The GCAM Land Model

This page provides more detailed explanations of the descriptions provided in the inputs to supply and inputs to demand modeling pages.

Mapping the IEA Energy Balances

The IEA Energy Balances (IEA 2019) are a comprehensive set of country-level statistics of energy production, transformation, and use that is the primary source of most calibration information in GCAM. However, the data product itself is somewhat complex, and the mappings from the IEA’s categories to GCAM’s sectors and fuels are not obvious. This section is intended to provide an overview description of the data processing with some detailed tables. It does not define the categories within the IEA data; interested readers are instead referred to the documentation (IEA 2011).

Processing the IEA Data

First, the three composite regions in the IEA Energy Balances (Other Africa, Other Asia, Other Non-OECD Americas) are downscaled to the country level on the basis of population, according to the IEA’s reported country-to-region mapping. This is necessary for the construction of several GCAM regions. Several minor modifications to the dataset are made where thermodynamically impossible conversions were found (e.g., non-zero electricity generation with zero input fuel) that would otherwise result in errors in GCAM. Once the cleaned and country-level dataset is produced, the mappings from the IEA’s categories to GCAM’s categories are used to aggregate the entire dataset by GCAM regions and sectors. The detailed mappings are shown in Table 3 and Table 4, and described further below.

Resolving primary energy balances

In the IEA Energy Balances, the following identity holds for any country and primary fuel:

\[{Production} + {Imports} - {Exports} + {NetStockChanges} + {NetStatisticalDifferences} = {Consumption}\]

In GCAM, stock changes and statistical differences are not represented, so globally, the sum of consumption must equal the sum of production, and within any region the sum of production and net trade must be equal to consumption. This is resolved by using the consumption data as reported, and scaling the production data so that the global totals are equal. Net trade in each region is then the difference between the reported consumption and the derived, scaled production.

Resolving secondary energy balances

Similar identities can be constructed for each secondary fuel, wherein the production in the equation above would be replaced by the output of the relevant energy transformation sector(s). Because net stock changes and statistical differences are not modeled for any fuel in GCAM, the data can not be used exactly as reported, and the strategies for addressing these “flows” differ by fuel.

For electricity, the fuel inputs to power plants, electricity generation by power plants, own use of electricity, and distribution losses of electricity are used exactly as reported in each region. The consumption by end use sectors (buildings, industry, and transportation) are scaled to match the generation minus own use and losses. As such, any statistical differences are effectively distributed to the end use sectors.

A similar approach is taken for district heat, in the regions where it is considered as a fuel. In most regions, district heat used by end-use sectors is simply represented by adding the reported fuel inputs to district heating systems to the final energy consumption quantities of the end use sectors. However in regions with significant usage of district services, documented in district heat, the estimates of fuel inputs to the district heat plants are used as reported. Heat outputs are derived using exogenous input-output coefficients, and apportioned to end-use sectors according to relative shares of reported heat consumption.

For refined liquid fuels, the end-use consumption estimates by buildings, industry, and transportation are used as reported. Gross energy consumption quantities at petroleum refineries are also used exactly as reported, so any statistical differences or stock changes in the secondary fuels are effectively assigned to the input-output coefficients of the refineries in the historical years.

The remaining fuels used by end-use consumers (coal, natural gas, and biomass) are primary fuels, whose statistical differences are assigned to the production and trade quantities as described above.

Resolving final energy consumption

This section documents the processing of data from the IEA Energy Balances to GCAM’s “aggregate” final energy consumers: residential, commercial, industrial energy use, industrial feedstocks, and the following transportation modes: air, rail, road, and domestic and international ship. Further processing of the data to the more detailed end-use sectors, services, and technologies in GCAM is documented in buildings, industry, and transportation.

Detailed mappings of products and flows

The tables below show the mappings from the IEA’s “flows” to GCAM’s sectors, and from the IEA’s “products” to GCAM’s fuels. Exceptions to simple one-to-one mappings are noted below the tables.

Table 3: Mapping from IEA flows to GCAM sectors (and subsectors where appropriate)

flow_code	flow_name	sector
INDPROD	Production	resources
IMPORTS	Imports
EXPORTS	Exports
MARBUNK	International Marine Bunkers	transportation/international shipping
AVBUNK	International Aviation Bunkers	transportation/air
STOCKCHA	Stock Changes
TPES	Total Primary Energy Supply
TRANSFER	Transfers
STATDIFF	Statistical Differences
TOTTRANF	Transformation Sector
MAINELEC	Main Activity Producer Electricity Plants	electricity
AUTOELEC	Autoproducer Electricity Plants	electricity
MAINCHP	Main Activity Producer CHP Plants	electricity
AUTOCHP	Autoproducer CHP Plants	industrial energy use
MAINHEAT	Main Activity Producer Heat Plants	district heat
AUTOHEAT	Autoproducer Heat Plants	district heat
THEAT	Heat Pumps	industrial energy use
TBOILER	Electric Boilers	industrial energy use
TELE	Chemical heat for electricity production
TBLASTFUR	Blast Furnaces	industrial energy use
TGASWKS	Gas Works	gas processing/coal gasification; industrial energy use
TCOKEOVS	Coke Ovens	industrial energy use
TPATFUEL	Patent Fuel Plants	industrial energy use
TBKB	BKB Plants	industrial energy use
TREFINER	Petroleum Refineries	refining/oil refining
TPETCHEM	Petrochemical Industry	industrial energy use
TCOALLIQ	Coal Liquefaction Plants	refining/coal to liquids
TGTL	Gas-to-Liquids (GTL) Plants	refining/gas to liquids
TBLENDGAS	For Blended Natural Gas	gas processing/coal gasification; industrial energy use
TCHARCOAL	Charcoal Production Plants	industrial energy use
TNONSPEC	Non-specified (Transformation)	industrial energy use
TOTENGY	Energy Sector
EMINES	Coal Mines	industrial energy use
EOILGASE0	Oil and Gas Extraction	industrial energy use
EBLASTFUR	Blast Furnaces	industrial energy use
EGASWKS	Gas Works	gas processing/coal gasification; industrial energy use
EBIOGAS	Gasification Plants for Biogas	industrial energy use
ECOKEOVS	Coke Ovens	industrial energy use
EPATFUEL	Patent Fuel Plants	industrial energy use
EBKB	BKB Plants	industrial energy use
EREFINER	Petroleum Refineries	refining/oil refining
ECOALLIQ	Coal Liquefaction Plants	refining/coal to liquids
ELNG	Liquefaction (LNG) / Regasification Plants	industrial energy use
EGTL	Gas-to-Liquids (GTL) Plants	refining/gas to liquids
EPOWERPLT	Own Use in Electricity, CHP and Heat Plants	electricity net ownuse; industrial energy use
EPUMPST	Used for Pumped Storage	electricity net ownuse; industrial energy use
ENUC	Nuclear Industry	industrial energy use
ECHARCOAL	Charcoal Production Plants	industrial energy use
ENONSPEC	Non-specified (Energy)	industrial energy use
DISTLOSS	Distribution Losses	electricity t&d; gas pipeline; industrial energy use
TFC	Total Final Consumption
TOTIND	Industry Sector	industrial energy use
IRONSTL	Iron and Steel
CHEMICAL	Chemical and Petrochemical
NONFERR	Non-Ferrous Metals
NONMET	Non-Metallic Minerals
TRANSEQ	Transport Equipment
MACHINE	Machinery
MINING	Mining and Quarrying
FOODPRO	Food and Tobacco
PAPERPRO	Paper, Pulp and Print
WOODPRO	Wood and Wood Products
CONSTRUC	Construction
TEXTILES	Textile and Leather
INONSPEC	Non-specified (Industry)
TOTTRANS	Transport Sector
WORLDAV	World Aviation Bunkers
DOMESAIR	Domestic Aviation	transportation/air
ROAD	Road	transportation/road
RAIL	Rail	transportation/rail
PIPELINE	Pipeline Transport	gas pipeline; industrial energy use
WORLDMAR	World Marine Bunkers
DOMESNAV	Domestic Navigation	transportation/domestic ship
TRNONSPE	Non-specified (Transport)	transportation
TOTOTHER	Other Sectors
RESIDENT	Residential	residential
COMMPUB	Commercial and Public Services	commercial
AGRICULT	Agriculture/Forestry	industrial energy use
FISHING	Fishing	industrial energy use
ONONSPEC	Non-specified (Other)	commercial
NONENUSE	Non-Energy Use	industrial feedstocks
NEINTREN	Non-Energy Use Industry/Transformation/Energy
NECHEM	Memo: Feedstock Use in Petchemical Industry
NETRANS	Non-Energy Use in Transport
NEOTHER	Non-Energy Use in Other Sectors
ELOUTPUT	Elect.Output in GWh
ELMAINE	Elec Output-main activity producer ele plants	electricity
ELAUTOE	Elec Output-autoproducer electricity plants	electricity
ELMAINC	Elec Output-main activity producer CHP plants	electricity
ELAUTOC	Elec Output-autoproducer CHP plants	industrial energy use, electricity
HEATOUT	Heat Output in ktoe
HEMAINC	Heat Output-main activity producer CHP plants	electricity; district heat
HEAUTOC	Heat Output-autoproducer CHP plants
HEMAINH	Heat Output-main activity producer heat plant
HEAUTOH	Heat Output-autoproducer heat plants

Table 4: Mapping from the IEA fuels to GCAM fuels

product	fuel
Hard coal (if no detail)	coal
Brown coal (if no detail)	coal
Anthracite	coal
Coking coal	coal
Other bituminous coal	coal
Sub-bituminous coal	coal
Lignite	coal
Patent fuel	coal
Coke oven coke	coal
Gas coke	coal
Coal tar	coal
BKB/peat briquettes	coal
Gas works gas	gas
Coke oven gas	coal
Blast furnace gas	coal
Other recovered gases	coal
Peat	coal
Natural gas	gas
Natural Gas	gas
Crude/NGL/feedstocks (if no detail)	refined liquids
Crude oil	refined liquids
Natural gas liquids	refined liquids
Refinery feedstocks	refined liquids
Additives/blending components	refined liquids
Other hydrocarbons	refined liquids
Refinery gas	refined liquids
Ethane	refined liquids
Liquefied petroleum gases (LPG)	refined liquids
Motor gasoline	refined liquids
Aviation gasoline	refined liquids
Gasoline type jet fuel	refined liquids
Kerosene type jet fuel	refined liquids
Other kerosene	refined liquids
Other Kerosene	refined liquids
Gas/diesel oil	refined liquids
Fuel oil	refined liquids
Naphtha	refined liquids
White spirit & SBP	refined liquids
Lubricants	refined liquids
Bitumen	refined liquids
Paraffin waxes	refined liquids
Petroleum coke	refined liquids
Non-specified oil products	refined liquids
Industrial waste	biomass
Municipal waste (renewable)	biomass
Municipal waste (non-renewable)	biomass
Primary solid biofuels	biomass
Biogases	gas
Biogasoline	refined liquids
Biodiesels	refined liquids
Other liquid biofuels	biomass
Non-specified primary biofuels and waste	biomass
Charcoal	biomass
Elec/heat output from non-specified manufactured gases
Heat output from non-specified combustible fuels	heat
Nuclear	electricity
Hydro	electricity
Geothermal	electricity
Solar photovoltaics	electricity
Solar thermal	electricity
Tide, wave and ocean	electricity
Wind	electricity
Other sources	electricity
Electricity	electricity
Heat	heat
Total
Total of all energy sources
Memo: Renewables

Exceptions to one-to-one mapping from the categories in the IEA Energy Balances are noted here:

Gas works: Energy inputs and outputs from gas works are only assigned to the coal gasification subsector of gas processing when the input fuel is coal. Otherwise, energy consumed here is mapped to “industrial energy use”, and energy produced is simply added to the primary supply of natural gas.
Losses: electricity is assigned to “elect_td_XXX”; gas is assigned to “gas pipeline”, and the remainder of the fuels are assigned to “industrial energy use”.
Pipeline transport: natural gas is assigned to “gas pipeline”, and all other fuels are assigned to “industrial energy use”.
Primary solid biomass: this is normally mapped to “biomass”, except when consumed by the residential sector in a region where traditional biomass is modeled as a commodity, in which case it is assigned to “traditional biomass”.
Own use in electricity, CHP and heat plants: Electricity is mapped to “electricity_net_ownuse” and all other fuels are mapped to “industrial energy use”.
Other liquid biofuels: normally these are mapped to “biomass”, but when consumed by the transportation road flow, they are assigned to “refined liquids”, and for production purposes are assigned to the “refining/biomass liquids/ethanol” technology in each region.
Petroleum refineries: electricity, gas, and oil inputs are mapped to the refining sector, oil refining technology. However all other inputs (e.g., coal, district heat) are assigned to “industrial energy use.”
Transportation sector consumption of primary biomass commodities and heat are not considered.

References

[IEA 2011] International Energy Agency, 2011, Energy Balances of OECD Countries: Documentation for Beyond 2020 Files, International Energy Agency, Paris, France. Link

[IEA 2019] International Energy Agency, 2019, Energy Balances of OECD Countries 1960-2017 and Energy Balances of Non-OECD Countries 1971-2017, International Energy Agency, Paris, France.