Facility Name:HONEYWELL INTERNATIONAL INC - GEISMAR COMPLEX
Facility Identifier:
Facility Reporting Year:2021
Facility Location:
Address: 5525 HWY 3115
City: GEISMAR
State: LA
Postal Code: 70734

Facility Site Details:
CO2 equivalent emissions from facility subparts C-II, SS, and TT (metric tons):516,575.2
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:2021-01-01
GHG Report End Date:2021-12-31
Description of Changes to Calculation Methodology:
Plant Code Indicator:N
Primary NAICS Code:325120
Second Primary NAICS Code:325180
Additional NAICS Codes: 325211
Parent Company Details:
Parent Company Name:HONEYWELL INTERNATIONAL INC
Address:855 S Mint Street, Charlotte,  NC 28202
Percent Ownership Interest:100

Subpart C: General Stationary Fuel Combustion

Gas Information Details

Gas NameCarbon Dioxide
Gas Quantity107,439.5 (Metric Tons)
Own Result?

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

Gas NameMethane
Gas Quantity2.03 (Metric Tons)
Own Result?

Gas NameNitrous Oxide
Gas Quantity0.203 (Metric Tons)
Own Result?

Unit Details:
Unit Name : 1-16 Gantry Crane Engine
Unit Type : RICE (Reciprocating internal combustion engine)
Unit Description :
Individual Unit Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 7.787 (mmBtu/hr)

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

Tier Fuel Details:
Fuel : Distillate Fuel Oil No. 2
Tier Name : Tier 1 (Equation C-1)
Tier Methodology Start Date : 2021-01-01
Tier Methodology End Date : 2021-12-31

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
155.5 (Metric Tons) 0.01 (Metric Tons) 0.001 (Metric Tons) 0.2 (Metric Tons) 0.4 (Metric Tons)


Unit Name : CP-CyressGasMeter
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :
Common Pipe Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 94
Cumulative Maximum Rated Heat Input Capacity: 232.2

Emission Details:
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 : 2021-01-01
Tier Methodology End Date : 2021-12-31
Frequency of HHV determinations : Monthly

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
107284.0 (Metric Tons) 2.02 (Metric Tons) 0.202 (Metric Tons) 50.5 (Metric Tons) 60.3 (Metric Tons)



Subpart L: Fluorinated Gas Production

Gas Information Details

Gas NameOther
Other Gas NameCO2 equivalent (from unspecified gases)
Gas Quantity407,104.2 (Metric Tons)
Own Result?


Summary Information
Did the facility produce only one fluorinated gas product, including fluorinated gas products that are intermediates?No
Did the facility emit 1,000 or more metric tons of CO2e of any one fluorinated GHG from production and transformation processes, summed across the facility as a whole?Yes
Did the facility destroy previously produced fluorinated GHGs in destruction processes that are not part of a fluorinated gas production process or fluorinated gas transformation process?Yes
Did the facility vent residual fluorinated GHGs from containers?Yes


Production and Transformation Process F-GHG Emissions
Gas NameGas DescriptionCAS No.GWP GroupProduction and transformation process F-GHG emissions (metric tons)Optional Comments
HFC-245faCHF2CH2CF3460-73-132.1452
HFC-125C2HF5354-33-671.4304
HFC-143aC2H3F3420-46-221.5497
HFC-134aCH2FCF3811-97-213.5368
HFC-245cbCF3CF2CH31814-88-60.5695
HFC-236faC3H2F6690-39-10.5654


Destruction Process Emissions
Gas NameDevice NameGas DescriptionCAS No.GWP GroupDestruction process emissions (metric tons)Optional Comments
HFC-32Thermal Oxidizer 6-93CH2F275-10-50
HFC-125Thermal Oxidizer 6-93C2HF5354-33-60
HFC-134Thermal Oxidizer 6-93C2H2F4359-35-30
HFC-134aThermal Oxidizer 6-93CH2FCF3811-97-20
HFC-143aThermal Oxidizer 6-93C2H3F3420-46-20
HFC-152aThermal Oxidizer 6-93CH3CHF275-37-60
HFC-236faThermal Oxidizer 6-93C3H2F6690-39-10
HFC-245cbThermal Oxidizer 6-93CF3CF2CH31814-88-60
HFC-245faThermal Oxidizer 6-93CHF2CH2CF3460-73-10
HFC-1141; VFThermal Oxidizer 6-93C2H3F, CH2=CHF75-02-50
HCFC-1223xdThermal Oxidizer 6-93C3HCl2F3460-70-8Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HCFC-1231xfThermal Oxidizer 6-93C3H2Cl3F421-42-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HCFC-1232xfThermal Oxidizer 6-93C3H2Cl2F22252-87-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HCFC-1233xfThermal Oxidizer 6-93C3H2ClF32730-62-3Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HFC-1234yf; HFO-1234yfThermal Oxidizer 6-93C3H2F4; CF3CF=CH2754-12-10
HFC-1234ze(Z)Thermal Oxidizer 6-93C3H2F4; cis-CF3CH=CHF; CF3CH=CHF29118-25-00
HFC-1234ze(E)Thermal Oxidizer 6-93C3H2F4; trans-CF3CH=CHF1645-83-60
CFC-1317Thermal Oxidizer 6-93C4ClF7Unknown-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
3,3,3-trifluoropropyneThermal Oxidizer 6-93C3HF3661-54-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HFC-32Thermal Oxidizer 6-00CH2F275-10-50
HFC-125Thermal Oxidizer 6-00C2HF5354-33-60
HFC-134Thermal Oxidizer 6-00C2H2F4359-35-30
HFC-134aThermal Oxidizer 6-00CH2FCF3811-97-20
HFC-143aThermal Oxidizer 6-00C2H3F3420-46-20
HFC-152aThermal Oxidizer 6-00CH3CHF275-37-60
HFC-236faThermal Oxidizer 6-00C3H2F6690-39-10
HFC-245cbThermal Oxidizer 6-00CF3CF2CH31814-88-60
HFC-245faThermal Oxidizer 6-00CHF2CH2CF3460-73-10
HFC-1141; VFThermal Oxidizer 6-00C2H3F, CH2=CHF75-02-50
HCFC-1223xdThermal Oxidizer 6-00C3HCl2F3460-70-8Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HCFC-1231xfThermal Oxidizer 6-00C3H2Cl3F421-42-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HCFC-1232xfThermal Oxidizer 6-00C3H2Cl2F22252-87-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HCFC-1233xfThermal Oxidizer 6-00C3H2ClF32730-62-3Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
HFC-1234yf; HFO-1234yfThermal Oxidizer 6-00C3H2F4; CF3CF=CH2754-12-10
HFC-1234ze(Z)Thermal Oxidizer 6-00C3H2F4; cis-CF3CH=CHF; CF3CH=CHF29118-25-00
HFC-1234ze(E)Thermal Oxidizer 6-00C3H2F4; trans-CF3CH=CHF1645-83-60
CFC-1317Thermal Oxidizer 6-00C4ClF7Unknown-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0
3,3,3-trifluoropropyneThermal Oxidizer 6-00C3HF3661-54-1Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones0


Destruction Device Information
Device nameDescription (optional)Was based on a missing data procedure?Data element for which missing data procedures were used, and the reason for the missing dataNumber of hours a missing data procedure was used to determine F-GHG emissions from destruction deviceProvide the method used to estimate the missing dataIf the data element is reportable under subpart L, provide estimates of the missing data
Thermal_Oxidizer_6-93No
Thermal_Oxidizer_6-00No


Venting of Residual F-GHGs
Gas NameGas DescriptionCAS No.GWP GroupFluorinated F-GHGs vented from containers returned from the field (metric tons):Optional Comments
HFC-245faCHF2CH2CF3460-73-10


Container Information
Container nameDescription (optional)Was based on a missing data procedure?Data element for which missing data procedures were used, and the reason for the missing dataNumber of hours a missing data procedure was used to determine F-GHG emissions from containerProvide the method used to estimate the missing dataIf the data element is reportable under subpart L, provide estimates of the missing data
G-245fa_Isocontainer_(Non-Condensible_Purge)No


Production and Transformation Process GHG Group Emissions
Fluorinated GHG GroupProduction and transformation process GHG group emissions (metric tons CO2e)Optional Comments
Unsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones29.0907
Saturated HFCs with 3 or more carbon-hydrogen bonds94.9740
Saturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds1.7730


Production and Transformation Processes

Unique Name/IdentifierHFC-125 Plant
Process TypeProduction Process
Characterize the process:
ReactionYes
DistillationYes
PackagingYes
Optional Comments
The range (Table L-2) that encompasses the effective destruction efficiency, DEeffective, calculated for this process using Equation L-35.>=99%


Process Vent Emissions

Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)1358.7
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.1
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)174.0
Effective destruction efficiency range (CO2e basis)


Were the annual emissions of one or more F-GHG groups based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from process vents
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of missing data


Equipment Leak Emissions

Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)227563.6


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)0.0


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)39723.7


Were the annual emissions from equipment leaks based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from equipment leaks
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of the missing data


Unique Name/IdentifierHFC-245fa Plant
Process TypeProduction Process
Characterize the process:
ReactionYes
DistillationYes
PackagingYes
Optional Comments
The range (Table L-2) that encompasses the effective destruction efficiency, DEeffective, calculated for this process using Equation L-35.>=95% to <99%


Process Vent Emissions

Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)4977.0
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)5069.9
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.0
Effective destruction efficiency range (CO2e basis)


Were the annual emissions of one or more F-GHG groups based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from process vents
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of missing data


Equipment Leak Emissions

Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)499.4


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)28062.2


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)0.0


Were the annual emissions from equipment leaks based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from equipment leaks
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of the missing data


Unique Name/IdentifierAclon Plant
Process TypeTransformation
Characterize the process:
ReactionYes
Distillation
Packaging
Optional Comments
The range (Table L-2) that encompasses the effective destruction efficiency, DEeffective, calculated for this process using Equation L-35.>=75% to <95%


Process Vent Emissions

Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)3.4
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.0
Effective destruction efficiency range (CO2e basis)


Were the annual emissions of one or more F-GHG groups based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from process vents
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of missing data


Equipment Leak Emissions

Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)6.4


Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)4072.7


Were the annual emissions from equipment leaks based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from equipment leaks
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of the missing data


Unique Name/IdentifierHFO-1234yf Plant Step 1
Process TypeProduction Process
Characterize the process:
ReactionYes
DistillationYes
Packaging
Optional Comments
The range (Table L-2) that encompasses the effective destruction efficiency, DEeffective, calculated for this process using Equation L-35.>=99%


Process Vent Emissions

Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.1
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.0
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.0
Effective destruction efficiency range (CO2e basis)


Were the annual emissions of one or more F-GHG groups based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from process vents
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of missing data


Equipment Leak Emissions

Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)1.1


Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)36388.2


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)56555.5


Were the annual emissions from equipment leaks based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from equipment leaks
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of the missing data


Unique Name/IdentifierHFO-1234yf Plant Step 2
Process TypeProduction Process
Characterize the process:
ReactionYes
DistillationYes
Packaging
Optional Comments
The range (Table L-2) that encompasses the effective destruction efficiency, DEeffective, calculated for this process using Equation L-35.>=99%


Process Vent Emissions

Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)2491.0
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.0
Effective destruction efficiency range (CO2e basis)


Were the annual emissions of one or more F-GHG groups based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from process vents
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of missing data


Equipment Leak Emissions

Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)17.9


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)0.5


Were the annual emissions from equipment leaks based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from equipment leaks
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of the missing data


Unique Name/IdentifierHFO-1234yf Plant Step 3
Process TypeProduction Process
Characterize the process:
ReactionYes
DistillationYes
PackagingYes
Optional Comments
The range (Table L-2) that encompasses the effective destruction efficiency, DEeffective, calculated for this process using Equation L-35.>=99%


Process Vent Emissions

Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)49.8
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)64.8
Effective destruction efficiency range (CO2e basis)


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from process vents
Process Vent Emission Calculation FactorYes
Process Vent Specific Emission Factor
GWP-weighted mass of all fluorinated GHGs in this group emitted from all process vents combined (metric tons CO2e)0.9
Effective destruction efficiency range (CO2e basis)


Were the annual emissions of one or more F-GHG groups based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from process vents
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of missing data


Equipment Leak Emissions

Fluorinated GHG GroupSaturated hydrofluorocarbons (HFCs) with 2 or fewer carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)2.9


Fluorinated GHG GroupSaturated HFCs with 3 or more carbon-hydrogen bonds
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)3.8


Fluorinated GHG GroupUnsaturated perfluorocarbons (PFCs), unsaturated HFCs, unsaturated hydrochlorofluorocarbons (HCFCs), unsaturated halogenated ethers, unsaturated halogenated esters, fluorinated aldehydes, and fluorinated ketones
Methods used to determine the mass emissions of each fluorinated GHG group emitted from equipment leaks
Average EF ApproachYes
Screening Ranges Approach w/ M21
EPA Correlation Approach w/ M21
Unit Specific Correlation Approach w/ M21
Screening Ranges Approach w/ Site Specific Leak Monitoring Method
EPA Correlation Approach w/ Site Specific Leak Monitoring Method
Unit Specific Correlation Approach w/ Site Specific Leak Monitoring Method
Other Site Specific Leak Monitoring
GWP-weighted mass of all fluorinated GHGs in this group emitted from equipment leaks (metric tons CO2e)16.6


Were the annual emissions from equipment leaks based on a missing data procedure?No
Data element for which missing data procedures were used, and the reason for the missing data
Number of hours a missing data procedure was used to determine F-GHG emissions from equipment leaks
Provide the method used to estimate the missing data
If the data element is reportable under subpart L, provide estimates of the missing data


Subpart O: HCFC-22 Production and HFC-23 Destruction

Gas Information Details

Gas NameCarbon Dioxide
Gas Quantity0 (Metric Tons)
Own Result?

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

Gas NameMethane
Gas Quantity0 (Metric Tons)
Own Result?

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

Gas NameHFC-23
Gas CAS Registry Number75-46-7
Gas Linear Chemical FormulaCHF3
Gas Quantity0.129746 (Metric Tons)
Own Result?

Subpart O Facility Information:

Indicate whether your facility produces HCFC-22N
Indicate whether your facility sends any HFC-23 offsite for destructionN
Indicate whether your facility destroys HFC-23 onsiteY

HCFC-22 Production Process Information:


Off-Site Destruction Facility:


On-Site Destruction Process (only destruction devices that are not directly connected to HFC-22 production equipment)

Unique Name/IdentifierThermal Oxidizer 6-00
Description of Destruction Process
Was the HFC-23 fed into the on-site destruction process originally generated by an on-site HCFC-22 production process?
Is the annual mass of HFC-23 fed into the destruction device at the facility based on a missing data procedure?N
Is the annual mass of HFC-23 emitted from the destruction device at the facility based on a missing data procedure?N
Concentration of HFC-23 measured at the outlet of the destruction device during the facility's annual HFC-23 concentration measurements at the outlet of the device0.00001 (mass fraction)
Is the concentration below the detection limit?Y
Detection limit concentration3.17 (mass fraction)
Detection limit concentration unitsppmv
Was the HFC-23 concentration measured pursuant to §98.154(l) greater than that measured during the performance test that was the basis for the destruction efficiency? N
Indicate the method used to calculate the revised destruction efficiency, specifying whether §98.154(l)(1) or (2) was used
Have you made changes that affect the HFC-23 destruction efficiency or the methods used to record the quantity destroyed?N
Methods used to determine destruction efficiency
Methods used to record the mass of HFC-23 destroyed
Name of other relevant federal or state regulations that may apply to the destruction process
Annual mass of HFC-23 emitted from the destruction process (device)0.052181 (Metric Tons)

Unique Name/IdentifierThermal Oxidizer 6-93
Description of Destruction Process
Was the HFC-23 fed into the on-site destruction process originally generated by an on-site HCFC-22 production process?
Is the annual mass of HFC-23 fed into the destruction device at the facility based on a missing data procedure?N
Is the annual mass of HFC-23 emitted from the destruction device at the facility based on a missing data procedure?N
Concentration of HFC-23 measured at the outlet of the destruction device during the facility's annual HFC-23 concentration measurements at the outlet of the device0.00001 (mass fraction)
Is the concentration below the detection limit?Y
Detection limit concentration4.77 (mass fraction)
Detection limit concentration unitsppmv
Was the HFC-23 concentration measured pursuant to §98.154(l) greater than that measured during the performance test that was the basis for the destruction efficiency? N
Indicate the method used to calculate the revised destruction efficiency, specifying whether §98.154(l)(1) or (2) was used
Have you made changes that affect the HFC-23 destruction efficiency or the methods used to record the quantity destroyed?N
Methods used to determine destruction efficiency
Methods used to record the mass of HFC-23 destroyed
Name of other relevant federal or state regulations that may apply to the destruction process
Annual mass of HFC-23 emitted from the destruction process (device)0.077566 (Metric Tons)