (Metric Tons)

Equation C1/C8 Inputs :
Fuel Quantity : 5679385 (scf/year)

Unit Name : GP-2
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :

Small Unit Aggregation Details:
Use Ivt Indicator: N
Highest Maximum Rated Heat Input Capacity: 161
Cumulative Maximum Rated Heat Input Capacity: 1083.4

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 329163.5 (metric tons)

Tier Fuel Details:

Fuel : Fuel Gas
Tier Name : Tier 3 (Equation C-5, gaseous fuel)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
329163.5 (Metric Tons)	27.00 (Metric Tons)	5.400 (Metric Tons)	675.1 (Metric Tons)	1609.3 (Metric Tons)

Equation C5/C8 Inputs :
Fuel Quantity : 6484632847 (scf/year)
Use Default High Heat Value : true
Equation C2b Inputs :

	Fuel Combusted	Molecular Weight	Carbon Content
January	525762770 (scf/month)	16.7598 (kg/kg-mole)	0.7166 (kg C per kg)
February	561554919 (scf/month)	16.1438 (kg/kg-mole)	0.7131 (kg C per kg)
March	599798932 (scf/month)	16.2549 (kg/kg-mole)	0.7151 (kg C per kg)
April	569720865 (scf/month)	15.7892 (kg/kg-mole)	0.7026 (kg C per kg)
May	511689948 (scf/month)	15.5503 (kg/kg-mole)	0.7063 (kg C per kg)
June	541661050 (scf/month)	17.8002 (kg/kg-mole)	0.7181 (kg C per kg)
July	537668975 (scf/month)	17.2526 (kg/kg-mole)	0.6954 (kg C per kg)
August	541873806 (scf/month)	16.2055 (kg/kg-mole)	0.6878 (kg C per kg)
September	519454269 (scf/month)	16.5156 (kg/kg-mole)	0.7188 (kg C per kg)
October	475610268 (scf/month)	17.2775 (kg/kg-mole)	0.7067 (kg C per kg)
November	496816295 (scf/month)	15.8249 (kg/kg-mole)	0.7053 (kg C per kg)
December	603020750 (scf/month)	17.5335 (kg/kg-mole)	0.7239 (kg C per kg)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 52
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Weekly
Total number of operating hours in the reporting year for which missing data substitution was used for fuel usage : 0

Molecular Weight Information :
Total number of valid molecular weight determinations : 52
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Weekly
Molar Volume Constant (MVC) used : 849.5 (scf/kg-mole)

Unit Name : GP-1b
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :

Small Unit Aggregation Details:
Use Ivt Indicator: N (EGU)
Highest Maximum Rated Heat Input Capacity: 0.12
Cumulative Maximum Rated Heat Input Capacity:

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 21.9 (metric tons)

Tier Fuel Details:

Fuel : Motor Gasoline
Tier Name : Tier 1 (Equation C-1)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
21.9 (Metric Tons)	0.00 (Metric Tons)	0.000 (Metric Tons)	0 (Metric Tons)	0.1 (Metric Tons)

Equation C1/C8 Inputs :
Fuel Quantity : 2500 (gallons/year)

Unit Name : B505
Unit Type : OB (Boiler, other)
Unit Description :

Individual Unit Details:
Use Ivt Indicator: N (EGU)
Maximum Rated Heat Input Capacity: 189 (mmBtu/hr)

Emission Details:
Annual CO₂ mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)

Tier Fuel Details:

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
10211.9 (Metric Tons)	0.17 (Metric Tons)	0.017 (Metric Tons)	4.3 (Metric Tons)	5.1 (Metric Tons)

Equation C5/C8 Inputs :
Fuel Quantity : 167918007 (scf/year)
Use Default High Heat Value : true
Equation C2b Inputs :

	Fuel Combusted	Molecular Weight	Carbon Content
January
February
March	8114520 (scf/month)	18.8666 (kg/kg-mole)	0.7477 (kg C per kg)
April	41845701 (scf/month)	18.8600 (kg/kg-mole)	0.7475 (kg C per kg)
May	39024107 (scf/month)	18.8442 (kg/kg-mole)	0.7468 (kg C per kg)
June	39219473 (scf/month)	18.8691 (kg/kg-mole)	0.7458 (kg C per kg)
July	36725610 (scf/month)	18.9118 (kg/kg-mole)	0.7461 (kg C per kg)
August	2988595 (scf/month)	18.9412 (kg/kg-mole)	0.7458 (kg C per kg)
September
October
November
December

Subpart P: Hydrogen Production

CEMS Monitoring Location (CML) Details

Gas Information Details

Gas Name	Carbon Dioxide
Gas Quantity	200,589.7 (Metric Tons)
Own Result?

Gas Name	Biogenic Carbon dioxide
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Methane
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Nitrous Oxide
Gas Quantity	0 (Metric Tons)
Own Result?

Annual quantity of carbon, other than CO2, collected and transferred off site in either gas, liquid, or solid forms, excluding methanol: ()

No Cems Hydrogen Unit Details:
Unit Name: H2 Plant
Unit Type: Hydrogen production process unit
Unit Description:
CO2Emissions: 200589.7 (Metric Tons)
Annual Quantity of Hydrogen Produced: ()
Annual quantity of ammonia intentionally produced as a desired product, if applicable: ()
Annual quantity of methanol intentionally produced as a desired product, if applicable: ()

Fuel/FeedStock Details:

Feedstock name:
Fuel/FeedStock Type:
Annual Fuel/Feedstock Consumed: ()

Subpart Y: Petroleum Refineries

Gas Information Details

Gas Name	Carbon Dioxide
Gas Quantity	228,466.3 (Metric Tons)
Own Result?

Gas Name	Biogenic Carbon dioxide
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Methane
Gas Quantity	283.02 (Metric Tons)
Own Result?

Gas Name	Nitrous Oxide
Gas Quantity	1.468 (Metric Tons)
Own Result?

Flare Gas Details

Name or ID: AU Flare
Description:
Type: Flare
Is the flare serviced by a flare gas recovery system ? N
Type of flare: Air-assisted
Other Flare type:

Flare service type: Unit flare
Other Flare service type:

Basis for the fraction of carbon in the flare gas contributed by methane value: Default Value
Other Basis for the fraction of carbon in the flare gas contributed by methane value:

Emissions Details

CO2 Emissions Calculation Method: 98.253(b)(1)(iii) - Equation Y-3 Start-up, Shutdown, Malfunction

Name	Value	Own Result?
CO2Emissions	799.5 (Metric Tons)	N

Name	Value	Own Result?
CH4Emissions	2.41 (Metric Tons)	N

Name	Value	Own Result?
N2OEmissions	0.008 (Metric Tons)	N

Y3 Equation Details

Total number of start-up, shutdown, or malfunction (SSM) events exceeding 500,000 scf/day: 0

Name or ID: P2 Rail Rack Flare
Description:
Type: Flare
Is the flare serviced by a flare gas recovery system ? N
Type of flare: Air-assisted
Other Flare type:

Flare service type: Unit flare
Other Flare service type:

Basis for the fraction of carbon in the flare gas contributed by methane value: Default Value
Other Basis for the fraction of carbon in the flare gas contributed by methane value:

Emissions Details

CO2 Emissions Calculation Method: 98.253(b)(1)(iii) - Equation Y-3 Start-up, Shutdown, Malfunction

Name	Value	Own Result?
CO2Emissions	559.2 (Metric Tons)	N

Name	Value	Own Result?
CH4Emissions	1.69 (Metric Tons)	N

Name	Value	Own Result?
N2OEmissions	0.006 (Metric Tons)	N

Y3 Equation Details

Total number of start-up, shutdown, or malfunction (SSM) events exceeding 500,000 scf/day: 0

Name or ID: P1 Truck Loading Flare
Description:
Type: Flare
Is the flare serviced by a flare gas recovery system ? N
Type of flare: Air-assisted
Other Flare type:

Flare service type: Unit flare
Other Flare service type:

Basis for the fraction of carbon in the flare gas contributed by methane value: Default Value
Other Basis for the fraction of carbon in the flare gas contributed by methane value:

Emissions Details

CO2 Emissions Calculation Method: 98.253(b)(1)(iii) - Equation Y-3 Start-up, Shutdown, Malfunction

Name	Value	Own Result?
CO2Emissions	1302.0 (Metric Tons)	N

Name	Value	Own Result?
CH4Emissions	3.93 (Metric Tons)	N

Name	Value	Own Result?
N2OEmissions	0.013 (Metric Tons)	N

Y3 Equation Details

Total number of start-up, shutdown, or malfunction (SSM) events exceeding 500,000 scf/day: 0

Name or ID: P1 MP Flare
Description:
Type: Flare
Is the flare serviced by a flare gas recovery system ? Y
Type of flare: Steam assisted
Other Flare type:

Flare service type: General facility flare
Other Flare service type:

Basis for the fraction of carbon in the flare gas contributed by methane value: Chromatographic analysis: manufacturer's instructions
Other Basis for the fraction of carbon in the flare gas contributed by methane value:

Emissions Details

CO2 Emissions Calculation Method: 98.253(b)(1)(ii)(A) - Equation Y-1a Gas Composition Monitored

Name	Value	Own Result?
CO2Emissions	11835.1 (Metric Tons)	N

Name	Value	Own Result?
CH4Emissions	33.56 (Metric Tons)	N

Name	Value	Own Result?
N2OEmissions	0.118 (Metric Tons)	N

Y1a Equation Details

Were flare gas data used as inputs to Equation Y-1a collected on a mass or volumetric basis: Volumetric basis
Frequency of measurement data: Weekly
Annual volume of flare gas combusted: 568817111.6 scf
Specific consensus-based standard method or describe the procedure specified by the flow meter manufacturer: Flow is measured by optical scintillation per manufacturer specifications
Number of days missing data procedures were used for annual volume of flare gas combusted: 0
Annual average molecular weight: 6.6885 kg/kg-mole
Method(s) used to determine the molecular weight of the flare gas:

Chromatographic analysis: manufacturer's instructions

Number of days missing data procedures were used for annual average molecular weight of the flare gas: 0
Annual average carbon content of the flare gas: 0.6693 decimal fraction; kg carbon/kg flare gas
Method(s) used to determine the carbon content of the flare gas:

Chromatographic analysis: manufacturer's instructions

Number of days missing data procedures were used for average carbon content of the flare gas: 0

Name or ID: P2 MP Flare
Description:
Type: Flare
Is the flare serviced by a flare gas recovery system ? N
Type of flare: Steam assisted
Other Flare type:

Flare service type: General facility flare
Other Flare service type:

Basis for the fraction of carbon in the flare gas contributed by methane value: Chromatographic analysis: manufacturer's instructions
Other Basis for the fraction of carbon in the flare gas contributed by methane value:

Emissions Details

CO2 Emissions Calculation Method: 98.253(b)(1)(ii)(A) - Equation Y-1a Gas Composition Monitored

Name	Value	Own Result?
CO2Emissions	14762.5 (Metric Tons)	N

Name	Value	Own Result?
CH4Emissions	79.69 (Metric Tons)	N

Name	Value	Own Result?
N2OEmissions	0.148 (Metric Tons)	N

Y1a Equation Details

Were flare gas data used as inputs to Equation Y-1a collected on a mass or volumetric basis: Volumetric basis
Frequency of measurement data: Weekly
Annual volume of flare gas combusted: 254599165 scf
Specific consensus-based standard method or describe the procedure specified by the flow meter manufacturer: Flow is measured by ultrasonic, vortex, and coriolis measurement per manufacturer specifications
Number of days missing data procedures were used for annual volume of flare gas combusted: 0
Annual average molecular weight: 19.3987 kg/kg-mole
Method(s) used to determine the molecular weight of the flare gas:

Chromatographic analysis: manufacturer's instructions

Number of days missing data procedures were used for annual average molecular weight of the flare gas: 0
Annual average carbon content of the flare gas: 0.7092 decimal fraction; kg carbon/kg flare gas
Method(s) used to determine the carbon content of the flare gas:

Chromatographic analysis: manufacturer's instructions

Number of days missing data procedures were used for average carbon content of the flare gas: 0

Name or ID: GBR Flare
Description:
Type: Flare
Is the flare serviced by a flare gas recovery system ? N
Type of flare: Steam assisted
Other Flare type:

Flare service type: Unit flare
Other Flare service type:

Basis for the fraction of carbon in the flare gas contributed by methane value: Chromatographic analysis: manufacturer's instructions
Other Basis for the fraction of carbon in the flare gas contributed by methane value:

Emissions Details

CO2 Emissions Calculation Method: 98.253(b)(1)(ii)(A) - Equation Y-1a Gas Composition Monitored

Name	Value	Own Result?
CO2Emissions	11456.3 (Metric Tons)	N

Name	Value	Own Result?
CH4Emissions	59.07 (Metric Tons)	N

Name	Value	Own Result?
N2OEmissions	0.115 (Metric Tons)	N

Y1a Equation Details

Were flare gas data used as inputs to Equation Y-1a collected on a mass or volumetric basis: Volumetric basis
Frequency of measurement data: Weekly
Annual volume of flare gas combusted: 204309939 scf
Specific consensus-based standard method or describe the procedure specified by the flow meter manufacturer: Optical scintillation, vortex, and coriolis measurements are used per manufacturer specifications
Number of days missing data procedures were used for annual volume of flare gas combusted: 0
Annual average molecular weight: 18.4590 kg/kg-mole
Method(s) used to determine the molecular weight of the flare gas:

Chromatographic analysis: manufacturer's instructions

Number of days missing data procedures were used for annual average molecular weight of the flare gas: 0
Annual average carbon content of the flare gas: 0.7137 decimal fraction; kg carbon/kg flare gas
Method(s) used to determine the carbon content of the flare gas:

Chromatographic analysis: manufacturer's instructions

Number of days missing data procedures were used for average carbon content of the flare gas: 0

Catalytic Cracking and Reforming Units

#1 FCCU (Description: Type: Fluid Catalytic Cracking Unit)

Name	Value	Own Result?
CO2Emissions	144639.2 (Metric Tons)

Method used to calculate CO2 emissions:Equation Y-6 and continuous monitor for flow - 98.253(c)(2)

Name	Value	Own Result?
CH4Emissions	4.24 (Metric Tons)

Method used to calculate CH4 emissions:Equation Y-9 with a default emission factor

Name	Value	Own Result?
N2OEmissions	0.85 (Metric Tons)

Method used to calculate N2O emissions:Equation Y-10 with a default emission factor

Name	Value	Substitute Indicator	Times Substituted
AnnualAverageExhaustGasFlowRate	()		0

Manufacturer's method for annual average volumetric flow rate of exhaust gas:Per manufacturer

Name	Value	Substitute Indicator	Times Substituted
PercentCO2	()		0

Manufacturer's method for annual average percent CO2 in exhaust gas stream:Per manufacturer

Name	Value	Substitute Indicator	Times Substituted
PercentCO	()		0

Manufacturer's method for annual average percent CO in exhaust gas stream:Not Applicable - this unit is a full burn regeneration unit.

#2 FCCU (Description: Type: Fluid Catalytic Cracking Unit)

Name	Value	Own Result?
CO2Emissions	35710.9 (Metric Tons)

Method used to calculate CO2 emissions:Equation Y-8 - 98.253(c)(3)

Name	Value	Own Result?
CH4Emissions	1.05 (Metric Tons)

Method used to calculate CH4 emissions:Equation Y-9 with a default emission factor

Name	Value	Own Result?
N2OEmissions	0.21 (Metric Tons)

Method used to calculate N2O emissions:Equation Y-10 with a default emission factor
Basis for carbon content:Default value

#1 CRU (Description: Type: Catalytic Reforming Unit)

Name	Value	Own Result?
CO2Emissions	14.7 (Metric Tons)

Method used to calculate CO2 emissions:Equation Y-11 - 98.253(e)(3)

Name	Value	Own Result?
CH4Emissions	0.00 (Metric Tons)

Method used to calculate CH4 emissions:Equation Y-9 with a default emission factor

Name	Value	Own Result?
N2OEmissions	0.000 (Metric Tons)

Method used to calculate N2O emissions:Equation Y-10 with a default emission factor
Total number of regeneration cycles or measurement periods:
Average coke burn-off quantity per cycle or measurement period: (kg coke/cycle or kg coke/measurement period)

#2 CRU (Description: Type: Catalytic Reforming Unit)

Name	Value	Own Result?
CO2Emissions	8.7 (Metric Tons)

Method used to calculate CO2 emissions:Equation Y-11 - 98.253(e)(3)

Name	Value	Own Result?
CH4Emissions	0.00 (Metric Tons)

Method used to calculate CH4 emissions:Equation Y-9 with a default emission factor

Name	Value	Own Result?
N2OEmissions	0.000 (Metric Tons)

Sulfur Recovery Details

Sour Gas Details

is Sour Gas Stream Sent Off Site Indicator :N
Annual Volumetric Flow Method :
Average Mole Fraction of Carbon in Sour Gas Method :

Sulfur Recovery Unit Details

Unit Name :#1 SRU
Unit Type :Sulfur Recovery Plant
Unit Description :

Sulfur Recovery Plant Description :Claus
Other Sulfur Recovery Plant Description :

Name	Value	Own Result?
CalculatedCO2Emissions	1211.7 (Metric Tons)

CO2 Emission Method :Equation Y-12

Process Vent Method Details

Cumulative Annual Volume Flow Discharged Method :
Other Annual Volume Metric Flow Method List :
Cumulative Venting Time :

is Recycled Tailgas Included Indicator :N

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlow	()		0

Annual Volumetric Flow Method :Per manufacturer
Annual Average Mole Fraction of Carbon Method in the Sour Gas Method :Other (specify)
Number of hours missing data procedures were used for annual average mole fraction of carbon method in the sour gas :

Recycle Tail Gas Details

Tail Gas Recycled Flow Rate Carbon Content Included :N
Tail Gas Correction for CO2 Used :N

Recycled Tail Gas Method Details
Recycled Tail Gas Method :
Other Recycled Tail Gas Method :

Annual Average Mole Fraction of Carbon Method :
Other Annual Average Mole Fraction of Carbon Method :
Basis for Correction :
Value of Correction : ()
Approach Used for Correction :
Other Approach Used for Correction :

Sulfur Recovery Unit Details

Unit Name :#2 SRU
Unit Type :Sulfur Recovery Plant
Unit Description :

Sulfur Recovery Plant Description :Claus
Other Sulfur Recovery Plant Description :

Name	Value	Own Result?
CalculatedCO2Emissions	6025.1 (Metric Tons)

CO2 Emission Method :Equation Y-12

Process Vent Method Details

Cumulative Annual Volume Flow Discharged Method :
Other Annual Volume Metric Flow Method List :
Cumulative Venting Time :

is Recycled Tailgas Included Indicator :N

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlow	()		0

Tail Gas Recycled Flow Rate Carbon Content Included :N
Tail Gas Correction for CO2 Used :N

Recycled Tail Gas Method Details
Recycled Tail Gas Method :
Other Recycled Tail Gas Method :

Sulfur Recovery Unit Details

Unit Name :#3 SRU
Unit Type :Sulfur Recovery Plant
Unit Description :

Sulfur Recovery Plant Description :Claus
Other Sulfur Recovery Plant Description :

Name	Value	Own Result?
CalculatedCO2Emissions	141.4 (Metric Tons)

CO2 Emission Method :Equation Y-12

Process Vent Method Details

Cumulative Annual Volume Flow Discharged Method :
Other Annual Volume Metric Flow Method List :
Cumulative Venting Time :

is Recycled Tailgas Included Indicator :N

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlow	()		0

Annual Volumetric Flow Method :Per manufacturer
Annual Average Mole Fraction of Carbon Method in the Sour Gas Method :
Number of hours missing data procedures were used for annual average mole fraction of carbon method in the sour gas :

Recycle Tail Gas Details

Tail Gas Recycled Flow Rate Carbon Content Included :N
Tail Gas Correction for CO2 Used :N

Recycled Tail Gas Method Details
Recycled Tail Gas Method :
Other Recycled Tail Gas Method :

Process Vents Details

Unit Name:Vent 3
Unit Type:Process Vent
Unit Description:

Name	Value	Own Result?
CH4Emissions	0.74 (Metric Tons)

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlowDischarged	91650.1 (scf)

The unit or operation associated with the emission:Other
Control device used to reduce emissions:Thermal or catalytic incinerator/oxidizer
Annual Volume Metric Flow Method:Engineering calculation
Other Annual Volume Metric Flow Method:

InterVentsDetails

Number of cumulative Venting Events33
Total Venting Time8.75

MoleFractionDetails

CO2 Mole Fraction Details
CO2 Annual Average Mole Fraction Method:
Other CO2 Annual Average Mole Fraction Method:

CH4 Mole Fraction Details

Name	Value	Substitute Indicator	Times Substituted
CH4AnnualAverageMoleFraction	0.84 (fraction (number between 0 and 1))

CH4 Annual Average Mole Fraction Method:Engineering estimates/process knowledge
Other CH4 Annual Average Mole Fraction Method:

N2O Mole Fraction Details
N2O Annual Average Mole Fraction Method:
Other N2O Annual Average Mole Fraction Method:

Unit Name:Vent 1
Unit Type:Process Vent
Unit Description:

Name	Value	Own Result?
CH4Emissions	0.00 (Metric Tons)

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlowDischarged	36.5 (scf)

The unit or operation associated with the emission:Catalytic reforming unit - semi-regenerative
Control device used to reduce emissions:None
Annual Volume Metric Flow Method:Engineering calculation
Other Annual Volume Metric Flow Method:

InterVentsDetails

Number of cumulative Venting Events1095
Total Venting Time274

MoleFractionDetails

CO2 Mole Fraction Details
CO2 Annual Average Mole Fraction Method:
Other CO2 Annual Average Mole Fraction Method:

CH4 Mole Fraction Details

Name	Value	Substitute Indicator	Times Substituted
CH4AnnualAverageMoleFraction	0.1 (fraction (number between 0 and 1))

Name	Value	Own Result?
CH4Emissions	0.00 (Metric Tons)

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlowDischarged	0.046 (scf)

The unit or operation associated with the emission:Other
Control device used to reduce emissions:None
Annual Volume Metric Flow Method:Engineering calculation
Other Annual Volume Metric Flow Method:

InterVentsDetails

Number of cumulative Venting Events15
Total Venting Time4

MoleFractionDetails

CO2 Mole Fraction Details
CO2 Annual Average Mole Fraction Method:
Other CO2 Annual Average Mole Fraction Method:

CH4 Mole Fraction Details

Name	Value	Substitute Indicator	Times Substituted
CH4AnnualAverageMoleFraction	0.84 (fraction (number between 0 and 1))

Name	Value	Own Result?
CH4Emissions	0.00 (Metric Tons)

Name	Value	Substitute Indicator	Times Substituted
AnnualVolumetricFlowDischarged	0.061 (scf)

The unit or operation associated with the emission:Sulfur plant
Control device used to reduce emissions:None
Annual Volume Metric Flow Method:Engineering calculation
Other Annual Volume Metric Flow Method:

InterVentsDetails

Number of cumulative Venting Events2
Total Venting Time1

MoleFractionDetails

CO2 Mole Fraction Details
CO2 Annual Average Mole Fraction Method:
Other CO2 Annual Average Mole Fraction Method:

CH4 Mole Fraction Details

Name	Value	Substitute Indicator	Times Substituted
CH4AnnualAverageMoleFraction	0.84 (fraction (number between 0 and 1))

Uncontrolled Blowdown Systems

Methane emissions:72.14 (Metric Tons)
Methane emissions calculation method:Reported under 98.256(k)
Basis for the methane emission factor:Used default emission factor

Equipment Leak Details

Name	Value	Own Result?
TotalCH4Emissions	21.7 (Metric Tons)

Method to Calculate Equipment Leak Emission:98.253(l)(2) method

Storage Tank Details

Name	Value	Own Result?
StabilizedCrudeTotalCH4Emissions	2.80 (Metric Tons)

Stored Liquids Other Than Unstabilized Crude Oil Calculation Method:Equation Y-22
is Stored Liquids Other Than Unstabilized Crude Oil Received Stored Indicator:
UnStabilized Crude Calculation Method:
is UnStablized Crude Received Stored Indicator:
UnStabilized Crude Basis for Mole Fraction:
Other UnStabilized Crude Basis for Mole Fraction:

Subpart MM: Suppliers of Petroleum Products

Gas Information Details

Gas Name	Carbon Dioxide
Gas Quantity	11,017,764 (Metric Tons)
Own Result?

SubpartMMFacilityDataDetails:

Type of Facility:

Refinery

AggregateProductsDetails:

Are you reporting optional procedures for blended products that do not contain biomass per the requirements of 98.393(i)?

AggregateProductsRowDetails:

Unique ID	1
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	2
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	3
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	4
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	5
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	6
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	7
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	8
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	9
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	10
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	11
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	12
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	13
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	14
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	15
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	16
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	17
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	18
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	19
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)
Unique ID	20
Is the product entering the facility or leaving the facility? 98.396(b); 98.396(c)
Product Name Code 98.396(a)(1); 98.396(a)(5); 98.396(b)(1); 98.396(c)(1)
Measured Quantity Units 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Product Annual Quantity 98.396(a)(2); 98.396(a)(6); 98.396(a)(14); 98.396(b)(2); 98.396(c)(2)
Percent Petroleum Based 98.396(a)(3); 98.396(a)(7); 98.396(b)(3); 98.396(c)(3)	percent
Annual CO2 Quantity, MT 98.396(a)(16); 98.396(a)(17); 98.396(a)(18); 98.396(b)(7); 98.396(c)(7)
Is Calculation Method 2 Used for this Product?	No
Number of Samples 98.396(a)(9)(i); 98.396(a)(11)(i); 98.396(b)(5)(i); 98.396(c)(5)(i)
Sampling Standard Method Used 98.396(a)(9)(ii); 98.396(a)(11)(ii); 98.396(b)(5)(ii); 98.396(c)(5)(ii)
Carbon Share (mass %) 98.396(a)(9)(iii); 98.396(a)(11)(iii); 98.396(b)(5)(iii); 98.396(c)(5)(iii)
Standard Method Used to Test Carbon Share 98.396(a)(9)(iv); 98.396(a)(11)(iv); 98.396(b)(5)(iv); 98.396(c)(5)(iv)
Calculated CO2 Quantity Emission Factor 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Calculated CO2 Quantity Emission Factor Units 98.396(a)(9)(v); 98.396(a)(11)(v); 98.396(b)(5)(v); 98.396(c)(5)(v)
Density Test Results (metric tons/ barrel) 98.396(a)(10)(i); 98.396(a)(12)(i); 98.396(b)(6)(i); 98.396(c)(6)(i)
Standard Method Used to Test Density 98.396(a)(10)(ii); 98.396(a)(12)(ii); 98.396(b)(6)(ii); 98.396(c)(6)(ii)

TotalCarbonDioxideQuantityDetails:

TotalCarbonDioxideQuantityRowDetails:

Reporter Type 98.396(b); 98.396(c)	Refinery
Sum of CO2 Quantity for All Products 98.396(a)(19); 98.396(b)(8); 98.396(c)(8)	11017764
Quantity of Crude Oil Entering the Refinery (barrels) 98.396(a)(20)
Quantity of Bulk Natural Gas Liquids Received for Processing 98.396(a)(21)
Quantity of Bulk Natural Gas Liquids Units of Measure 98.396(a)(21)
Crude Oil Injected Into Supply/Reservoir, barrels 98.396(a)(22)