Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry'
This set of technical papers was commissioned by the Cement Sustainability Initiative (CSI) members in India. CSI is a member-led program of the World Business Council for Sustainable Development (WBCSD). The report represents the independent work...
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| Format: | Commodities Study |
| Language: | English en_US |
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Washington, DC
2013
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| Online Access: | http://documents.worldbank.org/curated/en/2013/01/17795450/existing-potential-technologies-carbon-emissions-reductions-indian-cement-industry-set-technical-papers-produced-project-low-carbon-technology-road-map-indian-cement-industry-existing-potential-technologies-carbon-emissions-reductions-indian-cement-industry-set-technical-papers-produced-project-low-carbon-technology-road-map-indian-cement-industry http://hdl.handle.net/10986/16446 |
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okr-10986-16446 |
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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 |
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World Bank |
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English en_US |
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ABSORPTION ABSORPTION OF ENERGY AGRICULTURAL WASTES AIR FLOW AIR POLLUTION AIR POLLUTION CONTROL EQUIPMENT AIR TEMPERATURE AIR TEMPERATURES ALKALI ALKALI CONTENT ALKALI METALS ALKALIS ALTERNATIVE FUEL ALTERNATIVE FUELS AMMONIA AMMONIUM AMMONIUM CHLORIDE ATMOSPHERIC FLUIDIZED BED COMBUSTION AUXILIARY ENERGY CONSUMPTION AUXILIARY EQUIPMENT AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BED COMBUSTION BIOMASS POWER BLAST FURNACE BLAST FURNACE SLAG BOILER BOILERS BUILDING MATERIAL BUILDING MATERIALS BURNERS CADMIUM CALCIUM CARBON CARBON CAPTURE CARBON EMISSIONS CARBON ENERGY CARBON FOOTPRINT CARBON NEUTRAL CEMENT CEMENT INDUSTRY CEMENT PLANT CEMENT PLANTS CEMENT PRODUCTION CHEMISTRY CHLORIDES CHLORINE CHROMIUM CLEAN ENERGY CLEANER PRODUCTION CLIMATE CLIMATE CHANGE CO CO2 COAL COAL QUALITY COAL TRANSPORTATION COGENERATION COMBUSTION COMBUSTION AIR COMBUSTION CONTROL COMBUSTION EFFICIENCY COMBUSTION SYSTEM COMPRESSED AIR CONDENSATION CONSTRUCTION MATERIALS COOLING TOWER CORROSION COST OF COAL CYCLONES DIESEL DIOXINS DISPOSAL COSTS DUST EFFICIENCY IMPROVEMENT EFFICIENT USE EFFICIENT USE OF ENERGY ELECTRIC POWER ELECTRICAL POWER ELECTRICITY ELECTROSTATIC PRECIPITATOR EMISSION EMISSION LEVEL EMISSION LEVELS EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSIONS CONTROL EMISSIONS FROM CEMENT PRODUCTION EMISSIONS REDUCTION EMISSIONS REDUCTIONS ENERGY CONSERVATION ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY COSTS ENERGY EFFICIENCIES ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENT TECHNOLOGIES ENERGY INTENSIVE ENERGY LOSS ENERGY LOSSES ENERGY MANAGEMENT ENERGY PLANTATION ENERGY SAVINGS ENERGY SYSTEMS ENERGY USE ENVIRONMENTAL ASPECTS ENVIRONMENTAL IMPACTS ENVIRONMENTAL ISSUES ENVIRONMENTAL PERFORMANCE ENVIRONMENTAL PROTECTION ESP EVAPORATION FLAME TEMPERATURE FLUORINE FLY ASH FOSSIL FOSSIL FUEL FOSSIL FUELS FUEL FUEL CELL FUEL COMBUSTION FUEL COST FUEL OIL FUEL PROPERTIES FUEL REQUIREMENTS FUEL TYPES FUEL USE GAS TEMPERATURE GASES GENERATION GHG GREEN HOUSE GAS GREEN HOUSE GAS EMISSIONS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSION GREENHOUSE GAS EMISSION REDUCTION GREENHOUSE GAS EMISSIONS HALOGENS HAZARDOUS WASTE HAZARDOUS WASTE DISPOSAL HEAT HEAT RATE HEAT RECOVERY HEAT TRANSFER HEAVY METALS HEAVY OIL HIGH ASH CONTENT HIGH ENERGY CONSUMPTION HOT GAS HOT GASES HOT WATER HYDRO POWER HYDROCARBON PRECURSORS INCOME INDIRECT EMISSIONS INDUSTRIAL WASTE INTERNATIONAL ENERGY AGENCY LANDFILL LANDFILL SITES LEACHING LIMESTONE LOAD FACTOR LOW-CARBON MERCURY METALS MINERALIZER MOISTURE CONTENT MUNICIPAL SOLID WASTE NEW PLANTS NOX NOZZLES OFFSHORE WIND OIL OIL CRISIS OIL PRICES OIL SUPPLY ORGANIC COMPOUNDS ORGANIC POLLUTANTS OXYGEN PARTICULATE PARTICULATE MATTER PETROLEUM PETROLEUM COKE POLLUTANTS POLLUTION POLLUTION CONTROL POWER POWER CONSUMPTION POWER GENERATION POWER GENERATION CAPACITY POWER PLANTS POWER REQUIREMENTS PRESSURE DROP PRESSURE RISE PSC RADIATION RAW MATERIAL RAW MATERIALS RENEWABLE ENERGY RENEWABLE ENERGY GENERATION RENEWABLE ENERGY TECHNOLOGIES RETROFITTING SAFE DISPOSAL SAFE WASTE DISPOSAL SAND SELENIUM SOLAR POWER SOLAR THERMAL SOLID BIOMASS SOX STEAM CONSUMPTION STEAM PRESSURE STEAM TURBINES SULFUR SULPHUR SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY THERMAL ENERGY THERMAL POWER THERMAL POWER PLANTS TRACE ELEMENTS TURBINE UNDERGROUND MINE URBAN POPULATION VAM VOLTAGE WASTE GENERATION WASTE GENERATORS WASTE MANAGEMENT WASTE MINIMIZATION WIND WIND ENERGY WIND ENERGY POTENTIAL WIND FARMS WIND POWER WIND POWER GENERATION WIND TURBINES ZINC |
| spellingShingle |
ABSORPTION ABSORPTION OF ENERGY AGRICULTURAL WASTES AIR FLOW AIR POLLUTION AIR POLLUTION CONTROL EQUIPMENT AIR TEMPERATURE AIR TEMPERATURES ALKALI ALKALI CONTENT ALKALI METALS ALKALIS ALTERNATIVE FUEL ALTERNATIVE FUELS AMMONIA AMMONIUM AMMONIUM CHLORIDE ATMOSPHERIC FLUIDIZED BED COMBUSTION AUXILIARY ENERGY CONSUMPTION AUXILIARY EQUIPMENT AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BED COMBUSTION BIOMASS POWER BLAST FURNACE BLAST FURNACE SLAG BOILER BOILERS BUILDING MATERIAL BUILDING MATERIALS BURNERS CADMIUM CALCIUM CARBON CARBON CAPTURE CARBON EMISSIONS CARBON ENERGY CARBON FOOTPRINT CARBON NEUTRAL CEMENT CEMENT INDUSTRY CEMENT PLANT CEMENT PLANTS CEMENT PRODUCTION CHEMISTRY CHLORIDES CHLORINE CHROMIUM CLEAN ENERGY CLEANER PRODUCTION CLIMATE CLIMATE CHANGE CO CO2 COAL COAL QUALITY COAL TRANSPORTATION COGENERATION COMBUSTION COMBUSTION AIR COMBUSTION CONTROL COMBUSTION EFFICIENCY COMBUSTION SYSTEM COMPRESSED AIR CONDENSATION CONSTRUCTION MATERIALS COOLING TOWER CORROSION COST OF COAL CYCLONES DIESEL DIOXINS DISPOSAL COSTS DUST EFFICIENCY IMPROVEMENT EFFICIENT USE EFFICIENT USE OF ENERGY ELECTRIC POWER ELECTRICAL POWER ELECTRICITY ELECTROSTATIC PRECIPITATOR EMISSION EMISSION LEVEL EMISSION LEVELS EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSIONS CONTROL EMISSIONS FROM CEMENT PRODUCTION EMISSIONS REDUCTION EMISSIONS REDUCTIONS ENERGY CONSERVATION ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY COSTS ENERGY EFFICIENCIES ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENT TECHNOLOGIES ENERGY INTENSIVE ENERGY LOSS ENERGY LOSSES ENERGY MANAGEMENT ENERGY PLANTATION ENERGY SAVINGS ENERGY SYSTEMS ENERGY USE ENVIRONMENTAL ASPECTS ENVIRONMENTAL IMPACTS ENVIRONMENTAL ISSUES ENVIRONMENTAL PERFORMANCE ENVIRONMENTAL PROTECTION ESP EVAPORATION FLAME TEMPERATURE FLUORINE FLY ASH FOSSIL FOSSIL FUEL FOSSIL FUELS FUEL FUEL CELL FUEL COMBUSTION FUEL COST FUEL OIL FUEL PROPERTIES FUEL REQUIREMENTS FUEL TYPES FUEL USE GAS TEMPERATURE GASES GENERATION GHG GREEN HOUSE GAS GREEN HOUSE GAS EMISSIONS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSION GREENHOUSE GAS EMISSION REDUCTION GREENHOUSE GAS EMISSIONS HALOGENS HAZARDOUS WASTE HAZARDOUS WASTE DISPOSAL HEAT HEAT RATE HEAT RECOVERY HEAT TRANSFER HEAVY METALS HEAVY OIL HIGH ASH CONTENT HIGH ENERGY CONSUMPTION HOT GAS HOT GASES HOT WATER HYDRO POWER HYDROCARBON PRECURSORS INCOME INDIRECT EMISSIONS INDUSTRIAL WASTE INTERNATIONAL ENERGY AGENCY LANDFILL LANDFILL SITES LEACHING LIMESTONE LOAD FACTOR LOW-CARBON MERCURY METALS MINERALIZER MOISTURE CONTENT MUNICIPAL SOLID WASTE NEW PLANTS NOX NOZZLES OFFSHORE WIND OIL OIL CRISIS OIL PRICES OIL SUPPLY ORGANIC COMPOUNDS ORGANIC POLLUTANTS OXYGEN PARTICULATE PARTICULATE MATTER PETROLEUM PETROLEUM COKE POLLUTANTS POLLUTION POLLUTION CONTROL POWER POWER CONSUMPTION POWER GENERATION POWER GENERATION CAPACITY POWER PLANTS POWER REQUIREMENTS PRESSURE DROP PRESSURE RISE PSC RADIATION RAW MATERIAL RAW MATERIALS RENEWABLE ENERGY RENEWABLE ENERGY GENERATION RENEWABLE ENERGY TECHNOLOGIES RETROFITTING SAFE DISPOSAL SAFE WASTE DISPOSAL SAND SELENIUM SOLAR POWER SOLAR THERMAL SOLID BIOMASS SOX STEAM CONSUMPTION STEAM PRESSURE STEAM TURBINES SULFUR SULPHUR SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY THERMAL ENERGY THERMAL POWER THERMAL POWER PLANTS TRACE ELEMENTS TURBINE UNDERGROUND MINE URBAN POPULATION VAM VOLTAGE WASTE GENERATION WASTE GENERATORS WASTE MANAGEMENT WASTE MINIMIZATION WIND WIND ENERGY WIND ENERGY POTENTIAL WIND FARMS WIND POWER WIND POWER GENERATION WIND TURBINES ZINC World Bank Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' |
| geographic_facet |
South Asia India |
| description |
This set of technical papers was
commissioned by the Cement Sustainability Initiative (CSI)
members in India. CSI is a member-led program of the World
Business Council for Sustainable Development (WBCSD). The
report represents the independent work of the CII - Godrej
Green Business Centre (CII, Godrej GBC), a center of
excellence of Confederation of Indian Industry (CII) and the
National Council for Cement and Building Materials (NCB).
The author of each paper is shown after its title. It aims
to identify, describe and evaluate technologies, which may
contribute to increased energy efficiencies and reduced
greenhouse gas emissions from cement production in India
today and in the longer-term. The results have been reviewed
by CII, NCB, CSI member companies and stakeholders like the
International Energy Agency (IEA). All papers follow the
same format, outlining the current status of the technology,
the impact on energy consumption, anticipated benefits from
implementation, the CO? reduction potential, main parameters
influencing implementation, cost estimation, and the
conditions, barriers and constraints of implementation. For
the more futuristic technologies, where quantification is
difficult, a qualitative summary is provided instead,
indicating those technologies felt to be promising for
future implementation and emissions reductions potential. In
these papers, only the anticipated impact on energy
consumption and barriers to further development can be
shown. In every paper, a range of potential thermal and
electrical savings is provided; this range has been reached
through consultation with technical experts. Where INR costs
are indicated, approximate USD equivalent costs have also
been given, using exchange rate USD 1 = INR 50. |
| format |
Economic & Sector Work :: Commodities Study |
| author |
World Bank |
| author_facet |
World Bank |
| author_sort |
World Bank |
| title |
Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' |
| title_short |
Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' |
| title_full |
Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' |
| title_fullStr |
Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' |
| title_full_unstemmed |
Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' |
| title_sort |
existing and potential technologies for carbon emissions reductions in the indian cement industry : a set of technical papers produced for the project 'low carbon technology road map for the indian cement industry' |
| publisher |
Washington, DC |
| publishDate |
2013 |
| url |
http://documents.worldbank.org/curated/en/2013/01/17795450/existing-potential-technologies-carbon-emissions-reductions-indian-cement-industry-set-technical-papers-produced-project-low-carbon-technology-road-map-indian-cement-industry-existing-potential-technologies-carbon-emissions-reductions-indian-cement-industry-set-technical-papers-produced-project-low-carbon-technology-road-map-indian-cement-industry http://hdl.handle.net/10986/16446 |
| _version_ |
1764434090068541440 |
| spelling |
okr-10986-164462021-04-23T14:03:31Z Existing and Potential Technologies for Carbon Emissions Reductions in the Indian Cement Industry : A Set of Technical Papers Produced for the Project 'Low Carbon Technology Road Map for the Indian Cement Industry' World Bank ABSORPTION ABSORPTION OF ENERGY AGRICULTURAL WASTES AIR FLOW AIR POLLUTION AIR POLLUTION CONTROL EQUIPMENT AIR TEMPERATURE AIR TEMPERATURES ALKALI ALKALI CONTENT ALKALI METALS ALKALIS ALTERNATIVE FUEL ALTERNATIVE FUELS AMMONIA AMMONIUM AMMONIUM CHLORIDE ATMOSPHERIC FLUIDIZED BED COMBUSTION AUXILIARY ENERGY CONSUMPTION AUXILIARY EQUIPMENT AUXILIARY POWER AUXILIARY POWER CONSUMPTION AVAILABILITY BED COMBUSTION BIOMASS POWER BLAST FURNACE BLAST FURNACE SLAG BOILER BOILERS BUILDING MATERIAL BUILDING MATERIALS BURNERS CADMIUM CALCIUM CARBON CARBON CAPTURE CARBON EMISSIONS CARBON ENERGY CARBON FOOTPRINT CARBON NEUTRAL CEMENT CEMENT INDUSTRY CEMENT PLANT CEMENT PLANTS CEMENT PRODUCTION CHEMISTRY CHLORIDES CHLORINE CHROMIUM CLEAN ENERGY CLEANER PRODUCTION CLIMATE CLIMATE CHANGE CO CO2 COAL COAL QUALITY COAL TRANSPORTATION COGENERATION COMBUSTION COMBUSTION AIR COMBUSTION CONTROL COMBUSTION EFFICIENCY COMBUSTION SYSTEM COMPRESSED AIR CONDENSATION CONSTRUCTION MATERIALS COOLING TOWER CORROSION COST OF COAL CYCLONES DIESEL DIOXINS DISPOSAL COSTS DUST EFFICIENCY IMPROVEMENT EFFICIENT USE EFFICIENT USE OF ENERGY ELECTRIC POWER ELECTRICAL POWER ELECTRICITY ELECTROSTATIC PRECIPITATOR EMISSION EMISSION LEVEL EMISSION LEVELS EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSIONS CONTROL EMISSIONS FROM CEMENT PRODUCTION EMISSIONS REDUCTION EMISSIONS REDUCTIONS ENERGY CONSERVATION ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY COSTS ENERGY EFFICIENCIES ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY EFFICIENT TECHNOLOGIES ENERGY INTENSIVE ENERGY LOSS ENERGY LOSSES ENERGY MANAGEMENT ENERGY PLANTATION ENERGY SAVINGS ENERGY SYSTEMS ENERGY USE ENVIRONMENTAL ASPECTS ENVIRONMENTAL IMPACTS ENVIRONMENTAL ISSUES ENVIRONMENTAL PERFORMANCE ENVIRONMENTAL PROTECTION ESP EVAPORATION FLAME TEMPERATURE FLUORINE FLY ASH FOSSIL FOSSIL FUEL FOSSIL FUELS FUEL FUEL CELL FUEL COMBUSTION FUEL COST FUEL OIL FUEL PROPERTIES FUEL REQUIREMENTS FUEL TYPES FUEL USE GAS TEMPERATURE GASES GENERATION GHG GREEN HOUSE GAS GREEN HOUSE GAS EMISSIONS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSION GREENHOUSE GAS EMISSION REDUCTION GREENHOUSE GAS EMISSIONS HALOGENS HAZARDOUS WASTE HAZARDOUS WASTE DISPOSAL HEAT HEAT RATE HEAT RECOVERY HEAT TRANSFER HEAVY METALS HEAVY OIL HIGH ASH CONTENT HIGH ENERGY CONSUMPTION HOT GAS HOT GASES HOT WATER HYDRO POWER HYDROCARBON PRECURSORS INCOME INDIRECT EMISSIONS INDUSTRIAL WASTE INTERNATIONAL ENERGY AGENCY LANDFILL LANDFILL SITES LEACHING LIMESTONE LOAD FACTOR LOW-CARBON MERCURY METALS MINERALIZER MOISTURE CONTENT MUNICIPAL SOLID WASTE NEW PLANTS NOX NOZZLES OFFSHORE WIND OIL OIL CRISIS OIL PRICES OIL SUPPLY ORGANIC COMPOUNDS ORGANIC POLLUTANTS OXYGEN PARTICULATE PARTICULATE MATTER PETROLEUM PETROLEUM COKE POLLUTANTS POLLUTION POLLUTION CONTROL POWER POWER CONSUMPTION POWER GENERATION POWER GENERATION CAPACITY POWER PLANTS POWER REQUIREMENTS PRESSURE DROP PRESSURE RISE PSC RADIATION RAW MATERIAL RAW MATERIALS RENEWABLE ENERGY RENEWABLE ENERGY GENERATION RENEWABLE ENERGY TECHNOLOGIES RETROFITTING SAFE DISPOSAL SAFE WASTE DISPOSAL SAND SELENIUM SOLAR POWER SOLAR THERMAL SOLID BIOMASS SOX STEAM CONSUMPTION STEAM PRESSURE STEAM TURBINES SULFUR SULPHUR SUSTAINABLE DEVELOPMENT SUSTAINABLE ENERGY THERMAL EFFICIENCY THERMAL ENERGY THERMAL POWER THERMAL POWER PLANTS TRACE ELEMENTS TURBINE UNDERGROUND MINE URBAN POPULATION VAM VOLTAGE WASTE GENERATION WASTE GENERATORS WASTE MANAGEMENT WASTE MINIMIZATION WIND WIND ENERGY WIND ENERGY POTENTIAL WIND FARMS WIND POWER WIND POWER GENERATION WIND TURBINES ZINC This set of technical papers was commissioned by the Cement Sustainability Initiative (CSI) members in India. CSI is a member-led program of the World Business Council for Sustainable Development (WBCSD). The report represents the independent work of the CII - Godrej Green Business Centre (CII, Godrej GBC), a center of excellence of Confederation of Indian Industry (CII) and the National Council for Cement and Building Materials (NCB). The author of each paper is shown after its title. It aims to identify, describe and evaluate technologies, which may contribute to increased energy efficiencies and reduced greenhouse gas emissions from cement production in India today and in the longer-term. The results have been reviewed by CII, NCB, CSI member companies and stakeholders like the International Energy Agency (IEA). All papers follow the same format, outlining the current status of the technology, the impact on energy consumption, anticipated benefits from implementation, the CO? reduction potential, main parameters influencing implementation, cost estimation, and the conditions, barriers and constraints of implementation. For the more futuristic technologies, where quantification is difficult, a qualitative summary is provided instead, indicating those technologies felt to be promising for future implementation and emissions reductions potential. In these papers, only the anticipated impact on energy consumption and barriers to further development can be shown. In every paper, a range of potential thermal and electrical savings is provided; this range has been reached through consultation with technical experts. Where INR costs are indicated, approximate USD equivalent costs have also been given, using exchange rate USD 1 = INR 50. 2013-12-27T22:04:26Z 2013-12-27T22:04:26Z 2013-01 http://documents.worldbank.org/curated/en/2013/01/17795450/existing-potential-technologies-carbon-emissions-reductions-indian-cement-industry-set-technical-papers-produced-project-low-carbon-technology-road-map-indian-cement-industry-existing-potential-technologies-carbon-emissions-reductions-indian-cement-industry-set-technical-papers-produced-project-low-carbon-technology-road-map-indian-cement-industry http://hdl.handle.net/10986/16446 English en_US CC BY-NC-ND 3.0 IGO http://creativecommons.org/licenses/by-nc-nd/3.0/igo World Bank Washington, DC Economic & Sector Work :: Commodities Study Economic & Sector Work South Asia India |