Ukraine : Investment Plan for the Clean Technology Fund
This report describes the Ukraine Investment Plan for the Clean Technology Fund. Ukraine is a lower middle income country, with GDP per capita of US$1,940 in 2006. After a decade of steep economic decline, economic growth rebounded in 2000 and GDP...
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| Format: | Energy Study |
| Language: | English en_US |
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Washington, DC
2013
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| Online Access: | http://documents.worldbank.org/curated/en/2010/01/16281392/ukraine-investment-plan-clean-technology-fund-ukraine-investment-plan-clean-technology-fund http://hdl.handle.net/10986/12556 |
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okr-10986-12556 |
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oai_dc |
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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 |
| collection |
World Bank |
| language |
English en_US |
| topic |
ALTERNATIVE ENERGY ALTERNATIVE FUELS ANNUAL GREENHOUSE GAS APPROACH AVAILABILITY BIOMASS BOILERS BURNERS CARBON CARBON CAPTURE CARBON DIOXIDE CARBON FINANCING CARBON INTENSITY CEMENT CEMENT PRODUCTION CLEAN AIR CLEAN ENERGY CLEAN TECHNOLOGY CLIMATE CLIMATE CHANGE CLIMATE CHANGE POLICY CO CO2 COAL BED METHANE COAL MINE COAL PLANTS COAL PRICE COLLECTION SYSTEM COMBUSTION COMBUSTION TECHNOLOGIES CONSUMPTION OF ENERGY CONVENTIONAL ENERGY COST OF ELECTRICITY COST OF ELECTRICITY PRODUCTION COST OF ENERGY COST OF ENERGY SUPPLY COST OF GAS COSTS OF ENERGY SUPPLY CYCLE POWER PLANTS DEMAND MANAGEMENT DISTRICT HEAT DISTRICT HEATING DOMESTIC COAL DOMESTIC ENERGY DOMESTIC GAS EFFICIENCY POTENTIAL EFFICIENT ENERGY USE ELECTRIC POWER ELECTRIC POWER INDUSTRY ELECTRIC UTILITIES ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRICITY TARIFFS EMISSION EMISSION REDUCTION EMISSION TRENDS EMISSIONS DATA EMISSIONS INTENSITY EMISSIONS REDUCTION EMPLOYMENT ENERGY BALANCE ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY INVESTMENTS ENERGY LOSSES ENERGY POLICY ENERGY PRICES ENERGY PRICING ENERGY PRODUCTION ENERGY PRODUCTION COST ENERGY SAVINGS ENERGY SOURCES ENERGY STRATEGY ENERGY SUPPLY ENERGY USE ENERGY-SAVING TECHNOLOGIES FOSSIL FOSSIL FUEL FOSSIL FUEL ELECTRICITY PRODUCTION FOSSIL FUEL POWER FOSSIL FUEL POWER PLANTS FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL CONSUMPTION FUEL CYCLE FUEL PRODUCTION FUEL SWITCHING FUGITIVE EMISSIONS GAS IMPORTS GAS PIPELINES GAS PRICES GAS SUPPLY GAS TRANSMISSION GENERATION CAPACITY GEOLOGICAL CONDITIONS GEOTHERMAL ENERGY GHG GHGS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GREENHOUSE GAS MITIGATION GRID CONNECTIONS GRID SYSTEMS HEAT HEAT PRODUCTION HEAT PUMPS HEAT RECOVERY HEAT SUPPLY HEAT TARIFF HEAT TARIFFS HEATING ENERGY HIGH ENERGY INTENSITY HOT GASES HYDRO POWER HYDRO POWER PLANTS HYDROPOWER HYDROPOWER GENERATION HYDROPOWER REHABILITATION IMPROVING ENERGY EFFICIENCY INVESTMENT IN ENERGY EFFICIENCY INVESTMENTS IN ENERGY LARGE WIND FARMS LIMESTONE LOAD FACTOR METHANE METHANE EMISSIONS MINING OF COAL NATURAL GAS NATURAL GAS CONSUMPTION NATURAL GAS PRICES NUCLEAR FUEL NUCLEAR PLANT NUCLEAR PLANTS NUCLEAR POWER NUCLEAR POWER CAPACITY NUCLEAR POWER GENERATION NUCLEAR POWER PLANT NUCLEAR POWER PLANTS OIL OIL EQUIVALENT OIL PRODUCERS OIL PRODUCTS PARTICULATE PARTICULATE EMISSIONS PEAK POWER PIPELINE POWER POWER FLOWS POWER GENERATION POWER GRID POWER PRODUCTION POWER SECTOR POWER STATIONS POWER SYSTEM PRICE OF COAL PRIMARY ENERGY PRIMARY ENERGY SUPPLY PRIMARY FUEL PRODUCTION OF ELECTRICITY PROMOTING ENERGY EFFICIENCY RANKINE CYCLE REDUCING ENERGY CONSUMPTION RENEWABLE ENERGY RENEWABLE ENERGY CAPACITY RENEWABLE ENERGY INDUSTRY RENEWABLE ENERGY MARKET RENEWABLE ENERGY PRODUCTION RENEWABLE ENERGY PROGRAM RENEWABLE ENERGY PROJECTS RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY SUPPLY RENEWABLE ENERGY TECHNOLOGIES RENEWABLE GENERATION RENEWABLE POWER RENEWABLE RESOURCE RENEWABLE SOURCES RENEWABLE TECHNOLOGIES RESIDENTIAL ENERGY SINK SMALL HYDROPOWER SOLAR ENERGY SOLAR POWER SOLID FUELS SOLVENTS STEAM COAL STEAM GENERATORS SUPPLY COSTS SUPPLY EFFICIENCY SUSTAINABLE ENERGY TARIFF STRUCTURE THERMAL ENERGY THERMAL POWER THERMAL POWER PLANT THERMAL POWER PLANTS TOTAL EMISSIONS TRANSMISSION GRID TRANSMISSION LINES TRANSMISSION SYSTEM TURBINE UTILITIES WIND WIND CAPACITY WIND ENERGY WIND ENERGY DEVELOPMENT WIND GENERATION WIND POWER WIND POWER GENERATION ZERO EMISSION |
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ALTERNATIVE ENERGY ALTERNATIVE FUELS ANNUAL GREENHOUSE GAS APPROACH AVAILABILITY BIOMASS BOILERS BURNERS CARBON CARBON CAPTURE CARBON DIOXIDE CARBON FINANCING CARBON INTENSITY CEMENT CEMENT PRODUCTION CLEAN AIR CLEAN ENERGY CLEAN TECHNOLOGY CLIMATE CLIMATE CHANGE CLIMATE CHANGE POLICY CO CO2 COAL BED METHANE COAL MINE COAL PLANTS COAL PRICE COLLECTION SYSTEM COMBUSTION COMBUSTION TECHNOLOGIES CONSUMPTION OF ENERGY CONVENTIONAL ENERGY COST OF ELECTRICITY COST OF ELECTRICITY PRODUCTION COST OF ENERGY COST OF ENERGY SUPPLY COST OF GAS COSTS OF ENERGY SUPPLY CYCLE POWER PLANTS DEMAND MANAGEMENT DISTRICT HEAT DISTRICT HEATING DOMESTIC COAL DOMESTIC ENERGY DOMESTIC GAS EFFICIENCY POTENTIAL EFFICIENT ENERGY USE ELECTRIC POWER ELECTRIC POWER INDUSTRY ELECTRIC UTILITIES ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRICITY TARIFFS EMISSION EMISSION REDUCTION EMISSION TRENDS EMISSIONS DATA EMISSIONS INTENSITY EMISSIONS REDUCTION EMPLOYMENT ENERGY BALANCE ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY INVESTMENTS ENERGY LOSSES ENERGY POLICY ENERGY PRICES ENERGY PRICING ENERGY PRODUCTION ENERGY PRODUCTION COST ENERGY SAVINGS ENERGY SOURCES ENERGY STRATEGY ENERGY SUPPLY ENERGY USE ENERGY-SAVING TECHNOLOGIES FOSSIL FOSSIL FUEL FOSSIL FUEL ELECTRICITY PRODUCTION FOSSIL FUEL POWER FOSSIL FUEL POWER PLANTS FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL CONSUMPTION FUEL CYCLE FUEL PRODUCTION FUEL SWITCHING FUGITIVE EMISSIONS GAS IMPORTS GAS PIPELINES GAS PRICES GAS SUPPLY GAS TRANSMISSION GENERATION CAPACITY GEOLOGICAL CONDITIONS GEOTHERMAL ENERGY GHG GHGS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GREENHOUSE GAS MITIGATION GRID CONNECTIONS GRID SYSTEMS HEAT HEAT PRODUCTION HEAT PUMPS HEAT RECOVERY HEAT SUPPLY HEAT TARIFF HEAT TARIFFS HEATING ENERGY HIGH ENERGY INTENSITY HOT GASES HYDRO POWER HYDRO POWER PLANTS HYDROPOWER HYDROPOWER GENERATION HYDROPOWER REHABILITATION IMPROVING ENERGY EFFICIENCY INVESTMENT IN ENERGY EFFICIENCY INVESTMENTS IN ENERGY LARGE WIND FARMS LIMESTONE LOAD FACTOR METHANE METHANE EMISSIONS MINING OF COAL NATURAL GAS NATURAL GAS CONSUMPTION NATURAL GAS PRICES NUCLEAR FUEL NUCLEAR PLANT NUCLEAR PLANTS NUCLEAR POWER NUCLEAR POWER CAPACITY NUCLEAR POWER GENERATION NUCLEAR POWER PLANT NUCLEAR POWER PLANTS OIL OIL EQUIVALENT OIL PRODUCERS OIL PRODUCTS PARTICULATE PARTICULATE EMISSIONS PEAK POWER PIPELINE POWER POWER FLOWS POWER GENERATION POWER GRID POWER PRODUCTION POWER SECTOR POWER STATIONS POWER SYSTEM PRICE OF COAL PRIMARY ENERGY PRIMARY ENERGY SUPPLY PRIMARY FUEL PRODUCTION OF ELECTRICITY PROMOTING ENERGY EFFICIENCY RANKINE CYCLE REDUCING ENERGY CONSUMPTION RENEWABLE ENERGY RENEWABLE ENERGY CAPACITY RENEWABLE ENERGY INDUSTRY RENEWABLE ENERGY MARKET RENEWABLE ENERGY PRODUCTION RENEWABLE ENERGY PROGRAM RENEWABLE ENERGY PROJECTS RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY SUPPLY RENEWABLE ENERGY TECHNOLOGIES RENEWABLE GENERATION RENEWABLE POWER RENEWABLE RESOURCE RENEWABLE SOURCES RENEWABLE TECHNOLOGIES RESIDENTIAL ENERGY SINK SMALL HYDROPOWER SOLAR ENERGY SOLAR POWER SOLID FUELS SOLVENTS STEAM COAL STEAM GENERATORS SUPPLY COSTS SUPPLY EFFICIENCY SUSTAINABLE ENERGY TARIFF STRUCTURE THERMAL ENERGY THERMAL POWER THERMAL POWER PLANT THERMAL POWER PLANTS TOTAL EMISSIONS TRANSMISSION GRID TRANSMISSION LINES TRANSMISSION SYSTEM TURBINE UTILITIES WIND WIND CAPACITY WIND ENERGY WIND ENERGY DEVELOPMENT WIND GENERATION WIND POWER WIND POWER GENERATION ZERO EMISSION World Bank Ukraine : Investment Plan for the Clean Technology Fund |
| geographic_facet |
Europe and Central Asia Ukraine |
| description |
This report describes the Ukraine
Investment Plan for the Clean Technology Fund. Ukraine is a
lower middle income country, with GDP per capita of US$1,940
in 2006. After a decade of steep economic decline, economic
growth rebounded in 2000 and GDP grew by about 7.5 percent
per year on average until 2007. To recover its economic
growth and improve competitiveness, Ukraine will need to
address a combination of challenges. Improving the energy
efficiency of the economy and thereby reducing its
vulnerability to further import price shocks, as well as
modernizing the energy sector to make it more efficient, are
among those challenges. The Energy Strategy of Ukraine for
the Period until 2030, adopted in 2006, provides a platform
for addressing these issues over the three distinct phases
of development envisaged for the country. Energy and
industry are the priority sectors for intervention as they
account for 69 percent and 22 percent of country s GHG
emissions, respectively The interventions with the highest
potential for reducing GHG emissions in Ukraine are: (1)
energy efficiency; (2) increased use of nuclear power; (3)
implementation of high efficiency combustion technologies
and carbon capture and storage (CCS) for new coal-fired
plants; and (4) renewable energy. |
| format |
Economic & Sector Work :: Energy Study |
| author |
World Bank |
| author_facet |
World Bank |
| author_sort |
World Bank |
| title |
Ukraine : Investment Plan for the Clean Technology Fund |
| title_short |
Ukraine : Investment Plan for the Clean Technology Fund |
| title_full |
Ukraine : Investment Plan for the Clean Technology Fund |
| title_fullStr |
Ukraine : Investment Plan for the Clean Technology Fund |
| title_full_unstemmed |
Ukraine : Investment Plan for the Clean Technology Fund |
| title_sort |
ukraine : investment plan for the clean technology fund |
| publisher |
Washington, DC |
| publishDate |
2013 |
| url |
http://documents.worldbank.org/curated/en/2010/01/16281392/ukraine-investment-plan-clean-technology-fund-ukraine-investment-plan-clean-technology-fund http://hdl.handle.net/10986/12556 |
| _version_ |
1764420203003772928 |
| spelling |
okr-10986-125562021-04-23T14:03:01Z Ukraine : Investment Plan for the Clean Technology Fund World Bank ALTERNATIVE ENERGY ALTERNATIVE FUELS ANNUAL GREENHOUSE GAS APPROACH AVAILABILITY BIOMASS BOILERS BURNERS CARBON CARBON CAPTURE CARBON DIOXIDE CARBON FINANCING CARBON INTENSITY CEMENT CEMENT PRODUCTION CLEAN AIR CLEAN ENERGY CLEAN TECHNOLOGY CLIMATE CLIMATE CHANGE CLIMATE CHANGE POLICY CO CO2 COAL BED METHANE COAL MINE COAL PLANTS COAL PRICE COLLECTION SYSTEM COMBUSTION COMBUSTION TECHNOLOGIES CONSUMPTION OF ENERGY CONVENTIONAL ENERGY COST OF ELECTRICITY COST OF ELECTRICITY PRODUCTION COST OF ENERGY COST OF ENERGY SUPPLY COST OF GAS COSTS OF ENERGY SUPPLY CYCLE POWER PLANTS DEMAND MANAGEMENT DISTRICT HEAT DISTRICT HEATING DOMESTIC COAL DOMESTIC ENERGY DOMESTIC GAS EFFICIENCY POTENTIAL EFFICIENT ENERGY USE ELECTRIC POWER ELECTRIC POWER INDUSTRY ELECTRIC UTILITIES ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRICITY TARIFFS EMISSION EMISSION REDUCTION EMISSION TRENDS EMISSIONS DATA EMISSIONS INTENSITY EMISSIONS REDUCTION EMPLOYMENT ENERGY BALANCE ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY INVESTMENTS ENERGY LOSSES ENERGY POLICY ENERGY PRICES ENERGY PRICING ENERGY PRODUCTION ENERGY PRODUCTION COST ENERGY SAVINGS ENERGY SOURCES ENERGY STRATEGY ENERGY SUPPLY ENERGY USE ENERGY-SAVING TECHNOLOGIES FOSSIL FOSSIL FUEL FOSSIL FUEL ELECTRICITY PRODUCTION FOSSIL FUEL POWER FOSSIL FUEL POWER PLANTS FOSSIL FUELS FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL CONSUMPTION FUEL CYCLE FUEL PRODUCTION FUEL SWITCHING FUGITIVE EMISSIONS GAS IMPORTS GAS PIPELINES GAS PRICES GAS SUPPLY GAS TRANSMISSION GENERATION CAPACITY GEOLOGICAL CONDITIONS GEOTHERMAL ENERGY GHG GHGS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GREENHOUSE GAS MITIGATION GRID CONNECTIONS GRID SYSTEMS HEAT HEAT PRODUCTION HEAT PUMPS HEAT RECOVERY HEAT SUPPLY HEAT TARIFF HEAT TARIFFS HEATING ENERGY HIGH ENERGY INTENSITY HOT GASES HYDRO POWER HYDRO POWER PLANTS HYDROPOWER HYDROPOWER GENERATION HYDROPOWER REHABILITATION IMPROVING ENERGY EFFICIENCY INVESTMENT IN ENERGY EFFICIENCY INVESTMENTS IN ENERGY LARGE WIND FARMS LIMESTONE LOAD FACTOR METHANE METHANE EMISSIONS MINING OF COAL NATURAL GAS NATURAL GAS CONSUMPTION NATURAL GAS PRICES NUCLEAR FUEL NUCLEAR PLANT NUCLEAR PLANTS NUCLEAR POWER NUCLEAR POWER CAPACITY NUCLEAR POWER GENERATION NUCLEAR POWER PLANT NUCLEAR POWER PLANTS OIL OIL EQUIVALENT OIL PRODUCERS OIL PRODUCTS PARTICULATE PARTICULATE EMISSIONS PEAK POWER PIPELINE POWER POWER FLOWS POWER GENERATION POWER GRID POWER PRODUCTION POWER SECTOR POWER STATIONS POWER SYSTEM PRICE OF COAL PRIMARY ENERGY PRIMARY ENERGY SUPPLY PRIMARY FUEL PRODUCTION OF ELECTRICITY PROMOTING ENERGY EFFICIENCY RANKINE CYCLE REDUCING ENERGY CONSUMPTION RENEWABLE ENERGY RENEWABLE ENERGY CAPACITY RENEWABLE ENERGY INDUSTRY RENEWABLE ENERGY MARKET RENEWABLE ENERGY PRODUCTION RENEWABLE ENERGY PROGRAM RENEWABLE ENERGY PROJECTS RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY SUPPLY RENEWABLE ENERGY TECHNOLOGIES RENEWABLE GENERATION RENEWABLE POWER RENEWABLE RESOURCE RENEWABLE SOURCES RENEWABLE TECHNOLOGIES RESIDENTIAL ENERGY SINK SMALL HYDROPOWER SOLAR ENERGY SOLAR POWER SOLID FUELS SOLVENTS STEAM COAL STEAM GENERATORS SUPPLY COSTS SUPPLY EFFICIENCY SUSTAINABLE ENERGY TARIFF STRUCTURE THERMAL ENERGY THERMAL POWER THERMAL POWER PLANT THERMAL POWER PLANTS TOTAL EMISSIONS TRANSMISSION GRID TRANSMISSION LINES TRANSMISSION SYSTEM TURBINE UTILITIES WIND WIND CAPACITY WIND ENERGY WIND ENERGY DEVELOPMENT WIND GENERATION WIND POWER WIND POWER GENERATION ZERO EMISSION This report describes the Ukraine Investment Plan for the Clean Technology Fund. Ukraine is a lower middle income country, with GDP per capita of US$1,940 in 2006. After a decade of steep economic decline, economic growth rebounded in 2000 and GDP grew by about 7.5 percent per year on average until 2007. To recover its economic growth and improve competitiveness, Ukraine will need to address a combination of challenges. Improving the energy efficiency of the economy and thereby reducing its vulnerability to further import price shocks, as well as modernizing the energy sector to make it more efficient, are among those challenges. The Energy Strategy of Ukraine for the Period until 2030, adopted in 2006, provides a platform for addressing these issues over the three distinct phases of development envisaged for the country. Energy and industry are the priority sectors for intervention as they account for 69 percent and 22 percent of country s GHG emissions, respectively The interventions with the highest potential for reducing GHG emissions in Ukraine are: (1) energy efficiency; (2) increased use of nuclear power; (3) implementation of high efficiency combustion technologies and carbon capture and storage (CCS) for new coal-fired plants; and (4) renewable energy. 2013-02-27T20:49:35Z 2013-02-27T20:49:35Z 2010-01 http://documents.worldbank.org/curated/en/2010/01/16281392/ukraine-investment-plan-clean-technology-fund-ukraine-investment-plan-clean-technology-fund http://hdl.handle.net/10986/12556 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank Washington, DC Economic & Sector Work :: Energy Study Economic & Sector Work Europe and Central Asia Ukraine |