Electricity - MESSAGE-GLOBIOM: Difference between revisions
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Four different nuclear power plant types are represented in MESSAGE-GLOBIOM, i.e. two light water reactor types, a fast breeder reactor and a high temperature reactor, but only the two light water types are included in the majority of scenarios being developed with MESSAGE in the recent past. In addition, MESSAGE includes a representation of the nuclear fuel cycle, including reprocessing and the plutonium fuel cycle, and keeps track of the amounts of nuclear waste being produced. | Four different nuclear power plant types are represented in MESSAGE-GLOBIOM, i.e. two light water reactor types, a fast breeder reactor and a high temperature reactor, but only the two light water types are included in the majority of scenarios being developed with MESSAGE in the recent past. In addition, MESSAGE includes a representation of the nuclear fuel cycle, including reprocessing and the plutonium fuel cycle, and keeps track of the amounts of nuclear waste being produced. | ||
The conversion of five renewable energy sources to electricity is represented in MESSAGE-GLOBIOM (see <xr id="tab:MESSAGE-GLOBIOM_elec"/>). For wind power, both on- and offshore electricity generation are covered and for solar energy, photovoltaics (PV) and solar thermal (concentrating solar power, CSP) electricity generation are included in MESSAGE (see also sections on [[Energy_resource_endowments_-_MESSAGE-GLOBIOM#Biomass_Resources|Non-biomass renewables of MESSAGE-GLOBIOM]] and | The conversion of five renewable energy sources to electricity is represented in MESSAGE-GLOBIOM (see <xr id="tab:MESSAGE-GLOBIOM_elec"/>). For wind power, both on- and offshore electricity generation are covered and for solar energy, photovoltaics (PV) and solar thermal (concentrating solar power, CSP) electricity generation are included in MESSAGE (see also sections on [[Energy_resource_endowments_-_MESSAGE-GLOBIOM#Biomass_Resources|Non-biomass renewables of MESSAGE-GLOBIOM]] and [[Grid,_pipelines_and_other_infrastructure_-_MESSAGE-GLOBIOM|Grid, pipelines and other infrastructure of MESSAGE-GLOBIOM]]). | ||
Most thermal power plants offer the option of coupled heat production (CHP, see <xr id="tab:MESSAGE-GLOBIOM_elec"/>). This option is modeled as a passout turbine via a penalty on the electricity generation efficiency. In addition to the main electricity generation technologies described in this section, also the co-generation of electricity in conversion technologies primarily devoted to producing non-electric energy carriers (e.g., synthetic liquid fuels) is included in MESSAGE (see | Most thermal power plants offer the option of coupled heat production (CHP, see <xr id="tab:MESSAGE-GLOBIOM_elec"/>). This option is modeled as a passout turbine via a penalty on the electricity generation efficiency. In addition to the main electricity generation technologies described in this section, also the co-generation of electricity in conversion technologies primarily devoted to producing non-electric energy carriers (e.g., synthetic liquid fuels) is included in MESSAGE (see sections on [[Liquid_fuels_-_MESSAGE-GLOBIOM|Liquid fuels of MESSAGE-GLOBIOM]] and [[Gaseous_fuels_-_MESSAGE-GLOBIOM|Gaesous fuels of MESSAGE-GLOBIOM]]). | ||
<figtable id="tab:MESSAGE-GLOBIOM_elec"> | <figtable id="tab:MESSAGE-GLOBIOM_elec"> | ||
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</div> | </div> | ||
In <xr id="fig:MESSAGE-GLOBIOM_ther"/>, the black ranges show historical cost ranges for 2005. Green, blue, and red ranges show cost ranges in 2100 for SSP1, SSP2, and SSP3, respectively (see descriptions of the SSP narratives in section ''' | In <xr id="fig:MESSAGE-GLOBIOM_ther"/>, the black ranges show historical cost ranges for 2005. Green, blue, and red ranges show cost ranges in 2100 for SSP1, SSP2, and SSP3, respectively (see descriptions of the SSP narratives in section '''''ADD LINKS ONCE SSP INFO HAS BEEN ADDED'''''). Global values are represented by solid ranges. Values in the global South are represented by dashed ranges. The diamonds show the costs in the “North America” region. CCS – Carbon Capture and Storage; IGCC – Integrated gasification combined cycles; ST – Steam turbine; CT – Combustion turbine; CCGT – Combined cycle gas turbine (Fricko et al., 2016 [[CiteRef::MSG-GLB_fricko_marker_2016]]). | ||
<div style=" overflow: auto;"> | <div style=" overflow: auto;"> |
Latest revision as of 11:23, 31 August 2016
Corresponding documentation | |
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Previous versions | |
Model information | |
Model link | |
Institution | International Institute for Applied Systems Analysis (IIASA), Austria, http://data.ene.iiasa.ac.at. |
Solution concept | General equilibrium (closed economy) |
Solution method | Optimization |
Anticipation |
MESSAGE covers a large number of electricity generation options utilizing a wide range of primary energy sources. For fossil-based electricity generation technologies, typically a number of different technologies with different efficiencies, environmental characteristics and costs is represented. For example, in the case of coal, MESSAGE distinguishes subcritical and supercritical pulverized coal (PC) power plants where the subcritical variant is available with and without flue gas desulpherization/denox and one internal gasification combined cycle (IGCC) power plant. The superciritical PC and IGCC plants are also available with carbon capture and storage (CCS) which also can be retrofitted to some of the existing PC power plants. <xr id="tab:MESSAGE-GLOBIOM_elec"/> below shows the different power plant types represented in MESSAGE.
Four different nuclear power plant types are represented in MESSAGE-GLOBIOM, i.e. two light water reactor types, a fast breeder reactor and a high temperature reactor, but only the two light water types are included in the majority of scenarios being developed with MESSAGE in the recent past. In addition, MESSAGE includes a representation of the nuclear fuel cycle, including reprocessing and the plutonium fuel cycle, and keeps track of the amounts of nuclear waste being produced.
The conversion of five renewable energy sources to electricity is represented in MESSAGE-GLOBIOM (see <xr id="tab:MESSAGE-GLOBIOM_elec"/>). For wind power, both on- and offshore electricity generation are covered and for solar energy, photovoltaics (PV) and solar thermal (concentrating solar power, CSP) electricity generation are included in MESSAGE (see also sections on Non-biomass renewables of MESSAGE-GLOBIOM and Grid, pipelines and other infrastructure of MESSAGE-GLOBIOM).
Most thermal power plants offer the option of coupled heat production (CHP, see <xr id="tab:MESSAGE-GLOBIOM_elec"/>). This option is modeled as a passout turbine via a penalty on the electricity generation efficiency. In addition to the main electricity generation technologies described in this section, also the co-generation of electricity in conversion technologies primarily devoted to producing non-electric energy carriers (e.g., synthetic liquid fuels) is included in MESSAGE (see sections on Liquid fuels of MESSAGE-GLOBIOM and Gaesous fuels of MESSAGE-GLOBIOM).
<figtable id="tab:MESSAGE-GLOBIOM_elec">
Energy source | Technology | CHP option |
---|---|---|
Coal | subcritical PC power plant without desulphurization/denox | yes |
subcritical PC power plant with desulphurization/denox | yes | |
supercritical PC power plant with desulphurization/denox | yes | |
supercritical PC power plant with desulphurization/denox and CCS | yes | |
IGCC power plant | yes | |
IGCC power plant with CCS | yes | |
Oil | heavy fuel oil steam power plant | yes |
light fuel oil steam power plant | yes | |
light fuel oil combined cycle power plant | yes | |
Gas | gas steam power plant | yes |
gas combustion turbine gas | yes | |
combined cycle power plant | yes | |
Nuclear | nuclear light water reactor (Gen II) | yes |
nuclear light water reactor (Gen III+) | yes | |
fast breeder reactor | ||
high temperature reactor | ||
Biomass | biomass steam power plant | yes |
biomass IGCC power plant | yes | |
biomass IGCC power plant with CCS | yes | |
Hydro | hydro power plant (2 cost categories) | no |
Wind | onshore wind turbine | no |
offshore wind turbine | no | |
Solar | solar photovoltaics (PV) | no |
concentrating solar power (CSP) | ||
Geothermal | geothermal power plant | yes |
</figtable>
Technological change in MESSAGE is generally treated exogenously, although pioneering work on the endogenization of technological change in energy-engineering type models has been done with MESSAGE (Messner, 1997 MSG-GLB_messner_endogenized_1997). The current cost and performance parameters, including conversion efficiencies and emission coefficients is generally derived from the relevant engineering literature. For the future alternative cost and performance projections are usually developed to cover a relatively wide range of uncertainties that influences model results to a good extent. As an example, <xr id="fig:MESSAGE-GLOBIOM_ther"/> and <xr id="fig:MESSAGE-GLOBIOM_nonth"/> below provide an overview of costs ranges for a set of key energy conversion technologies (Fricko et al., 2016 MSG-GLB_fricko_marker_2016).
In <xr id="fig:MESSAGE-GLOBIOM_ther"/>, the black ranges show historical cost ranges for 2005. Green, blue, and red ranges show cost ranges in 2100 for SSP1, SSP2, and SSP3, respectively (see descriptions of the SSP narratives in section ADD LINKS ONCE SSP INFO HAS BEEN ADDED). Global values are represented by solid ranges. Values in the global South are represented by dashed ranges. The diamonds show the costs in the “North America” region. CCS – Carbon Capture and Storage; IGCC – Integrated gasification combined cycles; ST – Steam turbine; CT – Combustion turbine; CCGT – Combined cycle gas turbine (Fricko et al., 2016 MSG-GLB_fricko_marker_2016).
In <xr id="fig:MESSAGE-GLOBIOM_nonth"/>, the black ranges show historical cost ranges for 2005. Green, blue, and red ranges show cost ranges in 2100 for SSP1, SSP2, and SSP3, respectively. Global values are represented by solid ranges. Values in the global South are represented by dashed ranges. The diamonds show the costs in the “North America” region. PV – Photovoltaic (Fricko et al., 2016 MSG-GLB_fricko_marker_2016).