Facility Name:Indorama Ventures Oxides LLC
Facility Identifier:
Facility Reporting Year:2020
Facility Location:
Address: 6001 Highway 366
City: PORT NECHES
State: TX
Postal Code: 77651

Facility Site Details:
CO2 equivalent emissions from facility subparts C-II, SS, and TT (metric tons):1,242,673.5
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:Y
GHG Report Start Date:2020-01-01
GHG Report End Date:2020-12-31
Description of Changes to Calculation Methodology:
Did you use an EPA-approved BAMM in this reporting year for Subpart C?
Did you use an EPA-approved BAMM in this reporting year for Subpart X?
Plant Code Indicator:N
Primary NAICS Code:325110
Second Primary NAICS Code:325199

Parent Company Details:
Parent Company Name:Indorama Ventures Oxides LLC
Address:24 Waterway Avenue, The Woodlands,  TX 77380
Percent Ownership Interest:100

Subpart C: General Stationary Fuel Combustion

Gas Information Details

Gas NameCarbon Dioxide
Gas Quantity854,706.6 (Metric Tons)
Own Result?

Gas NameBiogenic Carbon dioxide
Gas Quantity0 (Metric Tons)
Own Result?

Gas NameMethane
Gas Quantity57.59 (Metric Tons)
Own Result?

Gas NameNitrous Oxide
Gas Quantity10.373 (Metric Tons)
Own Result?

Unit Details:
Unit Name : GP-G-H-K2-001/-002
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :
Small Unit Aggregation Details:
Use Ivt Indicator: Y
Highest Maximum Rated Heat Input Capacity: 206.5
Cumulative Maximum Rated Heat Input Capacity: 413

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

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
41779.8 (Metric Tons) 0.79 (Metric Tons) 0.079 (Metric Tons) 19.7 (Metric Tons) 23.5 (Metric Tons)


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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
6026.9 (Metric Tons) 1.53 (Metric Tons) 0.306 (Metric Tons) 38.2 (Metric Tons) 91.1 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 353
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : GP-G-Frn-Ht-WHB
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :
Small Unit Aggregation Details:
Use Ivt Indicator: Y
Highest Maximum Rated Heat Input Capacity: 196.2
Cumulative Maximum Rated Heat Input Capacity: 1062.2

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

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
113647.8 (Metric Tons) 2.14 (Metric Tons) 0.214 (Metric Tons) 53.5 (Metric Tons) 63.8 (Metric Tons)


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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
84268.6 (Metric Tons) 21.37 (Metric Tons) 4.274 (Metric Tons) 534.2 (Metric Tons) 1273.6 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 353
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : CG2
Unit Type : SCCT (CT (Turbine, simple cycle combustion))
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 460 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
180295.8 Y (Metric Tons) 3.40 (Metric Tons) 0.340 (Metric Tons) 84.9 (Metric Tons) 101.3 (Metric Tons)


Unit Name : H-F6-1
Unit Type : ICI (Incinerator, commercial and industrial)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 59 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
5052.5 (Metric Tons) 0.10 (Metric Tons) 0.010 (Metric Tons) 2.4 (Metric Tons) 2.8 (Metric Tons)


Unit Name : CG1
Unit Type : SCCT (CT (Turbine, simple cycle combustion))
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 460 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
168554.2 Y (Metric Tons) 3.18 (Metric Tons) 0.318 (Metric Tons) 79.4 (Metric Tons) 94.7 (Metric Tons)


Unit Name : HK-10
Unit Type : OB (Boiler, other)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 212 (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 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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
38087.8 (Metric Tons) 6.22 (Metric Tons) 1.244 (Metric Tons) 155.5 (Metric Tons) 370.8 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 360
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : H-F4-1
Unit Type : ICI (Incinerator, commercial and industrial)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 54 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
3201.6 (Metric Tons) 0.06 (Metric Tons) 0.006 (Metric Tons) 1.5 (Metric Tons) 1.8 (Metric Tons)


Unit Name : HK-11
Unit Type : OB (Boiler, other)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 285 (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 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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
44433.0 (Metric Tons) 7.26 (Metric Tons) 1.451 (Metric Tons) 181.4 (Metric Tons) 432.4 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 357
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : H-K2-003
Unit Type : OB (Boiler, other)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 285.1 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
34411.8 (Metric Tons) 0.65 (Metric Tons) 0.065 (Metric Tons) 16.2 (Metric Tons) 19.3 (Metric Tons)


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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
17249.3 (Metric Tons) 1.09 (Metric Tons) 0.218 (Metric Tons) 27.2 (Metric Tons) 65.0 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 45
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 : 45
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Weekly
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
4596.3 (Metric Tons) 1.17 (Metric Tons) 0.233 (Metric Tons) 29.1 (Metric Tons) 69.5 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 353
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : C-A3-1
Unit Type : SCCT (CT (Turbine, simple cycle combustion))
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 392 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
15490.6 Y (Metric Tons) 0.29 (Metric Tons) 0.029 (Metric Tons) 7.3 (Metric Tons) 8.7 (Metric Tons)


Unit Name : H-K2-004
Unit Type : OB (Boiler, other)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 274 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
32480.0 (Metric Tons) 0.61 (Metric Tons) 0.061 (Metric Tons) 15.3 (Metric Tons) 18.2 (Metric Tons)


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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
16739.8 (Metric Tons) 1.06 (Metric Tons) 0.212 (Metric Tons) 26.4 (Metric Tons) 63.0 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 45
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 : 45
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Weekly
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
4177.4 (Metric Tons) 1.06 (Metric Tons) 0.212 (Metric Tons) 26.5 (Metric Tons) 63.1 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 353
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : HK-9
Unit Type : OB (Boiler, other)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 212 (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 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 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
32706.0 (Metric Tons) 5.39 (Metric Tons) 1.079 (Metric Tons) 134.8 (Metric Tons) 321.5 (Metric Tons)

Carbon Content Substitute Data Information :
Total number of valid carbon content determinations : 331
Total number of carbon content substitute data values : 0
Frequency of carbon content determinations : Daily
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 : 366
Total number of molecular weight substitute data values : 0
Frequency of molecular weight determinations : Daily
Molar Volume Constant (MVC) used : 836.6 (scf/kg-mole)

Unit Name : F8BOIL
Unit Type : OB (Boiler, other)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 40 (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 : Semiannually

Tier 2 Monthly HHV Details :
JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember
N N N N N N N N N N N N

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
11507.4 Y (Metric Tons) 0.22 (Metric Tons) 0.022 (Metric Tons) 5.4 (Metric Tons) 6.5 (Metric Tons)



Subpart X: Petrochemical Production


CEMS Monitoring Location (CML) Details for Subpart X

Gas Information Details

Gas NameCarbon Dioxide
Gas Quantity379,715.2 (Metric Tons)
Own Result?

Gas NameBiogenic Carbon dioxide
Gas Quantity0 (Metric Tons)
Own Result?

Gas NameMethane
Gas Quantity143.18 (Metric Tons)
Own Result?

Gas NameNitrous Oxide
Gas Quantity0.474 (Metric Tons)
Own Result?


Petrochemical Process Units

Petrochemical process units monitored using the mass balance methodology:

Name or ID:F6 Unit
Description:
Type:Petrochemical process unit
Identify combustion units:F6 Incinerator, H-F6-1
AnnualCO2Emissions:151853.4 Metric Tons
Own Result:Y
Type of petrochemical produced:
Annual quantity of the petrochemical produced: 
Annual average carbon content of the wastewater: 
Annual average flow of wastewater:
Unit of measure for average flow of wastewater:
Annual mass of carbon released in fugitive emissions not controlled with a combustion device: 
Annual mass of carbon released in process vents not controlled with a combustion device: 

Feedstocks/Products:

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
February N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
March N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
April N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
May N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
June N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
July N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
August N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
September N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
October N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
November N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N
December N Flow meter N 98.244(b)(4)(xv)(B) alternative methodEngineering knowledge from flash calculationUnsafe sampling conditions on GFS OH line.F6 GFS AlternateMethod.pdf N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N


Name or ID:F4 Unit
Description:
Type:Petrochemical process unit
Identify combustion units:F4 Incinerator, H-F4-1
AnnualCO2Emissions:95771.5 Metric Tons
Own Result:Y
Type of petrochemical produced:
Annual quantity of the petrochemical produced: 
Annual average carbon content of the wastewater: 
Annual average flow of wastewater:
Unit of measure for average flow of wastewater:
Annual mass of carbon released in fugitive emissions not controlled with a combustion device: 
Annual mass of carbon released in process vents not controlled with a combustion device: 

Feedstocks/Products:

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated - Engineering calculations N
February N Flow meter N Other (specify)Calculated - Engineering calculations N
March N Flow meter N Other (specify)Calculated - Engineering calculations N
April N Flow meter N Other (specify)Calculated - Engineering calculations N
May N Flow meter N Other (specify)Calculated - Engineering calculations N
June N Flow meter N Other (specify)Calculated - Engineering calculations N
July N Flow meter N Other (specify)Calculated - Engineering calculations N
August N Flow meter N Other (specify)Calculated - Engineering calculations N
September N Flow meter N Other (specify)Calculated - Engineering calculations N
October N Flow meter N Other (specify)Calculated - Engineering calculations N
November N Flow meter N Other (specify)Calculated - Engineering calculations N
December N Flow meter N Other (specify)Calculated - Engineering calculations N


Name or ID:F8 Unit
Description:
Type:Petrochemical process unit
Identify combustion units:F8 Boiler
AnnualCO2Emissions:84658.4 Metric Tons
Own Result:Y
Type of petrochemical produced:
Annual quantity of the petrochemical produced: 
Annual average carbon content of the wastewater: 
Annual average flow of wastewater:
Unit of measure for average flow of wastewater:
Annual mass of carbon released in fugitive emissions not controlled with a combustion device: 
Annual mass of carbon released in process vents not controlled with a combustion device: 

Feedstocks/Products:

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
February N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
March N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
April N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
May N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
June N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
July N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
August N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
September N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
October N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
November N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N
December N Flow meter N Other (specify)Calculated based on chemical formula and atomic weights N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: ICS-Industry Consensus Standard
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: flow meter
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: flow meter
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: flow meter
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N

Type:
State of Feedstock or product:
Identify each method (i.e., method number, title or other description) used to determine the flow or mass of each carbon-containing product or feedstock: Flow meter
Annual quantity of feedstock or product: 
If applicable, dates for each process change that reduced the composition to less than 99.5%:
MonthVolume for month based on missing data procedureVolume measurement methodOther volume measurement methodCarbon content or composition for month based on missing data procedureCarbon content or composition determination methodSpecify the practiceOther MethodName or title of the alternative carbon content determination methodExplanation as to why an alternative carbon content determination method was neededFile name of the copy of the alternative carbon content determination methodMolecular weight for month based on missing data procedure, if applicableMolecular weight determination method, if applicableOther methodName or title of the alternative molecular weight determination methodExplanation as to why an alternative molecular weight determination method was neededFile name of the copy of the alternative molecular weight determination methodTemperature at which volume was measured
January N Flow meter N SW-846 Method 9060A N
February N Flow meter N SW-846 Method 9060A N
March N Flow meter N SW-846 Method 9060A N
April N Flow meter N SW-846 Method 9060A N
May N Flow meter N SW-846 Method 9060A N
June N Flow meter N SW-846 Method 9060A N
July N Flow meter N SW-846 Method 9060A N
August N Flow meter N SW-846 Method 9060A N
September N Flow meter N SW-846 Method 9060A N
October N Flow meter N SW-846 Method 9060A N
November N Flow meter N SW-846 Method 9060A N
December N Flow meter N SW-846 Method 9060A N


Petrochemical process units monitored using the ethylene combustion methodology:

Name or ID:Ethylene Unit
Description:
Type:Petrochemical process unit
Type of petrochemical produced:Ethylene
Annual quantity of ethylene produced: 

Subpart C stationary combustion units
The unit name or identifier of Subpart C stationary combustion unitThe fraction of the total emissions attributable to the ethylene process unit
H-K2-0040.109
H-K2-0030.109
GP-G-Frn-Ht-WHB0.469
HK-90.142
HK-100.142
GP-G-H-K2-001/-0020.175
HK-110.142

Carbon-containing feedstocks
The type of carbon-containing feedstock fed to the ethylene process unitThe annual quantity of the carbon-containing feedstock (Metric Tons)


Flare Gas Details

Name or ID: R-O-44
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: 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
NameValueOwn Result?
CO2Emissions9325.1 (Metric Tons)N

NameValueOwn Result?
CH4Emissions28.15 (Metric Tons)N

NameValueOwn Result?
N2OEmissions0.093 (Metric Tons)N

Y3 Equation Details

Total number of start-up, shutdown, or malfunction (SSM) events exceeding 500,000 scf/day: 2

Name or ID: R-O-37
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: 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
NameValueOwn Result?
CO2Emissions13939.3 (Metric Tons)N

NameValueOwn Result?
CH4Emissions42.08 (Metric Tons)N

NameValueOwn Result?
N2OEmissions0.139 (Metric Tons)N

Y3 Equation Details

Total number of start-up, shutdown, or malfunction (SSM) events exceeding 500,000 scf/day: 5

Name or ID: R-O-46
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: 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
NameValueOwn Result?
CO2Emissions24167.5 (Metric Tons)N

NameValueOwn Result?
CH4Emissions72.95 (Metric Tons)N

NameValueOwn Result?
N2OEmissions0.242 (Metric Tons)N

Y3 Equation Details

Total number of start-up, shutdown, or malfunction (SSM) events exceeding 500,000 scf/day: 3