Integrating Variable Renewable Energy into Power System Operations
Wind and solar energy is a fast-growing share of the global energy mix. But integrating them into power-system operations requires significant adaptations to compensate for their variability. Solutions include increasing the amount of flexible gene...
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| Format: | Brief |
| Language: | English en_US |
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World Bank, Washington, DC
2015
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| Online Access: | http://documents.worldbank.org/curated/en/2015/01/23853568/integrating-variable-renewable-energy-power-system-operations http://hdl.handle.net/10986/21359 |
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okr-10986-213592021-04-23T14:04:01Z Integrating Variable Renewable Energy into Power System Operations Nikolakakis, Thomas Chatopadhyay, Debabrata ACCESS TO MODERN ENERGY AGGREGATE DEMAND AVAILABILITY BALANCE BATTERIES BLACK CARBON BOTTOM LINE BRIQUETTES BURNING COAL CLIMATE CLIMATE CHANGE CO CO2 CO2 EMISSIONS COAL COMBUSTION COMPRESSED AIR CONGESTION DEMAND CURVE DISTRIBUTION OF ENERGY ELECTRIC POWER ELECTRICAL POWER ELECTRICITY ELECTRICITY GENERATION ELECTRIFICATION EMISSION EMISSION FACTOR ENERGY ACCESS ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DATA ENERGY DEMAND ENERGY DEPARTMENT ENERGY EFFICIENCY ENERGY INDUSTRIES ENERGY INTENSITY ENERGY MANAGEMENT ENERGY MARKETS ENERGY MIX ENERGY OPERATIONS ENERGY REGULATORY COMMISSION ENERGY SECTOR ENERGY SERVICES ENERGY SUPPLY ENERGY TECHNOLOGIES FOREST FOREST RESIDUES FOSSIL FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL EFFICIENCY GAS TURBINES GAS UNITS GASEOUS FUELS GENERATION GENERATION UNITS GENERATOR GLOBAL ENERGY MIX GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GRID GRID CODE GROSS DOMESTIC PRODUCT HEAT HEAT GENERATION HEATING HEATING FUELS HOUSEHOLD ENERGY HYDROPOWER HYDROPOWER GENERATION INCOME INTERNATIONAL ENERGY AGENCY LIQUEFIED PETROLEUM GAS METHANE MODERN WORLD OIL PE PEAK DEMAND PELLETS PETROLEUM PETROLEUM GAS PH PIPELINE POWER POWER SOURCES POWER SYSTEM POWER SYSTEMS PP PRIMARY ENERGY RENEWABLE ELECTRICITY RENEWABLE ENERGY RENEWABLE ENERGY RESOURCES SECURITY OF ENERGY SUPPLY SOLAR ENERGY SOLAR POWER SOLAR RESOURCES SOLID FUELS SOURCE OF ENERGY STEAM TURBINES SUPPLY FLEXIBILITY SUSTAINABLE ENERGY TRADITIONAL BIOMASS TRANSMISSION INFRASTRUCTURE TRANSMISSION LINE TRANSMISSION LINES TRANSMISSION SYSTEM TURBINE TURBINE BLADES UTILITIES VOLTAGE WASTE WIND WIND ENERGY WIND EQUIPMENT WIND GENERATION WIND PLANTS WIND POWER WIND RESOURCES WIND TURBINES WINDS WORLD ENERGY Wind and solar energy is a fast-growing share of the global energy mix. But integrating them into power-system operations requires significant adaptations to compensate for their variability. Solutions include increasing the amount of flexible generation within the system, combining, and dispersing variable resources to smooth aggregate output, expanding the transmission network, using smart technology to control supply and demand, and storing electricity. 2015-01-28T21:19:19Z 2015-01-28T21:19:19Z 2015-01 Brief http://documents.worldbank.org/curated/en/2015/01/23853568/integrating-variable-renewable-energy-power-system-operations http://hdl.handle.net/10986/21359 English en_US Live Wire, 2015/38 CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank, Washington, DC Publications & Research Publications & Research :: Brief |
| repository_type |
Digital Repository |
| institution_category |
Foreign Institution |
| institution |
Digital Repositories |
| building |
World Bank Open Knowledge Repository |
| collection |
World Bank |
| language |
English en_US |
| topic |
ACCESS TO MODERN ENERGY AGGREGATE DEMAND AVAILABILITY BALANCE BATTERIES BLACK CARBON BOTTOM LINE BRIQUETTES BURNING COAL CLIMATE CLIMATE CHANGE CO CO2 CO2 EMISSIONS COAL COMBUSTION COMPRESSED AIR CONGESTION DEMAND CURVE DISTRIBUTION OF ENERGY ELECTRIC POWER ELECTRICAL POWER ELECTRICITY ELECTRICITY GENERATION ELECTRIFICATION EMISSION EMISSION FACTOR ENERGY ACCESS ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DATA ENERGY DEMAND ENERGY DEPARTMENT ENERGY EFFICIENCY ENERGY INDUSTRIES ENERGY INTENSITY ENERGY MANAGEMENT ENERGY MARKETS ENERGY MIX ENERGY OPERATIONS ENERGY REGULATORY COMMISSION ENERGY SECTOR ENERGY SERVICES ENERGY SUPPLY ENERGY TECHNOLOGIES FOREST FOREST RESIDUES FOSSIL FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL EFFICIENCY GAS TURBINES GAS UNITS GASEOUS FUELS GENERATION GENERATION UNITS GENERATOR GLOBAL ENERGY MIX GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GRID GRID CODE GROSS DOMESTIC PRODUCT HEAT HEAT GENERATION HEATING HEATING FUELS HOUSEHOLD ENERGY HYDROPOWER HYDROPOWER GENERATION INCOME INTERNATIONAL ENERGY AGENCY LIQUEFIED PETROLEUM GAS METHANE MODERN WORLD OIL PE PEAK DEMAND PELLETS PETROLEUM PETROLEUM GAS PH PIPELINE POWER POWER SOURCES POWER SYSTEM POWER SYSTEMS PP PRIMARY ENERGY RENEWABLE ELECTRICITY RENEWABLE ENERGY RENEWABLE ENERGY RESOURCES SECURITY OF ENERGY SUPPLY SOLAR ENERGY SOLAR POWER SOLAR RESOURCES SOLID FUELS SOURCE OF ENERGY STEAM TURBINES SUPPLY FLEXIBILITY SUSTAINABLE ENERGY TRADITIONAL BIOMASS TRANSMISSION INFRASTRUCTURE TRANSMISSION LINE TRANSMISSION LINES TRANSMISSION SYSTEM TURBINE TURBINE BLADES UTILITIES VOLTAGE WASTE WIND WIND ENERGY WIND EQUIPMENT WIND GENERATION WIND PLANTS WIND POWER WIND RESOURCES WIND TURBINES WINDS WORLD ENERGY |
| spellingShingle |
ACCESS TO MODERN ENERGY AGGREGATE DEMAND AVAILABILITY BALANCE BATTERIES BLACK CARBON BOTTOM LINE BRIQUETTES BURNING COAL CLIMATE CLIMATE CHANGE CO CO2 CO2 EMISSIONS COAL COMBUSTION COMPRESSED AIR CONGESTION DEMAND CURVE DISTRIBUTION OF ENERGY ELECTRIC POWER ELECTRICAL POWER ELECTRICITY ELECTRICITY GENERATION ELECTRIFICATION EMISSION EMISSION FACTOR ENERGY ACCESS ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DATA ENERGY DEMAND ENERGY DEPARTMENT ENERGY EFFICIENCY ENERGY INDUSTRIES ENERGY INTENSITY ENERGY MANAGEMENT ENERGY MARKETS ENERGY MIX ENERGY OPERATIONS ENERGY REGULATORY COMMISSION ENERGY SECTOR ENERGY SERVICES ENERGY SUPPLY ENERGY TECHNOLOGIES FOREST FOREST RESIDUES FOSSIL FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL EFFICIENCY GAS TURBINES GAS UNITS GASEOUS FUELS GENERATION GENERATION UNITS GENERATOR GLOBAL ENERGY MIX GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GRID GRID CODE GROSS DOMESTIC PRODUCT HEAT HEAT GENERATION HEATING HEATING FUELS HOUSEHOLD ENERGY HYDROPOWER HYDROPOWER GENERATION INCOME INTERNATIONAL ENERGY AGENCY LIQUEFIED PETROLEUM GAS METHANE MODERN WORLD OIL PE PEAK DEMAND PELLETS PETROLEUM PETROLEUM GAS PH PIPELINE POWER POWER SOURCES POWER SYSTEM POWER SYSTEMS PP PRIMARY ENERGY RENEWABLE ELECTRICITY RENEWABLE ENERGY RENEWABLE ENERGY RESOURCES SECURITY OF ENERGY SUPPLY SOLAR ENERGY SOLAR POWER SOLAR RESOURCES SOLID FUELS SOURCE OF ENERGY STEAM TURBINES SUPPLY FLEXIBILITY SUSTAINABLE ENERGY TRADITIONAL BIOMASS TRANSMISSION INFRASTRUCTURE TRANSMISSION LINE TRANSMISSION LINES TRANSMISSION SYSTEM TURBINE TURBINE BLADES UTILITIES VOLTAGE WASTE WIND WIND ENERGY WIND EQUIPMENT WIND GENERATION WIND PLANTS WIND POWER WIND RESOURCES WIND TURBINES WINDS WORLD ENERGY Nikolakakis, Thomas Chatopadhyay, Debabrata Integrating Variable Renewable Energy into Power System Operations |
| relation |
Live Wire, 2015/38 |
| description |
Wind and solar energy is a fast-growing
share of the global energy mix. But integrating them into
power-system operations requires significant adaptations to
compensate for their variability. Solutions include
increasing the amount of flexible generation within the
system, combining, and dispersing variable resources to
smooth aggregate output, expanding the transmission network,
using smart technology to control supply and demand, and
storing electricity. |
| format |
Brief |
| author |
Nikolakakis, Thomas Chatopadhyay, Debabrata |
| author_facet |
Nikolakakis, Thomas Chatopadhyay, Debabrata |
| author_sort |
Nikolakakis, Thomas |
| title |
Integrating Variable Renewable Energy into Power System Operations |
| title_short |
Integrating Variable Renewable Energy into Power System Operations |
| title_full |
Integrating Variable Renewable Energy into Power System Operations |
| title_fullStr |
Integrating Variable Renewable Energy into Power System Operations |
| title_full_unstemmed |
Integrating Variable Renewable Energy into Power System Operations |
| title_sort |
integrating variable renewable energy into power system operations |
| publisher |
World Bank, Washington, DC |
| publishDate |
2015 |
| url |
http://documents.worldbank.org/curated/en/2015/01/23853568/integrating-variable-renewable-energy-power-system-operations http://hdl.handle.net/10986/21359 |
| _version_ |
1764448034948644864 |