Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance
This study was funded by the Carbon Capture and Storage (CCS) capacity building trust fund, and administered by the World Bank. The main objectives of the study were: to build or enhance Jordan s institutional capacity to make informed policy decis...
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| Format: | Energy Study |
| Language: | English en_US |
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Washington, DC
2013
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| Online Access: | http://documents.worldbank.org/curated/en/2012/03/17451084/jordan-carbon-capture-storage-ccs-capacity-building-technical-assistance http://hdl.handle.net/10986/13224 |
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okr-10986-13224 |
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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 |
| language |
English en_US |
| topic |
ABSORPTION ACIDITY AIR AIR POLLUTANTS AIR QUALITY AMBIENT AIR AMBIENT AIR QUALITY AMBIENT AIR QUALITY STANDARDS AMINE AMMONIA APPROACH AQUIFER AQUIFERS ATMOSPHERIC PRESSURE AUXILIARY POWER AUXILIARY POWER CONSUMPTION AUXILIARY POWER REQUIREMENTS BARREL BARRELS PER DAY BURNING NATURAL GAS CAPITAL INVESTMENT CARBON CARBON CAPTURE CARBON DIOXIDE CARBON DIOXIDE CAPTURE CARBON FOOTPRINT CARBON MITIGATION CARBON SEQUESTRATION CEMENT CEMENT PLANTS CEMENT PRODUCTION CHEMICALS CHEMISTRY CLEAN DEVELOPMENT MECHANISM CLIMATE CO2 CO2 EMISSIONS COAL COAL BED METHANE COAL MINE COLORS COMBUSTION COMMERCIAL AVIATION COMPRESSORS CONCESSION COST OF ELECTRICITY DEEP WELLS DIAMETER PIPELINE DOMESTIC ENERGY DRILLING DRINKING WATER ECONOMICS ECONOMIES OF SCALE EFFLUENTS ELECTRIC POWER ELECTRICITY ELECTRICITY GENERATION EMISSION EMISSION ESTIMATES EMISSION OFFSETS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS STANDARDS ENERGY NEEDS ENERGY SOURCES ENVIRONMENTAL ENVIRONMENTAL MANAGEMENT ENVIRONMENTAL PROTECTION ENVIRONMENTAL PROTECTION AGENCY EXPLORATION WELLS EXPLORATORY WELL EXPLORATORY WELLS EXTRACTION FLUE GAS FOSSIL FOSSIL ENERGY FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL TECHNOLOGIES FUELS GAS EXPLORATION GAS FIELD GAS FIELDS GAS FLOW GAS PIPELINE GAS RECOVERY GAS STREAM GAS STREAMS GAS WELLS GASIFICATION GEOTHERMAL HEAT GEOTHERMAL WATER GHG GLOBAL LEVEL GREENHOUSE GREENHOUSE GAS GREENHOUSE GASES HAZARDOUS WASTE HAZARDOUS WASTE MANAGEMENT HEAT RECOVERY HEAT RECOVERY SYSTEMS HEAT TRANSFER HYDROCARBONS HYDROGEN HYDROSTATIC PRESSURE INDUSTRIAL APPLICATIONS INDUSTRIAL PLANTS INDUSTRIAL SECTOR INJECTION WELLS IPCC LONG-DISTANCE MILLION CUBIC FEET PER DAY MINERAL MINERAL RESOURCES NATIONAL ENERGY NATURAL GAS NATURAL GAS EXPLORATION NATURAL GAS PIPELINES NATURAL RESOURCES OCEANS OIL OIL AND GAS OIL FIELD OIL FIELDS OIL PIPELINE OIL RECOVERY OIL REFINERY OIL REFINING OIL SHALE PARALLEL PIPELINES PETROCHEMICAL INDUSTRY PETROLEUM PETROLEUM COMPANY PIPELINE PIPELINE NETWORK PIPELINE TRANSPORTATION PIPELINES PIPING POLICY DECISIONS POLICY MAKERS POLLUTION POST-COMBUSTION POTASH POWER POWER COMPANY POWER COSTS POWER GENERATION POWER PLANT POWER PLANTS POWER PRODUCTION POWER SECTOR PRIVATE FINANCING PRIVATE SECTOR PROPERTY RIGHTS PUBLIC PARTICIPATION RAINWATER REFINERIES RESERVOIR RESERVOIR PRESSURE RISK MANAGEMENT SAFETY SHALE OIL STATIONARY SOURCES SULFUR TAX TAX INCENTIVES TEMPERATURE TRANSMISSION LINES TRANSPORT TRANSPORTATION COST TRANSPORTATION COSTS TRANSPORTATION INFRASTRUCTURE TRUE UNDERGROUND UNDERGROUND STORAGE WATER SALINITY |
| spellingShingle |
ABSORPTION ACIDITY AIR AIR POLLUTANTS AIR QUALITY AMBIENT AIR AMBIENT AIR QUALITY AMBIENT AIR QUALITY STANDARDS AMINE AMMONIA APPROACH AQUIFER AQUIFERS ATMOSPHERIC PRESSURE AUXILIARY POWER AUXILIARY POWER CONSUMPTION AUXILIARY POWER REQUIREMENTS BARREL BARRELS PER DAY BURNING NATURAL GAS CAPITAL INVESTMENT CARBON CARBON CAPTURE CARBON DIOXIDE CARBON DIOXIDE CAPTURE CARBON FOOTPRINT CARBON MITIGATION CARBON SEQUESTRATION CEMENT CEMENT PLANTS CEMENT PRODUCTION CHEMICALS CHEMISTRY CLEAN DEVELOPMENT MECHANISM CLIMATE CO2 CO2 EMISSIONS COAL COAL BED METHANE COAL MINE COLORS COMBUSTION COMMERCIAL AVIATION COMPRESSORS CONCESSION COST OF ELECTRICITY DEEP WELLS DIAMETER PIPELINE DOMESTIC ENERGY DRILLING DRINKING WATER ECONOMICS ECONOMIES OF SCALE EFFLUENTS ELECTRIC POWER ELECTRICITY ELECTRICITY GENERATION EMISSION EMISSION ESTIMATES EMISSION OFFSETS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS STANDARDS ENERGY NEEDS ENERGY SOURCES ENVIRONMENTAL ENVIRONMENTAL MANAGEMENT ENVIRONMENTAL PROTECTION ENVIRONMENTAL PROTECTION AGENCY EXPLORATION WELLS EXPLORATORY WELL EXPLORATORY WELLS EXTRACTION FLUE GAS FOSSIL FOSSIL ENERGY FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL TECHNOLOGIES FUELS GAS EXPLORATION GAS FIELD GAS FIELDS GAS FLOW GAS PIPELINE GAS RECOVERY GAS STREAM GAS STREAMS GAS WELLS GASIFICATION GEOTHERMAL HEAT GEOTHERMAL WATER GHG GLOBAL LEVEL GREENHOUSE GREENHOUSE GAS GREENHOUSE GASES HAZARDOUS WASTE HAZARDOUS WASTE MANAGEMENT HEAT RECOVERY HEAT RECOVERY SYSTEMS HEAT TRANSFER HYDROCARBONS HYDROGEN HYDROSTATIC PRESSURE INDUSTRIAL APPLICATIONS INDUSTRIAL PLANTS INDUSTRIAL SECTOR INJECTION WELLS IPCC LONG-DISTANCE MILLION CUBIC FEET PER DAY MINERAL MINERAL RESOURCES NATIONAL ENERGY NATURAL GAS NATURAL GAS EXPLORATION NATURAL GAS PIPELINES NATURAL RESOURCES OCEANS OIL OIL AND GAS OIL FIELD OIL FIELDS OIL PIPELINE OIL RECOVERY OIL REFINERY OIL REFINING OIL SHALE PARALLEL PIPELINES PETROCHEMICAL INDUSTRY PETROLEUM PETROLEUM COMPANY PIPELINE PIPELINE NETWORK PIPELINE TRANSPORTATION PIPELINES PIPING POLICY DECISIONS POLICY MAKERS POLLUTION POST-COMBUSTION POTASH POWER POWER COMPANY POWER COSTS POWER GENERATION POWER PLANT POWER PLANTS POWER PRODUCTION POWER SECTOR PRIVATE FINANCING PRIVATE SECTOR PROPERTY RIGHTS PUBLIC PARTICIPATION RAINWATER REFINERIES RESERVOIR RESERVOIR PRESSURE RISK MANAGEMENT SAFETY SHALE OIL STATIONARY SOURCES SULFUR TAX TAX INCENTIVES TEMPERATURE TRANSMISSION LINES TRANSPORT TRANSPORTATION COST TRANSPORTATION COSTS TRANSPORTATION INFRASTRUCTURE TRUE UNDERGROUND UNDERGROUND STORAGE WATER SALINITY World Bank Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance |
| geographic_facet |
Middle East and North Africa Jordan |
| description |
This study was funded by the Carbon
Capture and Storage (CCS) capacity building trust fund, and
administered by the World Bank. The main objectives of the
study were: to build or enhance Jordan s institutional
capacity to make informed policy decisions on CCS technology
and applications; to assess the potential application of CCS
technology in Jordan; and to identify barriers-legal,
regulatory, financial and others-to CCS activities in Jordan
and recommend ways to address those barriers. During the
course of this study, the study team concluded that Jordan
may benefit from following the evolution of carbon capture
and storage technology via publicly available information.
Similar CCS studies are being carried out in Egypt, Morocco
and Tunisia, and Jordan could benefit from a regional
knowledge exchange event when those studies are concluded.
However, given Jordan s other national priorities, tight
government fiscal situation and limited CO2 emissions, the
CCS team that authored this report believes that it is not
in the interest of Jordan to pursue capital investment
related to CCS in the short-term. This study, therefore,
hopes to represent one step toward raising the awareness of
CCS technology among Jordanian policy makers, professionals
and academics. The CCS Capacity building trust fund is
prepared to provide limited financial support to a team of
Jordanian researchers for an exploratory study on the
potential for CCS within Jordan. Such a study should
further increase awareness of CCS in Jordan and create a
body of knowledge within the country that could support next
steps on CCS consideration by policymakers, or actual
project implementation. |
| format |
Economic & Sector Work :: Energy Study |
| author |
World Bank |
| author_facet |
World Bank |
| author_sort |
World Bank |
| title |
Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance |
| title_short |
Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance |
| title_full |
Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance |
| title_fullStr |
Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance |
| title_full_unstemmed |
Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance |
| title_sort |
hashemite kingdom of jordan : carbon capture and storage capacity building technical assistance |
| publisher |
Washington, DC |
| publishDate |
2013 |
| url |
http://documents.worldbank.org/curated/en/2012/03/17451084/jordan-carbon-capture-storage-ccs-capacity-building-technical-assistance http://hdl.handle.net/10986/13224 |
| _version_ |
1764422672369844224 |
| spelling |
okr-10986-132242021-04-23T14:03:07Z Hashemite Kingdom of Jordan : Carbon Capture and Storage Capacity Building Technical Assistance World Bank ABSORPTION ACIDITY AIR AIR POLLUTANTS AIR QUALITY AMBIENT AIR AMBIENT AIR QUALITY AMBIENT AIR QUALITY STANDARDS AMINE AMMONIA APPROACH AQUIFER AQUIFERS ATMOSPHERIC PRESSURE AUXILIARY POWER AUXILIARY POWER CONSUMPTION AUXILIARY POWER REQUIREMENTS BARREL BARRELS PER DAY BURNING NATURAL GAS CAPITAL INVESTMENT CARBON CARBON CAPTURE CARBON DIOXIDE CARBON DIOXIDE CAPTURE CARBON FOOTPRINT CARBON MITIGATION CARBON SEQUESTRATION CEMENT CEMENT PLANTS CEMENT PRODUCTION CHEMICALS CHEMISTRY CLEAN DEVELOPMENT MECHANISM CLIMATE CO2 CO2 EMISSIONS COAL COAL BED METHANE COAL MINE COLORS COMBUSTION COMMERCIAL AVIATION COMPRESSORS CONCESSION COST OF ELECTRICITY DEEP WELLS DIAMETER PIPELINE DOMESTIC ENERGY DRILLING DRINKING WATER ECONOMICS ECONOMIES OF SCALE EFFLUENTS ELECTRIC POWER ELECTRICITY ELECTRICITY GENERATION EMISSION EMISSION ESTIMATES EMISSION OFFSETS EMISSIONS EMISSIONS FROM ENERGY EMISSIONS STANDARDS ENERGY NEEDS ENERGY SOURCES ENVIRONMENTAL ENVIRONMENTAL MANAGEMENT ENVIRONMENTAL PROTECTION ENVIRONMENTAL PROTECTION AGENCY EXPLORATION WELLS EXPLORATORY WELL EXPLORATORY WELLS EXTRACTION FLUE GAS FOSSIL FOSSIL ENERGY FRAMEWORK CONVENTION ON CLIMATE CHANGE FUEL FUEL TECHNOLOGIES FUELS GAS EXPLORATION GAS FIELD GAS FIELDS GAS FLOW GAS PIPELINE GAS RECOVERY GAS STREAM GAS STREAMS GAS WELLS GASIFICATION GEOTHERMAL HEAT GEOTHERMAL WATER GHG GLOBAL LEVEL GREENHOUSE GREENHOUSE GAS GREENHOUSE GASES HAZARDOUS WASTE HAZARDOUS WASTE MANAGEMENT HEAT RECOVERY HEAT RECOVERY SYSTEMS HEAT TRANSFER HYDROCARBONS HYDROGEN HYDROSTATIC PRESSURE INDUSTRIAL APPLICATIONS INDUSTRIAL PLANTS INDUSTRIAL SECTOR INJECTION WELLS IPCC LONG-DISTANCE MILLION CUBIC FEET PER DAY MINERAL MINERAL RESOURCES NATIONAL ENERGY NATURAL GAS NATURAL GAS EXPLORATION NATURAL GAS PIPELINES NATURAL RESOURCES OCEANS OIL OIL AND GAS OIL FIELD OIL FIELDS OIL PIPELINE OIL RECOVERY OIL REFINERY OIL REFINING OIL SHALE PARALLEL PIPELINES PETROCHEMICAL INDUSTRY PETROLEUM PETROLEUM COMPANY PIPELINE PIPELINE NETWORK PIPELINE TRANSPORTATION PIPELINES PIPING POLICY DECISIONS POLICY MAKERS POLLUTION POST-COMBUSTION POTASH POWER POWER COMPANY POWER COSTS POWER GENERATION POWER PLANT POWER PLANTS POWER PRODUCTION POWER SECTOR PRIVATE FINANCING PRIVATE SECTOR PROPERTY RIGHTS PUBLIC PARTICIPATION RAINWATER REFINERIES RESERVOIR RESERVOIR PRESSURE RISK MANAGEMENT SAFETY SHALE OIL STATIONARY SOURCES SULFUR TAX TAX INCENTIVES TEMPERATURE TRANSMISSION LINES TRANSPORT TRANSPORTATION COST TRANSPORTATION COSTS TRANSPORTATION INFRASTRUCTURE TRUE UNDERGROUND UNDERGROUND STORAGE WATER SALINITY This study was funded by the Carbon Capture and Storage (CCS) capacity building trust fund, and administered by the World Bank. The main objectives of the study were: to build or enhance Jordan s institutional capacity to make informed policy decisions on CCS technology and applications; to assess the potential application of CCS technology in Jordan; and to identify barriers-legal, regulatory, financial and others-to CCS activities in Jordan and recommend ways to address those barriers. During the course of this study, the study team concluded that Jordan may benefit from following the evolution of carbon capture and storage technology via publicly available information. Similar CCS studies are being carried out in Egypt, Morocco and Tunisia, and Jordan could benefit from a regional knowledge exchange event when those studies are concluded. However, given Jordan s other national priorities, tight government fiscal situation and limited CO2 emissions, the CCS team that authored this report believes that it is not in the interest of Jordan to pursue capital investment related to CCS in the short-term. This study, therefore, hopes to represent one step toward raising the awareness of CCS technology among Jordanian policy makers, professionals and academics. The CCS Capacity building trust fund is prepared to provide limited financial support to a team of Jordanian researchers for an exploratory study on the potential for CCS within Jordan. Such a study should further increase awareness of CCS in Jordan and create a body of knowledge within the country that could support next steps on CCS consideration by policymakers, or actual project implementation. 2013-04-22T16:23:45Z 2013-04-22T16:23:45Z 2012-03 http://documents.worldbank.org/curated/en/2012/03/17451084/jordan-carbon-capture-storage-ccs-capacity-building-technical-assistance http://hdl.handle.net/10986/13224 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank Washington, DC Economic & Sector Work :: Energy Study Economic & Sector Work Middle East and North Africa Jordan |