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Cai Ruixian. 1998. Energy in China. Institute of Engineering Thermophysics, Chinese Academy of Sciences. (mimeo)

Cai Ruixian and Cui Zhengxin. 1998. Chinese Energy Situation. Institute of Engineering Thermophysics, Chinese Academy of Sciences. (mimeo)


DOE (U.S. Department of Energy) and CAS (Chinese Academy of Sciences). 1996. U.S.-China Experts Report on Integrated Gasification Combined Cycle Technology. Washington, D.C.: U.S. Department of Energy.


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EPRI (Electric Power Research Institute) and DOE (U.S. Department of Energy). 1997. Renewable Energy Technology Characterizations. TR-109496. Palo Alto, CA and Washington, D.C.: EPRI and U.S. Department of Energy.


Fan Weitang, Cheng Yuqi, and Pan Huizheng. 1998. Chinese Clean Coal Technology. Chinese Academy of Engineering. (mimeo)

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Cooperation in the Energy Futures of China and the United States References BMI/BECC/ERI (Battelle Memorial Institute, Beijing Energy Conservation Center, and the Energy Research Institute of China). 1998. China’s Least Cost Power Options: An Analysis of Economic and Environmental Costs. Washington, D.C.: Battelle Memorial Institute. Cai Ruixian. 1998. Energy in China. Institute of Engineering Thermophysics, Chinese Academy of Sciences. (mimeo) Cai Ruixian and Cui Zhengxin. 1998. Chinese Energy Situation. Institute of Engineering Thermophysics, Chinese Academy of Sciences. (mimeo) DOE (U.S. Department of Energy) and CAS (Chinese Academy of Sciences). 1996. U.S.-China Experts Report on Integrated Gasification Combined Cycle Technology. Washington, D.C.: U.S. Department of Energy. EIA (Energy Information Administration). 1997. Natural Gas Annual. Washington, D.C.: U.S. Department of Energy. EIA (Energy Information Administration). 1998a. Natural Gas 1998: Issues and Trends. Office of Oil and Gas, Energy Information Administration, U.S. Department of Energy. Washington, D.C.: U.S. Department of Energy. EIA (Energy Information Administration). 1998b. U.S. Crude Oil, Natural Gas, and Natural Gas Liquids Reserves: 1997 Annual Report. Washington, D.C.: U.S. Department of Energy. EIA (Energy Information Administration). 1999. Annual Energy Outlook. Washington, D.C.: U.S. Department of Energy. EPRI (Electric Power Research Institute) and DOE (U.S. Department of Energy). 1997. Renewable Energy Technology Characterizations. TR-109496. Palo Alto, CA and Washington, D.C.: EPRI and U.S. Department of Energy. Fan Weitang, Cheng Yuqi, and Pan Huizheng. 1998. Chinese Clean Coal Technology. Chinese Academy of Engineering. (mimeo) Fan Weitang and Sun Maoyuan. 1998. Present Situation and Prospects of Oil, Natural Gas and Coalbed Methane Industries in China. Chinese Academy of Engineering. (mimeo) Garbaccio, R., M. Ho, and D. Jorgenson. 1998. Controlling Carbon Emissions in China. Cambridge, MA: Harvard University. Gas Research Institute. 1999. U.S. Coalbed Methane Resources. Chicago, IL: Gas Research Institute.

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Cooperation in the Energy Futures of China and the United States Hu Jianyi. 1998. Fossil Fuel in China. Research Institute of Petroleum Exploration and Development, China National Petroleum Corporation. (mimeo) May, Michael. 1998. Energy and Security in East Asia. Palo Alto, CA: Asia/Pacific Research Center, Institute for International Studies, Stanford University. Nakicenovic, N., A. Grübler, and A. McDonald, eds. 1998. Global Energy Perspectives. Cambridge, England: Cambridge University Press. National Research Council. 1992. The National Energy Modeling System. Washington, D.C.: National Academy Press. Office of Economic, Electricity and Natural Gas Analysis, Office of Policy, U.S. Department of Energy. 1999. Supporting Analysis for the Comprehensive Electricity Competition Act (DOE/ PO-0059). Washington, D.C.: U.S. Department of Energy. ORNL (Oak Ridge National Laboratory) and RFF (Resources for the Future). 1992-96. External Costs and Benefits of Fuel Cycles: A Study by the U.S. Department of Energy and the Commission of the European Communities (ORNL/M-2500). Washington, D.C.: McGraw Hill/Utility Data Institute. Report Number 1 Background Document to the Approach and Issues. 1992. Report Number 2 Estimating Fuel Cycle Externalities: Analytical Methods and Issues. 1994. Report Number 3 Estimating Externalities of Coal Fuel Cycles. 1994. Report Number 4 Estimating Externalities of Natural Gas Fuel Cycles. 1996. Report Number 5 Estimating Externalities of Oil Fuel Cycles. 1996. Report Number 6 Estimating Externalities of Hydro Fuel Cycles. 1994. Report Number 7 Estimating Externalities of Biomass Fuel Cycles. 1996. Report Number 8 Estimating Externalities of Nuclear Fuel Cycles. 1995. PCAST (President’s Council of Advisors on Science and Technology, Panel on International Cooperation on Energy Research, Development, Demonstration, and Deployment). 1999. Powerful Partnerships: The Federal Role in International Cooperation on Energy Innovation. Washington, D.C.: PCAST. SETC (State Economic and Trade Commission). 1997. China Energy Annual Review. Beijing, China: State Economic and Trade Commission. Simpson, R. David, ed. 1999. Productivity in Natural Resource Industries, Washington, D.C.: Resources for the Future. Sinton, Jonathan E., ed. 1996. China Energy Databook. Berkeley, CA: Ernest Orlando Lawrence Berkeley National Laboratory. Smil, Vaclav, and Mao Yushi (coordinators). 1998. The Economic Costs of China’s Environmental Degradation. Cambridge, MA: American Academy of Arts and Sciences. Stevens, Scott H. 1999. China coalbed methane reaches turning point. Oil and Gas Journal, January 25. pp 101-6. U.S.-China Oil and Gas Industry Forum. 1997. U.S.-China Energy and Environment Cooperation Initiative Fact Sheet. October. U.S. National Laboratory Directors. 1997. Technology Opportunities to Reduce Greenhouse Gas Emissions. Washington, D.C.: U.S. Department of Energy. U.S. National Laboratory Directors. 1998. Scenarios of U.S. Carbon Reductions: Potential Impacts of Energy-Efficient and Low-Carbon Technologies by 2010 and Beyond. Washington, D.C.: U.S. Department of Energy. Wang Yangzu and Lu Xinyuan. 1997. Study in Design and Implementation of Pollution Levy System in China. Beijing, China: Chinese Research Academy of Environmental Sciences. Wang Yingshi. 1998. Pollution and Environmental Issues in China due to Coal Burning. Institute of Engineering Thermophysics, Chinese Academy of Sciences. (mimeo) WEC/IIASA (World Energy Council/International Institute for Applied Systems Analysis). 1995. Global Energy Perspectives to 2050 and Beyond. London, England: World Energy Council.

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Cooperation in the Energy Futures of China and the United States World Bank. 1994. The Cost of Air Pollution Abatement, Policy Research Working Paper No. 1398. Washington, D.C.: World Bank. World Bank. 1997a. Clear Water, Blue Skies: China’s Environment in the New Century. Washington, D.C.: World Bank. World Bank. 1997b. Surviving Success: Policy Reform and the Future of Industrial Pollution in China. Washington, D.C.: World Bank. World Bank. 1998. China: A Strategy for International Assistance to Accelerate Renewable Energy Development. Washington, D.C.: World Bank. Yan Luguang. 1998. Renewable Energy in China and Suggestion for Sino-American Cooperation. Institute of Electrical Engineering, Chinese Academy of Sciences. (mimeo) Yao Fusheng. 1998. The Huge Energy Conservation Potential of Mechanical and Electrical Products. Chinese Academy of Engineering. (mimeo) Zhao Renkai. 1998. Nuclear Power Development in China. China National Nuclear Corporation. (mimeo) Zheng Jianchao. 1998. Power Technologies—the Bridge to Sustainable Development. Chinese Academy of Engineering. (mimeo) Zhou Fengqi. 1998a. Long Term Energy Future of China. Beijing: Energy Research Institute, State Development Planning Commission. (mimeo) Zhou Fengqi. 1998b. Energy Industry in China and Challenges for the 21st Century. Beijing: Energy Research Institute, State Development Planning Commission. (mimeo)