Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam
The rapid growth of Vietnam's economy, industry, and consumption has resulted in unprecedented growth in energy demand, and its infrastructure for extracting, generating, and distributing energy is expanding to try to meet those needs. Between...
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| Format: | Report |
| Language: | English en_US |
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World Bank, Washington, DC
2017
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| Online Access: | http://documents.worldbank.org/curated/en/258851468320733928/Potential-climate-change-mitigation-opportunities-in-the-energy-sector-in-Vietnam-background-paper http://hdl.handle.net/10986/28215 |
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okr-10986-28215 |
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| recordtype |
oai_dc |
| repository_type |
Digital Repository |
| institution_category |
Foreign Institution |
| institution |
Digital Repositories |
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World Bank Open Knowledge Repository |
| collection |
World Bank |
| language |
English en_US |
| topic |
AIR AIR POLLUTION ANTHRACITE ANTHRACITE COAL APPROACH ATMOSPHERE BALANCE BASELINE EMISSIONS BED COMBUSTION BIOGAS BIOMASS BIOMASS ENERGY BOILER BOILER TECHNOLOGY BOILERS BURNING FOSSIL FUELS BUTANE CALCULATION CARBON CARBON CAPTURE CARBON DIOXIDE CARBON FINANCE CEMENT CEMENT PLANTS CH4 CLEAN COAL CLEAN COAL TECHNOLOGIES CLIMATE CLIMATE CHANGE CLIMATE CHANGE MITIGATION CO CO2 COAL COAL COMBUSTION COAL INDUSTRY COAL MINERS COAL MINES COAL MINING COAL OUTPUT COAL PLANTS COAL POWER PLANTS COAL PRODUCTION COAL PRODUCTS COAL RESERVES COAL SUPPLY COAL USE COASTAL AREAS COMBUSTION CONSTRUCTION MATERIALS CONSUMPTION OF COAL COST OF ELECTRICITY COST OF ELECTRICITY PRODUCTION CRUDE OIL CRUDE OIL PRODUCTION CYCLE TECHNOLOGIES DEMAND FOR ENERGY DIESEL DNA DOMESTIC COAL DOMESTIC ENERGY DRY GAS EFFICIENCY IMPROVEMENT ELECTRICAL GENERATION ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY SUPPLY ELECTRICITY USE ELECTRIFICATION EMISSION EMISSION FACTOR EMISSION FACTORS EMISSION PROJECTIONS EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION REDUCTIONS EMISSION SOURCES EMISSIONS FROM COAL EMISSIONS FROM COAL COMBUSTION EMISSIONS FROM POWER PLANTS EMISSIONS FROM TRANSPORTATION EMISSIONS LEVELS EMISSIONS MITIGATION EMISSIONS REDUCTION END-USE ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY RESEARCH ENERGY SAVINGS ENERGY SOURCES ENERGY USERS ENVIRONMENTAL ISSUES ENVIRONMENTAL STANDARDS FOSSIL FOSSIL FUEL FOSSIL FUELS FUEL FUEL CONSUMPTION FUEL OIL FUEL USE GAS EXPLORATION GAS FLARING GAS RESERVES GAS TURBINE GASIFICATION GENERATING CAPACITY GENERATION CAPACITY GEOTHERMAL ENERGY GHG GHGS GLOBAL WARMING GLOBAL WARMING POTENTIAL GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS ABATEMENT GREENHOUSE GAS EMISSIONS GREENHOUSE GAS] EMISSION GREENHOUSE GAS] EMISSION REDUCTION GREENHOUSE GASES GRID ELECTRICITY GROWTH IN ENERGY DEMAND GWP HEAT HEAT ENERGY HOT WATER HYDRO POWER HYDRO POWER PLANTS HYDROPOWER HYDROPOWER GENERATION INSOLATION INTERNATIONAL ENERGY AGENCY INVESTMENT OPPORTUNITIES IPCC KILOWATT-HOUR KILOWATT-HOURS MANURE METHANE METHANE EMISSIONS METHANE GAS METHANE RECOVERY NATIONAL GRID NATURAL GAS NATURAL GAS POWER NATURAL GAS POWER PLANTS NATURAL GAS PRODUCTION NATURAL GAS SUPPLY NATURAL GAS USE NATURAL RESOURCES NONRENEWABLE ENERGY OIL OIL EQUIVALENT OIL EXPLORATION OIL FIELD OIL FIELDS OIL POWER OIL REFINERY OIL USE OIL WELLS PETROLEUM PETROLEUM PRODUCTS PETROLEUM REFINING PIPELINE PLANT EFFICIENCY POLLUTION POWER POWER DEMAND POWER FACILITIES POWER GENERATION POWER GENERATION PLANT POWER GENERATORS POWER PLANT POWER PLANTS POWER PRODUCER POWER PRODUCERS POWER PRODUCTION POWER PROJECT POWER PURCHASE AGREEMENTS POWER SECTOR POWER SUPPLY POWER SYSTEM PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY DEMAND PROPANE PROVEN RESERVES RECOVERABLE RESERVES REFINERIES REFINERY FACILITIES RENEWABLE ENERGY RENEWABLE ENERGY DEVELOPMENT RENEWABLE ENERGY GENERATION RENEWABLE ENERGY PROJECTS RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY TECHNOLOGIES RENEWABLE ENERGY USE RENEWABLE POWER RENEWABLE RESOURCES RENEWABLE SOURCES RENEWABLE SOURCES OF ENERGY RENEWABLE TECHNOLOGIES SMALL HYDROPOWER SMALL SCALE HYDROPOWER SOLAR ENERGY SOLAR RADIATION STEAM FOR SALE SUBCRITICAL BOILERS SUNLIGHT SUNSHINE TEMPERATURE THERMAL PLANT THERMAL POWER THERMAL POWER GENERATION THERMAL POWER PLANTS TRANSPORT SECTOR TROPICAL ZONE TURBINES UNDERGROUND COAL UNDERGROUND MINES UNEP WASTE WIND WIND ENERGY WIND FARM WIND FARMS WIND POWER WIND POWER GENERATION WIND PROJECTS WIND TOWERS WIND TURBINES WIND-POWER WOOD CHIPS |
| spellingShingle |
AIR AIR POLLUTION ANTHRACITE ANTHRACITE COAL APPROACH ATMOSPHERE BALANCE BASELINE EMISSIONS BED COMBUSTION BIOGAS BIOMASS BIOMASS ENERGY BOILER BOILER TECHNOLOGY BOILERS BURNING FOSSIL FUELS BUTANE CALCULATION CARBON CARBON CAPTURE CARBON DIOXIDE CARBON FINANCE CEMENT CEMENT PLANTS CH4 CLEAN COAL CLEAN COAL TECHNOLOGIES CLIMATE CLIMATE CHANGE CLIMATE CHANGE MITIGATION CO CO2 COAL COAL COMBUSTION COAL INDUSTRY COAL MINERS COAL MINES COAL MINING COAL OUTPUT COAL PLANTS COAL POWER PLANTS COAL PRODUCTION COAL PRODUCTS COAL RESERVES COAL SUPPLY COAL USE COASTAL AREAS COMBUSTION CONSTRUCTION MATERIALS CONSUMPTION OF COAL COST OF ELECTRICITY COST OF ELECTRICITY PRODUCTION CRUDE OIL CRUDE OIL PRODUCTION CYCLE TECHNOLOGIES DEMAND FOR ENERGY DIESEL DNA DOMESTIC COAL DOMESTIC ENERGY DRY GAS EFFICIENCY IMPROVEMENT ELECTRICAL GENERATION ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY SUPPLY ELECTRICITY USE ELECTRIFICATION EMISSION EMISSION FACTOR EMISSION FACTORS EMISSION PROJECTIONS EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION REDUCTIONS EMISSION SOURCES EMISSIONS FROM COAL EMISSIONS FROM COAL COMBUSTION EMISSIONS FROM POWER PLANTS EMISSIONS FROM TRANSPORTATION EMISSIONS LEVELS EMISSIONS MITIGATION EMISSIONS REDUCTION END-USE ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY RESEARCH ENERGY SAVINGS ENERGY SOURCES ENERGY USERS ENVIRONMENTAL ISSUES ENVIRONMENTAL STANDARDS FOSSIL FOSSIL FUEL FOSSIL FUELS FUEL FUEL CONSUMPTION FUEL OIL FUEL USE GAS EXPLORATION GAS FLARING GAS RESERVES GAS TURBINE GASIFICATION GENERATING CAPACITY GENERATION CAPACITY GEOTHERMAL ENERGY GHG GHGS GLOBAL WARMING GLOBAL WARMING POTENTIAL GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS ABATEMENT GREENHOUSE GAS EMISSIONS GREENHOUSE GAS] EMISSION GREENHOUSE GAS] EMISSION REDUCTION GREENHOUSE GASES GRID ELECTRICITY GROWTH IN ENERGY DEMAND GWP HEAT HEAT ENERGY HOT WATER HYDRO POWER HYDRO POWER PLANTS HYDROPOWER HYDROPOWER GENERATION INSOLATION INTERNATIONAL ENERGY AGENCY INVESTMENT OPPORTUNITIES IPCC KILOWATT-HOUR KILOWATT-HOURS MANURE METHANE METHANE EMISSIONS METHANE GAS METHANE RECOVERY NATIONAL GRID NATURAL GAS NATURAL GAS POWER NATURAL GAS POWER PLANTS NATURAL GAS PRODUCTION NATURAL GAS SUPPLY NATURAL GAS USE NATURAL RESOURCES NONRENEWABLE ENERGY OIL OIL EQUIVALENT OIL EXPLORATION OIL FIELD OIL FIELDS OIL POWER OIL REFINERY OIL USE OIL WELLS PETROLEUM PETROLEUM PRODUCTS PETROLEUM REFINING PIPELINE PLANT EFFICIENCY POLLUTION POWER POWER DEMAND POWER FACILITIES POWER GENERATION POWER GENERATION PLANT POWER GENERATORS POWER PLANT POWER PLANTS POWER PRODUCER POWER PRODUCERS POWER PRODUCTION POWER PROJECT POWER PURCHASE AGREEMENTS POWER SECTOR POWER SUPPLY POWER SYSTEM PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY DEMAND PROPANE PROVEN RESERVES RECOVERABLE RESERVES REFINERIES REFINERY FACILITIES RENEWABLE ENERGY RENEWABLE ENERGY DEVELOPMENT RENEWABLE ENERGY GENERATION RENEWABLE ENERGY PROJECTS RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY TECHNOLOGIES RENEWABLE ENERGY USE RENEWABLE POWER RENEWABLE RESOURCES RENEWABLE SOURCES RENEWABLE SOURCES OF ENERGY RENEWABLE TECHNOLOGIES SMALL HYDROPOWER SMALL SCALE HYDROPOWER SOLAR ENERGY SOLAR RADIATION STEAM FOR SALE SUBCRITICAL BOILERS SUNLIGHT SUNSHINE TEMPERATURE THERMAL PLANT THERMAL POWER THERMAL POWER GENERATION THERMAL POWER PLANTS TRANSPORT SECTOR TROPICAL ZONE TURBINES UNDERGROUND COAL UNDERGROUND MINES UNEP WASTE WIND WIND ENERGY WIND FARM WIND FARMS WIND POWER WIND POWER GENERATION WIND PROJECTS WIND TOWERS WIND TURBINES WIND-POWER WOOD CHIPS RCEE Energy and Environment JSC Full Advantage Co., Ltd. Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam |
| geographic_facet |
East Asia and Pacific Vietnam |
| description |
The rapid growth of Vietnam's
economy, industry, and consumption has resulted in
unprecedented growth in energy demand, and its
infrastructure for extracting, generating, and distributing
energy is expanding to try to meet those needs. Between 2000
and 2005, total primary energy consumption in Vietnam grew
10.6 percent per year. Growth in fossil-fuel consumption was
correspondingly high, with coal use growing at 14.9 percent
per year, oil use at 8.2 percent per year, and natural gas
use at 37 percent per year. From 2002 to 2030,
Vietnam's primary energy demand is expected to grow at
a rate of 4.4 percent, increasing from 42 megatons oil
equivalent (MTOE) in 2002 to 142 MTOE in 2030. This note
will focus on Vietnam's potential Greenhouse gas (GHG)
emission reductions and possible interventions associated
with resource extraction and power generation for grid
electricity. Emissions from power generation in industry
and transport are covered under the respective sector notes,
and reduction of greenhouse gases through management of
end-use demand is covered in the context of industry (as the
largest energy user) in the industry sector note. |
| format |
Report |
| author |
RCEE Energy and Environment JSC Full Advantage Co., Ltd. |
| author_facet |
RCEE Energy and Environment JSC Full Advantage Co., Ltd. |
| author_sort |
RCEE Energy and Environment JSC |
| title |
Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam |
| title_short |
Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam |
| title_full |
Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam |
| title_fullStr |
Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam |
| title_full_unstemmed |
Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam |
| title_sort |
potential climate change mitigation opportunities in the energy sector in vietnam |
| publisher |
World Bank, Washington, DC |
| publishDate |
2017 |
| url |
http://documents.worldbank.org/curated/en/258851468320733928/Potential-climate-change-mitigation-opportunities-in-the-energy-sector-in-Vietnam-background-paper http://hdl.handle.net/10986/28215 |
| _version_ |
1764465801599909888 |
| spelling |
okr-10986-282152021-04-23T14:04:46Z Potential Climate Change Mitigation Opportunities in the Energy Sector in Vietnam RCEE Energy and Environment JSC Full Advantage Co., Ltd. AIR AIR POLLUTION ANTHRACITE ANTHRACITE COAL APPROACH ATMOSPHERE BALANCE BASELINE EMISSIONS BED COMBUSTION BIOGAS BIOMASS BIOMASS ENERGY BOILER BOILER TECHNOLOGY BOILERS BURNING FOSSIL FUELS BUTANE CALCULATION CARBON CARBON CAPTURE CARBON DIOXIDE CARBON FINANCE CEMENT CEMENT PLANTS CH4 CLEAN COAL CLEAN COAL TECHNOLOGIES CLIMATE CLIMATE CHANGE CLIMATE CHANGE MITIGATION CO CO2 COAL COAL COMBUSTION COAL INDUSTRY COAL MINERS COAL MINES COAL MINING COAL OUTPUT COAL PLANTS COAL POWER PLANTS COAL PRODUCTION COAL PRODUCTS COAL RESERVES COAL SUPPLY COAL USE COASTAL AREAS COMBUSTION CONSTRUCTION MATERIALS CONSUMPTION OF COAL COST OF ELECTRICITY COST OF ELECTRICITY PRODUCTION CRUDE OIL CRUDE OIL PRODUCTION CYCLE TECHNOLOGIES DEMAND FOR ENERGY DIESEL DNA DOMESTIC COAL DOMESTIC ENERGY DRY GAS EFFICIENCY IMPROVEMENT ELECTRICAL GENERATION ELECTRICITY ELECTRICITY DEMAND ELECTRICITY GENERATION ELECTRICITY SUPPLY ELECTRICITY USE ELECTRIFICATION EMISSION EMISSION FACTOR EMISSION FACTORS EMISSION PROJECTIONS EMISSION REDUCTION EMISSION REDUCTION POTENTIAL EMISSION REDUCTIONS EMISSION SOURCES EMISSIONS FROM COAL EMISSIONS FROM COAL COMBUSTION EMISSIONS FROM POWER PLANTS EMISSIONS FROM TRANSPORTATION EMISSIONS LEVELS EMISSIONS MITIGATION EMISSIONS REDUCTION END-USE ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY IMPROVEMENTS ENERGY RESEARCH ENERGY SAVINGS ENERGY SOURCES ENERGY USERS ENVIRONMENTAL ISSUES ENVIRONMENTAL STANDARDS FOSSIL FOSSIL FUEL FOSSIL FUELS FUEL FUEL CONSUMPTION FUEL OIL FUEL USE GAS EXPLORATION GAS FLARING GAS RESERVES GAS TURBINE GASIFICATION GENERATING CAPACITY GENERATION CAPACITY GEOTHERMAL ENERGY GHG GHGS GLOBAL WARMING GLOBAL WARMING POTENTIAL GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS ABATEMENT GREENHOUSE GAS EMISSIONS GREENHOUSE GAS] EMISSION GREENHOUSE GAS] EMISSION REDUCTION GREENHOUSE GASES GRID ELECTRICITY GROWTH IN ENERGY DEMAND GWP HEAT HEAT ENERGY HOT WATER HYDRO POWER HYDRO POWER PLANTS HYDROPOWER HYDROPOWER GENERATION INSOLATION INTERNATIONAL ENERGY AGENCY INVESTMENT OPPORTUNITIES IPCC KILOWATT-HOUR KILOWATT-HOURS MANURE METHANE METHANE EMISSIONS METHANE GAS METHANE RECOVERY NATIONAL GRID NATURAL GAS NATURAL GAS POWER NATURAL GAS POWER PLANTS NATURAL GAS PRODUCTION NATURAL GAS SUPPLY NATURAL GAS USE NATURAL RESOURCES NONRENEWABLE ENERGY OIL OIL EQUIVALENT OIL EXPLORATION OIL FIELD OIL FIELDS OIL POWER OIL REFINERY OIL USE OIL WELLS PETROLEUM PETROLEUM PRODUCTS PETROLEUM REFINING PIPELINE PLANT EFFICIENCY POLLUTION POWER POWER DEMAND POWER FACILITIES POWER GENERATION POWER GENERATION PLANT POWER GENERATORS POWER PLANT POWER PLANTS POWER PRODUCER POWER PRODUCERS POWER PRODUCTION POWER PROJECT POWER PURCHASE AGREEMENTS POWER SECTOR POWER SUPPLY POWER SYSTEM PRIMARY ENERGY PRIMARY ENERGY CONSUMPTION PRIMARY ENERGY DEMAND PROPANE PROVEN RESERVES RECOVERABLE RESERVES REFINERIES REFINERY FACILITIES RENEWABLE ENERGY RENEWABLE ENERGY DEVELOPMENT RENEWABLE ENERGY GENERATION RENEWABLE ENERGY PROJECTS RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY TECHNOLOGIES RENEWABLE ENERGY USE RENEWABLE POWER RENEWABLE RESOURCES RENEWABLE SOURCES RENEWABLE SOURCES OF ENERGY RENEWABLE TECHNOLOGIES SMALL HYDROPOWER SMALL SCALE HYDROPOWER SOLAR ENERGY SOLAR RADIATION STEAM FOR SALE SUBCRITICAL BOILERS SUNLIGHT SUNSHINE TEMPERATURE THERMAL PLANT THERMAL POWER THERMAL POWER GENERATION THERMAL POWER PLANTS TRANSPORT SECTOR TROPICAL ZONE TURBINES UNDERGROUND COAL UNDERGROUND MINES UNEP WASTE WIND WIND ENERGY WIND FARM WIND FARMS WIND POWER WIND POWER GENERATION WIND PROJECTS WIND TOWERS WIND TURBINES WIND-POWER WOOD CHIPS The rapid growth of Vietnam's economy, industry, and consumption has resulted in unprecedented growth in energy demand, and its infrastructure for extracting, generating, and distributing energy is expanding to try to meet those needs. Between 2000 and 2005, total primary energy consumption in Vietnam grew 10.6 percent per year. Growth in fossil-fuel consumption was correspondingly high, with coal use growing at 14.9 percent per year, oil use at 8.2 percent per year, and natural gas use at 37 percent per year. From 2002 to 2030, Vietnam's primary energy demand is expected to grow at a rate of 4.4 percent, increasing from 42 megatons oil equivalent (MTOE) in 2002 to 142 MTOE in 2030. This note will focus on Vietnam's potential Greenhouse gas (GHG) emission reductions and possible interventions associated with resource extraction and power generation for grid electricity. Emissions from power generation in industry and transport are covered under the respective sector notes, and reduction of greenhouse gases through management of end-use demand is covered in the context of industry (as the largest energy user) in the industry sector note. 2017-09-07T20:39:36Z 2017-09-07T20:39:36Z 2009-05 Report http://documents.worldbank.org/curated/en/258851468320733928/Potential-climate-change-mitigation-opportunities-in-the-energy-sector-in-Vietnam-background-paper http://hdl.handle.net/10986/28215 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo World Bank World Bank, Washington, DC Economic & Sector Work :: Other Environmental Study Economic & Sector Work East Asia and Pacific Vietnam |