FEM 2023 Energy & Global Warming Calculations

Table of Contents

1. Production and Domestic Energy Use

2. Wastewater Treatment

3. Refrigerants

4. Aggregates

 

To download this guide in PDF format, please see the FEM4.0 resources page.

Production and Domestic Energy Use 

Data Collection 

Data about production and domestic energy use is collected in the Energy section of FEM separated by facility type except in the case that a facility operates as and only as both a Finished Product Processing and Finished Product Assembler and Finished Product Processing represents 5% or less of the total production volume of the facility and the facility cannot track the energy use of the two facility types separately. In that case the Finished Product Processing energy use is reported as a part of the Finished Product Assembler facility type data. In the case that the two are combined energysepa rate will have a value of No.

Domestic energy use is either reported as a part of production use, in the case that a facility cannot separate the energy usage, or separately.

You can determine whether a facility is reporting energy values split between domestic and produc‑ tion or combined by looking at the ref_idensourcetracksepdomprodan answer of Nomeans the facility is reporting combined (row 3 in the table below) and Yes means separated (rows 1 and 2 in the table below). Because a facility will never report using both methods they may safely be summed without risk of double counting.

Raw energy use is reported in the follow ref_ids:

Where the wildcards [1] and [2] represent the energy source and facility type which may be any of the following values: 

So the raw value for energy usage of coal water slurry in Raw Material Collection & Bulk Refining for production would be found in either the ref_id ensourcerawMaterialCollectionquantpro densourcecoalwaterslurry or ensourcerawMaterialCollectionquantensource coalwaterslurry the former if ensourcetracksepdomprod is Yes the latter if it is no and then combined with domestic energy use but never both. 

Conversion to MJ 

All domestic and production energy sources are converted into MJ from the reported unit in calculations with the ref_id form of

The wild cards [1] and [2] are the energy source and facility type as above. 

Most energy sources are converted to MJ using the following energy densities which, where possible, represent the lower heating value (LHV) of the source and, regardless, use either the best available energy density or a proxy deemed as sufficiently representative. Sources and conversion formulas used to convert from the source data to the numbers in the following table are available in the Excel FEM 2023 Emission Factors but are left out here for space:

The exceptions are districtheating, steampurch, diesel, and biodiesel. 

When reported in a non energy unit the energy density of district heating is calculated using the dif‑ ference between the temperature of the heated water received at the facility and the temperature of the water exiting. These values may be found in ensourcedistrictheatingrectemp and ensourcedistrictheatingexittemp respectively. 

When reported as a mass unit (volume is not allowed) the energy density of steam is calculated using the reported pressure and temperature of the steam. These values may be found in ensteampres sure and ensteamtemp respectively. 

The MJ values of diesel and biodiesel are adjusted based on the reported mixtures of biodiesel and diesel in each energy source so that the reported MJ only represent biodiesel and diesel rather than blends. The mix values for production/domestic use may be found in endieselmix and enbiodieselmix where the latter is the mixture of reported biodiesel usage and the former is the mixture of reported diesel usage. 

Sources without listed energy densities may only be reported as energy units and conversion to MJ is straightforward. 

For secondary energy sources the assumed efficiency of the generation source is accounted for during the conversion to MJ. Restated, the reported MJ for secondary sources includes an assumption about generation efficiency. 

Conversion to kg CO2e 

The kg CO2e emitted through the use of all domestic and production energy sources is calculated and reported with the ref_id form of

The wild cards [1] and [2] are the energy source and facility type as above. 

In most cases the kg CO2e emissions are calculated using a single default emission factor from the following table. Sources for the data in the following table are available in the Excel FEM 2023 Emission Factors but are left out here for space:

The exceptions are electricpurch, chilledwater, districtheating, purchrenew, and steampurch which may have their emissions calculated based on different factors. 

electricpurch is based on the facility’s country grid emission factor by default but is overridden as specified by the facility in the question enghgefelecpurchwquant if the answer enghge felecpurch is Yes. The country grid emission factors are updated when possible for each FEM cadence and may not be disclosed as they are licensed from IEA. 

The rest may either have their specific emission factor reported by the facility and/or the mix of sources used to generate the energy. If the specific emission factor is reported that value is used. If there is no specific reported emission factor but the source mix is reported those values are used to calculate an emission factor based on the emission factors in the table above. Otherwise, the default value from the table above is used. 

Vehicle Energy Use 

Raw vehicle energy use is reported in the ref_ids ensourcequantvehicle[1] for the quantity ensourceunitvehicle[1] and the unit of measure. The wildcard [1] is energy source as found in the following table:

The MJ used and kg CO2e emissions are calculated as per the “Production and Domestic Energy Use” section with the following ref_id formats ensourcequantvehcile[1]_mj and ensource quantdomestic[1]_kgco2e. The wildcard [1] represents the energy source. 

The following special cases modify the MJ calculations: 

The mix of ethanol with petrol may be reported in enethanolvehiclemix in which case the MJ of ethanol includes the volume mixed into petrol. 

The MJ values of diesel and biodiesel are adjusted based on the reported mixtures of biodiesel and diesel in each energy source so that the reported MJ only represent biodiesel and diesel rather than blends. The mix values for vehicle use may be found in endieselvehiclemix and enbiodie selvehiclemix where the latter is the mixture of reported biodiesel usage and the former is the mixture of reported diesel usage. 

Vehicle energy sources use the same energy densities and emission factors as production/domestic sources. Several sources are reported for vehicles only and have the following values for energy density.

Energy Density

Note: FEM reports on emissions from scope 1 and 2 only so the scope 3 emissions for hydrogen are not in scope. 

Wastewater Treatment

Biogenic carbon emissions from waste water treatment expressed in terms of kg CO2e may be found in the aggregate calculation under the ref_id biogenicCO2e. 

[The US EPA reference for estimating biogenic emissions](https://www.epa.gov/air‑emissions‑factor s‑and‑quantification/greenhouse‑gas‑emissions‑estimation‑methodologies‑biogenic was used as the source for the calculations performed in FEM 2023. 

The following emission formulas were used: 

CO2 Emission Formula: 

CO2 =10^−6 ×Qww ×OD×EffOD ×CFCO2 ×[(1−MCFww ×BGCH4 )(1−λ)] 

CH4 Emission Formula: 

CH4 =10^−6 ×Qww ×OD×EffOD ×CFCH4 ×[(MCFww ×BGCH4 )(1−λ)] 

Where: 

CO2 = CO2 emission rate (Mg CO2/hr) 

CH4 = CH4 emission rate (Mg CH4/hr) 

10^-6 = Units conversion factor (Mg/g) 

QWW = Wastewater influent flow rate (m3/hr) 

OD = Oxygen demand of influent wastewater to the biological treatment 

↪ unit determined as either BOD5 or COD (mg/L = g/m3) 

EffOD = Oxygen demand removal efficiency of the biological treatment unit CFCO2 = Conversion factor for maximum CO2 generation per unit of oxygen 

↪ demand 

44/32 = 1.375 g CO2/ g oxygen demand 

CFCH4 = Conversion factor for maximum CH4 generation per unit of oxygen 

↪ demand 

16/32 = 0.5 g CH4/ g oxygen demand 

MCFWW = methane correction factor for wastewater treatment unit, indicating the fraction of the influent oxygen demand that is converted 

↪ anaerobically in the wastewater treatment unit 

↪ BGCH4 = Fraction of carbon as CH4 generated biogas (default is 0.65) 

λ = Biomass yield (g C converted to biomass/g C consumed in the 

↪ wastewater treatment process).

Wastewater Treatment

For a given facility the treatment type used to assign values from table 2.3 are determined by applying the following logic to the values given for wwbiologicalp[1]process where the wild card [1] represents the waste water type (domestic, industrial, or combined). 

For sub process calculations the process type given by the facility is used. 

Refrigerants

Refrigerant use is reported in the Air Emissions section of FEM. Usage information can be found in the following ref_ids: 

The wildcard [1] represents the refrigerant being reported on. The possible values may be found in the emission factor table for refrigerants that follows. 

To calculate the kg of CO2e emissions due to refrigerant usage the quantity of refrigerant used is converted to kg and then multiplied by the emission factor found in the following table:

Reference

Valuekg CO2e per KG

 

 

 

 r10

 R-10 (PCC)

 2200.0000

 r11

 R-11 (CFC)

 5560.0000

 r12

 R-12 (CFC)

 11200.0000

 r12B1

 R-12B1 (H)

 1930.0000

 r12B2

 R-12B2 (H)

 216.0000

 r13

 R-13 (CFC)

 16200.0000

 r13B1

 R-13B1 (H)

 7200.0000

 r14

 R-14 (PFC)

 7380.0000

 r20

 R-20 (HCC)

 16200.0000

 r21

 R-21 (HCFC)

 160.0000

 r22

 R-22 (HCFC)

 1960.0000

 r22B1

 R-22B1 (H)

 380.0000

 r23

 R-23 (HFC)

 14800.0000

 r30

 R-30 (HCC)

 11.2000

 r31

 R-31 (HCFC)

 79.4000

 r32

 R-32 (HFC)

 771.0000

 r40

 R-40 (HCC)

 5.5400

 r41

 R-41 (HFC)

 135.0000

 r50

 R-50 (HC)

 27.9000

 r110

 R-110 (PCC)

 

 r111

 R-111 (CFC)

 

 r112

 R-112 (CFC)

 4620.0000

 r112A

 R-112a (CFC)

 3550.0000

 r113

 R-113 (CFC)

 6520.0000

 r113A

 R-113a (CFC)

 3930.0000

 r114

 R-114 (CFC)

 9430.0000

 r114A

 R-114a (CFC)

 7420.0000

 r114B2

 R-114B2 (H)

 2170.0000

 r115

 R-115 (CFC)

 9600.0000

 r116

 R-116 (PFC)

 12400.0000

 r120

 R-120 (HCC)

 

 r121

 R-121 (HCFC)

 58.3000

 r121A

 R-121a (HCFC)

 

 r122

 R-122 (HCFC)

 56.4000

 r122A

 R-122a (HCFC)

 245.0000

 r122B

 R-122b (HCFC)

 772.0000

 r123

 R-123 (HCFC)

 90.4000

 r123A

 R-123a (HCFC)

 395.0000

 r123B

 R-123b (HCFC)

 90.4000

 r124

 R-124 (HCFC)

 597.0000

 r124A

 R-124a (HCFC)

 2070.0000

 r125

 R-125 (HFC)

 3500.0000

 re125

 R-E125 (HFC)

 14900.0000

 r130

 R-130 (HCC)

 9.0000

 r130A

 R-130a (HCC)

 128.0000

 r131

 R-131 (HCFC)

 30.0000

 r131A

 R-131a (HCFC)

 181.0000

 r131B

 R-131b (HCFC)

 128.0000

 r132

 R-132 (HCFC)

 122.0000

 r132A

 R-132a (HCFC)

 70.4000

 r132B

 R-132b (HCFC)

 332.0000

 r132C

 R-132c (HCFC)

 342.0000

 r132BB2

 R-132bB2 (H)

 

 r133

 R-133 (HCFC)

 275.0000

 r133A

 R-133a (HCFC)

 388.0000

 r133B

 R-133b (HCFC)

 834.0000

 r134

 R-134 (HFC)

 1260.0000

 r134A

 R-134a (HFC)

 1530.0000

 re134

 R-E134 (HFC)

 840.0000

 r140

 R-140 (HCC)

 2.0000

 r140A

 R-140a (HCC)

 161.0000

 r141

 R-141 (HCFC)

 46.6000

 r141B2

 R-141B2 (H)

 

 r141A

 R-141a (HCFC)

 46.6000

 r141B

 R-141b (HCFC)

 860.0000

 r142

 R-142 (HCFC)

 189.0000

 r142A

 R-142a (HCFC)

 175.0000

 r142B

 R-142b (HCFC)

 2300.0000

 r143

 R-143 (HFC)

 353.0000

 r143A

 R-143a (HFC)

 4470.0000

 r143M

 R-143m (HFC)

 607.0000

 re143A

 R-E143a (HFC)

 5810.0000

 r150

 R-150 (HCC)

 1.0000

 r150A

 R-150a (HCC)

 4.0000

 r151

 R-151 (HCFC)

 12.0000

 r151A

 R-151a (HCFC)

 58.0000

 r152

 R-152 (HFC)

 21.5000

 r152A

 R-152a (HFC)

 164.0000

 r160

 R-160 (HCC)

 0.4810

 r161

 R-161 (HFC)

 4.8400

 r170

 R-170 (HC)

 0.4370

 re170

 R-E170 (HC)

 0.0000

 r211

 R-211 (CFC)

 

 r212

 R-212 (CFC)

 

 r213

 R-213 (CFC)

 

 r214

 R-214 (CFC)

 

 r215

 R-215 (CFC)

 

 r216

 R-216 (CFC)

 

 r216Ca

 R-216ca (CFC)

 7540.0000

 r217

 R-217 (CFC)

 

 r217Ba

 R-217ba (CFC)

 

 r218

 R-218 (PFC)

 9290.0000

 r221

 R-221 (HCFC)

 110.0000

 r222

 R-222 (HCFC)

 500.0000

 r222C

 R-222c (HCFC)

 73.0000

 r223

 R-223 (HCFC)

 695.0000

 r223Ca

 R-223ca (HCFC)

 90.0000

 r223Cb

 R-223cb (HCFC)

 258.0000

 r224

 R-224 (HCFC)

 1095.0000

 r224Ca

 R-224ca (HCFC)

 142.0000

 r224Cb

 R-224cb (HCFC)

 116.0000

 r224Cc

 R-224cc (HCFC)

 1180.0000

 r225

 R-225 (HCFC)

 1560.0000

 r225Aa

 R-225aa (HCFC)

 1040.0000

 r225Ba

 R-225ba (HCFC)

 350.0000

 r225Bb

 R-225bb (HCFC)

 1650.0000

 r225Ca

 R-225ca (HCFC)

 137.0000

 r225Cb

 R-225cb (HCFC)

 568.0000

 r225Cc

 R-225cc (HCFC)

 1580.0000

 r225Da

 R-225da (HCFC)

 1620.0000

 r225Ea

 R-225ea (HCFC)

 1700.0000

 r225Eb

 R-225eb (HCFC)

 1270.0000

 r226

 R-226 (HCFC)

 2455.0000

 r226Ba

 R-226ba (HCFC)

 1630.0000

 r226Ca

 R-226ca (HCFC)

 509.0000

 r226Cb

 R-226cb (HCFC)

 2610.0000

 r226Da

 R-226da (HCFC)

 2630.0000

 r226Ea

 R-226ea (HCFC)

 2680.0000

 r227Ca

 R-227ca (HFC)

 3180.0000

 r227Ca2

 R-227ca2 (HFC)

 3640.0000

 r227Ea

 R-227ea (HFC)

 3220.0000

 r227Me

 R-227me (HFC)

 6930.0000

 r231

 R-231 (HCFC)

 350.0000

 r232

 R-232 (HCFC)

 690.0000

 r232Ca

 R-232ca (HCFC)

 27.0000

 r232Cb

 R-232cb (HCFC)

 278.0000

 r233

 R-233 (HCFC)

 1495.0000

 r233Ca

 R-233ca (HCFC)

 71.0000

 r233Cb

 R-233cb (HCFC)

 372.0000

 r233Cc

 R-233cc (HCFC)

 501.0000

 r234

 R-234 (HCFC)

 3490.0000

 r234Aa

 R-234aa (HCFC)

 464.0000

 r234Ab

 R-234ab (HCFC)

 291.0000

 r234Ba

 R-234ba (HCFC)

 260.0000

 r234Bb

 R-234bb (HCFC)

 376.0000

 r234Bc

 R-234bc (HCFC)

 695.0000

 r234Ca

 R-234ca (HCFC)

 199.0000

 r234Cb

 R-234cb (HCFC)

 116.0000

 r234Cc

 R-234cc (HCFC)

 900.0000

 r234Cd

 R-234cd (HCFC)

 665.0000

 r234Da

 R-234da (HCFC)

 195.0000

 r234Fa

 R-234fa (HCFC)

 3700.0000

 r234Fb

 R-234fb (HCFC)

 3310.0000

 r235

 R-235 (HCFC)

 5320.0000

 r235Ca

 R-235ca (HCFC)

 583.0000

 r235Cb

 R-235cb (HCFC)

 410.0000

 r235Cc

 R-235cc (HCFC)

 1560.0000

 r235Da

 R-235da (HCFC)

 491.0000

 r235Fa

 R-235fa (HCFC)

 580.0000

 r236Cb

 R-236cb (HFC)

 1340.0000

 r236Ea

 R-236ea (HFC)

 1370.0000

 r236Fa

 R-236fa (HFC)

 9810.0000

 r236Me

 R-236me (HFC)

 988.0000

 rfe36

 R-FE-36 (HFC)

 2630.0000

 r241

 R-241 (HCFC)

 450.0000

 r242

 R-242 (HCFC)

 1025.0000

 r243

 R-243 (HCFC)

 2060.0000

 r243Ca

 R-243ca (HCFC)

 213.0000

 r243Cb

 R-243cb (HCFC)

 95.0000

 r243Cc

 R-243cc (HCFC)

 2060.0000

 r243Da

 R-243da (HCFC)

 125.0000

 r243Ea

 R-243ea (HCFC)

 105.0000

 r243Ec

 R-243ec (HCFC)

 119.0000

 r244

 R-244 (HCFC)

 3360.0000

 r244Ba

 R-244ba (HCFC)

 388.0000

 r244Bb

 R-244bb (HCFC)

 1770.0000

 r244Ca

 R-244ca (HCFC)

 487.0000

 r244Cb

 R-244cb (HCFC)

 315.0000

 r244Cc

 R-244cc (HCFC)

 3620.0000

 r244Da

 R-244da (HCFC)

 313.0000

 r244Db

 R-244db (HCFC)

 177.0000

 r244Ea

 R-244ea (HCFC)

 201.0000

 r244Eb

 R-244eb (HCFC)

 137.0000

 r244Ec

 R-244ec (HCFC)

 284.0000

 r244Fa

 R-244fa (HCFC)

 197.0000

 r244Fb

 R-244fb (HCFC)

 976.0000

 r245Ca

 R-245ca (HFC)

 787.0000

 r245Cb

 R-245cb (HFC)

 4550.0000

 r245Ea

 R-245ea (HFC)

 255.0000

 r245Eb

 R-245eb (HFC)

 325.0000

 r245Fa

 R-245fa (HFC)

 962.0000

 r245Mc

 R-245mc (HFC)

 649.0000

 r245Mf

 R-245mf (HFC)

 

 r245Qc

 R-245qc (HFC)

 

 r251

 R-251 (HCFC)

 

 r252

 R-252 (HCFC)

 

 r252Ca

 R-252ca (HCFC)

 136.0000

 r252Cb

 R-252cb (HCFC)

 77.0000

 r252Dc

 R-252dc (HCFC)

 50.0000

 r252Ec

 R-252ec (HCFC)

 65.0000

 r253

 R-253 (HCFC)

 

 r253Ba

 R-253ba (HCFC)

 233.0000

 r253Bb

 R-253bb (HCFC)

 722.0000

 r253Ca

 R-253ca (HCFC)

 285.0000

 r253Cb

 R-253cb (HCFC)

 319.0000

 r253Ea

 R-253ea (HCFC)

 81.0000

 r253Eb

 R-253eb (HCFC)

 93.0000

 r253Ec

 R-253ec (HCFC)

 102.0000

 r253Fa

 R-253fa (HCFC)

 157.0000

 r253Fb

 R-253fb (HCFC)

 65.0000

 r253Fc

 R-253fc (HCFC)

 143.0000

 r254Cb

 R-254cb (HFC)

 

 r254Pc

 R-254pc (HFC)

 

 r261

 R-261 (HCFC)

 

 r261Ba

 R-261ba (HCFC)

 90.0000

 r262

 R-262 (HCFC)

 

 r262Ca

 R-262ca (HCFC)

 214.0000

 r262Fa

 R-262fa (HCFC)

 40.0000

 r262Fb

 R-262fb (HCFC)

 49.0000

 r263

 R-263 (HFC)

 

 r271

 R-271 (HCFC)

 

 r271B

 R-271b (HCFC)

 362.0000

 r271D

 R-271d (HCFC)

 4.0000

 r271Fb

 R-271fb (HCFC)

 22.0000

 r272

 R-272 (HFC)

 

 r281

 R-281 (HFC)

 

 r290

 R-290 (HC)

 20.0000

 rc316

 R-C316 (CFC)

 

 rc317

 R-C317 (CFC)

 

 rc318

 R-C318 (PFC)

 10200.0000

 r3110

 R-3-1-10 (PFC)

 10000.0000

 r329Ccb

 R-329ccb (HFC)

 2360.0000

 r338Eea

 R-338eea (HFC)

 1320.0000

 r347Ccd

 R-347ccd (HFC)

 3060.0000

 r347Mcc

 R-347mcc (HFC)

 

 r347Mmy

 R-347mmy (HFC)

 

 r365Mfc

 R-365mfc (HFC)

 914.0000

 r4112

 R-4-1-12 (PFC)

 9220.0000

 r5114

 R-5-1-14 (PFC)

 8620.0000

 r400

 R-400 (CFC)

 

 r401A

 R-401A (HCFC)

 16.0000

 r401B

 R-401B (HCFC)

 14.0000

 r401C

 R-401C (HCFC)

 19.0000

 r402A

 R-402A (HCFC)

 2100.0000

 r402B

 R-402B (HCFC)

 1330.0000

 r403A

 R-403A (HCFC)

 3124.0000

 r403B

 R-403B (HCFC)

 3444.0000

 r404A

 R-404A (HFC)

 4728.0000

 r405A

 R-405A (HCFC)

 5328.0000

 r406A

 R-406A (HCFC)

 1943.0000

 r406B

 R-406B (HCFC)

 1839.0000

 r407A

 R-407A (HFC)

 2262.0000

 r407B

 R-407B (HFC)

 3001.0000

 r407C

 R-407C (HFC)

 1908.0000

 r407D

 R-407D (HFC)

 1748.0000

 r407E

 R-407E (HFC)

 1672.0000

 r407F

 R-407F (HFC)

 1965.0000

 r408A

 R-408A (HCFC)

 3000.0000

 r409A

 R-409A (HCFC)

 1600.0000

 r409B

 R-409B (HCFC)

 1560.0000

 r410A

 R-410A (HFC)

 2256.0000

 r410B

 R-410B (HFC)

 2404.0000

 r411A

 R-411A (HCFO)

 14.0000

 r411B

 R-411B (HCFO)

 4.0000

 r411C

 R-411C (HCFO)

 1730.0000

 r412A

 R-412A (HCFC)

 2286.0000

 r413A

 R-413A (HFC)

 2183.0000

 r414A

 R-414A (HCFC)

 0.0000

 r414B

 R-414B (HCFC)

 0.0000

 r415A

 R-415A (HCFC)

 1507.0000

 r415B

 R-415B (HCFC)

 546.0000

 r416A

 R-416A (HCFC)

 1084.0000

 r417A

 R-417A (HFC)

 2508.0000

 r417B

 R-417B (HFC)

 3235.0000

 r418A

 R-418A (HCFC)

 1741.0000

 r419A

 R-419A (HFC)

 3171.0000

 r420A

 R-420A (HCFC)

 1548.0000

 r421A

 R-421A (HFC)

 2812.0000

 r421B

 R-421B (HFC)

 3409.0000

 r422A

 R-422A (HFC)

 3359.0000

 r422B

 R-422B (HFC)

 2700.0000

 r422C

 R-422C (HFC)

 3296.0000

 r422D

 R-422D (HFC)

 2917.0000

 r423A

 R-423A (HFC)

 2513.0000

 r424A

 R-424A (HFC)

 2608.0000

 r425A

 R-425A (HFC)

 1638.0000

 r426A

 R-426A (HFC)

 1614.0000

 r427A

 R-427A (HFC)

 2397.0000

 r428A

 R-428A (HFC)

 4061.0000

 r429A

 R-429A (HFC)

 16.0000

 r430A

 R-430A (HFC)

 125.0000

 r431A

 R-431A (HFC)

 48.0000

 r432A

 R-432A (HO)

 

 r433A

 R-433A (HO)

 20.0000

 r433B

 R-433B (HO)

 20.0000

 r433C

 R-433C (HO)

 20.0000

 r434A

 R-434A (HFC)

 3654.0000

 r435A

 R-435A (HFC)

 33.0000

 r436A

 R-436A (HC)

 0.0000

 r436B

 R-436B (HC)

 0.0000

 r437A

 R-437A (HFC)

 1930.0000

 r438A

 R-438A (HFC)

 2425.0000

 r439A

 R-439A (HFC)

 2143.0000

 r440A

 R-440A (HFC)

 185.0000

 r441A

 R-441A (HC)

 20.0000

 r500

 R-500 (HCFC)

 8100.0000

 r501

 R-501 (HCFC)

 0.0000

 r502

 R-502 (CFC)

 0.0000

 r503

 R-503 (HCFC)

 4692.0000

 r504

 R-504 (HCFC)

 313.0000

 r505

 R-505 (HCFC)

 0.0000

 r506

 R-506 (HCFC)

 0.0000

 r507A

 R-507[A] (HFC)

 3300.0000

 r508A

 R-508[A] (HFC)

 10175.0000

 r508B

 R-508B (HFC)

 10350.0000

 r509A

 R-509[A] (HCFC)

 3920.0000

 r510A

 R-510[A] (HC)

 0.0000

 r511A

 R-511[A] (HC)

 0.0000

 r600

 R-600 (HC)

 0.0060

 r600A

 R-600a (HC)

 0.0000

 r601

 R-601 (HC)

 20.0000

 r601A

 R-601a (HC)

 20.0000

 r610

 R-610 (HC)

 

 r611

 R-611 (HC)

 25.0000

 r630

 R-630

 

 r631

 R-631

 

 r702

 R-702

 5.8000

 r704

 R-704

 

 r717

 R-717

 

 r718

 R-718

 

 r720

 R-720

 

 r728

 R-728

 

 r729

 R-729

 

 r732

 R-732

 

 r740

 R-740

 

 r744

 R-744

 1.0000

 r744A

 R-744A

 298.0000

 r764

 R-764

 

 r784

 R-784

 

 r1112A

 R-1112a (CFO)

 

 r1113

 R-1113 (CFO)

 12.0000

 r1114

 R-1114 (PFO)

 6.5000

 r1120

 R-1120 (HCO)

 

 r1130

 R-1130 (HCO)

 

 r1132A

 R-1132a (HFO)

 1.7000

 r1140

 R-1140 (HCO)

 

 r1141

 R-1141 (HFO)

 0.0200

 r1150

 R-1150 (HO)

 6.8000

 r1216

 R-1216 (PFO)

 8.7000

 r1218

 R-1218 (PFO)

 

 r1233Zd

 R-1233zd (HCFO)

 

 r1234Yf

 R-1234yf (HFO)

 

 r1234Ze

 R-1234ze (HFO)

 1.4000

 r1270

 R-1270 (HO)

 20.0000

 

Empty values result in a value of 0 kg CO2e per kg of refrigerant.

Aggregates

Aggregates Existing from FEM 2022 

Note: no aggregate calculation existing in FEM 2022 has been changed to include biogenic emissions from waste water or account for EACs reported in the FEM Energy Section Question 3 ensour cepurcheac and its children. 

ensource[1]total 

Total MJ of energy across all facility types, domestic and vehicle usage from the source represented by the wild card [1] 

ensource[1]totalghg 

Total kg CO2e of energy across all facility types, domestic and vehicle usage from the source repre‑ sented by the wild card [1] 

totalRenewableEmissions 

Total kg CO2e of energy across all facility types, domestic and vehicle usage from all renewable energy sources (includes biomass) 

totalNonRenewableEnergyEmissions 

Total kg CO2e of energy across all facility types, domestic and vehicle usage from all sources (does not include refrigerants) 

totalRefrigerantEmissions 

Total kg CO2e of emissions from refrigerants 

totalNonRenewableEmissions 

Total kg CO2e of energy across all facility types, domestic and vehicle usage from all non‑renewable sources (does include refrigerants) 

totalGHGemissions 

Total kg CO2e emissions from all energy sources and refrigerants

New Aggregates 

domestic_total_mj 

Total MJ of energy used for domestic purposes. Only has a value if the facility reported production and domestic usage separately. 

domestic_total_kgco2e 

Total kg CO2e of emissions from energy used for domestic purposes. Only has a value if the facility reported production and domestic usage separately. 

vehicle_total_mj 

Total MJ of energy used by vehicles. 

vehicle_total_kgco2e 

Total kg CO2e of emissions from vehicles. 

[2]_mj 

Total MJ of energy used across all sources for the facility type represented by the wild card [2] [2]_total_mj 

Total MJ of energy used across all sources for the facility type represented by the wild card [2]. In‑ cludes domestic and vehicle usage added evenly across each facility type. 

[2]_normalized_mj 

Total MJ of energy used per unit produced across all sources for the facility type represented by the wild card [2]. Includes domestic and vehicle usage added evenly across each facility type. The unit total and unit of measure can be found in sipfacilityannualprodvolquant[2] and sip facilityannualprodvolunits[2] respectively. 

[2]_kgco2e 

Total kg CO2e of emissions across all energy sources for the facility type represented by the wild card [2] 

[2]_total_kgco2e 

Total kg CO2e of emissions produced across all energy sources for the facility type represented by the wild card [2]. Includes domestic and vehicle usage added evenly across each facility type. 

[2]_normalized_kgco2e 

Total kg CO2e of emissions per unit produced across all energy sourcesfor thefacility type represented by the wild card [2]. Includes domestic and vehicle usage added evenly across each facility type. 

The unit total and unit of measure can be found in sipfacilityannualprodvolquant[2] and sipfacilityannualprodvolunits[2] respectively.

Additional Aggregates 

Additional aggregations may be found in exports and other reporting. They are documented in the data dictionary or report specific documentation as appropriate.