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Carbon Reduction Potential and Economic Impacts in Japan: Application of AIM

AIM/Top-down model: International competitiveness of energy intensive industries ... Automobile etc. Crude steel products. Sectoral GDP. Cooling demand ...

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Carbon Reduction Potential and Economic Impacts in Japan: Application of AIM

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    Slide 1:Carbon Reduction Potential and Economic Impacts in Japan: Application of AIM

    Toshihiko Masui National Institute for Environmental Studies http://www-iam.nies.go.jp/aim/index.htm Workshop on Climate Policy and Energy Modeling International Trade Center, Taipei, Taiwan October 11-12, 2004 Contents: What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 2:Outline of AIM

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 3:CO2 reduction target in Japan

    After Russia announced ratification of Kyoto Protocol, GHGs emissions reduction target becomes a reality! What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 4:CO2 reduction target in Japan

    Kyoto Protocol In Japan, GHG emissions in the 1st commitment period (2008-2012) should be reduced by 6% of those in 1990. New Climate Change Policy Programme (2002, Gov. of Japan) CO2 emissions from energy use: ±0% Reduction by innovative technologies and change of lifestyle: -2% Others CO2 emissions from non-energy use, methane emissions, and nitrous oxide emissions: -0.5% Emissions of HFCs, PFCs and SF6: +2.0% The use of Sinks: -3.9% What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 5:Model analysis on CO2 reduction policy

    Model approaches Bottom-up approach: represent reality Top-down approach: represent consistency Mixture of these 2 approaches; Bottom-up (technology) AIM/Enduse model: Potential CO2 reduction and carbon tax & subsidy to technologies Top-down (economic theory) AIM/Top-down model: International competitiveness of energy intensive industries AIM/Material model: Detailed economic impact in Japan What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    AIM/Enduse AIM/Material International price and trade Energy efficiency improvement Additional investment for energy saving

    Slide 6:Model analysis on CO2 reduction policy

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    AIM/Enduse AIM/Material International price and trade

    Slide 7:Model analysis on CO2 reduction policy -Bottom-up model approach-

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion Energy efficiency improvement Additional investment for energy saving

    Slide 8:AIM/Enduse model Based on socioeconomic scenario, energy devices and energy types are selected to minimize total cost. Messages from AIM/Enduse model CO2 reduction potential Necessary carbon tax rate to achieve Kyoto Protocol Effective policy mix to lower carbon tax rate

    Model analysis on CO2 reduction policy -Bottom-up model approach- What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Energy Energy technology Energy service Oil Coal Gas Solar Electricity etc. Blast furnace Power generation Air conditioner Boiler Automobile etc. Crude steel products Sectoral GDP Cooling demand Lighting Transportation etc. Energy consumption CO2 emissions Technology selection Energy service demands Energy database Energy type Energy price Energy constraints CO2 emission factor Technology database Technology price Energy consumption Supplied service amounts Technology share Lifetime Socioeconomic scenario Population growth Economic growth Industrial structure Employment Lifestyle

    Slide 9:Model analysis on CO2 reduction policy -Bottom-up model approach-

    Structure of AIM/Enduse model What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Model analysis on CO2 reduction policy -Bottom-up model approach- Examples of socioeconomic scenarios What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion Tech. fix Cheapest choice C-tax: 3,000 JPY/tC C-tax: 30,000 JPY/tC C-tax: 45,000 JPY/tC

    Slide 11:Model analysis on CO2 reduction policy -Bottom-up model approach-

    CO2 emissions trajectories by scenarios What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 12:Model analysis on CO2 reduction policy -Bottom-up model approach-

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Carbon tax rate and required additional investments for reducing CO2 emissions in Japan bil. JPY / year

    Slide 13:Model analysis on CO2 reduction policy -Bottom-up model approach-

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Carbon tax rate and required additional investments for reducing CO2 emissions in Japan (continued) Model analysis on CO2 reduction policy -Bottom-up model approach- What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion AIM/Enduse AIM/Material International price and trade

    Slide 15:Model analysis on CO2 reduction policy -Global top-down model approach-

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion Energy efficiency improvement Additional investment for energy saving

    Slide 16:AIM/Top-down model Global general equilibrium model with multi regions and multi sectors Messages from AIM/Top-down model International competitiveness Effectiveness of emission trading Impact of US climate policy keep original policy or ratify Kyoto Protocol

    Model analysis on CO2 reduction policy -Global top-down model approach- What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 17:Overview of AIM/Top-down model Data from GTAP (ver.3) and energy balance table (IEA) Computable general equilibrium model with recursive dynamics CO2 emissions from fossil fuels Time period: 1992-2010 Region: 21 Sector: 8

    Model analysis on CO2 reduction policy -Global top-down model approach- What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 18:Model analysis on CO2 reduction policy -Global top-down model approach-

    Model structure What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 19:Model analysis on CO2 reduction policy -Global top-down model approach-

    Production structure What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 20:Model analysis on CO2 reduction policy -Global top-down model approach-

    Classification of sector What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 21:Model analysis on CO2 reduction policy -Global top-down model approach-

    Definition of region What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 22:Model analysis on CO2 reduction policy -Global top-down model approach-

    Scenarios for analysis What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 23:Model analysis on CO2 reduction policy -Global top-down model approach-

    Price of carbon tax in 2010 What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 24:Model analysis on CO2 reduction policy -Global top-down model approach-

    GDP change in 2010 compared to BaU What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 25:Model analysis on CO2 reduction policy -Global top-down model approach-

    Change of production in each sector and GDP in Japan (2010) What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 26:Model analysis on CO2 reduction policy -Global top-down model approach-

    Change of energy intensive industry production in 2010 compared to BaU What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    AIM/Enduse AIM/Material International price and trade

    Slide 27:Model analysis on CO2 reduction policy -Country top-down model approach-

    What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion Energy efficiency improvement Additional investment for energy saving

    Slide 28:AIM/Material model Based on technology and international trade assumption, economic impacts by carbon reduction in Japan can be simulated. Messages from AIM/Material model Impact on economy in Japan Production, employment, ... Economic impact on specific sectors

    Model analysis on CO2 reduction policy -Country top-down model approach- What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 29:Features of AIM/Material model Model: Computable general equilibrium model Country: Japan Time period: 1995 to 2012 (recursive dynamic) Activity: 41 sectors and 49 commodities Solid waste: 18 waste types of industrial waste and 8 types of municipal waste. In this analysis, the constraint on solid waste is not taken into account. Other features Both economic balance and material balance are kept. Energy efficiency improvement is given from solution of AIM/End-use model Scenarios: Reference Case: Without CO2 constraints. Tax case: CO2 reduction by only introducing carbon tax. Tax + subsidy case: CO2 reduction by introducing carbon tax with subsidy for energy saving equipment.

    Model analysis on CO2 reduction policy -Country top-down model approach- What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 30:Model analysis on CO2 reduction policy -Country top-down model approach-

    production sector household capital labor government abroad market import export produced commodity energy intermediate CO2 energy final demand CO2 pollution pollution management energy intermediate CO2 env. capital labor environmental industry/ investment recycle What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion Structure of AIM/Material

    Slide 31:Model analysis on CO2 reduction policy -Country top-down model approach-

    Sectors and commodities What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 32:Model analysis on CO2 reduction policy -Country top-down model approach-

    Future GDP estimated from AIM/Material model What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 33:Model analysis on CO2 reduction policy -Country top-down model approach-

    Carbon emissions in Japan What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 34:Model analysis on CO2 reduction policy -Country top-down model approach-

    GDP change compared to the reference case What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 35:Model analysis on CO2 reduction policy -Country top-down model approach-

    Activity Change of each sector in the first commitment period (compared to reference case) What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 36:Model analysis on CO2 reduction policy -Country top-down model approach-

    Number of employment in the first commitment period What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 37:Conclusion

    In Japan, even existing or practical technologies can reduce the CO2 emissions to the Kyoto Target. The necessary carbon tax rate will be 45,000 yen/tC. When the tax revenue is utilized for subsidy, the carbon tax rate will be 3,400 yen/tC. In this case, the GDP loss will be 0.061% comparing to reference case. Although activities of thermal power generation and fossil fuel production sectors will decrease severely by introducing carbon tax, energy intensive industries such as steel, paper etc. will not be damaged so much. Because of the subsidy for energy saving devices, production and employment in the manufacture of the energy saving devices will increase. What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 38:Criticism against simulation results from Industries

    Japanese economy will suffer the severe damage from the carbon tax? Validity of assumptions: if the carbon tax is introduced in Japan, many manufacturing factories will move out of Japan to avoid the carbon tax payment. Activities of Japanese industries, especially energy intensive industries, in the international market will degrade when the carbon tax is introduced? Subsidy is not a good policy option. How to select the appropriate countermeasures? Transaction cost of carbon tax and subsidy policy will become very high. Subsidy to countermeasures to reduce the CO2 emissions can be compensated for other tax such as the consumption tax? When subsidy is introduced, the more large scale devices will be consumed (rebound effect)? Some criticisms are for policy making itself, and some are qualitative. What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

    Slide 39:For more practical simulation

    Relationship between existing energy tax and proposed carbon tax Tax cut for the sectors suffering from carbon tax (steel etc.) Policy mix -Combination of carbon tax, regulation, voluntary plan, ... Kyoto Mechanism Revision of assumptions: Economy in Japan will recover rapidly. Time until 1st commitment period becomes shorter. What’s AIM? CO2 reduction in Japan Model analysis AIM/Enduse AIM/Top-down AIM/Material Conclusion

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