Thirsty Energy : Understanding the Linkages between Energy and Water
Population growth and economic development, aggravated by climate change, will increase pressure on energy and water resources. Integrated planning can make the most of these two essential and scarce resources. Thirsty Energy, a World Bank initiati...
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World Bank, Washington, DC
2015
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| Online Access: | http://documents.worldbank.org/curated/en/2015/01/24084417/thirsty-energy-understanding-linkages-between-energy-water http://hdl.handle.net/10986/21576 |
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okr-10986-215762021-06-14T10:20:46Z Thirsty Energy : Understanding the Linkages between Energy and Water Delgado, Anna Rodriguez, Diego J. Sohns, Antonia A. ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AIR ALTERNATIVE ENERGY AMBIENT CONDITIONS AQUATIC ORGANISMS ASH ASSESSMENT PROGRAM AVAILABILITY BALANCE BIOMASS BLACK CARBON BOTTOM LINE BRIQUETTES BURNING COAL CARBON CARBON CAPTURE CARBON DISCLOSURE PROJECT CHARCOAL CLEAN ENERGY CLIMATE CLIMATE CHANGE CLOSED-LOOP SYSTEMS CO CO2 COAL COAL POWER PLANTS COLOR COMBUSTION COOLING COOLING SYSTEMS COOLING TOWERS COOLING WATER CYCLE POWER PLANTS DAMS DISTRIBUTION OF ENERGY DROUGHT ELECTRIC POWER ELECTRIC POWER GENERATION ELECTRICAL POWER ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION FACTOR EMISSIONS ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DEMAND ENERGY DEVELOPMENT ENERGY EFFICIENCY ENERGY GENERATION ENERGY INDUSTRIES ENERGY INTENSITY ENERGY MIX ENERGY OUTLOOK ENERGY PLANNING ENERGY SHORTAGES ENERGY SOURCES ENVIRONMENTAL IMPACTS EVAPORATION FLUE GAS FOREST FOREST RESIDUES FOSSIL FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUELS GAS DESULFURIZATION GASEOUS FUELS GASIFICATION GEOTHERMAL ENERGY GLOBAL ENERGY MIX GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GROSS DOMESTIC PRODUCT HEAT HEAT GENERATION HEAT INPUT HEAT RATE HEATING HOT WATER HOUSEHOLD ENERGY HYDROPOWER IMPACTS OF CLIMATE CHANGE INCOME INTERNATIONAL ENERGY AGENCY IRRIGATION LEAKAGE LIGNITE LIQUEFIED PETROLEUM GAS METHANE MIRRORS MODERN WORLD MOMENTUM MULTIPURPOSE DAMS NATURAL GAS NEGATIVE IMPACT NUCLEAR ENERGY NUCLEAR PLANTS NUCLEAR POWER NUCLEAR POWER PLANTS OIL PE PEAK LOADS PEAK POWER PELLETS PETROLEUM PETROLEUM GAS PIPELINE PLANT EFFICIENCY POLLUTANTS POLLUTION POWER GENERATION POWER GENERATION TECHNOLOGIES POWER PLANT POWER PLANT FLUE POWER SECTOR POWER SYSTEM PRESSURE PRIMARY ENERGY RENEWABLE ENERGY RENEWABLE ENERGY RESOURCES RIVER BASINS SANITATION SOLAR ENERGY SOLAR PANELS SOLAR THERMAL SOLID FUELS SOURCE OF ENERGY STEAM CYCLE SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY TEMPERATURE THERMAL PLANTS THERMAL POWER THERMAL POWER PLANT THERMAL POWER PLANTS TOOLS TRADITIONAL BIOMASS TRANSPORT TURBINE TURBINES URANIUM UTILITIES WASTE WASTEWATER TREATMENT WATER CONSUMPTION WATER SUPPLY WIND WIND ENERGY WIND TURBINES WORLD ENERGY WORLD ENERGY OUTLOOK Population growth and economic development, aggravated by climate change, will increase pressure on energy and water resources. Integrated planning can make the most of these two essential and scarce resources. Thirsty Energy, a World Bank initiative, helps countries address these issues and ensure sustainable development of both resources. This note focuses on the water needs of the power sector and particularly answers the following questions: Why is this issue important? Do power plants need all that much water? What about other types of plants? What are the challenges? and, What are our options? 2015-03-10T22:29:39Z 2015-03-10T22:29:39Z 2015-01 Brief http://documents.worldbank.org/curated/en/2015/01/24084417/thirsty-energy-understanding-linkages-between-energy-water http://hdl.handle.net/10986/21576 English en_US Live Wire, 2015/41 CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank, Washington, DC Publications & Research Publications & Research :: Brief |
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Digital Repository |
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Foreign Institution |
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Digital Repositories |
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World Bank Open Knowledge Repository |
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World Bank |
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English en_US |
| topic |
ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AIR ALTERNATIVE ENERGY AMBIENT CONDITIONS AQUATIC ORGANISMS ASH ASSESSMENT PROGRAM AVAILABILITY BALANCE BIOMASS BLACK CARBON BOTTOM LINE BRIQUETTES BURNING COAL CARBON CARBON CAPTURE CARBON DISCLOSURE PROJECT CHARCOAL CLEAN ENERGY CLIMATE CLIMATE CHANGE CLOSED-LOOP SYSTEMS CO CO2 COAL COAL POWER PLANTS COLOR COMBUSTION COOLING COOLING SYSTEMS COOLING TOWERS COOLING WATER CYCLE POWER PLANTS DAMS DISTRIBUTION OF ENERGY DROUGHT ELECTRIC POWER ELECTRIC POWER GENERATION ELECTRICAL POWER ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION FACTOR EMISSIONS ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DEMAND ENERGY DEVELOPMENT ENERGY EFFICIENCY ENERGY GENERATION ENERGY INDUSTRIES ENERGY INTENSITY ENERGY MIX ENERGY OUTLOOK ENERGY PLANNING ENERGY SHORTAGES ENERGY SOURCES ENVIRONMENTAL IMPACTS EVAPORATION FLUE GAS FOREST FOREST RESIDUES FOSSIL FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUELS GAS DESULFURIZATION GASEOUS FUELS GASIFICATION GEOTHERMAL ENERGY GLOBAL ENERGY MIX GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GROSS DOMESTIC PRODUCT HEAT HEAT GENERATION HEAT INPUT HEAT RATE HEATING HOT WATER HOUSEHOLD ENERGY HYDROPOWER IMPACTS OF CLIMATE CHANGE INCOME INTERNATIONAL ENERGY AGENCY IRRIGATION LEAKAGE LIGNITE LIQUEFIED PETROLEUM GAS METHANE MIRRORS MODERN WORLD MOMENTUM MULTIPURPOSE DAMS NATURAL GAS NEGATIVE IMPACT NUCLEAR ENERGY NUCLEAR PLANTS NUCLEAR POWER NUCLEAR POWER PLANTS OIL PE PEAK LOADS PEAK POWER PELLETS PETROLEUM PETROLEUM GAS PIPELINE PLANT EFFICIENCY POLLUTANTS POLLUTION POWER GENERATION POWER GENERATION TECHNOLOGIES POWER PLANT POWER PLANT FLUE POWER SECTOR POWER SYSTEM PRESSURE PRIMARY ENERGY RENEWABLE ENERGY RENEWABLE ENERGY RESOURCES RIVER BASINS SANITATION SOLAR ENERGY SOLAR PANELS SOLAR THERMAL SOLID FUELS SOURCE OF ENERGY STEAM CYCLE SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY TEMPERATURE THERMAL PLANTS THERMAL POWER THERMAL POWER PLANT THERMAL POWER PLANTS TOOLS TRADITIONAL BIOMASS TRANSPORT TURBINE TURBINES URANIUM UTILITIES WASTE WASTEWATER TREATMENT WATER CONSUMPTION WATER SUPPLY WIND WIND ENERGY WIND TURBINES WORLD ENERGY WORLD ENERGY OUTLOOK |
| spellingShingle |
ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AIR ALTERNATIVE ENERGY AMBIENT CONDITIONS AQUATIC ORGANISMS ASH ASSESSMENT PROGRAM AVAILABILITY BALANCE BIOMASS BLACK CARBON BOTTOM LINE BRIQUETTES BURNING COAL CARBON CARBON CAPTURE CARBON DISCLOSURE PROJECT CHARCOAL CLEAN ENERGY CLIMATE CLIMATE CHANGE CLOSED-LOOP SYSTEMS CO CO2 COAL COAL POWER PLANTS COLOR COMBUSTION COOLING COOLING SYSTEMS COOLING TOWERS COOLING WATER CYCLE POWER PLANTS DAMS DISTRIBUTION OF ENERGY DROUGHT ELECTRIC POWER ELECTRIC POWER GENERATION ELECTRICAL POWER ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION FACTOR EMISSIONS ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DEMAND ENERGY DEVELOPMENT ENERGY EFFICIENCY ENERGY GENERATION ENERGY INDUSTRIES ENERGY INTENSITY ENERGY MIX ENERGY OUTLOOK ENERGY PLANNING ENERGY SHORTAGES ENERGY SOURCES ENVIRONMENTAL IMPACTS EVAPORATION FLUE GAS FOREST FOREST RESIDUES FOSSIL FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUELS GAS DESULFURIZATION GASEOUS FUELS GASIFICATION GEOTHERMAL ENERGY GLOBAL ENERGY MIX GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GROSS DOMESTIC PRODUCT HEAT HEAT GENERATION HEAT INPUT HEAT RATE HEATING HOT WATER HOUSEHOLD ENERGY HYDROPOWER IMPACTS OF CLIMATE CHANGE INCOME INTERNATIONAL ENERGY AGENCY IRRIGATION LEAKAGE LIGNITE LIQUEFIED PETROLEUM GAS METHANE MIRRORS MODERN WORLD MOMENTUM MULTIPURPOSE DAMS NATURAL GAS NEGATIVE IMPACT NUCLEAR ENERGY NUCLEAR PLANTS NUCLEAR POWER NUCLEAR POWER PLANTS OIL PE PEAK LOADS PEAK POWER PELLETS PETROLEUM PETROLEUM GAS PIPELINE PLANT EFFICIENCY POLLUTANTS POLLUTION POWER GENERATION POWER GENERATION TECHNOLOGIES POWER PLANT POWER PLANT FLUE POWER SECTOR POWER SYSTEM PRESSURE PRIMARY ENERGY RENEWABLE ENERGY RENEWABLE ENERGY RESOURCES RIVER BASINS SANITATION SOLAR ENERGY SOLAR PANELS SOLAR THERMAL SOLID FUELS SOURCE OF ENERGY STEAM CYCLE SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY TEMPERATURE THERMAL PLANTS THERMAL POWER THERMAL POWER PLANT THERMAL POWER PLANTS TOOLS TRADITIONAL BIOMASS TRANSPORT TURBINE TURBINES URANIUM UTILITIES WASTE WASTEWATER TREATMENT WATER CONSUMPTION WATER SUPPLY WIND WIND ENERGY WIND TURBINES WORLD ENERGY WORLD ENERGY OUTLOOK Delgado, Anna Rodriguez, Diego J. Sohns, Antonia A. Thirsty Energy : Understanding the Linkages between Energy and Water |
| relation |
Live Wire, 2015/41 |
| description |
Population growth and economic
development, aggravated by climate change, will increase
pressure on energy and water resources. Integrated planning
can make the most of these two essential and scarce
resources. Thirsty Energy, a World Bank initiative, helps
countries address these issues and ensure sustainable
development of both resources. This note focuses on the
water needs of the power sector and particularly answers the
following questions: Why is this issue important? Do power
plants need all that much water? What about other types of
plants? What are the challenges? and, What are our options? |
| format |
Brief |
| author |
Delgado, Anna Rodriguez, Diego J. Sohns, Antonia A. |
| author_facet |
Delgado, Anna Rodriguez, Diego J. Sohns, Antonia A. |
| author_sort |
Delgado, Anna |
| title |
Thirsty Energy : Understanding the Linkages between Energy and Water |
| title_short |
Thirsty Energy : Understanding the Linkages between Energy and Water |
| title_full |
Thirsty Energy : Understanding the Linkages between Energy and Water |
| title_fullStr |
Thirsty Energy : Understanding the Linkages between Energy and Water |
| title_full_unstemmed |
Thirsty Energy : Understanding the Linkages between Energy and Water |
| title_sort |
thirsty energy : understanding the linkages between energy and water |
| publisher |
World Bank, Washington, DC |
| publishDate |
2015 |
| url |
http://documents.worldbank.org/curated/en/2015/01/24084417/thirsty-energy-understanding-linkages-between-energy-water http://hdl.handle.net/10986/21576 |
| _version_ |
1764448685768310784 |