Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production

Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production

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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Bibliographic Details
Main Author: World Bank
Format: ESMAP Paper
Language:English
en_US
Published: Washington, DC 2014
Subjects:
AIR CONCENTRATIONS
AIR EMISSIONS
AIR POLLUTANTS
AIR POLLUTION
AIR POLLUTION CONTROL
AIR QUALITY
AMMONIA
ASH
ATMOSPHERIC PRESSURE
BED COMBUSTION
BITUMINOUS COAL
BOILERS
CALCIUM
CARBON
CARBONYL SULFIDE
CLEAN COAL
CO
COAL
COAL RESERVES
COAL TECHNOLOGIES
COASTAL AREAS
COLORS
COMBUSTION
COMBUSTION PROCESSES
COMBUSTORS
CYCLONES
DESULFURIZATION
DUST
ECONOMIC GROWTH
ECONOMIES OF SCALE
ECONOMISTS
EFFICIENCY OF ENERGY USE
EFFICIENT OPERATION
ELECTRIC POWER
ELECTRICITY
ELECTRICITY GENERATION
ELECTROSTATIC PRECIPITATORS
EMISSION
EMISSION CONTROL
EMISSION REDUCTION
EMISSION STANDARDS
EMISSIONS
ENERGY PRACTICES
ENERGY PRODUCTION
ENERGY TECHNOLOGIES
ENVIRONMENTAL IMPACT
ENVIRONMENTAL IMPACTS
ENVIRONMENTAL IMPROVEMENT
ENVIRONMENTAL PERFORMANCE
ENVIRONMENTAL PROTECTION
EQUIPMENT MAINTENANCE
FABRIC FILTERS
FLUE GAS
FLUIDIZED BED
FLUIDIZED BED COMBUSTION
FLY ASH
FUEL
FUEL CONSUMPTION
FUELS
FURNACES
GASIFICATION
HEAT
HUMAN HEALTH
HYDROCARBONS
INDUSTRIAL FURNACES
LABOR COSTS
LIME
LIVING CONDITIONS
MINING
NATURAL GAS
NITROGEN
NITROGEN OXIDES
NOX
NOZZLES
OXIDATION
PARTICLES
PARTICULATE
PARTICULATE EMISSIONS
PARTICULATE MATTER
PARTICULATES
PATENTS
PIPING
POVERTY ALLEVIATION
POWER GENERATION
POWER PLANTS
PRIMARY ENERGY
PRIMARY ENERGY CONSUMPTION
PRODUCERS
PRODUCTIVITY
REACTIVITY
RETROFITTING
SO2
STEAM PRESSURE
STEAM TURBINE
STOVES
SULFATE
SULFUR
SULFUR DIOXIDE
SUSTAINABLE DEVELOPMENT
SUSTAINABLE ENERGY
TEMPERATURE
THERMAL POWER
VOLATILE ORGANIC COMPOUNDS
WATER QUALITY
Online Access:http://documents.worldbank.org/curated/en/2001/12/6320696/technology-assessment-clean-coal-technologies-china-vol-1-3-electric-power-production
http://hdl.handle.net/10986/20284
id okr-10986-20284
recordtype oai_dc
spelling okr-10986-202842021-04-23T14:03:37Z Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production World Bank AIR CONCENTRATIONS AIR EMISSIONS AIR POLLUTANTS AIR POLLUTION AIR POLLUTION CONTROL AIR QUALITY AMMONIA ASH ATMOSPHERIC PRESSURE BED COMBUSTION BITUMINOUS COAL BOILERS CALCIUM CARBON CARBONYL SULFIDE CLEAN COAL CO COAL COAL RESERVES COAL TECHNOLOGIES COASTAL AREAS COLORS COMBUSTION COMBUSTION PROCESSES COMBUSTORS CYCLONES DESULFURIZATION DUST ECONOMIC GROWTH ECONOMIES OF SCALE ECONOMISTS EFFICIENCY OF ENERGY USE EFFICIENT OPERATION ELECTRIC POWER ELECTRICITY ELECTRICITY GENERATION ELECTROSTATIC PRECIPITATORS EMISSION EMISSION CONTROL EMISSION REDUCTION EMISSION STANDARDS EMISSIONS ENERGY PRACTICES ENERGY PRODUCTION ENERGY TECHNOLOGIES ENVIRONMENTAL IMPACT ENVIRONMENTAL IMPACTS ENVIRONMENTAL IMPROVEMENT ENVIRONMENTAL PERFORMANCE ENVIRONMENTAL PROTECTION EQUIPMENT MAINTENANCE FABRIC FILTERS FLUE GAS FLUIDIZED BED FLUIDIZED BED COMBUSTION FLY ASH FUEL FUEL CONSUMPTION FUELS FURNACES GASIFICATION HEAT HUMAN HEALTH HYDROCARBONS INDUSTRIAL FURNACES LABOR COSTS LIME LIVING CONDITIONS MINING NATURAL GAS NITROGEN NITROGEN OXIDES NOX NOZZLES OXIDATION PARTICLES PARTICULATE PARTICULATE EMISSIONS PARTICULATE MATTER PARTICULATES PATENTS PIPING POVERTY ALLEVIATION POWER GENERATION POWER PLANTS PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRODUCERS PRODUCTIVITY REACTIVITY RETROFITTING SO2 STEAM PRESSURE STEAM TURBINE STOVES SULFATE SULFUR SULFUR DIOXIDE SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY TEMPERATURE THERMAL POWER VOLATILE ORGANIC COMPOUNDS WATER QUALITY 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. 2014-09-30T15:59:13Z 2014-09-30T15:59:13Z 2001-05 http://documents.worldbank.org/curated/en/2001/12/6320696/technology-assessment-clean-coal-technologies-china-vol-1-3-electric-power-production http://hdl.handle.net/10986/20284 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 AIR CONCENTRATIONS
AIR EMISSIONS
AIR POLLUTANTS
AIR POLLUTION
AIR POLLUTION CONTROL
AIR QUALITY
AMMONIA
ASH
ATMOSPHERIC PRESSURE
BED COMBUSTION
BITUMINOUS COAL
BOILERS
CALCIUM
CARBON
CARBONYL SULFIDE
CLEAN COAL
CO
COAL
COAL RESERVES
COAL TECHNOLOGIES
COASTAL AREAS
COLORS
COMBUSTION
COMBUSTION PROCESSES
COMBUSTORS
CYCLONES
DESULFURIZATION
DUST
ECONOMIC GROWTH
ECONOMIES OF SCALE
ECONOMISTS
EFFICIENCY OF ENERGY USE
EFFICIENT OPERATION
ELECTRIC POWER
ELECTRICITY
ELECTRICITY GENERATION
ELECTROSTATIC PRECIPITATORS
EMISSION
EMISSION CONTROL
EMISSION REDUCTION
EMISSION STANDARDS
EMISSIONS
ENERGY PRACTICES
ENERGY PRODUCTION
ENERGY TECHNOLOGIES
ENVIRONMENTAL IMPACT
ENVIRONMENTAL IMPACTS
ENVIRONMENTAL IMPROVEMENT
ENVIRONMENTAL PERFORMANCE
ENVIRONMENTAL PROTECTION
EQUIPMENT MAINTENANCE
FABRIC FILTERS
FLUE GAS
FLUIDIZED BED
FLUIDIZED BED COMBUSTION
FLY ASH
FUEL
FUEL CONSUMPTION
FUELS
FURNACES
GASIFICATION
HEAT
HUMAN HEALTH
HYDROCARBONS
INDUSTRIAL FURNACES
LABOR COSTS
LIME
LIVING CONDITIONS
MINING
NATURAL GAS
NITROGEN
NITROGEN OXIDES
NOX
NOZZLES
OXIDATION
PARTICLES
PARTICULATE
PARTICULATE EMISSIONS
PARTICULATE MATTER
PARTICULATES
PATENTS
PIPING
POVERTY ALLEVIATION
POWER GENERATION
POWER PLANTS
PRIMARY ENERGY
PRIMARY ENERGY CONSUMPTION
PRODUCERS
PRODUCTIVITY
REACTIVITY
RETROFITTING
SO2
STEAM PRESSURE
STEAM TURBINE
STOVES
SULFATE
SULFUR
SULFUR DIOXIDE
SUSTAINABLE DEVELOPMENT
SUSTAINABLE ENERGY
TEMPERATURE
THERMAL POWER
VOLATILE ORGANIC COMPOUNDS
WATER QUALITY
spellingShingle AIR CONCENTRATIONS
AIR EMISSIONS
AIR POLLUTANTS
AIR POLLUTION
AIR POLLUTION CONTROL
AIR QUALITY
AMMONIA
ASH
ATMOSPHERIC PRESSURE
BED COMBUSTION
BITUMINOUS COAL
BOILERS
CALCIUM
CARBON
CARBONYL SULFIDE
CLEAN COAL
CO
COAL
COAL RESERVES
COAL TECHNOLOGIES
COASTAL AREAS
COLORS
COMBUSTION
COMBUSTION PROCESSES
COMBUSTORS
CYCLONES
DESULFURIZATION
DUST
ECONOMIC GROWTH
ECONOMIES OF SCALE
ECONOMISTS
EFFICIENCY OF ENERGY USE
EFFICIENT OPERATION
ELECTRIC POWER
ELECTRICITY
ELECTRICITY GENERATION
ELECTROSTATIC PRECIPITATORS
EMISSION
EMISSION CONTROL
EMISSION REDUCTION
EMISSION STANDARDS
EMISSIONS
ENERGY PRACTICES
ENERGY PRODUCTION
ENERGY TECHNOLOGIES
ENVIRONMENTAL IMPACT
ENVIRONMENTAL IMPACTS
ENVIRONMENTAL IMPROVEMENT
ENVIRONMENTAL PERFORMANCE
ENVIRONMENTAL PROTECTION
EQUIPMENT MAINTENANCE
FABRIC FILTERS
FLUE GAS
FLUIDIZED BED
FLUIDIZED BED COMBUSTION
FLY ASH
FUEL
FUEL CONSUMPTION
FUELS
FURNACES
GASIFICATION
HEAT
HUMAN HEALTH
HYDROCARBONS
INDUSTRIAL FURNACES
LABOR COSTS
LIME
LIVING CONDITIONS
MINING
NATURAL GAS
NITROGEN
NITROGEN OXIDES
NOX
NOZZLES
OXIDATION
PARTICLES
PARTICULATE
PARTICULATE EMISSIONS
PARTICULATE MATTER
PARTICULATES
PATENTS
PIPING
POVERTY ALLEVIATION
POWER GENERATION
POWER PLANTS
PRIMARY ENERGY
PRIMARY ENERGY CONSUMPTION
PRODUCERS
PRODUCTIVITY
REACTIVITY
RETROFITTING
SO2
STEAM PRESSURE
STEAM TURBINE
STOVES
SULFATE
SULFUR
SULFUR DIOXIDE
SUSTAINABLE DEVELOPMENT
SUSTAINABLE ENERGY
TEMPERATURE
THERMAL POWER
VOLATILE ORGANIC COMPOUNDS
WATER QUALITY
World Bank
Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production
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 1. Electric Power Production
title_short Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production
title_full Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production
title_fullStr Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production
title_full_unstemmed Technology Assessment of Clean Coal Technologies for China : Volume 1. Electric Power Production
title_sort technology assessment of clean coal technologies for china : volume 1. electric power production
publisher Washington, DC
publishDate 2014
url http://documents.worldbank.org/curated/en/2001/12/6320696/technology-assessment-clean-coal-technologies-china-vol-1-3-electric-power-production
http://hdl.handle.net/10986/20284
_version_ 1764437406738546688

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