TIMES-France: Difference between revisions
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{{ModelInfoTemplate | {{ModelInfoTemplate | ||
|Name=TIMES-France | |Name=TIMES-France | ||
|Version= | |Version=2.0 | ||
|ModelLink=https://www.cma.mines-paristech.fr/en/site-page/development-times-france-and-tiam-fr-prospective-modeling-tools | |ModelLink=https://www.cma.mines-paristech.fr/en/site-page/development-times-france-and-tiam-fr-prospective-modeling-tools | ||
|participation=reference card only | |participation=reference card only | ||
|processState= | |processState=published | ||
}} | }} | ||
{{InstitutionTemplate | {{InstitutionTemplate | ||
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|country=France | |country=France | ||
}} | }} | ||
{{ScopeMethodTemplate}} | {{ScopeMethodTemplate | ||
{{Socio-economicTemplate}} | |ModelTypeOption=Energy system model | ||
{{Macro-economyTemplate}} | |GeographicalScopeOption=Regional | ||
{{EnergyTemplate}} | |Objective=The TIMES-France is a bottom-up optimization model of the MARKAL/TIMES family of energy models based on an optimality paradigm and is used to study the future evolution of the French energy system. | ||
|SolutionConceptOption=Partial equilibrium (fixed demand) | |||
|SolutionHorizonOption=Intertemporal optimization (foresight) | |||
|SolutionMethodOption=Optimization | |||
|BaseYear=2014 | |||
|TimeSteps=5 | |||
|Horizon=2050 | |||
|Nr=1 | |||
|Region=France | |||
|TimeDiscountingTypeOption=Discount rate exogenous | |||
|PoliciesOption=Emission tax; Fuel taxes; Fuel subsidies; Feed-in-tariff; Capacity targets | |||
}} | |||
{{Socio-economicTemplate | |||
|PopulationOption=Yes (exogenous) | |||
|GDPOption=Yes (exogenous) | |||
}} | |||
{{Macro-economyTemplate | |||
|TradeOption=Coal; Oil; Gas; Uranium; Electricity | |||
|CoalRUOption=Yes (fixed) | |||
|ConventionalOilRUOption=Yes (fixed) | |||
|UnconventionalOilRUOption=Yes (fixed) | |||
|ConventionalGasRUOption=Yes (fixed) | |||
|UnconventionalGasRUOption=Yes (fixed) | |||
|UraniumRUOption=Yes (fixed) | |||
|BioenergyRUOption=Yes (supply curve) | |||
|IndustryESOption=Yes (physical) | |||
|EnergyESOption=Yes (physical) | |||
|TransportationESOption=Yes (physical) | |||
|ResidentialAndCommercialESOption=Yes (physical) | |||
|AgricultureESOption=Yes (physical) | |||
|EnergyConversionTechnologyTCOption=Exogenous technological change | |||
|EnergyEnd-useTCOption=Exogenous technological change | |||
|AgricultureTCOption=Exogenous technological change | |||
}} | |||
{{EnergyTemplate | |||
|Behaviour=Change in behaviour is taken into account exogenously for scenarios with low demand for energy services. | |||
|EnergyTechnologyChoiceOption=Linear choice (lowest cost) | |||
|EnergyTechnologySubstitutabilityOption=Mostly high substitutability | |||
|EnergyTechnologyDeploymentOption=Expansion and decline constraints; System integration constraints | |||
|ElectricityTechnologyOption=Coal w/o CCS; Coal w/ CCS; Gas w/o CCS; Gas w/ CCS; Oil w/o CCS; Oil w/ CCS; Bioenergy w/o CCS; Bioenergy w/ CCS; Geothermal power; Nuclear power; Solar power; Solar power-central PV; Solar power-distributed PV; Solar power-CSP; Wind power; Wind power-onshore; Wind power-offshore; Hydroelectric power | |||
|HydrogenProductionOption=Natural gas to hydrogen w/o CCS; Natural gas to hydrogen w/ CCS; Biomass to hydrogen w/o CCS; Biomass to hydrogen w/ CCS; Electrolysis | |||
|RefinedLiquidsOption=Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining | |||
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power) | |||
|ElectricityGIOption=Yes (aggregate) | |||
|GasGIOption=Yes (aggregate) | |||
|HeatGIOption=Yes (aggregate) | |||
|HydrogenGIOption=Yes (aggregate) | |||
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts | |||
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships | |||
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production | |||
|ResidentialAndCommercialOption=Space heating; Cooking; Refrigeration; Washing; Lighting | |||
}} | |||
{{Land-useTemplate}} | {{Land-useTemplate}} | ||
{{EmissionClimateTemplate}} | {{EmissionClimateTemplate | ||
|GHGOption=CO2 fossil fuels | |||
|CarbonDioxideRemovalOption=Bioenergy with CCS | |||
}} | |||
Latest revision as of 14:22, 24 March 2022
The reference card is a clearly defined description of model features. The numerous options have been organized into a limited amount of default and model specific (non default) options. In addition some features are described by a short clarifying text.
Legend:
- not implemented
- implemented
- implemented (not default option)
A page refresh may be needed after modifying data.
About
Name and version
TIMES-France 2.0
Institution
Centre for Applied Mathematics (CMA), France, https://www.cma.mines-paristech.fr/en.
Documentation
TIMES-France documentation is limited and consists of a reference card
Process state
published
Model scope and methods
Model type
- Integrated assessment model
- Energy system model
- CGE
- CBA-integrated assessment model
Geographical scope
- Global
- Regional
Objective
The TIMES-France is a bottom-up optimization model of the MARKAL/TIMES family of energy models based on an optimality paradigm and is used to study the future evolution of the French energy system.
Solution concept
- Partial equilibrium (price elastic demand)
- Partial equilibrium (fixed demand)
- General equilibrium (closed economy)
Solution horizon
- Recursive dynamic (myopic)
- Intertemporal optimization (foresight)
Solution method
- Simulation
- Optimization
Temporal dimension
Base year:2014, time steps:5, horizon: 2050
Spatial dimension
Number of regions:1
- France
Time discounting type
- Discount rate exogenous
- Discount rate endogenous
Policies
- Emission tax
- Emission pricing
- Cap and trade
- Fuel taxes
- Fuel subsidies
- Feed-in-tariff
- Portfolio standard
- Capacity targets
- Emission standards
- Energy efficiency standards
- Agricultural producer subsidies
- Agricultural consumer subsidies
- Land protection
- Pricing carbon stocks
Socio-economic drivers
Population
- Yes (exogenous)
- Yes (endogenous)
Population age structure
- Yes (exogenous)
- Yes (endogenous)
Education level
- Yes (exogenous)
- Yes (endogenous)
Urbanization rate
- Yes (exogenous)
- Yes (endogenous)
GDP
- Yes (exogenous)
- Yes (endogenous)
Income distribution
- Yes (exogenous)
- Yes (endogenous)
Employment rate
- Yes (exogenous)
- Yes (endogenous)
Labor productivity
- Yes (exogenous)
- Yes (endogenous)
Total factor productivity
- Yes (exogenous)
- Yes (endogenous)
Autonomous energy efficiency improvements
- Yes (exogenous)
- Yes (endogenous)
Macro-economy
Economic sector
Industry
- Yes (physical)
- Yes (economic)
- Yes (physical & economic)
Energy
- Yes (physical)
- Yes (economic)
- Yes (physical & economic)
Transportation
- Yes (physical)
- Yes (economic)
- Yes (physical & economic)
Residential and commercial
- Yes (physical)
- Yes (economic)
- Yes (physical & economic)
Agriculture
- Yes (physical)
- Yes (economic)
- Yes (physical & economic)
Forestry
- Yes (physical)
- Yes (economic)
- Yes (physical & economic)
Macro-economy
Trade
- Coal
- Oil
- Gas
- Uranium
- Electricity
- Bioenergy crops
- Food crops
- Capital
- Emissions permits
- Non-energy goods
Cost measures
- GDP loss
- Welfare loss
- Consumption loss
- Area under MAC
- Energy system cost mark-up
Categorization by group
- Income
- Urban - rural
- Technology adoption
- Age
- Gender
- Education level
- Household size
Institutional and political factors
- Early retirement of capital allowed
- Interest rates differentiated by country/region
- Regional risk factors included
- Technology costs differentiated by country/region
- Technological change differentiated by country/region
- Behavioural change differentiated by country/region
- Constraints on cross country financial transfers
Resource use
Coal
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Conventional Oil
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Unconventional Oil
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Conventional Gas
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Unconventional Gas
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Uranium
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Bioenergy
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Water
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Raw Materials
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Land
- Yes (fixed)
- Yes (supply curve)
- Yes (process model)
Technological change
Energy conversion technologies
- No technological change
- Exogenous technological change
- Endogenous technological change
Energy End-use
- No technological change
- Exogenous technological change
- Endogenous technological change
Material Use
- No technological change
- Exogenous technological change
- Endogenous technological change
Agriculture (tc)
- No technological change
- Exogenous technological change
- Endogenous technological change
Energy
Behaviour
Change in behaviour is taken into account exogenously for scenarios with low demand for energy services.
Energy technology substitution
Energy technology choice
- No discrete technology choices
- Logit choice model
- Production function
- Linear choice (lowest cost)
- Lowest cost with adjustment penalties
Energy technology substitutability
- Mostly high substitutability
- Mostly low substitutability
- Mixed high and low substitutability
Energy technology deployment
- Expansion and decline constraints
- System integration constraints
Energy
Electricity technologies
- Coal w/o CCS
- Coal w/ CCS
- Gas w/o CCS
- Gas w/ CCS
- Oil w/o CCS
- Oil w/ CCS
- Bioenergy w/o CCS
- Bioenergy w/ CCS
- Geothermal power
- Nuclear power
- Solar power
- Solar power-central PV
- Solar power-distributed PV
- Solar power-CSP
- Wind power
- Wind power-onshore
- Wind power-offshore
- Hydroelectric power
- Ocean power
Hydrogen production
- Coal to hydrogen w/o CCS
- Coal to hydrogen w/ CCS
- Natural gas to hydrogen w/o CCS
- Natural gas to hydrogen w/ CCS
- Oil to hydrogen w/o CCS
- Oil to hydrogen w/ CCS
- Biomass to hydrogen w/o CCS
- Biomass to hydrogen w/ CCS
- Nuclear thermochemical hydrogen
- Solar thermochemical hydrogen
- Electrolysis
Refined liquids
- Coal to liquids w/o CCS
- Coal to liquids w/ CCS
- Gas to liquids w/o CCS
- Gas to liquids w/ CCS
- Bioliquids w/o CCS
- Bioliquids w/ CCS
- Oil refining
Refined gases
- Coal to gas w/o CCS
- Coal to gas w/ CCS
- Oil to gas w/o CCS
- Oil to gas w/ CCS
- Biomass to gas w/o CCS
- Biomass to gas w/ CCS
Heat generation
- Coal heat
- Natural gas heat
- Oil heat
- Biomass heat
- Geothermal heat
- Solarthermal heat
- CHP (coupled heat and power)
Grid Infra Structure
Electricity
- Yes (aggregate)
- Yes (spatially explicit)
Gas
- Yes (aggregate)
- Yes (spatially explicit)
Heat
- Yes (aggregate)
- Yes (spatially explicit)
CO2
- Yes (aggregate)
- Yes (spatially explicit)
Hydrogen
- Yes (aggregate)
- Yes (spatially explicit)
Energy end-use technologies
Passenger transportation
- Passenger trains
- Buses
- Light Duty Vehicles (LDVs)
- Electric LDVs
- Hydrogen LDVs
- Hybrid LDVs
- Gasoline LDVs
- Diesel LDVs
- Passenger aircrafts
Freight transportation
- Freight trains
- Heavy duty vehicles
- Freight aircrafts
- Freight ships
Industry
- Steel production
- Aluminium production
- Cement production
- Petrochemical production
- Paper production
- Plastics production
- Pulp production
Residential and commercial
- Space heating
- Space cooling
- Cooking
- Refrigeration
- Washing
- Lighting
Land-use
Land cover
- Cropland
- Cropland irrigated
- Cropland food crops
- Cropland feed crops
- Cropland energy crops
- Forest
- Managed forest
- Natural forest
- Pasture
- Shrubland
- Built-up area
Agriculture and forestry demands
- Agriculture food
- Agriculture food crops
- Agriculture food livestock
- Agriculture feed
- Agriculture feed crops
- Agriculture feed livestock
- Agriculture non-food
- Agriculture non-food crops
- Agriculture non-food livestock
- Agriculture bioenergy
- Agriculture residues
- Forest industrial roundwood
- Forest fuelwood
- Forest residues
Agricultural commodities
- Wheat
- Rice
- Other coarse grains
- Oilseeds
- Sugar crops
- Ruminant meat
- Non-ruminant meat and eggs
- Dairy products
Emission, climate and impacts
Greenhouse gases
- CO2 fossil fuels
- CO2 cement
- CO2 land use
- CH4 energy
- CH4 land use
- CH4 other
- N2O energy
- N2O land use
- N2O other
- CFCs
- HFCs
- SF6
- PFCs
Pollutants
- CO energy
- CO land use
- CO other
- NOx energy
- NOx land use
- NOx other
- VOC energy
- VOC land use
- VOC other
- SO2 energy
- SO2 land use
- SO2 other
- BC energy
- BC land use
- BC other
- OC energy
- OC land use
- OC other
- NH3 energy
- NH3 land use
- NH3 other
Climate indicators
- Concentration: CO2
- Concentration: CH4
- Concentration: N2O
- Concentration: Kyoto gases
- Radiative forcing: CO2
- Radiative forcing: CH4
- Radiative forcing: N2O
- Radiative forcing: F-gases
- Radiative forcing: Kyoto gases
- Radiative forcing: aerosols
- Radiative forcing: land albedo
- Radiative forcing: AN3A
- Radiative forcing: total
- Temperature change
- Sea level rise
- Ocean acidification
Carbon dioxide removal
- Bioenergy with CCS
- Reforestation
- Afforestation
- Soil carbon enhancement
- Direct air capture
- Enhanced weathering
Climate change impacts
- Agriculture
- Energy supply
- Energy demand
- Economic output
- Built capital
- Inequality
Co-Linkages
- Energy security: Fossil fuel imports & exports (region)
- Energy access: Household energy consumption
- Air pollution & health: Source-based aerosol emissions
- Air pollution & health: Health impacts of air Pollution
- Food access
- Water availability
- Biodiversity