Toward Climate-Resilient Hydropower in South Asia
The decision tree offers a cost effective, scientifically sound, replicable, and transparent method for demonstrating the robustness of a development project in the face of the risks posed by climate change, natural hazards, and other factors. The...
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| Format: | Brief |
| Language: | English en_US |
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World Bank, Washington, DC
2016
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| Online Access: | http://documents.worldbank.org/curated/en/2016/05/26358797/toward-climate-resilient-hydropower-south-asia http://hdl.handle.net/10986/24254 |
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okr-10986-242542021-05-25T10:54:36Z Toward Climate-Resilient Hydropower in South Asia Karki, Pravin Bonzanigo, Laura Ohtsuka, Haruhisa Pahuja, Sanjay WASTE IMPACTS OF CLIMATE CHANGE UNCERTAINTIES NO TEMPERATURE CARBON DIOXIDE FOSSIL FUELS CARBON INCOME ANNUAL GROWTH RATE ACTIVITIES ACCESS TO MODERN ENERGY GENERATION INTERNATIONAL ENERGY AGENCY HYDROLOGY CLEAN ENERGY TRADITIONAL BIOMASS EMISSIONS COST ESTIMATES PORTFOLIO CLIMATE UNCERTAINTY GAS MODELS PRICE SUSTAINABLE DEVELOPMENT POWER SYSTEM ENERGY CONSUMERS DISTRIBUTION OF ENERGY PRESENT VALUE BIOMASS CO2 PETROLEUM SCENARIOS OIL EMISSION FACTOR ENERGY MIX SUSTAINABLE ENERGY FOREST RESIDUES CAPACITY ENERGY SUPPLY ENERGY INTENSITY TOTAL CONSUMPTION ELECTRIFICATION CLIMATE CHANGE POLICY OPTIONS WATER SOLID FUELS ENERGY RESOURCES PRIMARY ENERGY CONSUMPTION RENEWABLE ENERGY RESOURCES CONVENTION ON CLIMATE CHANGE RAINFALL GLACIERS LONG-TERM FINANCING GAS EMISSIONS PELLETS GROSS DOMESTIC PRODUCT PRECIPITATION FUELS FINANCE WATER ANALYSIS INVESTMENT DECISIONS ENERGY CONSUMPTION EMISSION GREENHOUSE CONSUMPTION LEAD HEAT CLIMATE CHANGE ELECTRIC POWER BALANCE SOURCE OF ENERGY BLACK CARBON VALUE POWER ELECTRICITY CLIMATE DEMAND CHANGES IN CLIMATE HYDROPOWER WORLD ENERGY FOREST PETROLEUM GAS CO MARKET ENVIRONMENTAL RESEARCH HYDROPOWER PLANT POLICY PRIMARY ENERGY ENERGY EFFICIENCY ENERGY DEMAND ELECTRICITY PRICES CLIMATE RESILIENCE COMBUSTION INVESTMENT GASEOUS FUELS COAL FINANCIAL RISKS SUPPLY FUEL GLOBAL ENERGY MIX LESS AVAILABILITY FACILITIES HYDROPOWER GENERATION BOTTOM LINE INVESTMENTS METHANE BRIQUETTES HOUSEHOLD ENERGY ENERGY INDUSTRIES LIQUEFIED PETROLEUM GAS RENEWABLE ENERGY RESILIENCE TO CLIMATE CHANGE FRAMEWORK CONVENTION ON CLIMATE CHANGE HEAT GENERATION PIPELINE CAPITAL COSTS FOSSIL NATURAL HAZARDS PRICES APPROACH BENEFITS ENERGY The decision tree offers a cost effective, scientifically sound, replicable, and transparent method for demonstrating the robustness of a development project in the face of the risks posed by climate change, natural hazards, and other factors. The framework is most effective when a wide range of risks must be considered, as is typically the case with high-value hydropower investments. In order to gain maximum benefit from the framework, it should be conducted at both project and basin scale, first to answer questions immediately relevant to investors and then to provide perspective on alternative investment portfolios that may yield greater returns. 2016-05-09T19:22:45Z 2016-05-09T19:22:45Z 2016-05 Brief http://documents.worldbank.org/curated/en/2016/05/26358797/toward-climate-resilient-hydropower-south-asia http://hdl.handle.net/10986/24254 English en_US Live wire knowledge note series,no. 2016/60; Live Wire;2016/60 CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank World Bank, Washington, DC Publications & Research Publications & Research :: Brief South Asia South Asia |
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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 |
| language |
English en_US |
| topic |
WASTE IMPACTS OF CLIMATE CHANGE UNCERTAINTIES NO TEMPERATURE CARBON DIOXIDE FOSSIL FUELS CARBON INCOME ANNUAL GROWTH RATE ACTIVITIES ACCESS TO MODERN ENERGY GENERATION INTERNATIONAL ENERGY AGENCY HYDROLOGY CLEAN ENERGY TRADITIONAL BIOMASS EMISSIONS COST ESTIMATES PORTFOLIO CLIMATE UNCERTAINTY GAS MODELS PRICE SUSTAINABLE DEVELOPMENT POWER SYSTEM ENERGY CONSUMERS DISTRIBUTION OF ENERGY PRESENT VALUE BIOMASS CO2 PETROLEUM SCENARIOS OIL EMISSION FACTOR ENERGY MIX SUSTAINABLE ENERGY FOREST RESIDUES CAPACITY ENERGY SUPPLY ENERGY INTENSITY TOTAL CONSUMPTION ELECTRIFICATION CLIMATE CHANGE POLICY OPTIONS WATER SOLID FUELS ENERGY RESOURCES PRIMARY ENERGY CONSUMPTION RENEWABLE ENERGY RESOURCES CONVENTION ON CLIMATE CHANGE RAINFALL GLACIERS LONG-TERM FINANCING GAS EMISSIONS PELLETS GROSS DOMESTIC PRODUCT PRECIPITATION FUELS FINANCE WATER ANALYSIS INVESTMENT DECISIONS ENERGY CONSUMPTION EMISSION GREENHOUSE CONSUMPTION LEAD HEAT CLIMATE CHANGE ELECTRIC POWER BALANCE SOURCE OF ENERGY BLACK CARBON VALUE POWER ELECTRICITY CLIMATE DEMAND CHANGES IN CLIMATE HYDROPOWER WORLD ENERGY FOREST PETROLEUM GAS CO MARKET ENVIRONMENTAL RESEARCH HYDROPOWER PLANT POLICY PRIMARY ENERGY ENERGY EFFICIENCY ENERGY DEMAND ELECTRICITY PRICES CLIMATE RESILIENCE COMBUSTION INVESTMENT GASEOUS FUELS COAL FINANCIAL RISKS SUPPLY FUEL GLOBAL ENERGY MIX LESS AVAILABILITY FACILITIES HYDROPOWER GENERATION BOTTOM LINE INVESTMENTS METHANE BRIQUETTES HOUSEHOLD ENERGY ENERGY INDUSTRIES LIQUEFIED PETROLEUM GAS RENEWABLE ENERGY RESILIENCE TO CLIMATE CHANGE FRAMEWORK CONVENTION ON CLIMATE CHANGE HEAT GENERATION PIPELINE CAPITAL COSTS FOSSIL NATURAL HAZARDS PRICES APPROACH BENEFITS ENERGY |
| spellingShingle |
WASTE IMPACTS OF CLIMATE CHANGE UNCERTAINTIES NO TEMPERATURE CARBON DIOXIDE FOSSIL FUELS CARBON INCOME ANNUAL GROWTH RATE ACTIVITIES ACCESS TO MODERN ENERGY GENERATION INTERNATIONAL ENERGY AGENCY HYDROLOGY CLEAN ENERGY TRADITIONAL BIOMASS EMISSIONS COST ESTIMATES PORTFOLIO CLIMATE UNCERTAINTY GAS MODELS PRICE SUSTAINABLE DEVELOPMENT POWER SYSTEM ENERGY CONSUMERS DISTRIBUTION OF ENERGY PRESENT VALUE BIOMASS CO2 PETROLEUM SCENARIOS OIL EMISSION FACTOR ENERGY MIX SUSTAINABLE ENERGY FOREST RESIDUES CAPACITY ENERGY SUPPLY ENERGY INTENSITY TOTAL CONSUMPTION ELECTRIFICATION CLIMATE CHANGE POLICY OPTIONS WATER SOLID FUELS ENERGY RESOURCES PRIMARY ENERGY CONSUMPTION RENEWABLE ENERGY RESOURCES CONVENTION ON CLIMATE CHANGE RAINFALL GLACIERS LONG-TERM FINANCING GAS EMISSIONS PELLETS GROSS DOMESTIC PRODUCT PRECIPITATION FUELS FINANCE WATER ANALYSIS INVESTMENT DECISIONS ENERGY CONSUMPTION EMISSION GREENHOUSE CONSUMPTION LEAD HEAT CLIMATE CHANGE ELECTRIC POWER BALANCE SOURCE OF ENERGY BLACK CARBON VALUE POWER ELECTRICITY CLIMATE DEMAND CHANGES IN CLIMATE HYDROPOWER WORLD ENERGY FOREST PETROLEUM GAS CO MARKET ENVIRONMENTAL RESEARCH HYDROPOWER PLANT POLICY PRIMARY ENERGY ENERGY EFFICIENCY ENERGY DEMAND ELECTRICITY PRICES CLIMATE RESILIENCE COMBUSTION INVESTMENT GASEOUS FUELS COAL FINANCIAL RISKS SUPPLY FUEL GLOBAL ENERGY MIX LESS AVAILABILITY FACILITIES HYDROPOWER GENERATION BOTTOM LINE INVESTMENTS METHANE BRIQUETTES HOUSEHOLD ENERGY ENERGY INDUSTRIES LIQUEFIED PETROLEUM GAS RENEWABLE ENERGY RESILIENCE TO CLIMATE CHANGE FRAMEWORK CONVENTION ON CLIMATE CHANGE HEAT GENERATION PIPELINE CAPITAL COSTS FOSSIL NATURAL HAZARDS PRICES APPROACH BENEFITS ENERGY Karki, Pravin Bonzanigo, Laura Ohtsuka, Haruhisa Pahuja, Sanjay Toward Climate-Resilient Hydropower in South Asia |
| geographic_facet |
South Asia South Asia |
| relation |
Live wire knowledge note series,no. 2016/60; |
| description |
The decision tree offers a cost
effective, scientifically sound, replicable, and transparent
method for demonstrating the robustness of a development
project in the face of the risks posed by climate change,
natural hazards, and other factors. The framework is most
effective when a wide range of risks must be considered, as
is typically the case with high-value hydropower
investments. In order to gain maximum benefit from the
framework, it should be conducted at both project and basin
scale, first to answer questions immediately relevant to
investors and then to provide perspective on alternative
investment portfolios that may yield greater returns. |
| format |
Brief |
| author |
Karki, Pravin Bonzanigo, Laura Ohtsuka, Haruhisa Pahuja, Sanjay |
| author_facet |
Karki, Pravin Bonzanigo, Laura Ohtsuka, Haruhisa Pahuja, Sanjay |
| author_sort |
Karki, Pravin |
| title |
Toward Climate-Resilient Hydropower in South Asia |
| title_short |
Toward Climate-Resilient Hydropower in South Asia |
| title_full |
Toward Climate-Resilient Hydropower in South Asia |
| title_fullStr |
Toward Climate-Resilient Hydropower in South Asia |
| title_full_unstemmed |
Toward Climate-Resilient Hydropower in South Asia |
| title_sort |
toward climate-resilient hydropower in south asia |
| publisher |
World Bank, Washington, DC |
| publishDate |
2016 |
| url |
http://documents.worldbank.org/curated/en/2016/05/26358797/toward-climate-resilient-hydropower-south-asia http://hdl.handle.net/10986/24254 |
| _version_ |
1764456246318989312 |