Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development
The report is divided into seven chapters. Chapter one discusses India's current carbon footprint, the drivers that will contribute to growth in Green House Gas (GHG) emissions, the objectives of the study, and the scope and methodology of the analytical approach. Chapter two provides an overview of each of the sectors covered by the study, along with their respective specific challenges and past performance, and the modeling approach adopted in the study. Chapters three, four, and five provide the specific assumptions and findings of the three scenarios: (1) scenario one, alternatively called five year plans scenario, assumes full implementation of the five year plans and other projections and plans by the government of India; (2) scenario two, alternatively called delayed implementation, more closely follows historical performance in implementation of the five year plans; (3) scenario three, or all-out stretch scenario, adds to scenario one additional steps to increase energy efficiency and low-carbon energy sources Sensitivity analysis is conducted on each scenario. Chapter six provides a brief comparison of the results of the three scenarios, and chapter seven concludes with a brief description of the challenges of low-carbon development in India.
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Biblioteca del Banco Mundial |
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English |
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ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AFFORESTATION AIR AIR QUALITY ALUMINUM AMOUNT OF POWER APPROACH ASH AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BALANCE BIOMASS BIOMASS SOURCE CALCULATION CALORIFIC VALUE CALORIFIC VALUES CAPACITY INVESTMENTS CAPITAL COST CARBON CARBON CAPTURE CARBON DIOXIDE CARBON ECONOMY CARBON EMISSIONS CARBON ENERGY CARBON FINANCE CARBON FOOTPRINT CARBON INTENSITY CARBON LOSSES CARBON PATH CARBON TECHNOLOGIES CEMENT CEMENT INDUSTRY CLIMATE CLIMATE CHANGE CO CO2 COAL COAL CONSUMPTION COAL POWER PLANTS COAL PRICE COAL RESERVES COAL RESOURCES COAL SUPPLY COAL USE COALS COLORS COMBUSTION COMBUSTION EFFICIENCY COMMERCIAL ENERGY CONDITIONERS CONSUMER OF COAL CONSUMER OF ENERGY COST-BENEFIT COST-BENEFIT ANALYSIS DEMAND FOR ENERGY DEMAND MANAGEMENT DIESEL DIESEL USE DISTRIBUTION LOSSES DOMESTIC COAL DOMESTIC ENERGY DOMESTIC ENERGY RESOURCES DOMESTIC GAS DOMESTIC OIL ECONOMIC GROWTH EFFICIENCY IMPROVEMENT ELECTRIC POWER ELECTRIC WATER HEATERS ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRICE ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION CHARACTERISTICS EMISSION INTENSITY EMISSION LEVELS EMISSION PROFILE EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION STANDARDS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS FROM ENERGY USE EMISSIONS FROM FUEL EMISSIONS FROM FUEL COMBUSTION EMISSIONS FROM TRANSPORT EMISSIONS INTENSITY EMISSIONS REDUCTION ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY STANDARDS ENERGY INTENSITY ENERGY MIX ENERGY NEEDS ENERGY POLICIES ENERGY POLICY ENERGY PRICES ENERGY REQUIREMENTS ENERGY RESOURCES ENERGY SAVINGS ENERGY SHORTAGES ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEM ENERGY USE FEASIBILITY FERTILIZERS FINANCIAL CRISIS FLUORESCENT LAMPS FORESTRY FORESTS FOSSIL FOSSIL FUEL FOSSIL FUEL MIX FOSSIL FUELS FROST FUEL TYPE FUEL USE GAS EXPLORATION GAS FIELDS GASOLINE GENERATING CAPACITY GENERATION CAPACITY GHG GLOBAL CLIMATE CHANGE GREENHOUSE GREENHOUSE GAS GRID ELECTRICITY GRID POWER GROSS DOMESTIC PRODUCT GROWTH IN DEMAND HEAVY INDUSTRY HEAVY RELIANCE HIGH ASH CONTENT HOUSEHOLD ELECTRICITY CONSUMPTION HYDRO POWER HYDROPOWER HYDROPOWER GENERATION IMPROVEMENTS IN ENERGY EFFICIENCY INCOME IRON KEROSENE KILOWATT-HOUR KILOWATT-HOURS LEVEL OF TRANSMISSION LIQUEFIED NATURAL GAS LIQUEFIED PETROLEUM GAS LOAD FACTOR LOW-CARBON METHANE METHANE EMISSIONS MINERAL MATTER MOISTURE CONTENT NATIONAL EMISSIONS NATURAL GAS NATURAL GAS IMPORTS NATURAL GAS PRICES NITROUS OXIDE NUCLEAR EQUIPMENT NUCLEAR FUEL NUCLEAR POWER NUCLEAR POWER PLANTS OIL OIL PRICES PEAK POWER PER CAPITA CONSUMPTION PETROCHEMICAL INDUSTRIES PETROCHEMICALS PETROLEUM PETROLEUM GAS PETROLEUM PRODUCTS PETROLEUM REFINING PETROLEUM SECTOR PIPELINE POLLUTANTS POWER POWER GENERATION POWER GENERATION CAPACITY POWER GENERATORS POWER INDUSTRY POWER PLANT POWER PLANTS POWER PRICES POWER PRODUCERS POWER SECTOR POWER STATIONS POWER SUPPLY PRESENT VALUE PRICES OF COAL PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY SUPPLY QUALITY OF ENERGY RAW MATERIALS REGULATORY FRAMEWORK RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY POTENTIAL RENEWABLE POWER RESIDENTIAL ENERGY RICE PRODUCTION RURAL ELECTRIFICATION SCENARIOS SENSITIVITY ANALYSES SOLAR POWER STEAM TEMPERATURES SULPHUR SULPHUR CONTENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TOTAL COST TOTAL EMISSIONS TRANSACTION COSTS TRANSPORT SECTOR UTILITIES VEHICLES VOLATILE MATTER VOLTAGE WIND WIND POWER WOOD PRODUCTS ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AFFORESTATION AIR AIR QUALITY ALUMINUM AMOUNT OF POWER APPROACH ASH AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BALANCE BIOMASS BIOMASS SOURCE CALCULATION CALORIFIC VALUE CALORIFIC VALUES CAPACITY INVESTMENTS CAPITAL COST CARBON CARBON CAPTURE CARBON DIOXIDE CARBON ECONOMY CARBON EMISSIONS CARBON ENERGY CARBON FINANCE CARBON FOOTPRINT CARBON INTENSITY CARBON LOSSES CARBON PATH CARBON TECHNOLOGIES CEMENT CEMENT INDUSTRY CLIMATE CLIMATE CHANGE CO CO2 COAL COAL CONSUMPTION COAL POWER PLANTS COAL PRICE COAL RESERVES COAL RESOURCES COAL SUPPLY COAL USE COALS COLORS COMBUSTION COMBUSTION EFFICIENCY COMMERCIAL ENERGY CONDITIONERS CONSUMER OF COAL CONSUMER OF ENERGY COST-BENEFIT COST-BENEFIT ANALYSIS DEMAND FOR ENERGY DEMAND MANAGEMENT DIESEL DIESEL USE DISTRIBUTION LOSSES DOMESTIC COAL DOMESTIC ENERGY DOMESTIC ENERGY RESOURCES DOMESTIC GAS DOMESTIC OIL ECONOMIC GROWTH EFFICIENCY IMPROVEMENT ELECTRIC POWER ELECTRIC WATER HEATERS ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRICE ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION CHARACTERISTICS EMISSION INTENSITY EMISSION LEVELS EMISSION PROFILE EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION STANDARDS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS FROM ENERGY USE EMISSIONS FROM FUEL EMISSIONS FROM FUEL COMBUSTION EMISSIONS FROM TRANSPORT EMISSIONS INTENSITY EMISSIONS REDUCTION ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY STANDARDS ENERGY INTENSITY ENERGY MIX ENERGY NEEDS ENERGY POLICIES ENERGY POLICY ENERGY PRICES ENERGY REQUIREMENTS ENERGY RESOURCES ENERGY SAVINGS ENERGY SHORTAGES ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEM ENERGY USE FEASIBILITY FERTILIZERS FINANCIAL CRISIS FLUORESCENT LAMPS FORESTRY FORESTS FOSSIL FOSSIL FUEL FOSSIL FUEL MIX FOSSIL FUELS FROST FUEL TYPE FUEL USE GAS EXPLORATION GAS FIELDS GASOLINE GENERATING CAPACITY GENERATION CAPACITY GHG GLOBAL CLIMATE CHANGE GREENHOUSE GREENHOUSE GAS GRID ELECTRICITY GRID POWER GROSS DOMESTIC PRODUCT GROWTH IN DEMAND HEAVY INDUSTRY HEAVY RELIANCE HIGH ASH CONTENT HOUSEHOLD ELECTRICITY CONSUMPTION HYDRO POWER HYDROPOWER HYDROPOWER GENERATION IMPROVEMENTS IN ENERGY EFFICIENCY INCOME IRON KEROSENE KILOWATT-HOUR KILOWATT-HOURS LEVEL OF TRANSMISSION LIQUEFIED NATURAL GAS LIQUEFIED PETROLEUM GAS LOAD FACTOR LOW-CARBON METHANE METHANE EMISSIONS MINERAL MATTER MOISTURE CONTENT NATIONAL EMISSIONS NATURAL GAS NATURAL GAS IMPORTS NATURAL GAS PRICES NITROUS OXIDE NUCLEAR EQUIPMENT NUCLEAR FUEL NUCLEAR POWER NUCLEAR POWER PLANTS OIL OIL PRICES PEAK POWER PER CAPITA CONSUMPTION PETROCHEMICAL INDUSTRIES PETROCHEMICALS PETROLEUM PETROLEUM GAS PETROLEUM PRODUCTS PETROLEUM REFINING PETROLEUM SECTOR PIPELINE POLLUTANTS POWER POWER GENERATION POWER GENERATION CAPACITY POWER GENERATORS POWER INDUSTRY POWER PLANT POWER PLANTS POWER PRICES POWER PRODUCERS POWER SECTOR POWER STATIONS POWER SUPPLY PRESENT VALUE PRICES OF COAL PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY SUPPLY QUALITY OF ENERGY RAW MATERIALS REGULATORY FRAMEWORK RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY POTENTIAL RENEWABLE POWER RESIDENTIAL ENERGY RICE PRODUCTION RURAL ELECTRIFICATION SCENARIOS SENSITIVITY ANALYSES SOLAR POWER STEAM TEMPERATURES SULPHUR SULPHUR CONTENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TOTAL COST TOTAL EMISSIONS TRANSACTION COSTS TRANSPORT SECTOR UTILITIES VEHICLES VOLATILE MATTER VOLTAGE WIND WIND POWER WOOD PRODUCTS |
| spellingShingle |
ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AFFORESTATION AIR AIR QUALITY ALUMINUM AMOUNT OF POWER APPROACH ASH AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BALANCE BIOMASS BIOMASS SOURCE CALCULATION CALORIFIC VALUE CALORIFIC VALUES CAPACITY INVESTMENTS CAPITAL COST CARBON CARBON CAPTURE CARBON DIOXIDE CARBON ECONOMY CARBON EMISSIONS CARBON ENERGY CARBON FINANCE CARBON FOOTPRINT CARBON INTENSITY CARBON LOSSES CARBON PATH CARBON TECHNOLOGIES CEMENT CEMENT INDUSTRY CLIMATE CLIMATE CHANGE CO CO2 COAL COAL CONSUMPTION COAL POWER PLANTS COAL PRICE COAL RESERVES COAL RESOURCES COAL SUPPLY COAL USE COALS COLORS COMBUSTION COMBUSTION EFFICIENCY COMMERCIAL ENERGY CONDITIONERS CONSUMER OF COAL CONSUMER OF ENERGY COST-BENEFIT COST-BENEFIT ANALYSIS DEMAND FOR ENERGY DEMAND MANAGEMENT DIESEL DIESEL USE DISTRIBUTION LOSSES DOMESTIC COAL DOMESTIC ENERGY DOMESTIC ENERGY RESOURCES DOMESTIC GAS DOMESTIC OIL ECONOMIC GROWTH EFFICIENCY IMPROVEMENT ELECTRIC POWER ELECTRIC WATER HEATERS ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRICE ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION CHARACTERISTICS EMISSION INTENSITY EMISSION LEVELS EMISSION PROFILE EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION STANDARDS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS FROM ENERGY USE EMISSIONS FROM FUEL EMISSIONS FROM FUEL COMBUSTION EMISSIONS FROM TRANSPORT EMISSIONS INTENSITY EMISSIONS REDUCTION ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY STANDARDS ENERGY INTENSITY ENERGY MIX ENERGY NEEDS ENERGY POLICIES ENERGY POLICY ENERGY PRICES ENERGY REQUIREMENTS ENERGY RESOURCES ENERGY SAVINGS ENERGY SHORTAGES ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEM ENERGY USE FEASIBILITY FERTILIZERS FINANCIAL CRISIS FLUORESCENT LAMPS FORESTRY FORESTS FOSSIL FOSSIL FUEL FOSSIL FUEL MIX FOSSIL FUELS FROST FUEL TYPE FUEL USE GAS EXPLORATION GAS FIELDS GASOLINE GENERATING CAPACITY GENERATION CAPACITY GHG GLOBAL CLIMATE CHANGE GREENHOUSE GREENHOUSE GAS GRID ELECTRICITY GRID POWER GROSS DOMESTIC PRODUCT GROWTH IN DEMAND HEAVY INDUSTRY HEAVY RELIANCE HIGH ASH CONTENT HOUSEHOLD ELECTRICITY CONSUMPTION HYDRO POWER HYDROPOWER HYDROPOWER GENERATION IMPROVEMENTS IN ENERGY EFFICIENCY INCOME IRON KEROSENE KILOWATT-HOUR KILOWATT-HOURS LEVEL OF TRANSMISSION LIQUEFIED NATURAL GAS LIQUEFIED PETROLEUM GAS LOAD FACTOR LOW-CARBON METHANE METHANE EMISSIONS MINERAL MATTER MOISTURE CONTENT NATIONAL EMISSIONS NATURAL GAS NATURAL GAS IMPORTS NATURAL GAS PRICES NITROUS OXIDE NUCLEAR EQUIPMENT NUCLEAR FUEL NUCLEAR POWER NUCLEAR POWER PLANTS OIL OIL PRICES PEAK POWER PER CAPITA CONSUMPTION PETROCHEMICAL INDUSTRIES PETROCHEMICALS PETROLEUM PETROLEUM GAS PETROLEUM PRODUCTS PETROLEUM REFINING PETROLEUM SECTOR PIPELINE POLLUTANTS POWER POWER GENERATION POWER GENERATION CAPACITY POWER GENERATORS POWER INDUSTRY POWER PLANT POWER PLANTS POWER PRICES POWER PRODUCERS POWER SECTOR POWER STATIONS POWER SUPPLY PRESENT VALUE PRICES OF COAL PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY SUPPLY QUALITY OF ENERGY RAW MATERIALS REGULATORY FRAMEWORK RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY POTENTIAL RENEWABLE POWER RESIDENTIAL ENERGY RICE PRODUCTION RURAL ELECTRIFICATION SCENARIOS SENSITIVITY ANALYSES SOLAR POWER STEAM TEMPERATURES SULPHUR SULPHUR CONTENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TOTAL COST TOTAL EMISSIONS TRANSACTION COSTS TRANSPORT SECTOR UTILITIES VEHICLES VOLATILE MATTER VOLTAGE WIND WIND POWER WOOD PRODUCTS ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AFFORESTATION AIR AIR QUALITY ALUMINUM AMOUNT OF POWER APPROACH ASH AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BALANCE BIOMASS BIOMASS SOURCE CALCULATION CALORIFIC VALUE CALORIFIC VALUES CAPACITY INVESTMENTS CAPITAL COST CARBON CARBON CAPTURE CARBON DIOXIDE CARBON ECONOMY CARBON EMISSIONS CARBON ENERGY CARBON FINANCE CARBON FOOTPRINT CARBON INTENSITY CARBON LOSSES CARBON PATH CARBON TECHNOLOGIES CEMENT CEMENT INDUSTRY CLIMATE CLIMATE CHANGE CO CO2 COAL COAL CONSUMPTION COAL POWER PLANTS COAL PRICE COAL RESERVES COAL RESOURCES COAL SUPPLY COAL USE COALS COLORS COMBUSTION COMBUSTION EFFICIENCY COMMERCIAL ENERGY CONDITIONERS CONSUMER OF COAL CONSUMER OF ENERGY COST-BENEFIT COST-BENEFIT ANALYSIS DEMAND FOR ENERGY DEMAND MANAGEMENT DIESEL DIESEL USE DISTRIBUTION LOSSES DOMESTIC COAL DOMESTIC ENERGY DOMESTIC ENERGY RESOURCES DOMESTIC GAS DOMESTIC OIL ECONOMIC GROWTH EFFICIENCY IMPROVEMENT ELECTRIC POWER ELECTRIC WATER HEATERS ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRICE ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION CHARACTERISTICS EMISSION INTENSITY EMISSION LEVELS EMISSION PROFILE EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION STANDARDS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS FROM ENERGY USE EMISSIONS FROM FUEL EMISSIONS FROM FUEL COMBUSTION EMISSIONS FROM TRANSPORT EMISSIONS INTENSITY EMISSIONS REDUCTION ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY STANDARDS ENERGY INTENSITY ENERGY MIX ENERGY NEEDS ENERGY POLICIES ENERGY POLICY ENERGY PRICES ENERGY REQUIREMENTS ENERGY RESOURCES ENERGY SAVINGS ENERGY SHORTAGES ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEM ENERGY USE FEASIBILITY FERTILIZERS FINANCIAL CRISIS FLUORESCENT LAMPS FORESTRY FORESTS FOSSIL FOSSIL FUEL FOSSIL FUEL MIX FOSSIL FUELS FROST FUEL TYPE FUEL USE GAS EXPLORATION GAS FIELDS GASOLINE GENERATING CAPACITY GENERATION CAPACITY GHG GLOBAL CLIMATE CHANGE GREENHOUSE GREENHOUSE GAS GRID ELECTRICITY GRID POWER GROSS DOMESTIC PRODUCT GROWTH IN DEMAND HEAVY INDUSTRY HEAVY RELIANCE HIGH ASH CONTENT HOUSEHOLD ELECTRICITY CONSUMPTION HYDRO POWER HYDROPOWER HYDROPOWER GENERATION IMPROVEMENTS IN ENERGY EFFICIENCY INCOME IRON KEROSENE KILOWATT-HOUR KILOWATT-HOURS LEVEL OF TRANSMISSION LIQUEFIED NATURAL GAS LIQUEFIED PETROLEUM GAS LOAD FACTOR LOW-CARBON METHANE METHANE EMISSIONS MINERAL MATTER MOISTURE CONTENT NATIONAL EMISSIONS NATURAL GAS NATURAL GAS IMPORTS NATURAL GAS PRICES NITROUS OXIDE NUCLEAR EQUIPMENT NUCLEAR FUEL NUCLEAR POWER NUCLEAR POWER PLANTS OIL OIL PRICES PEAK POWER PER CAPITA CONSUMPTION PETROCHEMICAL INDUSTRIES PETROCHEMICALS PETROLEUM PETROLEUM GAS PETROLEUM PRODUCTS PETROLEUM REFINING PETROLEUM SECTOR PIPELINE POLLUTANTS POWER POWER GENERATION POWER GENERATION CAPACITY POWER GENERATORS POWER INDUSTRY POWER PLANT POWER PLANTS POWER PRICES POWER PRODUCERS POWER SECTOR POWER STATIONS POWER SUPPLY PRESENT VALUE PRICES OF COAL PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY SUPPLY QUALITY OF ENERGY RAW MATERIALS REGULATORY FRAMEWORK RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY POTENTIAL RENEWABLE POWER RESIDENTIAL ENERGY RICE PRODUCTION RURAL ELECTRIFICATION SCENARIOS SENSITIVITY ANALYSES SOLAR POWER STEAM TEMPERATURES SULPHUR SULPHUR CONTENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TOTAL COST TOTAL EMISSIONS TRANSACTION COSTS TRANSPORT SECTOR UTILITIES VEHICLES VOLATILE MATTER VOLTAGE WIND WIND POWER WOOD PRODUCTS World Bank Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development |
| description |
The report is divided into seven
chapters. Chapter one discusses India's current carbon
footprint, the drivers that will contribute to growth in
Green House Gas (GHG) emissions, the objectives of the
study, and the scope and methodology of the analytical
approach. Chapter two provides an overview of each of the
sectors covered by the study, along with their respective
specific challenges and past performance, and the modeling
approach adopted in the study. Chapters three, four, and
five provide the specific assumptions and findings of the
three scenarios: (1) scenario one, alternatively called five
year plans scenario, assumes full implementation of the five
year plans and other projections and plans by the government
of India; (2) scenario two, alternatively called delayed
implementation, more closely follows historical performance
in implementation of the five year plans; (3) scenario
three, or all-out stretch scenario, adds to scenario one
additional steps to increase energy efficiency and
low-carbon energy sources Sensitivity analysis is conducted
on each scenario. Chapter six provides a brief comparison of
the results of the three scenarios, and chapter seven
concludes with a brief description of the challenges of
low-carbon development in India. |
| topic_facet |
ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AFFORESTATION AIR AIR QUALITY ALUMINUM AMOUNT OF POWER APPROACH ASH AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BALANCE BIOMASS BIOMASS SOURCE CALCULATION CALORIFIC VALUE CALORIFIC VALUES CAPACITY INVESTMENTS CAPITAL COST CARBON CARBON CAPTURE CARBON DIOXIDE CARBON ECONOMY CARBON EMISSIONS CARBON ENERGY CARBON FINANCE CARBON FOOTPRINT CARBON INTENSITY CARBON LOSSES CARBON PATH CARBON TECHNOLOGIES CEMENT CEMENT INDUSTRY CLIMATE CLIMATE CHANGE CO CO2 COAL COAL CONSUMPTION COAL POWER PLANTS COAL PRICE COAL RESERVES COAL RESOURCES COAL SUPPLY COAL USE COALS COLORS COMBUSTION COMBUSTION EFFICIENCY COMMERCIAL ENERGY CONDITIONERS CONSUMER OF COAL CONSUMER OF ENERGY COST-BENEFIT COST-BENEFIT ANALYSIS DEMAND FOR ENERGY DEMAND MANAGEMENT DIESEL DIESEL USE DISTRIBUTION LOSSES DOMESTIC COAL DOMESTIC ENERGY DOMESTIC ENERGY RESOURCES DOMESTIC GAS DOMESTIC OIL ECONOMIC GROWTH EFFICIENCY IMPROVEMENT ELECTRIC POWER ELECTRIC WATER HEATERS ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRICE ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION CHARACTERISTICS EMISSION INTENSITY EMISSION LEVELS EMISSION PROFILE EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION STANDARDS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS FROM ENERGY USE EMISSIONS FROM FUEL EMISSIONS FROM FUEL COMBUSTION EMISSIONS FROM TRANSPORT EMISSIONS INTENSITY EMISSIONS REDUCTION ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY STANDARDS ENERGY INTENSITY ENERGY MIX ENERGY NEEDS ENERGY POLICIES ENERGY POLICY ENERGY PRICES ENERGY REQUIREMENTS ENERGY RESOURCES ENERGY SAVINGS ENERGY SHORTAGES ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEM ENERGY USE FEASIBILITY FERTILIZERS FINANCIAL CRISIS FLUORESCENT LAMPS FORESTRY FORESTS FOSSIL FOSSIL FUEL FOSSIL FUEL MIX FOSSIL FUELS FROST FUEL TYPE FUEL USE GAS EXPLORATION GAS FIELDS GASOLINE GENERATING CAPACITY GENERATION CAPACITY GHG GLOBAL CLIMATE CHANGE GREENHOUSE GREENHOUSE GAS GRID ELECTRICITY GRID POWER GROSS DOMESTIC PRODUCT GROWTH IN DEMAND HEAVY INDUSTRY HEAVY RELIANCE HIGH ASH CONTENT HOUSEHOLD ELECTRICITY CONSUMPTION HYDRO POWER HYDROPOWER HYDROPOWER GENERATION IMPROVEMENTS IN ENERGY EFFICIENCY INCOME IRON KEROSENE KILOWATT-HOUR KILOWATT-HOURS LEVEL OF TRANSMISSION LIQUEFIED NATURAL GAS LIQUEFIED PETROLEUM GAS LOAD FACTOR LOW-CARBON METHANE METHANE EMISSIONS MINERAL MATTER MOISTURE CONTENT NATIONAL EMISSIONS NATURAL GAS NATURAL GAS IMPORTS NATURAL GAS PRICES NITROUS OXIDE NUCLEAR EQUIPMENT NUCLEAR FUEL NUCLEAR POWER NUCLEAR POWER PLANTS OIL OIL PRICES PEAK POWER PER CAPITA CONSUMPTION PETROCHEMICAL INDUSTRIES PETROCHEMICALS PETROLEUM PETROLEUM GAS PETROLEUM PRODUCTS PETROLEUM REFINING PETROLEUM SECTOR PIPELINE POLLUTANTS POWER POWER GENERATION POWER GENERATION CAPACITY POWER GENERATORS POWER INDUSTRY POWER PLANT POWER PLANTS POWER PRICES POWER PRODUCERS POWER SECTOR POWER STATIONS POWER SUPPLY PRESENT VALUE PRICES OF COAL PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY SUPPLY QUALITY OF ENERGY RAW MATERIALS REGULATORY FRAMEWORK RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY POTENTIAL RENEWABLE POWER RESIDENTIAL ENERGY RICE PRODUCTION RURAL ELECTRIFICATION SCENARIOS SENSITIVITY ANALYSES SOLAR POWER STEAM TEMPERATURES SULPHUR SULPHUR CONTENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TOTAL COST TOTAL EMISSIONS TRANSACTION COSTS TRANSPORT SECTOR UTILITIES VEHICLES VOLATILE MATTER VOLTAGE WIND WIND POWER WOOD PRODUCTS |
| author |
World Bank |
| author_facet |
World Bank |
| author_sort |
World Bank |
| title |
Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development |
| title_short |
Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development |
| title_full |
Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development |
| title_fullStr |
Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development |
| title_full_unstemmed |
Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development |
| title_sort |
energy intensive sectors of the indian economy : path to low carbon development |
| publisher |
World Bank |
| publishDate |
2011-11-01 |
| url |
http://www-wds.worldbank.org/external/default/main?menuPK=64187510&pagePK=64193027&piPK=64187937&theSitePK=523679&menuPK=64187510&searchMenuPK=64187283&siteName=WDS&entityID=000333037_20111129225304 https://hdl.handle.net/10986/2798 |
| work_keys_str_mv |
AT worldbank energyintensivesectorsoftheindianeconomypathtolowcarbondevelopment |
| _version_ |
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dig-okr-1098627982024-08-08T15:29:24Z Energy Intensive Sectors of the Indian Economy : Path to Low Carbon Development World Bank ACCESS TO ELECTRICITY ACCESS TO MODERN ENERGY AFFORESTATION AIR AIR QUALITY ALUMINUM AMOUNT OF POWER APPROACH ASH AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BALANCE BIOMASS BIOMASS SOURCE CALCULATION CALORIFIC VALUE CALORIFIC VALUES CAPACITY INVESTMENTS CAPITAL COST CARBON CARBON CAPTURE CARBON DIOXIDE CARBON ECONOMY CARBON EMISSIONS CARBON ENERGY CARBON FINANCE CARBON FOOTPRINT CARBON INTENSITY CARBON LOSSES CARBON PATH CARBON TECHNOLOGIES CEMENT CEMENT INDUSTRY CLIMATE CLIMATE CHANGE CO CO2 COAL COAL CONSUMPTION COAL POWER PLANTS COAL PRICE COAL RESERVES COAL RESOURCES COAL SUPPLY COAL USE COALS COLORS COMBUSTION COMBUSTION EFFICIENCY COMMERCIAL ENERGY CONDITIONERS CONSUMER OF COAL CONSUMER OF ENERGY COST-BENEFIT COST-BENEFIT ANALYSIS DEMAND FOR ENERGY DEMAND MANAGEMENT DIESEL DIESEL USE DISTRIBUTION LOSSES DOMESTIC COAL DOMESTIC ENERGY DOMESTIC ENERGY RESOURCES DOMESTIC GAS DOMESTIC OIL ECONOMIC GROWTH EFFICIENCY IMPROVEMENT ELECTRIC POWER ELECTRIC WATER HEATERS ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY PRICE ELECTRICITY PRODUCTION ELECTRICITY SUPPLY ELECTRIFICATION EMISSION EMISSION CHARACTERISTICS EMISSION INTENSITY EMISSION LEVELS EMISSION PROFILE EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION STANDARDS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS FROM ENERGY USE EMISSIONS FROM FUEL EMISSIONS FROM FUEL COMBUSTION EMISSIONS FROM TRANSPORT EMISSIONS INTENSITY EMISSIONS REDUCTION ENERGY CONSERVATION ENERGY CONSUMPTION ENERGY COSTS ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENCY STANDARDS ENERGY INTENSITY ENERGY MIX ENERGY NEEDS ENERGY POLICIES ENERGY POLICY ENERGY PRICES ENERGY REQUIREMENTS ENERGY RESOURCES ENERGY SAVINGS ENERGY SHORTAGES ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEM ENERGY USE FEASIBILITY FERTILIZERS FINANCIAL CRISIS FLUORESCENT LAMPS FORESTRY FORESTS FOSSIL FOSSIL FUEL FOSSIL FUEL MIX FOSSIL FUELS FROST FUEL TYPE FUEL USE GAS EXPLORATION GAS FIELDS GASOLINE GENERATING CAPACITY GENERATION CAPACITY GHG GLOBAL CLIMATE CHANGE GREENHOUSE GREENHOUSE GAS GRID ELECTRICITY GRID POWER GROSS DOMESTIC PRODUCT GROWTH IN DEMAND HEAVY INDUSTRY HEAVY RELIANCE HIGH ASH CONTENT HOUSEHOLD ELECTRICITY CONSUMPTION HYDRO POWER HYDROPOWER HYDROPOWER GENERATION IMPROVEMENTS IN ENERGY EFFICIENCY INCOME IRON KEROSENE KILOWATT-HOUR KILOWATT-HOURS LEVEL OF TRANSMISSION LIQUEFIED NATURAL GAS LIQUEFIED PETROLEUM GAS LOAD FACTOR LOW-CARBON METHANE METHANE EMISSIONS MINERAL MATTER MOISTURE CONTENT NATIONAL EMISSIONS NATURAL GAS NATURAL GAS IMPORTS NATURAL GAS PRICES NITROUS OXIDE NUCLEAR EQUIPMENT NUCLEAR FUEL NUCLEAR POWER NUCLEAR POWER PLANTS OIL OIL PRICES PEAK POWER PER CAPITA CONSUMPTION PETROCHEMICAL INDUSTRIES PETROCHEMICALS PETROLEUM PETROLEUM GAS PETROLEUM PRODUCTS PETROLEUM REFINING PETROLEUM SECTOR PIPELINE POLLUTANTS POWER POWER GENERATION POWER GENERATION CAPACITY POWER GENERATORS POWER INDUSTRY POWER PLANT POWER PLANTS POWER PRICES POWER PRODUCERS POWER SECTOR POWER STATIONS POWER SUPPLY PRESENT VALUE PRICES OF COAL PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY SUPPLY QUALITY OF ENERGY RAW MATERIALS REGULATORY FRAMEWORK RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY POTENTIAL RENEWABLE POWER RESIDENTIAL ENERGY RICE PRODUCTION RURAL ELECTRIFICATION SCENARIOS SENSITIVITY ANALYSES SOLAR POWER STEAM TEMPERATURES SULPHUR SULPHUR CONTENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TOTAL COST TOTAL EMISSIONS TRANSACTION COSTS TRANSPORT SECTOR UTILITIES VEHICLES VOLATILE MATTER VOLTAGE WIND WIND POWER WOOD PRODUCTS The report is divided into seven chapters. Chapter one discusses India's current carbon footprint, the drivers that will contribute to growth in Green House Gas (GHG) emissions, the objectives of the study, and the scope and methodology of the analytical approach. Chapter two provides an overview of each of the sectors covered by the study, along with their respective specific challenges and past performance, and the modeling approach adopted in the study. Chapters three, four, and five provide the specific assumptions and findings of the three scenarios: (1) scenario one, alternatively called five year plans scenario, assumes full implementation of the five year plans and other projections and plans by the government of India; (2) scenario two, alternatively called delayed implementation, more closely follows historical performance in implementation of the five year plans; (3) scenario three, or all-out stretch scenario, adds to scenario one additional steps to increase energy efficiency and low-carbon energy sources Sensitivity analysis is conducted on each scenario. Chapter six provides a brief comparison of the results of the three scenarios, and chapter seven concludes with a brief description of the challenges of low-carbon development in India. 2012-03-19T10:13:51Z 2012-03-19T10:13:51Z 2011-11-01 http://www-wds.worldbank.org/external/default/main?menuPK=64187510&pagePK=64193027&piPK=64187937&theSitePK=523679&menuPK=64187510&searchMenuPK=64187283&siteName=WDS&entityID=000333037_20111129225304 https://hdl.handle.net/10986/2798 English CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank application/pdf text/plain World Bank |