https://www.iamcdocumentation.eu/api.php?action=feedcontributions&feedformat=atom&user=Pedro+Rua+Rodrigues+Rochedo
IAMC-Documentation - User contributions [en]
2026-05-30T22:13:16Z
User contributions
MediaWiki 1.39.15
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12437
COFFEE-TEA
2020-05-13T13:53:02Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|EmploymentRateOption=Yes (endogenous)<br />
|LaborProductivityOption=Yes (endogenous)<br />
|TotalFactorProductivityOption=Yes (endogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Endogenous technological change<br />
|EnergyEnd-useTCOption=Endogenous technological change<br />
|MaterialUseTCOption=Endogenous technological change<br />
|AgricultureTCOption=Endogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Forest; Pasture<br />
|AgricultureAndForestryDemandsOption=Agriculture food crops; Agriculture food livestock; Agriculture feed crops; Agriculture non-food crops; Agriculture bioenergy; Agriculture residues; Forest fuelwood<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=SO2 energy; SO2 land use<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12436
BLUES
2020-05-13T13:52:06Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops<br />
|CostMeasureOption=Energy system cost mark-up<br />
|InstitutionalAndPoliticalFactorsOption=Technology costs differentiated by country/region; Technological change differentiated by country/region; Behavioural change differentiated by country/region<br />
|CoalRUOption=Yes (process model)<br />
|ConventionalOilRUOption=Yes (process model)<br />
|UnconventionalOilRUOption=Yes (process model)<br />
|ConventionalGasRUOption=Yes (process model)<br />
|Unconventional GasRUOption=Yes (process model)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|WaterRUOption=Yes (process model)<br />
|RawMaterialsRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical)<br />
|EnergyESOption=Yes (physical)<br />
|TransportationESOption=Yes (physical)<br />
|ResidentialAndCommercialESOption=Yes (physical)<br />
|AgricultureESOption=Yes (physical)<br />
|EnergyConversionTechnologyTCOption=Endogenous technological change<br />
|EnergyEnd-useTCOption=Endogenous technological change<br />
|MaterialUseTCOption=Endogenous technological change<br />
|AgricultureTCOption=Endogenous technological change<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Hydrokinetic<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=Gas to liquids w/o CCS; Gas to liquids w/ CCS; Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining<br />
|RefinedGasesOption=Oil to gas w/o CCS; Oil to gas w/ CCS; Biomass to gas w/o CCS; Biomass to gas w/ CCS<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Cropland energy crops; Forest; Managed forest; Natural forest; Pasture<br />
|LandCover=Pasture HighCapacity; Pasture LowCapacity; IntegratedSystems; DoubleCrop; ILPF<br />
|AgricultureAndForestryDemandsOption=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 fuelwood; Forest residues<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=NOx energy; NOx land use; NOx other; SO2 energy; SO2 land use; SO2 other<br />
|Pollutant=PM energy; PM land use; PM other<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Soil carbon enhancement; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption; Air pollution & health: Source-based aerosol emissions; Food access; Water availability<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12435
BLUES
2020-05-13T13:51:22Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops<br />
|CostMeasureOption=Energy system cost mark-up<br />
|InstitutionalAndPoliticalFactorsOption=Technology costs differentiated by country/region; Technological change differentiated by country/region; Behavioural change differentiated by country/region<br />
|CoalRUOption=Yes (process model)<br />
|ConventionalOilRUOption=Yes (process model)<br />
|UnconventionalOilRUOption=Yes (process model)<br />
|ConventionalGasRUOption=Yes (process model)<br />
|Unconventional GasRUOption=Yes (process model)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|WaterRUOption=Yes (process model)<br />
|RawMaterialsRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical)<br />
|EnergyESOption=Yes (physical)<br />
|TransportationESOption=Yes (physical)<br />
|ResidentialAndCommercialESOption=Yes (physical)<br />
|AgricultureESOption=Yes (physical)<br />
|EnergyConversionTechnologyTCOption=Endogenous technological change<br />
|EnergyEnd-useTCOption=Endogenous technological change<br />
|MaterialUseTCOption=Endogenous technological change<br />
|AgricultureTCOption=Endogenous technological change<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Hydrokinetic<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=Gas to liquids w/o CCS; Gas to liquids w/ CCS; Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining<br />
|RefinedGasesOption=Oil to gas w/o CCS; Oil to gas w/ CCS; Biomass to gas w/o CCS; Biomass to gas w/ CCS<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Cropland energy crops; Forest; Managed forest; Natural forest; Pasture<br />
|LandCover=Pasture HighCapacity; Pasture LowCapacity; IntegratedSystems; DoubleCrop; ILPF<br />
|AgricultureAndForestryDemandsOption=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 fuelwood; Forest residues<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=NOx energy; NOx land use; NOx other; SO2 energy; SO2 land use; SO2 other; BC energy; BC land use; BC other<br />
|Pollutant=PM energy; PM land use; PM other<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Soil carbon enhancement; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption; Air pollution & health: Source-based aerosol emissions; Food access; Water availability<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12408
COFFEE-TEA
2020-05-13T13:02:57Z
<p>Pedro Rua Rodrigues Rochedo: Updated during Capacity Building Webinar</p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|EmploymentRateOption=Yes (endogenous)<br />
|LaborProductivityOption=Yes (endogenous)<br />
|TotalFactorProductivityOption=Yes (endogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Forest; Pasture<br />
|AgricultureAndForestryDemandsOption=Agriculture food crops; Agriculture food livestock; Agriculture feed crops; Agriculture non-food crops; Agriculture bioenergy; Agriculture residues; Forest fuelwood<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=SO2 energy; SO2 land use<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12407
BLUES
2020-05-13T13:01:30Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops<br />
|CostMeasureOption=Energy system cost mark-up<br />
|InstitutionalAndPoliticalFactorsOption=Technology costs differentiated by country/region; Technological change differentiated by country/region; Behavioural change differentiated by country/region<br />
|CoalRUOption=Yes (process model)<br />
|ConventionalOilRUOption=Yes (process model)<br />
|UnconventionalOilRUOption=Yes (process model)<br />
|ConventionalGasRUOption=Yes (process model)<br />
|Unconventional GasRUOption=Yes (process model)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|WaterRUOption=Yes (process model)<br />
|RawMaterialsRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical)<br />
|EnergyESOption=Yes (physical)<br />
|TransportationESOption=Yes (physical)<br />
|ResidentialAndCommercialESOption=Yes (physical)<br />
|AgricultureESOption=Yes (physical)<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Endogenous technological change<br />
|MaterialUseTCOption=Endogenous technological change<br />
|AgricultureTCOption=Endogenous technological change<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Hydrokinetic<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=Gas to liquids w/o CCS; Gas to liquids w/ CCS; Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining<br />
|RefinedGasesOption=Oil to gas w/o CCS; Oil to gas w/ CCS; Biomass to gas w/o CCS; Biomass to gas w/ CCS<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Cropland energy crops; Forest; Managed forest; Natural forest; Pasture<br />
|LandCover=Pasture HighCapacity; Pasture LowCapacity; IntegratedSystems; DoubleCrop; ILPF<br />
|AgricultureAndForestryDemandsOption=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 fuelwood; Forest residues<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=NOx energy; NOx land use; NOx other; SO2 energy; SO2 land use; SO2 other; BC energy; BC land use; BC other<br />
|Pollutant=PM energy; PM land use; PM other<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Soil carbon enhancement; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption; Air pollution & health: Source-based aerosol emissions; Food access; Water availability<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12403
BLUES
2020-05-13T12:59:24Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops<br />
|CostMeasureOption=Energy system cost mark-up<br />
|InstitutionalAndPoliticalFactorsOption=Technology costs differentiated by country/region; Technological change differentiated by country/region; Behavioural change differentiated by country/region<br />
|CoalRUOption=Yes (process model)<br />
|ConventionalOilRUOption=Yes (process model)<br />
|UnconventionalOilRUOption=Yes (process model)<br />
|ConventionalGasRUOption=Yes (process model)<br />
|Unconventional GasRUOption=Yes (process model)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|WaterRUOption=Yes (process model)<br />
|RawMaterialsRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical)<br />
|EnergyESOption=Yes (physical)<br />
|TransportationESOption=Yes (physical)<br />
|ResidentialAndCommercialESOption=Yes (physical)<br />
|AgricultureESOption=Yes (physical)<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Endogenous technological change<br />
|MaterialUseTCOption=Endogenous technological change<br />
|AgricultureTCOption=Endogenous technological change<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Hydrokinetic<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=Gas to liquids w/o CCS; Gas to liquids w/ CCS; Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining<br />
|RefinedGasesOption=Oil to gas w/o CCS; Oil to gas w/ CCS; Biomass to gas w/o CCS; Biomass to gas w/ CCS<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Cropland energy crops; Forest; Managed forest; Natural forest; Pasture<br />
|LandCover=Pasture HighCapacity; Pasture LowCapacity; IntegratedSystems; DoubleCrop; ILPF<br />
|AgricultureAndForestryDemandsOption=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 fuelwood; Forest residues<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
}}<br />
{{EmissionClimateTemplate}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12401
BLUES
2020-05-13T12:57:23Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Hydrokinetic<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=Gas to liquids w/o CCS; Gas to liquids w/ CCS; Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining<br />
|RefinedGasesOption=Oil to gas w/o CCS; Oil to gas w/ CCS; Biomass to gas w/o CCS; Biomass to gas w/ CCS<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Cropland energy crops; Forest; Managed forest; Natural forest; Pasture<br />
|LandCover=Pasture HighCapacity; Pasture LowCapacity; IntegratedSystems; DoubleCrop; ILPF<br />
|AgricultureAndForestryDemandsOption=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 fuelwood; Forest residues<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
}}<br />
{{EmissionClimateTemplate}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12399
BLUES
2020-05-13T12:55:32Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Hydrokinetic<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=Gas to liquids w/o CCS; Gas to liquids w/ CCS; Bioliquids w/o CCS; Bioliquids w/ CCS; Oil refining<br />
|RefinedGasesOption=Oil to gas w/o CCS; Oil to gas w/ CCS; Biomass to gas w/o CCS; Biomass to gas w/ CCS<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Hybrid LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Aluminium production; Cement production; Petrochemical production; Paper production; Plastics production; Pulp production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
}}<br />
{{Land-useTemplate}}<br />
{{EmissionClimateTemplate}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12397
BLUES
2020-05-13T12:53:07Z
<p>Pedro Rua Rodrigues Rochedo: Updated during Capacity Building Webinar</p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|PopulationAgeStructureOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|IncomeDistributionOption=Yes (exogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
}}<br />
{{Macro-economyTemplate}}<br />
{{EnergyTemplate}}<br />
{{Land-useTemplate}}<br />
{{EmissionClimateTemplate}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12395
BLUES
2020-05-13T12:51:51Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Regional<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=BLUES is partial equilibrium energy-land system model, with integration with the TEA model (CGE model).<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionMethodOption=Optimization<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2050<br />
|Nr=5<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Fuel subsidies; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
}}<br />
{{Socio-economicTemplate}}<br />
{{Macro-economyTemplate}}<br />
{{EnergyTemplate}}<br />
{{Land-useTemplate}}<br />
{{EmissionClimateTemplate}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=BLUES&diff=12392
BLUES
2020-05-13T12:49:01Z
<p>Pedro Rua Rodrigues Rochedo: Updated during Capacity Building Webinar</p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=BLUES<br />
|Version=1.0<br />
|participation=full<br />
|processState=published<br />
}}<br />
{{ScopeMethodTemplate}}<br />
{{Socio-economicTemplate}}<br />
{{Macro-economyTemplate}}<br />
{{EnergyTemplate}}<br />
{{Land-useTemplate}}<br />
{{EmissionClimateTemplate}}<br />
{{InstitutionTemplate<br />
|abbr=Cenergia<br />
|institution=COPPE/UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12390
COFFEE-TEA
2020-05-13T12:46:32Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|PopulationOption=Yes (exogenous)<br />
|EducationLevelOption=Yes (exogenous)<br />
|UrbanizationRateOption=Yes (exogenous)<br />
|GDPOption=Yes (exogenous)<br />
|EmploymentRateOption=Yes (endogenous)<br />
|LaborProductivityOption=Yes (endogenous)<br />
|TotalFactorProductivityOption=Yes (endogenous)<br />
|AutonomousEnergyEfficiencyImprovementsOption=Yes (endogenous)<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Forest; Pasture<br />
|AgricultureAndForestryDemandsOption=Agriculture food crops; Agriculture food livestock; Agriculture feed crops; Agriculture non-food crops; Agriculture bioenergy; Agriculture residues; Forest fuelwood<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=SO2 energy; SO2 land use<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12388
COFFEE-TEA
2020-05-13T12:44:24Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Forest; Pasture<br />
|AgricultureAndForestryDemandsOption=Agriculture food crops; Agriculture food livestock; Agriculture feed crops; Agriculture non-food crops; Agriculture bioenergy; Agriculture residues; Forest fuelwood<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=SO2 energy; SO2 land use<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.cenergialab.coppe.ufrj.br/<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12387
COFFEE-TEA
2020-05-13T12:43:18Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Forest; Pasture<br />
|AgricultureAndForestryDemandsOption=Agriculture food crops; Agriculture food livestock; Agriculture feed crops; Agriculture non-food crops; Agriculture bioenergy; Agriculture residues; Forest fuelwood<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2 fossil fuels; CO2 cement; CO2 land use; CH4 energy; CH4 land use; CH4 other; N2O energy; N2O land use; N2O other<br />
|PollutantOption=SO2 energy; SO2 land use<br />
|CarbonDioxideRemovalOption=Bioenergy with CCS; Reforestation; Afforestation; Direct air capture<br />
|Co-LinkagesOption=Energy security: Fossil fuel imports & exports (region); Energy access: Household energy consumption<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12386
COFFEE-TEA
2020-05-13T12:41:18Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|LandCoverOption=Cropland; Forest; Pasture<br />
|AgricultureAndForestryDemandsOption=Agriculture food crops; Agriculture food livestock; Agriculture feed crops; Agriculture non-food crops; Agriculture bioenergy; Agriculture residues; Forest fuelwood<br />
|AgriculturalCommoditiesOption=Wheat; Rice; Other coarse grains; Oilseeds; Sugar crops; Ruminant meat; Non-ruminant meat and eggs; Dairy products<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2; CH4; N2O<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12384
COFFEE-TEA
2020-05-13T12:39:34Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2; CH4; N2O<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12380
COFFEE-TEA
2020-05-13T12:37:32Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|EnergyTechnologyChoiceOption=Linear choice (lowest cost)<br />
|EnergyTechnologySubstitutabilityOption=Mixed high and low substitutability<br />
|EnergyTechnologyDeploymentOption=System integration constraints<br />
|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; Ocean power<br />
|ElectricityTechnology=Geothermal<br />
|HydrogenProductionOption=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; Electrolysis<br />
|RefinedLiquidsOption=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<br />
|RefinedGasesOption=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<br />
|HeatGenerationOption=Coal heat; Natural gas heat; Oil heat; Biomass heat; Geothermal heat; Solarthermal heat; CHP (coupled heat and power)<br />
|ElectricityGIOption=Yes (aggregate)<br />
|GasGIOption=Yes (aggregate)<br />
|CO2GIOption=Yes (aggregate)<br />
|HydrogenGIOption=Yes (aggregate)<br />
|PassengerTransportationOption=Passenger trains; Buses; Light Duty Vehicles (LDVs); Electric LDVs; Hydrogen LDVs; Gasoline LDVs; Diesel LDVs; Passenger aircrafts<br />
|FreightTransportationOption=Freight trains; Heavy duty vehicles; Freight aircrafts; Freight ships<br />
|IndustryOption=Steel production; Cement production; Petrochemical production<br />
|ResidentialAndCommercialOption=Space heating; Space cooling; Cooking; Refrigeration; Washing; Lighting<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2; CH4; N2O<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12377
COFFEE-TEA
2020-05-13T12:34:01Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (supply curve)<br />
|ConventionalOilRUOption=Yes (supply curve)<br />
|UnconventionalOilRUOption=Yes (supply curve)<br />
|ConventionalGasRUOption=Yes (supply curve)<br />
|Unconventional GasRUOption=Yes (supply curve)<br />
|UraniumRUOption=Yes (supply curve)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ElectricityTechnologyOption=Coal; Gas; Oil; Nuclear; Biomass; Wind; Solar PV; CCS<br />
|ElectricityTechnology=Geothermal; Hydropower; Solar CSP; non-fossil;<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2; CH4; N2O<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12376
COFFEE-TEA
2020-05-13T12:31:17Z
<p>Pedro Rua Rodrigues Rochedo: </p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|CoalRUOption=Yes (process model)<br />
|ConventionalOilRUOption=Yes (process model)<br />
|UnconventionalOilRUOption=Yes (process model)<br />
|ConventionalGasRUOption=Yes (process model)<br />
|Unconventional GasRUOption=Yes (process model)<br />
|UraniumRUOption=Yes (process model)<br />
|BioenergyRUOption=Yes (process model)<br />
|LandRUOption=Yes (process model)<br />
|IndustryESOption=Yes (physical & economic)<br />
|EnergyESOption=Yes (physical & economic)<br />
|TransportationESOption=Yes (physical & economic)<br />
|ResidentialAndCommercialESOption=Yes (physical & economic)<br />
|AgricultureESOption=Yes (physical & economic)<br />
|ForestryESOption=Yes (physical & economic)<br />
|EconomicSector=Manufactures; other;<br />
|EnergyConversionTechnologyTCOption=Exogenous technological change<br />
|EnergyEnd-useTCOption=Exogenous technological change<br />
|MaterialUseTCOption=Exogenous technological change<br />
|AgricultureTCOption=Exogenous technological change<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
}}<br />
{{EnergyTemplate<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ElectricityTechnologyOption=Coal; Gas; Oil; Nuclear; Biomass; Wind; Solar PV; CCS<br />
|ElectricityTechnology=Geothermal; Hydropower; Solar CSP; non-fossil;<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2; CH4; N2O<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo
https://www.iamcdocumentation.eu/index.php?title=COFFEE-TEA&diff=12360
COFFEE-TEA
2020-05-13T12:02:41Z
<p>Pedro Rua Rodrigues Rochedo: Updated during Capacity Building Webinar</p>
<hr />
<div>{{ModelTemplate}}<br />
{{ModelInfoTemplate<br />
|Name=COFFEE-TEA<br />
|Version=v1<br />
|participation=full<br />
|processState=under review<br />
}}<br />
{{ScopeMethodTemplate<br />
|ModelTypeOption=Integrated assessment model<br />
|GeographicalScopeOption=Global<br />
|Objective=The models were developed at COPPE/UFRJ, Brazil, for assessing climate, land, energy and environmental policies, providing relevant information to experts and decision-makers about the possible development strategies and repercussions of long term climate scenarios.<br />
|SolutionConceptOption=General equilibrium (closed economy)<br />
|SolutionConceptText=The COFFEE model is Partial Equilibrium. The TEA model is General Equilibrium.<br />
|SolutionHorizonOption=Intertemporal optimization (foresight)<br />
|SolutionHorizonText=The COFFEE model is Intertemporal Optimization. The TEA model is Recursive Dynamic.<br />
|SolutionMethod=The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.<br />
|BaseYear=2010<br />
|TimeSteps=5 year<br />
|Horizon=2100<br />
|Nr=18<br />
|Region=AFR Africa; AUS Australia and New Zealand; BRA Brazil; CAM Central America; CAN Canada; CAS Caspian Region; CHN China; EEU Europe; IND India; JPN Japan; KOR South Korea; MEA Middle East; RAS Rest of Asia and Oceania; RUS Russia; SAF South Africa; SAM South America; USA United States; WEU Rest of Europe;<br />
|TimeDiscountingTypeOption=Discount rate exogenous<br />
|PoliciesOption=Emission tax; Emission pricing; Fuel taxes; Feed-in-tariff; Portfolio standard; Capacity targets; Emission standards; Energy efficiency standards; Land protection; Pricing carbon stocks<br />
|Concept=The models can run scenarios as a stand-alone application or linked through a soft-link process.<br />
}}<br />
{{Socio-economicTemplate<br />
|ExogenousDriverOption=Exogenous GDP; GDP per capita<br />
|ExogenousDriver=Active Population; Active population growth; GDP per household; Population;<br />
|EndogenousDriver=Carbon prices; Fossil fuel prices; Renewable price; Total Factor Productivity;<br />
|DevelopmentOption=GDP per capita<br />
}}<br />
{{Macro-economyTemplate<br />
|EconomicSectorOption=Agriculture; Industry; Energy; Transport; Services<br />
|EconomicSector=Manufactures; other;<br />
|CostMeasureOption=GDP loss; Welfare loss; Consumption loss<br />
|TradeOption=Coal; Oil; Gas; Electricity; Bioenergy crops; Food crops; Emissions permits; Non-energy goods<br />
|Trade=Bioenergy products; Chemical Products; Consumer Goods Industries; Diesel; Livestock products; Manufactures; Ferrous and non ferrous metals; Refined Liquid Fuels; Services;<br />
}}<br />
{{EnergyTemplate<br />
|ResourceUseOption=Coal; Oil; Gas; Uranium; Biomass<br />
|ElectricityTechnologyOption=Coal; Gas; Oil; Nuclear; Biomass; Wind; Solar PV; CCS<br />
|ElectricityTechnology=Geothermal; Hydropower; Solar CSP; non-fossil;<br />
|ConversionTechnologyOption=CHP; Heat pumps<br />
|ConversionTechnology=Refined fuels;<br />
|GridInfrastructureOption=Electricity; Gas; CO2<br />
|TechnologySubstitutionOption=Discrete technology choices; Expansion and decline constraints; System integration constraints<br />
|EnergyServiceSectorOption=Transportation; Industry; Residential and commercial<br />
|EnergyServiceSector=Agriculture;<br />
}}<br />
{{Land-useTemplate<br />
|Land-use=Cropland; Forest; Grassland; Extensive Pastures;<br />
}}<br />
{{EmissionClimateTemplate<br />
|GHGOption=CO2; CH4; N2O<br />
}}<br />
{{InstitutionTemplate<br />
|abbr=COPPE UFRJ<br />
|institution=UFRJ<br />
|link=http://www.ppe.ufrj.br/index.php/en<br />
|modelusers=Roberto Schaeffer; Alexandre Szklo; Andre F. P. Lucena; Angelo C. Gurgel; Pedro R. R. Rochedo; Mariana Imperio; Bruno S. L. Cunha; Rafael Garaffa<br />
|country=Brazil<br />
}}<br />
[[Category:Model]]</div>
Pedro Rua Rodrigues Rochedo