Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai
The speed and scale of urbanization provide an unprecedented opportunity in the coming years to invest in clean energy technologies to contain carbon emissions from the country's sprawling cities. Therefore, supporting low carbon cities is one...
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| Format: | Policy Note |
| Language: | English en_US |
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Washington, DC
2014
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| Online Access: | http://documents.worldbank.org/curated/en/2013/11/18821644/applying-abatement-cost-curve-methodology-low-carbon-strategy-changning-district-shanghai-vol-1-2-summary-report http://hdl.handle.net/10986/16710 |
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okr-10986-16710 |
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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 |
ABATEMENT COST ABATEMENT COSTS ABATEMENT MEASURES ABATEMENT OPTIONS ABATEMENT POTENTIAL ABATEMENT STRATEGIES ADVERSE EFFECTS AIR AIR CONDITIONERS AIR CONDITIONING SYSTEM ALTERNATIVE ENERGY ALTERNATIVE ENERGY PROGRAM ALUMINUM APPROACH BALANCE BOILER BOILERS BUILDING CODE BUILDING CODES CALCULATION CAPITAL COSTS CARBON ABATEMENT CARBON CAP CARBON DIOXIDE CARBON EMISSION CARBON EMISSIONS CARBON ENERGY CARBON INTENSITY CARBON PATH CARBON SEQUESTRATION CARBON TECHNOLOGIES CEMENT CLEAN ENERGY CLEAN ENERGY SUPPLY CLEAN ENERGY TECHNOLOGIES CLIMATE CLIMATE CHANGE CO CO2 COAL COLLECTION SYSTEM COMMERCIAL ENERGY COMMERCIAL ENERGY USE COMMERCIAL POWER CONDITIONERS CONSUMPTION OF ENERGY CONSUMPTION PATTERNS COOLING TOWER COOLING TOWERS COST OF ABATEMENT DIESEL DISCOUNT RATE DISCOUNT RATES DISTRIBUTION OF ENERGY ECONOMIC ACTIVITY EFFICIENCY IMPROVEMENT EFFICIENT LIGHTING ELECTRIC APPLIANCES ELECTRIC VEHICLES ELECTRICITY ELECTRICITY COMPANY ELECTRICITY CONSUMPTION ELECTRICITY GENERATION ELECTRICITY SAVINGS ELECTRICITY USAGE EMISSION EMISSION REDUCTION EMISSION REDUCTION MEASURES EMISSION TARGET EMISSION TRADING EMISSIONS EMISSIONS CUTS EMISSIONS REDUCTION EMISSIONS REDUCTIONS ENERGY BUILDINGS ENERGY CONSERVATION ENERGY CONSERVATION MEASURES ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY MEASURES ENERGY EFFICIENCY STANDARD ENERGY GENERATION ENERGY INTENSITY ENERGY MANAGEMENT ENERGY MIX ENERGY NEEDS ENERGY RESEARCH ENERGY SAVINGS ENERGY SERVICE ENERGY SERVICE COMPANY ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEMS ENERGY USE ENERGY-SAVING MEASURES ENVIRONMENTAL AGENDA ENVIRONMENTAL PROTECTION ENVIRONMENTAL SUSTAINABILITY FAN POWER FEASIBILITY FINANCIAL SUPPORT FOSSIL FOSSIL FUELS FUEL GAS BOILERS GAS USE GASOLINE GHG GLOBAL ENVIRONMENT GLOBAL ENVIRONMENT FACILITY GREEN AREAS GREEN ENERGY GREEN POWER GREENHOUSE GREENHOUSE GAS HEAT HEAT EXCHANGER HEAT PUMP HEAT RECOVERY HEAT RECOVERY SYSTEMS HEAT TRANSFER HEATING SYSTEM HOT WATER HOUSEHOLD ELECTRICITY CONSUMPTION INDUSTRIAL ACTIVITIES KILOWATT-HOUR LITHIUM LOW-CARBON LOWER ENERGY CONSUMPTION MARGINAL ABATEMENT MARGINAL ABATEMENT COST NATURAL GAS OIL PILOT PROJECTS POLICY MAKERS POLYSTYRENE POWER DEMAND POWER GENERATION PRESENT VALUE PRIMARY ENERGY REDUCING ENERGY USE REDUCTION IN ENERGY CONSUMPTION REDUCTION OF EMISSIONS RENEWABLE ELECTRICITY RENEWABLE ENERGY RESIDENTIAL BUILDING RESIDENTIAL BUILDINGS RESIDENTIAL HOUSING RETROFITTING SCENARIOS SILICON SODIUM SOLAR CELLS SOLAR COLLECTOR SOLAR ENERGY SOLAR PANELS SOLAR SYSTEMS SOLAR WATER HEATERS SOLAR WATER HEATING TEMPERATURE THERMAL EFFICIENCY THERMAL PERFORMANCE TONS OF COAL EQUIVALENT TOTAL COST TOTAL COSTS TRANSACTION COSTS TURBINE VOLTAGE WASTE WIND WIND TURBINES ZERO EMISSION |
| spellingShingle |
ABATEMENT COST ABATEMENT COSTS ABATEMENT MEASURES ABATEMENT OPTIONS ABATEMENT POTENTIAL ABATEMENT STRATEGIES ADVERSE EFFECTS AIR AIR CONDITIONERS AIR CONDITIONING SYSTEM ALTERNATIVE ENERGY ALTERNATIVE ENERGY PROGRAM ALUMINUM APPROACH BALANCE BOILER BOILERS BUILDING CODE BUILDING CODES CALCULATION CAPITAL COSTS CARBON ABATEMENT CARBON CAP CARBON DIOXIDE CARBON EMISSION CARBON EMISSIONS CARBON ENERGY CARBON INTENSITY CARBON PATH CARBON SEQUESTRATION CARBON TECHNOLOGIES CEMENT CLEAN ENERGY CLEAN ENERGY SUPPLY CLEAN ENERGY TECHNOLOGIES CLIMATE CLIMATE CHANGE CO CO2 COAL COLLECTION SYSTEM COMMERCIAL ENERGY COMMERCIAL ENERGY USE COMMERCIAL POWER CONDITIONERS CONSUMPTION OF ENERGY CONSUMPTION PATTERNS COOLING TOWER COOLING TOWERS COST OF ABATEMENT DIESEL DISCOUNT RATE DISCOUNT RATES DISTRIBUTION OF ENERGY ECONOMIC ACTIVITY EFFICIENCY IMPROVEMENT EFFICIENT LIGHTING ELECTRIC APPLIANCES ELECTRIC VEHICLES ELECTRICITY ELECTRICITY COMPANY ELECTRICITY CONSUMPTION ELECTRICITY GENERATION ELECTRICITY SAVINGS ELECTRICITY USAGE EMISSION EMISSION REDUCTION EMISSION REDUCTION MEASURES EMISSION TARGET EMISSION TRADING EMISSIONS EMISSIONS CUTS EMISSIONS REDUCTION EMISSIONS REDUCTIONS ENERGY BUILDINGS ENERGY CONSERVATION ENERGY CONSERVATION MEASURES ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY MEASURES ENERGY EFFICIENCY STANDARD ENERGY GENERATION ENERGY INTENSITY ENERGY MANAGEMENT ENERGY MIX ENERGY NEEDS ENERGY RESEARCH ENERGY SAVINGS ENERGY SERVICE ENERGY SERVICE COMPANY ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEMS ENERGY USE ENERGY-SAVING MEASURES ENVIRONMENTAL AGENDA ENVIRONMENTAL PROTECTION ENVIRONMENTAL SUSTAINABILITY FAN POWER FEASIBILITY FINANCIAL SUPPORT FOSSIL FOSSIL FUELS FUEL GAS BOILERS GAS USE GASOLINE GHG GLOBAL ENVIRONMENT GLOBAL ENVIRONMENT FACILITY GREEN AREAS GREEN ENERGY GREEN POWER GREENHOUSE GREENHOUSE GAS HEAT HEAT EXCHANGER HEAT PUMP HEAT RECOVERY HEAT RECOVERY SYSTEMS HEAT TRANSFER HEATING SYSTEM HOT WATER HOUSEHOLD ELECTRICITY CONSUMPTION INDUSTRIAL ACTIVITIES KILOWATT-HOUR LITHIUM LOW-CARBON LOWER ENERGY CONSUMPTION MARGINAL ABATEMENT MARGINAL ABATEMENT COST NATURAL GAS OIL PILOT PROJECTS POLICY MAKERS POLYSTYRENE POWER DEMAND POWER GENERATION PRESENT VALUE PRIMARY ENERGY REDUCING ENERGY USE REDUCTION IN ENERGY CONSUMPTION REDUCTION OF EMISSIONS RENEWABLE ELECTRICITY RENEWABLE ENERGY RESIDENTIAL BUILDING RESIDENTIAL BUILDINGS RESIDENTIAL HOUSING RETROFITTING SCENARIOS SILICON SODIUM SOLAR CELLS SOLAR COLLECTOR SOLAR ENERGY SOLAR PANELS SOLAR SYSTEMS SOLAR WATER HEATERS SOLAR WATER HEATING TEMPERATURE THERMAL EFFICIENCY THERMAL PERFORMANCE TONS OF COAL EQUIVALENT TOTAL COST TOTAL COSTS TRANSACTION COSTS TURBINE VOLTAGE WASTE WIND WIND TURBINES ZERO EMISSION World Bank Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai |
| geographic_facet |
East Asia and Pacific China |
| description |
The speed and scale of urbanization
provide an unprecedented opportunity in the coming years to
invest in clean energy technologies to contain carbon
emissions from the country's sprawling cities.
Therefore, supporting low carbon cities is one of the
government's top priorities. Shanghai municipal and
changning district governments are firmly committed to the
transition to a low-carbon city and requested for the World
Bank's support in making changning district and
Shanghai leaders in designing novel and efficient ways to
achieve carbon-intensity-reduction targets. This report
documents the methodology of and key findings from applying
abatement cost curves and scenarios to set low-carbon
targets and define cost-effective low-carbon investment
programs in Changning district, Shanghai. At the request of
changning district government, the Bank team supported a
Shanghai energy conservation institution, assisted by an
international firm, in conducting a comprehensive survey of
buildings in Hongqiao area in the changning district, and in
developing carbon dioxide (CO2) abatement cost curves to
identify the abatement potential, cost, and ease of
implementation of various mitigation measures. Three
alternative abatement scenarios were developed to establish
an ambitious low-carbon target for Hongqiao area. The use of
CO2 abatement cost curves, bottom-up investigation surveys,
and ease-of-implementation considerations for defining an
investment program to reduce CO2 emissions were the first of
its kind at the time. The abatement cost curve developed
under this upstream analytical work allowed the district
government to make informed decisions about medium-term
targets for CO2 abatement and to identify priority actions
and investments to meet them. This study also provides the
solid analytical underpinning for the design of the World
Bank and Global Environment Facility (GEF) green energy for
low-carbon city in Shanghai project. It includes the
following chapters: executive summary; the objectives: 12th
five-year plan carbon intensity reduction target and beyond;
the methodology: a bottom-up and comprehensive approach; the
bottom-up survey: data collection and identification of
abatement technologies; the abatement measures: carbon
abatement cost curves; the abatement priorities: abatement
technologies ranked by cost and ease of implementation; the
low-carbon targets: abatement scenarios for 2015 and 2020;
from abatement cost curve to implementation: green energy
for low-carbon city in Shanghai project; and the
significance: potential replications in other cities. |
| format |
Economic & Sector Work :: Policy Note |
| author |
World Bank |
| author_facet |
World Bank |
| author_sort |
World Bank |
| title |
Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai |
| title_short |
Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai |
| title_full |
Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai |
| title_fullStr |
Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai |
| title_full_unstemmed |
Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai |
| title_sort |
applying abatement cost curve methodology for low-carbon strategy in changning district, shanghai |
| publisher |
Washington, DC |
| publishDate |
2014 |
| url |
http://documents.worldbank.org/curated/en/2013/11/18821644/applying-abatement-cost-curve-methodology-low-carbon-strategy-changning-district-shanghai-vol-1-2-summary-report http://hdl.handle.net/10986/16710 |
| _version_ |
1764434491952070656 |
| spelling |
okr-10986-167102021-04-23T14:03:32Z Applying Abatement Cost Curve Methodology for Low-Carbon Strategy in Changning District, Shanghai World Bank ABATEMENT COST ABATEMENT COSTS ABATEMENT MEASURES ABATEMENT OPTIONS ABATEMENT POTENTIAL ABATEMENT STRATEGIES ADVERSE EFFECTS AIR AIR CONDITIONERS AIR CONDITIONING SYSTEM ALTERNATIVE ENERGY ALTERNATIVE ENERGY PROGRAM ALUMINUM APPROACH BALANCE BOILER BOILERS BUILDING CODE BUILDING CODES CALCULATION CAPITAL COSTS CARBON ABATEMENT CARBON CAP CARBON DIOXIDE CARBON EMISSION CARBON EMISSIONS CARBON ENERGY CARBON INTENSITY CARBON PATH CARBON SEQUESTRATION CARBON TECHNOLOGIES CEMENT CLEAN ENERGY CLEAN ENERGY SUPPLY CLEAN ENERGY TECHNOLOGIES CLIMATE CLIMATE CHANGE CO CO2 COAL COLLECTION SYSTEM COMMERCIAL ENERGY COMMERCIAL ENERGY USE COMMERCIAL POWER CONDITIONERS CONSUMPTION OF ENERGY CONSUMPTION PATTERNS COOLING TOWER COOLING TOWERS COST OF ABATEMENT DIESEL DISCOUNT RATE DISCOUNT RATES DISTRIBUTION OF ENERGY ECONOMIC ACTIVITY EFFICIENCY IMPROVEMENT EFFICIENT LIGHTING ELECTRIC APPLIANCES ELECTRIC VEHICLES ELECTRICITY ELECTRICITY COMPANY ELECTRICITY CONSUMPTION ELECTRICITY GENERATION ELECTRICITY SAVINGS ELECTRICITY USAGE EMISSION EMISSION REDUCTION EMISSION REDUCTION MEASURES EMISSION TARGET EMISSION TRADING EMISSIONS EMISSIONS CUTS EMISSIONS REDUCTION EMISSIONS REDUCTIONS ENERGY BUILDINGS ENERGY CONSERVATION ENERGY CONSERVATION MEASURES ENERGY CONSUMERS ENERGY CONSUMPTION ENERGY DEMAND ENERGY EFFICIENCY ENERGY EFFICIENCY MEASURES ENERGY EFFICIENCY STANDARD ENERGY GENERATION ENERGY INTENSITY ENERGY MANAGEMENT ENERGY MIX ENERGY NEEDS ENERGY RESEARCH ENERGY SAVINGS ENERGY SERVICE ENERGY SERVICE COMPANY ENERGY SOURCES ENERGY SUPPLY ENERGY SYSTEMS ENERGY USE ENERGY-SAVING MEASURES ENVIRONMENTAL AGENDA ENVIRONMENTAL PROTECTION ENVIRONMENTAL SUSTAINABILITY FAN POWER FEASIBILITY FINANCIAL SUPPORT FOSSIL FOSSIL FUELS FUEL GAS BOILERS GAS USE GASOLINE GHG GLOBAL ENVIRONMENT GLOBAL ENVIRONMENT FACILITY GREEN AREAS GREEN ENERGY GREEN POWER GREENHOUSE GREENHOUSE GAS HEAT HEAT EXCHANGER HEAT PUMP HEAT RECOVERY HEAT RECOVERY SYSTEMS HEAT TRANSFER HEATING SYSTEM HOT WATER HOUSEHOLD ELECTRICITY CONSUMPTION INDUSTRIAL ACTIVITIES KILOWATT-HOUR LITHIUM LOW-CARBON LOWER ENERGY CONSUMPTION MARGINAL ABATEMENT MARGINAL ABATEMENT COST NATURAL GAS OIL PILOT PROJECTS POLICY MAKERS POLYSTYRENE POWER DEMAND POWER GENERATION PRESENT VALUE PRIMARY ENERGY REDUCING ENERGY USE REDUCTION IN ENERGY CONSUMPTION REDUCTION OF EMISSIONS RENEWABLE ELECTRICITY RENEWABLE ENERGY RESIDENTIAL BUILDING RESIDENTIAL BUILDINGS RESIDENTIAL HOUSING RETROFITTING SCENARIOS SILICON SODIUM SOLAR CELLS SOLAR COLLECTOR SOLAR ENERGY SOLAR PANELS SOLAR SYSTEMS SOLAR WATER HEATERS SOLAR WATER HEATING TEMPERATURE THERMAL EFFICIENCY THERMAL PERFORMANCE TONS OF COAL EQUIVALENT TOTAL COST TOTAL COSTS TRANSACTION COSTS TURBINE VOLTAGE WASTE WIND WIND TURBINES ZERO EMISSION The speed and scale of urbanization provide an unprecedented opportunity in the coming years to invest in clean energy technologies to contain carbon emissions from the country's sprawling cities. Therefore, supporting low carbon cities is one of the government's top priorities. Shanghai municipal and changning district governments are firmly committed to the transition to a low-carbon city and requested for the World Bank's support in making changning district and Shanghai leaders in designing novel and efficient ways to achieve carbon-intensity-reduction targets. This report documents the methodology of and key findings from applying abatement cost curves and scenarios to set low-carbon targets and define cost-effective low-carbon investment programs in Changning district, Shanghai. At the request of changning district government, the Bank team supported a Shanghai energy conservation institution, assisted by an international firm, in conducting a comprehensive survey of buildings in Hongqiao area in the changning district, and in developing carbon dioxide (CO2) abatement cost curves to identify the abatement potential, cost, and ease of implementation of various mitigation measures. Three alternative abatement scenarios were developed to establish an ambitious low-carbon target for Hongqiao area. The use of CO2 abatement cost curves, bottom-up investigation surveys, and ease-of-implementation considerations for defining an investment program to reduce CO2 emissions were the first of its kind at the time. The abatement cost curve developed under this upstream analytical work allowed the district government to make informed decisions about medium-term targets for CO2 abatement and to identify priority actions and investments to meet them. This study also provides the solid analytical underpinning for the design of the World Bank and Global Environment Facility (GEF) green energy for low-carbon city in Shanghai project. It includes the following chapters: executive summary; the objectives: 12th five-year plan carbon intensity reduction target and beyond; the methodology: a bottom-up and comprehensive approach; the bottom-up survey: data collection and identification of abatement technologies; the abatement measures: carbon abatement cost curves; the abatement priorities: abatement technologies ranked by cost and ease of implementation; the low-carbon targets: abatement scenarios for 2015 and 2020; from abatement cost curve to implementation: green energy for low-carbon city in Shanghai project; and the significance: potential replications in other cities. 2014-01-29T23:02:35Z 2014-01-29T23:02:35Z 2013-11 http://documents.worldbank.org/curated/en/2013/11/18821644/applying-abatement-cost-curve-methodology-low-carbon-strategy-changning-district-shanghai-vol-1-2-summary-report http://hdl.handle.net/10986/16710 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank Washington, DC Economic & Sector Work :: Policy Note Economic & Sector Work East Asia and Pacific China |