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Stationary Asset Energy Use

The Stationary Asset Energy Use object represents the energy consumption related to stationary assets across multiple fuel types.
Available in: Lightning Experience and the Salesforce mobile app
Available in: Enterprise, Developer, Performance, and Unlimited Editions

Permission Set Needed
To enter and modify data: Net Zero Cloud Manager
Table 1. Fuel Consumption (kWh) Units by Fuel Type
Fuel Units Electricity Cooling Diesel Fuel Oil/Heavy Oil Heat Natural Gas Liquid Natural Gas (LNG) Propane Steam Light Oil Kerosene City Gas Refrigerant
kWh X X X X X X X X X X X X
GWh X X X X X X X X X X X X
MWh X X X X X X X X X X X X
GJ X X X X X X X X X X X X
MJ X X X X X X X X X X X X
kcal X X X X X X X X X X X X
MMBtu X X X X X X X X X X X X
Therm X X X X X X X X X X X X
Kg X
lbs X
Tonnes X
Short Tons X
Long Tons X
US Gallon X X X X X X X X
UK Gallon X X X X X X X X
Liter X X X X X X X X
Kiloliters X X X X X X X X
m3 X X X X X X X X
1000 m3 X X X X X X X X
ccf X X X X X X X X

Allocate the default scope for the fuel. Depending on the scope, the relevant fields are populated and the other fields default to 0:

  • Scope 1 Emissions (tCO2e).
  • Scope 2 Location-Based Emissions (tCO2e) and Scope 2 Market-Based Emissions (tCO2e). Scope 2 means both these fields are populated.
  • Scope 3 Downstream Emissions (tCO2e).
  • Scope 3 Upstream Emissions (tCO2e).

If you have not associated a scope allocation, then use the default scope allocations.

Table 2. Default Scope Allocation Consideration
Fuel Asset Owned Asset Not Owned
Electricity Scope 2 Scope 2
City Gas Scope 1 Scope 2
Cooling Scope 2 Scope 2
Diesel Scope 1 Scope 2
Fuel Oil Scope 1 Scope 2
Heat Scope 2 Scope 2
Heavy Oil Scope 1 Scope 2
Kerosene Scope 1 Scope 2
Light Oil Scope 1 Scope 2
Liquid Natural Gas (LNG) Scope 1 Scope 2
Natural Gas Scope 1 Scope 2
Propane Scope 1 Scope 2
Refrigerant Scope 1 Scope 2
Steam Scope 2 Scope 2
IT Electricity Scope 2 Scope 2
Biomass Scope 1 Scope 2

For information about converting the values from one unit of measure to another compatible unit of measure, see Conversion Factors.

Here are the calculated fields:

  • Fuel Consumption (kWh) (FuelConsumptionInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Fuel Type (FuelType)
    • Fuel Consumption (FuelConsumption)
    • Other Emissions Factor Set (OtherEmssnFctrSet)
    • Other Emissions Factor Set Item (OtherEmssnFctrSetItem)

      Fuel Type (FuelType)

      Calorific Value (CalorificValue)

      Calorific Value Unit (CalorificValueUnit)

    • Conversion constant

    Calculations

    If these fuels are measured in volume units:

    • City Gas
    • Diesel
    • Fuel Oil
    • Heavy Oil
    • Kerosene
    • Light Oil
    • Liquid Natural Gas (LNG)
    • Natural Gas
    • Propane
    • Biomass

    Then to convert the volume to energy units:

    Fuel Consumption (kWh) = Fuel Consumption (converted to m3) × OtherEmssnFctrSet.OtherEmssnFctrSetItem.Calorific Value (converted to kWh/m3) and Fuel Type = OtherEmssnFctrSet.OtherEmssnFctrSetItem.Fuel Type

  • Fuel Consumption (GJ) (FuelConsumptionInGigajoule)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Conversion constant

    Calculations

    Fuel Consumption (GJ) = Total Fuel Consumption (kWh)/277.7777777

  • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)

    Input Fields

    • Fuel Consumption (kWh) (FuelConsumptionInKwh)
    • Power Usage Effectiveness (PowerUsageEffectiveness)

    Calculations

    If Record Type = “Data Center”, then Total Fuel Consumption (kWh) = Fuel Consumption (kWh) × Power Usage Effectiveness.

    Else, for all other fuel types and record types, Total Fuel Consumption (kWh) = Fuel Consumption (kWh).

  • Occupied Floor Area (sqft) (OccupiedFloorAreaInSqft)

    Input Fields

    • Occupied Floor Area (OccupiedFloorArea)
    • Occupied Floor Area Unit (OccupiedFloorAreaUnit)
    • Conversion constant

    External Object Calculations

    If Occupied Floor Area Unit = “sqft”, then Occupied Floor Area (sqft) = Occupied Floor Area.

    If Occupied Floor Area Unit = “m2”, then Occupied Floor Area (sqft) = Occupied Floor Area × 10.76391042.

  • Scope 1 Emissions (tCO2e) (Scope1EmissionsInTco2e)

    Input Fields

    • Other Emissions Factors (OtherEmissionFactors)
    • Supplemental Scope 1 Emissions (SuplScope1Emissions)
    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Stationary Asset Environmental Source (StnryAssetEnvrSrc)

    Calculations

    If the scope allocation for a fuel is scope 1, then

    StnryAssetEnvrSrc.Carbon Emissions Scope Allocation.Fuel Type Allocation = “Scope 1” where StnryAssetEnvrSrc.CrbnEmssnScopeAlloc.FuelType = FuelType.

    If Fuel Type = “Electricity”, then Scope 1 Emissions (tCO2e) = (Total Fuel Consumption (kWh)) × ElectricityEmssnFctrSet.CO2e Emissions Rate (tonnes/MWh)/1000 + Supplemental Scope 1 Emissions.

    For any fuel other than refrigerants and electricity,

    If SuppliedEmssnFactorInTco2eMwh = 0, then Scope 1 Emissions (tCO2e) = Total Fuel Consumption (kWh) × OtherEmissionFactors.Other Emissions Factor Set Item.CO2e Emissions Factor (tCO2e/MWh) (FuelType = OtherEmissionFactors.Other Emissions Factor Set Item.Fuel Type)/1000 + Supplemental Scope 1 Emissions.

    Else, if SuppliedEmssnFactorInTco2eMwh ! = 0, then Scope 1 Emissions (tCO2e) = Total Fuel Consumption (kWh) × OtherEmissionFactors.Other Emissions Factor Set Item.Supplied Emissions Factor (tCO2e/MWh) (Fuel Type = OtherEmissionFactors.Fuel Type)/1000 + Supplemental Scope 1 Emissions.

    If FuelType = “Refrigerant”, then Scope 1 Emissions (tCO2e) = FuelConsumption (converted to Kgs) × RefrigerantEmssnFctr.Global Warming Potential/1000 + Supplemental Scope 1 Emission

    Default Value

    Scope 1 Emissions (tCO2e) = Supplemental Scope 1 Emissions

  • Scope 2 Location-Based Emission (tCO2e) (Scope2LocBasedEmssnInTco2e)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factors (ElectricityEmissionFactors)
    • Company-Owned Asset (IsCompanyOwnedAsset)
    • Supplemental Scope 2 Location-Based Emissions (SuplScope2LocationBasedEmssn)

    Calculations

    StnryAssetEnvrSrc.Carbon Emission Scope Allocation Value.Fuel Type Allocation = “Scope 2” ( where StnryAssetEnvrSrc.Carbon Emission Scope Allocation Value.Fuel Type = Fuel Type )

    • If Fuel Type = “Electricity” then

      Scope 2 Location-Based Emission (tCO2e) =(Total Fuel Consumption (kWh) ) × Electricity Emissions Factor Set.Co2eEmissionRateInTmwh / 1000 + SuplScope2LocationBasedEmssn

      For any fuel other than refrigerants & Electricity

      If (Supplied Emissions Factor (tCO2e/MWh) = 0) then Scope 2 Location-Based Emission (tCO2e) = Total Fuel Consumption (kWh) × OtherEmissionFactors.Other Emissions Factor Set Item.CO2e Emissions Factor (tCO2e/MWh) (Fuel Type = Other Emissions Factor Set.Other Emissions Factor Set Item.Fuel Type) / 1000 + Supplemental Scope 2 Location-Based Emissions

    • else if (Supplied Emissions Factor (tCO2e/MWh) != 0) then

      Scope 2 Location-Based Emission (tCO2e) = Total Fuel Consumption (kWh) × OtherEmissionFactors.Other Emissions Factor Set Item.Supplied Emissions Factor (tCO2e/MWh) (Fuel Type =Other Emissions Factor Set.Fuel Type) / 1000 + Supplemental Scope 2 Location-Based Emissions

    • If Fuel Type=“Refrigerant” then

      Scope 2 Location-Based Emission (tCO2e) = Fuel Consumption (converted to Kgs) × RefrigerantEmssnFctr.Global Warming Potential/1000 + Supplemental Scope 2 Location-Based Emissions

    Default Value

    Scope 2 Location-Based Emission (tCO2e) = Supplemental Scope 2 Location-Based Emissions

  • Scope 2 Market-Based Emission (tCO2e) (Scope2MktBasedEmssnInTco2e)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factors (ElectricityEmissionFactors)
    • Company-Owned Asset (IsCompanyOwnedAsset)
    • Supplemental Scope 2 Market-Based Emissions (SuplScope2MarketBasedEmssn)
    • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)

    Calculations

    StnryAssetEnvrSrc.Carbon Emission Scope Allocation Value.Fuel Type Allocation = “Scope 2” ( where StnryAssetEnvrSrc.Carbon Emission Scope Allocation Value.Fuel Type = Fuel Type )

    • If Renewable Energy Type ! = Empty, then Scope 2 Market-Based Emissions (tCO2e) = (Total Fuel Consumption (kWh) - Allocated Renewable Energy (kWh) ) ×Electricity Emissions Factor Set.Market-Based CO2e Emissions Rate (tonnes/MWh) / 1000 + Supplemental Scope 2 Market-Based Emissions
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Scope 2 Market-Based Emissions (tCO2e) =(Total Fuel Consumption (kWh) - Allocated Energy Attribute Credits (kWh)] ) × Electricity Emissions Factor Set.Market-Based CO2e Emissions Rate (tonnes/MWh) / 1000 + Supplemental Scope 2 Market-Based Emissions
    • For any fuel other than refrigerants & Electricity
      • If (Supplied Emissions Factor (tCO2e/MWh) = 0)

        then Scope 2 Market-Based Emissions (tCO2e) = Total Fuel Consumption (kWh) × OtherEmissionFactors.Other Emissions Factor Set Item.CO2e Emissions Factor (tCO2e/MWh) (Fuel Type =OtherEmissionFactors.Other Emissions Factor Set Item.Fuel Type) / 1000 + Supplemental Scope 2 Market-Based Emissions

        else if (Supplied Emissions Factor (tCO2e/MWh) != 0) Scope 2 Market-Based Emissions (tCO2e) = Total Fuel Consumption (kWh) × OtherEmissionFactors.Other Emissions Factor Set Item.Supplied Emissions Factor (tCO2e/MWh) (Fuel Type =OtherEmissionFactors.Fuel Type) / 1000 + Supplemental Scope 2 Market-Based Emissions

    • If FuelType=“Refrigerant”,

      Scope 2 Market-Based Emissions (tCO2e) = Fuel Consumption (converted to Kgs) × RefrigerantEmssnFctr.Global Warming Potential/1000 + Supplemental Scope 2 Market-Based Emissions

    Default Value

    Scope 2 Market-Based Emission (tCO2e) = Supplemental Scope 2 Market-Based Emissions

  • Total Floor Area (sqft) (TotalFloorAreaInSqft)

    Input Fields

    • Total Floor Area (TotalFloorArea)
    • Total Floor Area Unit (TotalFloorAreaUnit)
    • Conversion constant

    External Object Calculations

    If Total Floor Area Unit = “sqft”, then Total Floor Area (sqft) = Total Floor Area.

    If Total Floor Area Unit = “m2”, then Total Floor Area (sqft) = Total Floor Area × 10.76391042.

  • Total Renewable Energy (kWh) (TotalRenewableEnergyInKwh)

    Input Fields

    • Market-Based Electricity from Biomass (kWh) (MktBasedElectrFrBiomassInKwh)
    • Market-Based Electricity from Geothermal (kWh) (MktBsdElectrFrGeothermalInKwh)
    • Market-Based Electricity from Hydro (kWh) (MktBasedElectrFromHydroInKwh)
    • Market-Based Electricity from Solar (kWh) (MktBasedElectrFromSolarInKwh)
    • Market-Based Electricity from Wind (kWh) (MktBasedElectrFromWindInKwh)

    Calculations

    Total Renewable Energy (kWh) = Market-Based Electricity from Biomass (kWh) + Market-Based Electricity from Geothermal (kWh) + Market-Based Electricity from Hydro (kWh) + Market-Based Electricity from Solar (kWh) + Market-Based Electricity from Wind (kWh)

    Default Value

    0

  • Total Renewable Energy Excluding Hydro (kWh) (TotRnwlEnrgyExclHydroInKwh)

    Input Fields

    • Market-Based Electricity from Biomass (kWh) (MktBasedElectrFrBiomassInKwh)
    • Market-Based Electricity from Geothermal (kWh) (MktBsdElectrFrGeothermalInKwh)
    • Market-Based Electricity from Solar (kWh) (MktBasedElectrFromSolarInKwh)
    • Market-Based Electricity from Wind (kWh) (MktBasedElectrFromWindInKwh)

    Calculations

    Total Renewable Energy Excluding Hydro (kWh) = Market-Based Electricity from Biomass (kWh) + Market-Based Electricity from Geothermal (kWh) + Market-Based Electricity from Solar (kWh) + Market-Based Electricity from Wind (kWh)

    Default Value

    0

  • Power Usage Effectiveness Monthly Range (IsPueMonthlyRange)

    Input Fields

    • Power Usage Effectiveness (PowerUsageEffectiveness)
    • Record Type

    Calculations

    If Record Type = “Data Center”:

    If Power Usage Effectiveness >= 1 and Power Usage Effectiveness <= 2, then Power Usage Effectiveness Monthly Range = TRUE.

    If Power Usage Effectiveness <1 or Power Usage Effectiveness > 2, then Power Usage Effectiveness Monthly Range = FALSE.

  • Normalized Monthly Electricity Consumption (kWh) (NormalizedMoElectrCnsmpInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Fuel Type (FuelType)
    • End Date (EndDate)
    • Start Date (StartDate)

    Calculations

    Normalized Monthly Electricity Consumption (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × [30/(End Date – Start Date + 1)]

  • Location-Based Electricity from Biomass (kWh) (LocBasedElectrFrBiomassInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Biomass Mix Percentage (ElectricityEmssnFctrSet.LocationBasedBiomassMixPct)

    Calculations

    Location-Based Electricity from Biomass (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Biomass Mix Percentage/100

  • Location-Based Electricity from Coal (kWh) (LocBasedElectrFrCoalInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Coal Mix Percentage (ElectricityEmssnFctrSet.LocationBasedCoalMixPct)

    Calculations

    Location-Based Electricity from Coal (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Coal Mix Percentage/100

  • Location-Based Electricity from Gas (kWh) (LocBasedElectrFrGasInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Gas Mix Percentage (ElectricityEmssnFctrSet.LocationBasedGasMixPct)

    Calculations

    Location-Based Electricity from Gas (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Gas Mix Percentage/100

  • Location-Based Electricity from Hydro (kWh) (LocBasedElectrFrHydroInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Hydro Mix Percentage (ElectricityEmssnFctrSet.LocationBasedHydroMixPct)

    Calculations

    Location-Based Electricity from Hydro (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Hydro Mix Percentage/100

  • Location-Based Electricity from Nuclear (kWh) (LocBasedElectrFrNuclearInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Nuclear Mix Percentage (ElectricityEmssnFctrSet.LocationBasedNuclearMixPct)

    Calculations

    Location-Based Electricity from Nuclear (kWh) = Total Fuel Consumption (kWh) (where FuelType = “Electricity”) × Electricity Emissions Factor Set.Location-Based Nuclear Mix Percentage/100

  • Location-Based Electricity from Oil (kWh) (LocBasedElectrFrOilInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Oil Mix Percentage (ElectricityEmssnFctrSet.LocationBasedOilMixPct)

    Calculations

    Location-Based Electricity from Oil (kWh) = Total Fuel Consumption (kWh) (where FuelType = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Oil Mix Percentage/100

  • Location-Based Electricity from Other Fuel (kWh) (LocBasedElectrFrOthrFuelInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Other Fuel Mix Percentage (ElectricityEmssnFctrSet.LocationBasedOtherFuelMixPct)

    Calculations

    Location-Based Electricity from Other Fuel (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Other Fuel Mix Percentage/100

  • Location-Based Electricity from Solar (kWh) (LocBasedElectrFrSolarInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Solar Mix Percentage (ElectricityEmssnFctrSet.LocationBasedSolarMixPct)

    Calculations

    Location-Based Electricity from Solar (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Solar Mix Percentage/100

  • Location-Based Electricity from Wind (kWh) (LocBasedElectrFrWindInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Wind Mix Percentage (ElectricityEmssnFctrSet.LocationBasedWindMixPct)

    Calculations

    Location-Based Electricity from Wind (kWh) = Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Wind Mix Percentage/100

  • Location-Based Energy from Non-Renewable (LocBsdEnrgyFrNonRenewablesKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Location-Based Energy from Biomass (kWh) (LocBasedEnrgyFromBiomassInKwh)
    • Location-Based Energy from Hydro (kWh) (LocBasedEnrgyFromHydroInKwh)
    • Location-Based Energy from Solar (kWh) (LocBasedEnrgyFromSolarInKwh)
    • Location-Based Energy from Wind (kWh) (LocBasedEnrgyFromWindInKwh)
    • Location-Based Energy from Geothermal (LocBsdEnrgyFromGeothermalInKwh)

    Calculations

    Location-Based Energy from Non-Renewable = Total Fuel Consumption (kWh) – Location-Based Energy from Biomass (kWh) – Location-Based Energy from Hydro (kWh) – Location-Based Energy from Solar (kWh) – Location-Based Energy from Wind (kWh) – Location-Based Energy from Geothermal

  • Location-Based Electricity from Geothermal (kWh) (LocBsdElectrFrGeothermalInKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Geothermal Mix Percentage (ElectricityEmssnFctrSet.LocBasedGeothermalMixPct)

    Calculations

    Location-Based Electricity from Geothermal (kWh) = Total Fuel Consumption (kWh) (where FuelType = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Geothermal Mix Percentage/100

  • Location-Based Electricity from Other Fossil Fuel (kWh) (LocBsdElectrOthrFossilFuelKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Electricity Emissions Factor Set.Location-Based Other Fossil Fuel Mix Percentage (ElectricityEmssnFctrSet.LocBasedOtherFossilFuelMixPct)

    Calculations

    Location-Based Electricity from Other Fossil Fuel (kWh) = Total Fuel Consumption (kWh) (where FuelType = “Electricity”) × ElectricityEmssnFctrSet.Location-Based Other Fossil Fuel Mix Percentage/100

  • Market-Based Electricity from Biomass (kWh) (MktBasedElectrFrBiomassInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Allocated Energy Attribute Credits from Biomass (kWh) (AllocEnrgyAttrCrBiomass)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Biomass Mix Percentage (MarketBasedBiomassMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type = “Biomass”, then Market-Based Electricity from Biomass (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Biomass Mix Percentage/100 + AllocatedRenewableEnergyInKwh.
    • If Renewable Energy Type ! = “Biomass” && !Empty, then Market-Based Electricity from Biomass (kWh) = [Total Fuel Consumption (kWh) (Fuel Type = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Biomass Mix Percentage/100.
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Biomass (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Biomass Mix Percentage/100 + Allocated Energy Attribute Credits from Biomass (kWh)
  • Market-Based Electricity from Coal (kWh) (MktBasedElectrFromCoalInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Coal Mix Percentage (MarketBasedCoalMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type ! = Empty, then Market-Based Electricity from Coal (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Coal Mix Percentage/100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Coal (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Energy Attribute Credits (kWh)]× ElectricityEmssnFctrSet.Market-Based Coal Mix Percentage/100
  • Market-Based Electricity from Gas (kWh) (MktBasedElectrFromGasInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Gas Mix Percentage (MarketBasedGasMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type ! = Empty, then Market-Based Electricity from Gas (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Gas Mix Percentage/100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Coal (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Energy Attribute Credits (kWh)]× ElectricityEmssnFctrSet.Market-Based Gas Mix Percentage/100
  • Market-Based Electricity from Hydro (kWh) (MktBasedElectrFromHydroInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Hydroelectric Mix Percentage (MarketBasedHydroMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type = “Hydroelectricity”, then Market-Based Electricity from Hydro (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Hydroelectric Mix Percentage/100 + Allocated Renewable Energy (kWh)
    • If Renewable Energy Type ! = “Hydroelectricity” && !Empty, then Market-Based Electricity from Hydro (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Hydroelectric Mix Percentage/100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Hydro (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Hydroelectric Mix Percentage/100
  • Market-Based Electricity from Nuclear (kWh) (MktBasedElectrFrNuclearInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Nuclear Mix Percentage (MarketBasedNuclearMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type ! = Empty, then Market-Based Electricity from Nuclear (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Nuclear Mix Percentage/100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Nuclear (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Nuclear Mix Percentage/100
  • Market-Based Electricity from Oil (kWh) (MktBasedElectrFromOilInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Oil Mix Percentage (MarketBasedOilMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type ! = Empty, then Market-Based Electricity from Oil (kWh) = (Total Fuel Consumption (kWh) (FuelType = “Electricity”) – Allocated Renewable Energy (kWh)) × ElectricityEmssnFctrSet.Market-Based Oil Mix Percentage /100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Oil (kWh) = (Total Fuel Consumption (kWh) (FuelType = “Electricity”) – Allocated Energy Attribute Credits (kWh)) × ElectricityEmssnFctrSet.Market-Based Oil Mix Percentage /100
  • Market-Based Electricity from Other Fuel (kWh) (MktBasedEnrgyFromOthrFuelInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Other Fuel Mix Percentage (MarketBasedOtherFuelMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type ! = Empty, then Market-Based Electricity from Other Fuel (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Other Fuel Mix Percentage/100.
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Other Fuel (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Other Fuel Mix Percentage/100
  • Market-Based Electricity from Solar (kWh) (MktBasedEnrgyFromSolarInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Allocated Energy Attribute Credits from Solar (kWh) (AllocEnrgyAttrCrSolar)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Solar Mix Percentage (MarketBasedSolarMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If RenewableEnergyType = “Solar”, then Market-Based Electricity from Solar (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Solar Mix Percentage/100 + Allocated Renewable Energy (kWh).
    • If RenewableEnergyType ! = “Solar” && !Empty, then Market-Based Electricity from Solar (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Solar Mix Percentage/100.
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Solar (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Solar Mix Percentage/100 + Allocated Energy Attribute Credits from Solar (kWh)
  • Market-Based Electricity from Wind (kWh) (MktBasedEnrgyFromWindInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Allocated Energy Attribute Credits from Wind (kWh) (AllocEnrgyAttrCrWind)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Wind Mix Percentage (MarketBasedWindMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If RenewableEnergyType = “Wind”, then Market-Based Electricity from Wind (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Wind Mix Percentage/100 + Allocated Renewable Energy (kWh).
    • If RenewableEnergyType ! = “Wind” && !Empty, then Market-Based Electricity from Wind (kWh) = [Total Fuel Consumption (kWh) (FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Wind Mix Percentage/100.
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Wind (kWh) = [Total Fuel Consumption (kWh) (Fuel Type = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Wind Mix Percentage/100 + Allocated Energy Attribute Credits from Wind (kWh)
  • Market-Based Electricity from Non-Renewables (kWh) (MktBsdEnrgyFrNonRenewablesKwh)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Market-Based Energy from Biomass (kWh) (MktBasedEnrgyFromBiomassInKwh)
    • Market-Based Energy from Hydro (kWh) (MktBasedEnrgyFromHydroInKwh)
    • Market-Based Energy from Solar (kWh) (MktBasedEnrgyFromSolarInKwh)
    • Market-Based Energy from Wind (kWh) (MktBasedEnrgyFromWindInKwh)
    • Market-Based Energy from Geothermal (MktBsdEnrgyFromGeothermalInKwh)

    Calculations

    Market-Based Electricity from Non-Renewables (kWh) = Total Fuel Consumption (kWh) – Market-Based Energy from Biomass (kWh) – Market-Based Energy from Hydro (kWh) – Market-Based Energy from Solar (kWh) – Market-Based Energy from Wind (kWh) – Market-Based Energy from Geothermal

  • Market-Based Electricity from Geothermal (kWh) (MktBsdEnrgyFromGeothermalInKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Allocated Energy Attribute Credits from Geothermal (kWh) (AllocEnrgyAttrCrGeothermal)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Geothermal Mix Percentage (MktBasedGeothermalMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type = “Geothermal”, then Market-Based Electricity from Geothermal (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Geothermal Mix Percentage/100 + Allocated Renewable Energy (kWh)
    • If Renewable Energy Type ! = “Geothermal” && !Empty, then Market-Based Electricity from Geothermal (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Geothermal Mix Percentage/100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Geothermal (kWh) = [Total Fuel Consumption (kWh) (where Fuel Type = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Geothermal Mix Percentage/100 + Allocated Energy Attribute Credits from Geothermal (kWh)
  • Market-Based Electricity from Other Fossil Fuel (kWh) (MktBsdElectrOthrFossilFuelKwh)

    Input Fields

    • Stationary Asset Energy Use (StnryAssetEnrgyUse)
      • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
      • Allocated Renewable Energy (kWh) (AllocatedRenewableEnergyInKwh)
      • Renewable Energy Type (RenewableEnergyType)
      • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)
      • Allocated Energy Attribute Credits from Geothermal (kWh) (AllocEnrgyAttrCrGeothermal)
      • Fuel Type (FuelType)
    • Electricity Emissions Factor Set (ElectricityEmssnFctrSet)
      • Market-Based Other Fossil Fuel Mix Percentage (MktBasedOtherFossilFuelMixPct)
    • Energy Attribute Credit Distribution (EnergyAttrCreditDstr)

    Calculations

    • If Renewable Energy Type ! = Empty, then Market-Based Electricity from Other Fossil Fuel (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Renewable Energy (kWh)] × ElectricityEmssnFctrSet.Market-Based Other Fossil Fuel Mix Percentage/100
    • When the renewable energy allocation is happening from the Energy Attribute Credit Distribution object, if Renewable Energy Type == Empty (None), then Market-Based Electricity from Other Fossil Fuel (kWh) = [Total Fuel Consumption (kWh) (where FuelType = “Electricity”) – Allocated Energy Attribute Credits (kWh)] × ElectricityEmssnFctrSet.Market-Based Other Fossil Fuel Mix Percentage/100.
  • Allocated Energy Attribute Credits (kWh) (AllocEnrgyAttrCrInKwh)

    Input Fields

    • Allocated Energy Attribute Credits from Biomass (kWh) (AllocEnrgyAttrCrBiomassNumber)
    • Allocated Energy Attribute Credits from Geothermal (kWh) (AllocEnrgyAttrCrGeothermalNumber)
    • Allocated Energy Attribute Credits from Solar (kWh) (AllocEnrgyAttrCrSolarNumber)
    • Allocated Energy Attribute Credits from Wind (kWh) (AllocEnrgyAttrCrWind)

    Calculations

    Allocated Energy Attribute Credits (kWh) = Allocated Energy Attribute Credits from Biomass (kWh) + Allocated Energy Attribute Credits from Geothermal (kWh) + Allocated Energy Attribute Credits from Wind (kWh) + Allocated Energy Attribute Credits from Solar (kWh)

  • Scope 3 Downstream Emissions (tCO2e) (Scope3DnstrmEmissionsIntCO2e)

    Input Fields

    • Other Emissions Factors (OtherEmissionFactors)
    • Supplemental Scope 3 Downstream Emissions (SuplScope3DnstrmEmissions)
    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Stationary Asset Environmental Source (StnryAssetEnvrSrc)
    • Carbon Emissions Scope Allocation (CrbnEmssnScopeAllocId) 

    Calculations

    If(StnryAssetEnvrSrc.CrbnEmssnScopeAlloc.CrbnEmssnScopeAllocVal.FuelTypeAllocation value is one of these values

    • Scope 3 Downstream
    • Scope 3 Downstream Leased Assets
    • Scope 3 End-of-Life Treatment of Sold Products
    • Scope 3 Franchises
    • Scope 3 Investments
    • Scope 3 Processing of Sold Products
    • Scope 3 Use of Sold Products

    Then see the calculations for Scope 1 Emissions (tCO2e)

    Default Value

    Scope3DnstrmEmissionsIntCO2e = SuplScope3DnstrmEmissions

  • Scope 3 Upstream Emissions (tCO2e) (Scope3UpstrmEmissionsInTco2e)

    Input Fields

    • Other Emissions Factors (OtherEmissionFactors)
    • Supplemental Scope 3 Upstream Emissions (SuplScope3UpstrmEmissions)
    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Stationary Asset Environmental Source (StnryAssetEnvrSrc)

    Calculations

    If(StnryAssetEnvrSrc.CrbnEmssnScopeAlloc.CrbnEmssnScopeAllocVal.FuelTypeAllocation value is one of these values

    • Scope 3 Upstream
    • Scope 3 Capital Goods
    • Scope 3 Fuel and Energy-Related Activities
    • Scope 3 Purchased Goods and Services
    • Scope 3 Upstream Leased Assets
    • Scope 3 Waste Generated In Operations

    Then see the calculations for Scope 1 Emissions (tCO2e)

    Default Value

    Scope 3 Upstream Emissions (tCO2e) = Supplemental Scope 3 Upstream Emissions

  • Scope 3 GHG Category (Scope3GhgCategory)

    Input Fields

    • Stationary Asset Environmental Source (StnryAssetEnvrSrc)
    • Carbon Emissions Scope Allocation (CrbnEmssnScopeAllocId) 

    Calculations

    If(StnryAssetEnvrSrc.CrbnEmssnScopeAlloc.CrbnEmssnScopeAllocVal.FuelTypeAllocation value is one of these values

    • Scope 3 Purchased Goods and Services
    • Scope 3 Capital Goods
    • Scope 3 Processing of Sold Products
    • Scope 3 Upstream Leased Assets
    • Scope 3 Fuel and Energy-Related Activities
    • Scope 3 End-of-Life Treatment of Sold Products
    • Scope 3 Waste Generated In Operations
    • Scope 3 Use of Sold Products
    • Scope 3 Downstream Leased Assets
    • Scope 3 Investments
    • Scope 3 Franchises

    then

    Scope 3 GHG Category = CrbnEmssnScopeAllocVal.FuelTypeAllocation

    Else

    Scope 3 GHG Category = null

  • CH4 Emissions (kg) (Ch4EmissionsInKg)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Fuel Type (FuelType)
    • Other Emissions Factor Set (OtherEmssnFctrSet)
    • Other Emissions Factor Set Item (OtherEmssnFctrSetItem)

      Fuel Type (FuelType)

      CH4 Emissions Factor (Ch4EmissionFactor)

    • Electricity Emission Factor Set (ElectricityEmssnFctrSet)

      CH4 Emissions Rate (tonnes/GWh) (Ch4EmissionRateInTgwh)

    Calculations

    If Fuel Type = "Electricity"

    • CH4 Emissions (kg) = Total Fuel Consumption (kWh) × ElectricityEmssnFctrSet.CH4 Emissions Rate (tonnes/GWh) × 1000/1000000.0

    Default = 0

    For any fuel other than refrigerants and electricity

    • If CH4 Emissions Factor is in energy units

      CH4 Emissions (kg) = Total Fuel Consumption (kWh) × OtherEmissionFactor.OtherEmssnFctrSetItem.CH4 Emissions Factor where Fuel Type = OtherEmissionFactor.OtherEmssnFctrSetItem.Fuel Type and OtherEmissionFactor.OtherEmssnFctrSetItem.CH4 Emissions Factor is converted to Kg/Kwh

    • Else CH4 Emissions (kg) = 0
  • CO2 Emissions (kg) (Co2EmissionsInKg)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Fuel Type (FuelType)
    • Other Emissions Factor Set (OtherEmssnFctrSet)
    • Other Emissions Factor Set Item (OtherEmssnFctrSetItem)

      Fuel Type (FuelType)

      CO2 Emissions Factor (Co2EmissionFactor)

    • Electricity Emission Factor Set (ElectricityEmssnFctrSet)

      CO2 Emissions Rate (tonnes/MWh) (Co2EmissionRateInTmwh)

    Calculations

    If Fuel Type = "Electricity"

    • CO2 Emissions (kg) = Total Fuel Consumption (kWh) × ElectricityEmssnFctrSet.CO2 Emissions Rate (tonnes/MWh) × 1000/1000.0

    Default = 0

    For any fuel other than refrigerants and electricity

    • If CO2 Emissions Factor is in energy units

      CO2 Emissions (kg) = Total Fuel Consumption (kWh) × OtherEmissionFactor.OtherEmssnFctrSetItem.CO2 Emissions Factor where Fuel Type = OtherEmissionFactor.OtherEmssnFctrSetItem.Fuel Type and OtherEmissionFactor.OtherEmssnFctrSetItem.CO2 Emissions Factor is converted to Kg/Kwh

    • Else CO2 Emissions (kg) = 0
  • N2O Emissions (kg) (N2oEmissionsInKg)

    Input Fields

    • Total Fuel Consumption (kWh) (TotalFuelConsumptionInKwh)
    • Fuel Type (FuelType)
    • Other Emissions Factor Set (OtherEmssnFctrSet)
    • Other Emissions Factor Set Item (OtherEmssnFctrSetItem)

      Fuel Type (FuelType)

      N2O Emissions Factor (N2oEmissionFactor)

    • Electricity Emission Factor Set (ElectricityEmssnFctrSet)

      N2O Emissions Rate (tonnes/GWh) (N2oEmissionRateInTgwh)

    Calculations

    If Fuel Type = "Electricity"

    • N2O Emissions (kg) = Total Fuel Consumption (kWh) × ElectricityEmssnFctrSet.N2O Emissions Rate (tonnes/GWh) × 1000/1000000.0

    Default = 0

    For any fuel other than refrigerants and electricity

    • If N2O Emissions Factor is in energy units

      N2O Emissions (kg) = Total Fuel Consumption (kWh) × OtherEmissionFactor.OtherEmssnFctrSetItem.N2O Emissions Factor where Fuel Type = OtherEmissionFactor.OtherEmssnFctrSetItem.Fuel Type and OtherEmissionFactor.OtherEmssnFctrSetItem.N2O Emissions Factor is converted to Kg/Kwh

    • Else N2O Emissions (kg) = 0
  • Fuel Consumption

    Inputs

    • Occupied Floor Area (OccupiedFloorArea)
    • Occupied Floor Area Unit (OccupiedFloorAreaUnit)
    • Other Emission Factors (OtherEmissionFactors)
    • Refrigerant Leakage Rate (kg/sqft) (RefrigerantLeakageRtInKgSqft)

    Calculations

    If (Fuel Type = “Refrigerant”) and Fuel Consumption is NULL

    then

    Fuel Consumption = Occupied Floor Area (converted to sqft) × OtherEmissionFactors.Refrigerant Leakage Rate (kg/sqft)