Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal

Analysts expect China to continue improving the efficiency of energy production and use, thereby decoupling the traditional relationship between gross domestic product (GDP) and energy consumption. Environmentally acceptable economic growth is clos...

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Main Author:	World Bank
Format:	ESMAP Paper
Language:	English en_US
Published:	Washington, DC 2014
Subjects:	ACID RAIN AIR POLLUTANTS AIR POLLUTION ANALYTICAL METHODS ANTHRACITE ATMOSPHERIC POLLUTION BITUMINOUS COAL BRIQUETTES BUILDING MATERIALS CARBON CARBON DIOXIDE CHEMICAL INDUSTRY CHEMICAL OXYGEN DEMAND CLEAN COAL COAL BED METHANE COAL BLENDING COAL COMBUSTION COAL CONSUMPTION COAL DESULFURIZATION COAL GAS COAL GASIFICATION COAL LIQUEFACTION COAL MINE COAL MINING COAL PREPARATION COAL PRICES COAL RESEARCH COAL RESOURCES COAL TECHNOLOGIES COAL TECHNOLOGY COKE COKE MAKING COKE OVENS COKING COMBUSTORS CONSERVATION COPPER DIRECT COMBUSTION DISTILLATION DRAINAGE DRAINAGE WATER ECOLOGY ECONOMIES OF SCALE ECONOMISTS EFFICIENT USE ELECTRIC POWER ELECTRICITY ELECTROSTATIC PRECIPITATORS EMISSION EMISSION FEES EMISSIONS ENERGY CONSUMPTION ENERGY CONSUMPTION FORECASTS ENERGY EFFICIENCY ENERGY PRACTICES ENERGY PRODUCTION ENERGY SAVINGS ENERGY SECURITY ENVIRONMENT PROTECTION ENVIRONMENTAL BENEFITS ENVIRONMENTAL BETTERMENT ENVIRONMENTAL CONTROLS ENVIRONMENTAL EVALUATION ENVIRONMENTAL IMPACT ENVIRONMENTAL IMPACTS ENVIRONMENTAL MEASURES ENVIRONMENTAL PROTECTION ENVIRONMENTAL REGULATIONS FLUE GAS FLUIDIZED BED FLY ASH FUEL FUELS FURNACES GAS GAS PRODUCTION GASES GREENHOUSE HEAT HEATERS HOUSEHOLD COOKING HYDROCARBONS HYDROGEN IMPORTS INDUSTRIAL BOILERS INDUSTRIAL KILNS IRON IRON ORE LIGNITE LIVING CONDITIONS METALLURGY MINE WATER MINING AREAS NATURAL GAS NICKEL NITROGEN OXIDES NONFERROUS METAL INDUSTRY OIL OXYGEN PARTICULATE PARTICULATE EMISSIONS PARTICULATES PETROLEUM GAS POLICY MAKERS POVERTY ALLEVIATION POWER GENERATION POWER PLANTS PRIMARY ENERGY PRODUCERS REFINING RESOURCE CONSERVATION SLURRY SMALL MINES SMALL- SCALE SMALL-SCALE SMOKE STATE-OWNED MINES STEAM COAL STEAM LOCOMOTIVES STEEL STOVES SULFUR SULFUR DIOXIDE SUSTAINABILITY SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TUNGSTEN UNDERGROUND MINES URBAN AREAS WASTE WASTEWATER
Online Access:	http://documents.worldbank.org/curated/en/2001/05/1675545/technology-assessment-clean-coal-technologies-china-vol-2-3-environmental-energy-efficiency-improvements-non-power-uses-coal http://hdl.handle.net/10986/20285

id	okr-10986-20285
recordtype	oai_dc
spelling	okr-10986-202852021-04-23T14:03:37Z Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal World Bank ACID RAIN AIR POLLUTANTS AIR POLLUTION ANALYTICAL METHODS ANTHRACITE ATMOSPHERIC POLLUTION BITUMINOUS COAL BRIQUETTES BUILDING MATERIALS CARBON CARBON DIOXIDE CHEMICAL INDUSTRY CHEMICAL OXYGEN DEMAND CLEAN COAL COAL BED METHANE COAL BLENDING COAL COMBUSTION COAL CONSUMPTION COAL DESULFURIZATION COAL GAS COAL GASIFICATION COAL LIQUEFACTION COAL MINE COAL MINING COAL PREPARATION COAL PRICES COAL RESEARCH COAL RESOURCES COAL TECHNOLOGIES COAL TECHNOLOGY COKE COKE MAKING COKE OVENS COKING COMBUSTORS CONSERVATION COPPER DIRECT COMBUSTION DISTILLATION DRAINAGE DRAINAGE WATER ECOLOGY ECONOMIES OF SCALE ECONOMISTS EFFICIENT USE ELECTRIC POWER ELECTRICITY ELECTROSTATIC PRECIPITATORS EMISSION EMISSION FEES EMISSIONS ENERGY CONSUMPTION ENERGY CONSUMPTION FORECASTS ENERGY EFFICIENCY ENERGY PRACTICES ENERGY PRODUCTION ENERGY SAVINGS ENERGY SECURITY ENVIRONMENT PROTECTION ENVIRONMENTAL BENEFITS ENVIRONMENTAL BETTERMENT ENVIRONMENTAL CONTROLS ENVIRONMENTAL EVALUATION ENVIRONMENTAL IMPACT ENVIRONMENTAL IMPACTS ENVIRONMENTAL MEASURES ENVIRONMENTAL PROTECTION ENVIRONMENTAL REGULATIONS FLUE GAS FLUIDIZED BED FLY ASH FUEL FUELS FURNACES GAS GAS PRODUCTION GASES GREENHOUSE HEAT HEATERS HOUSEHOLD COOKING HYDROCARBONS HYDROGEN IMPORTS INDUSTRIAL BOILERS INDUSTRIAL KILNS IRON IRON ORE LIGNITE LIVING CONDITIONS METALLURGY MINE WATER MINING AREAS NATURAL GAS NICKEL NITROGEN OXIDES NONFERROUS METAL INDUSTRY OIL OXYGEN PARTICULATE PARTICULATE EMISSIONS PARTICULATES PETROLEUM GAS POLICY MAKERS POVERTY ALLEVIATION POWER GENERATION POWER PLANTS PRIMARY ENERGY PRODUCERS REFINING RESOURCE CONSERVATION SLURRY SMALL MINES SMALL- SCALE SMALL-SCALE SMOKE STATE-OWNED MINES STEAM COAL STEAM LOCOMOTIVES STEEL STOVES SULFUR SULFUR DIOXIDE SUSTAINABILITY SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TUNGSTEN UNDERGROUND MINES URBAN AREAS WASTE WASTEWATER Analysts expect China to continue improving the efficiency of energy production and use, thereby decoupling the traditional relationship between gross domestic product (GDP) and energy consumption. Environmentally acceptable economic growth is closely linked with further improvements in the overall efficiency of energy use. Both of these goals will require a continued increase in the use of coal to produce electricity, along with a more deliberate and rapid transition from direct coal combustion to the use of electricity and other cleaner coal-based fuel sources, especially for cooking, space heating, and industrial furnaces. The opportunity for environmental improvement in conjunction with economic growth lies in the wise adoption of clean coal technologies (CCT) for both the electric power and non-power sectors. This report presents CCT options for the power sector that can help China achieve these twin goals. The CCT options are: 1) air pollution controls for particulates, sulphur dioxide, and nitrous oxide; and 2) advanced electricity generation technologies--supercritical pulverized-coal boilers, atmospheric and pressurized fluidized-bed combustors, and integrated gasification combined cycle plants. Volume 1 of this report explains the project costing methodology and the electric power CCT options. Volume 2 summarizes the development and technology assessment of clean coal technologies for the non-power sector in China. 2014-09-30T16:03:49Z 2014-09-30T16:03:49Z 2001-05 http://documents.worldbank.org/curated/en/2001/05/1675545/technology-assessment-clean-coal-technologies-china-vol-2-3-environmental-energy-efficiency-improvements-non-power-uses-coal http://hdl.handle.net/10986/20285 English en_US Energy Sector Management Assistance Programme (ESMAP) and EASEG technical paper series;no. 11 CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ Washington, DC Publications & Research :: ESMAP Paper Publications & Research East Asia and Pacific China
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	ACID RAIN AIR POLLUTANTS AIR POLLUTION ANALYTICAL METHODS ANTHRACITE ATMOSPHERIC POLLUTION BITUMINOUS COAL BRIQUETTES BUILDING MATERIALS CARBON CARBON DIOXIDE CHEMICAL INDUSTRY CHEMICAL OXYGEN DEMAND CLEAN COAL COAL BED METHANE COAL BLENDING COAL COMBUSTION COAL CONSUMPTION COAL DESULFURIZATION COAL GAS COAL GASIFICATION COAL LIQUEFACTION COAL MINE COAL MINING COAL PREPARATION COAL PRICES COAL RESEARCH COAL RESOURCES COAL TECHNOLOGIES COAL TECHNOLOGY COKE COKE MAKING COKE OVENS COKING COMBUSTORS CONSERVATION COPPER DIRECT COMBUSTION DISTILLATION DRAINAGE DRAINAGE WATER ECOLOGY ECONOMIES OF SCALE ECONOMISTS EFFICIENT USE ELECTRIC POWER ELECTRICITY ELECTROSTATIC PRECIPITATORS EMISSION EMISSION FEES EMISSIONS ENERGY CONSUMPTION ENERGY CONSUMPTION FORECASTS ENERGY EFFICIENCY ENERGY PRACTICES ENERGY PRODUCTION ENERGY SAVINGS ENERGY SECURITY ENVIRONMENT PROTECTION ENVIRONMENTAL BENEFITS ENVIRONMENTAL BETTERMENT ENVIRONMENTAL CONTROLS ENVIRONMENTAL EVALUATION ENVIRONMENTAL IMPACT ENVIRONMENTAL IMPACTS ENVIRONMENTAL MEASURES ENVIRONMENTAL PROTECTION ENVIRONMENTAL REGULATIONS FLUE GAS FLUIDIZED BED FLY ASH FUEL FUELS FURNACES GAS GAS PRODUCTION GASES GREENHOUSE HEAT HEATERS HOUSEHOLD COOKING HYDROCARBONS HYDROGEN IMPORTS INDUSTRIAL BOILERS INDUSTRIAL KILNS IRON IRON ORE LIGNITE LIVING CONDITIONS METALLURGY MINE WATER MINING AREAS NATURAL GAS NICKEL NITROGEN OXIDES NONFERROUS METAL INDUSTRY OIL OXYGEN PARTICULATE PARTICULATE EMISSIONS PARTICULATES PETROLEUM GAS POLICY MAKERS POVERTY ALLEVIATION POWER GENERATION POWER PLANTS PRIMARY ENERGY PRODUCERS REFINING RESOURCE CONSERVATION SLURRY SMALL MINES SMALL- SCALE SMALL-SCALE SMOKE STATE-OWNED MINES STEAM COAL STEAM LOCOMOTIVES STEEL STOVES SULFUR SULFUR DIOXIDE SUSTAINABILITY SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TUNGSTEN UNDERGROUND MINES URBAN AREAS WASTE WASTEWATER
spellingShingle	ACID RAIN AIR POLLUTANTS AIR POLLUTION ANALYTICAL METHODS ANTHRACITE ATMOSPHERIC POLLUTION BITUMINOUS COAL BRIQUETTES BUILDING MATERIALS CARBON CARBON DIOXIDE CHEMICAL INDUSTRY CHEMICAL OXYGEN DEMAND CLEAN COAL COAL BED METHANE COAL BLENDING COAL COMBUSTION COAL CONSUMPTION COAL DESULFURIZATION COAL GAS COAL GASIFICATION COAL LIQUEFACTION COAL MINE COAL MINING COAL PREPARATION COAL PRICES COAL RESEARCH COAL RESOURCES COAL TECHNOLOGIES COAL TECHNOLOGY COKE COKE MAKING COKE OVENS COKING COMBUSTORS CONSERVATION COPPER DIRECT COMBUSTION DISTILLATION DRAINAGE DRAINAGE WATER ECOLOGY ECONOMIES OF SCALE ECONOMISTS EFFICIENT USE ELECTRIC POWER ELECTRICITY ELECTROSTATIC PRECIPITATORS EMISSION EMISSION FEES EMISSIONS ENERGY CONSUMPTION ENERGY CONSUMPTION FORECASTS ENERGY EFFICIENCY ENERGY PRACTICES ENERGY PRODUCTION ENERGY SAVINGS ENERGY SECURITY ENVIRONMENT PROTECTION ENVIRONMENTAL BENEFITS ENVIRONMENTAL BETTERMENT ENVIRONMENTAL CONTROLS ENVIRONMENTAL EVALUATION ENVIRONMENTAL IMPACT ENVIRONMENTAL IMPACTS ENVIRONMENTAL MEASURES ENVIRONMENTAL PROTECTION ENVIRONMENTAL REGULATIONS FLUE GAS FLUIDIZED BED FLY ASH FUEL FUELS FURNACES GAS GAS PRODUCTION GASES GREENHOUSE HEAT HEATERS HOUSEHOLD COOKING HYDROCARBONS HYDROGEN IMPORTS INDUSTRIAL BOILERS INDUSTRIAL KILNS IRON IRON ORE LIGNITE LIVING CONDITIONS METALLURGY MINE WATER MINING AREAS NATURAL GAS NICKEL NITROGEN OXIDES NONFERROUS METAL INDUSTRY OIL OXYGEN PARTICULATE PARTICULATE EMISSIONS PARTICULATES PETROLEUM GAS POLICY MAKERS POVERTY ALLEVIATION POWER GENERATION POWER PLANTS PRIMARY ENERGY PRODUCERS REFINING RESOURCE CONSERVATION SLURRY SMALL MINES SMALL- SCALE SMALL-SCALE SMOKE STATE-OWNED MINES STEAM COAL STEAM LOCOMOTIVES STEEL STOVES SULFUR SULFUR DIOXIDE SUSTAINABILITY SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY TUNGSTEN UNDERGROUND MINES URBAN AREAS WASTE WASTEWATER World Bank Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal
geographic_facet	East Asia and Pacific China
relation	Energy Sector Management Assistance Programme (ESMAP) and EASEG technical paper series;no. 11
description	Analysts expect China to continue improving the efficiency of energy production and use, thereby decoupling the traditional relationship between gross domestic product (GDP) and energy consumption. Environmentally acceptable economic growth is closely linked with further improvements in the overall efficiency of energy use. Both of these goals will require a continued increase in the use of coal to produce electricity, along with a more deliberate and rapid transition from direct coal combustion to the use of electricity and other cleaner coal-based fuel sources, especially for cooking, space heating, and industrial furnaces. The opportunity for environmental improvement in conjunction with economic growth lies in the wise adoption of clean coal technologies (CCT) for both the electric power and non-power sectors. This report presents CCT options for the power sector that can help China achieve these twin goals. The CCT options are: 1) air pollution controls for particulates, sulphur dioxide, and nitrous oxide; and 2) advanced electricity generation technologies--supercritical pulverized-coal boilers, atmospheric and pressurized fluidized-bed combustors, and integrated gasification combined cycle plants. Volume 1 of this report explains the project costing methodology and the electric power CCT options. Volume 2 summarizes the development and technology assessment of clean coal technologies for the non-power sector in China.
format	Publications & Research :: ESMAP Paper
author	World Bank
author_facet	World Bank
author_sort	World Bank
title	Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal
title_short	Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal
title_full	Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal
title_fullStr	Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal
title_full_unstemmed	Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal
title_sort	technology assessment of clean coal technologies for china : volume 2. environmental and energy efficiency improvements for non-power uses of coal
publisher	Washington, DC
publishDate	2014
url	http://documents.worldbank.org/curated/en/2001/05/1675545/technology-assessment-clean-coal-technologies-china-vol-2-3-environmental-energy-efficiency-improvements-non-power-uses-coal http://hdl.handle.net/10986/20285
_version_	1764437097574301696

Technology Assessment of Clean Coal Technologies for China : Volume 2. Environmental and Energy Efficiency Improvements for Non-power Uses of Coal

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