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China's attempts to minimize non-CO2 emissions from coal: evidence of declining emission intensity

Published online by Cambridge University Press:  24 May 2011

XUNPENG SHI
XUNPENG SHI*
Affiliation:
Economic Research Institute for ASEAN and East Asia, Jakarta, ERIA Annex Office, 6th Floor Sentral Senyan II, Jl. Asia Afrika No. 8, Senayan, Jakarta Pusat 10270, Indonesia. Tel: +62 21 5797 4460. Fax: +62 2 5797 4464. Email: [email protected]
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Abstract

This paper argues that the use of coal can be reconciled with the environment. In the empirical work, three environmental pollutants are considered, using two alternative methods with two sets of Chinese data. CO2 emissions could not be studied because of data limitations. The hypothesis that the use of coal can be reconciled with the environment through declined emission intensity is confirmed by the empirical tests. The decreases in emission intensity are driven by the application of clean coal technologies, which can be encouraged by appropriate regulations and incentives and have both environmental and economic benefits. Therefore it is critical that appropriate legal and fiscal regimes be formulated and that the development and utilization of high-efficiency and clean coal technologies be promoted. The paper also suggests that the use of coal could continue to be reconciled with concern for the environment, even while considering CO2 emissions.

Type
Research Article
Information
Environment and Development Economics , Volume 16 , Issue 5 , October 2011 , pp. 573 - 590
Copyright
Copyright © Cambridge University Press 2011

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References

Ang, B.W. and Pandiyan, G. (1997), ‘Decomposition of energy-induced CO2 emissions in manufacturing’, Energy Economics 19: 363374.CrossRefGoogle Scholar
Ang, B.W. and Zhang, F.Q. (2000), ‘A survey of index decomposition analysis in energy and environmental studies’, Energy 25: 11491176.CrossRefGoogle Scholar
Ang, B.W., Zhang, F.Q., and Choi, K.-H. (1998), ‘Factorizing changes in energy and environmental indicators through decomposition’, Energy 23: 489495.CrossRefGoogle Scholar
ASME Council on Engineering (2005), The Need for Additional U.S. Coal-Fired Power Plants, Mexico: ASME International.Google Scholar
Bao, Q. and Peng, S. (2006), ‘Economic growth and environmental pollution: a panel data analysis’, in Garnaut, R. and Song, L. (eds), The Turning Point in China's Economic Development, Canberra: Asia Pacific Press, pp. 294313.Google Scholar
BP (2010), BP Statistical Review of World Energy June 2010, London: British Petroleum.Google Scholar
CEYP (China Environment Yearbook Press) (various years), China Environmental Yearbook, Beijing: China Environmental Science Press.Google Scholar
China Daily (2010), ‘Clean coal power to go online in Tianjin’, [Available at] http://www.chinadaily.com.cn/m/tianjin/e/2010-02/24/content_9495753.htm.Google Scholar
Church, R. (1986), The History of the British Coal Industry, Vol. 3, 1830–1913, Oxford: Clarendon Press.Google Scholar
EIA (Energy Information Agency) (2001), International Energy Outlook 2001, Washington, DC: US Department of Energy.Google Scholar
EIA (Energy Information Agency) (2007), Annual Energy Review 2007, Washington, DC: Energy Information Administration.Google Scholar
EIA (Energy Information Agency) (2010), International Energy Outlook 2010, Washington, DC: US Department of Energy.Google Scholar
He, K., Huo, H., and Zhang, Q. (2002), ‘Urban air pollution in China: current status, characteristics, and progress’, Annual Review of Energy and the Environment 27: 397431 [in Chinese].CrossRefGoogle Scholar
IEA (2007), World Energy Outlook 2007–China and India Insights, Paris: International Energy Agency.Google Scholar
IPCC (2001), Special Report on Emissions Scenarios, Cambridge: Cambridge University Press.Google Scholar
IPCC (2006), 2006 IPCC Guidelines for National Greenhouse Gas Inventories: Vol. 2, Energy, Hayama, Japan: IGES.Google Scholar
Kaufmann, R.K., Davidsdottir, B., Garnham, S., and Pauly, P. (1998), ‘The determinants of atmospheric SO2 concentrations: reconsidering the Environmental Kuznets Curve’, Ecological Economics 25: 209220.CrossRefGoogle Scholar
Kaya, Y. (1990), Impact of Carbon Dioxide Emission Control on GNP Growth: Interpretation of Proposed Scenarios, Paris: IPCC Energy and Industry Subgroup – Response Strategies Working Group.Google Scholar
Lehmann, J., Gaunt, J., and Rondon, M. (2006), ‘Bio-char sequestration in terrestrial ecosystems – a review’, Mitigation and Adaptation Strategies for Global Change 11: 395427.CrossRefGoogle Scholar
Lin, S.J. and Chang, T.C. (1996), ‘Decomposition of SO2, NOx and CO2 emissions from energy use of major economic sectors in Taiwan’, The Energy Journal 17: 117.Google Scholar
Markandya, A., Golub, A., and Pedroso-Galinato, S. (2006), ‘Empirical analysis of national income and SO2 emissions in selected European countries’, Environmental and Resource Economics 35: 221257.Google Scholar
McGinley, P.C. (1992), ‘Regulation of the environmental impact of coal mining in the USA’, Natural Resources Forum 16: 261270.Google Scholar
Menon-Choudhary, D., Shukla, P.R., and Garg, A. (2005), Assessing Policy Choices for Managing SO2 Emissions from Indian Power Sector, New Delhi: Centre de Sciences Humaines (Centre for Social Sciences).Google Scholar
MIT (Massachusetts Institute of Technology) (2007), ‘The future of coal – options for a carbon-constrained world’, [Available at] http://web.mit.edu/coal/The_Future_of_Coal.pdf.Google Scholar
NBS (National Bureau of Statistics) (various years), China Statistical Yearbook, Beijing: China Statistics Press.Google Scholar
NDRC (National Development and Reform Commission) (2007a), Middle and Long Term Plan of Nuclear Power 2005–2020, Beijing: National Development and Reform Commission of China [in Chinese].Google Scholar
NDRC (National Development and Reform Commission) (2007b), Opinions on Work to Energy Conservation and Emission Reduction in the Coal Industry, Beijing: National Development and Reform Commission of China [in Chinese].Google Scholar
OECD (2007), OECD Environmental Performance Review of China – Conclusions and Recommendations (Final), Paris: Organisation for Economic Co-Operation and Development.Google Scholar
Sachs, J.D. (2008), ‘Keys to climate protection (extended version)’, [Available at] http://www.sciam.com/article.cfm?id=technological-keys-to-climate-protection-extended.CrossRefGoogle Scholar
SEPA (State Environmental Protection Agency) (1982), National Ambient Air Quality Standards, Beijing: State Environmental Protection Agency of China [in Chinese].Google Scholar
Shadbegian, R. and Gray, W. (2006), ‘Assessing multi-dimensional performance: environmental and economic outcomes’, Journal of Productivity Analysis 26: 213234.CrossRefGoogle Scholar
Shalizi, Z. (2007), Energy and Emissions: Local and Global Effects of the Rise of China and India, Washington, DC: The World Bank.Google Scholar
Shen, J. (2006), ‘A simultaneous estimation of Environmental Kuznets Curve: evidence from China’, China Economic Review 17: 383394.Google Scholar
Shi, X. (2003), ‘The future of coal industry under the context of strict environmental regulations’, Journal of Coal Economic Research 6: 611 [in Chinese].Google Scholar
Shi, X. (2006), ‘Harmonising the coal industry with the environment’, in Garnaut, R. and Song, L. (eds), The Turning Point in China's Economic Development, Canberra: Asia Pacific Press, pp. 313334.Google Scholar
Shi, X. (2008), ‘Can China's coal industry be reconciled with the environment?’, in Song, L. and Woo, W.T. (eds), China's Dilemma: Economic Growth, the Environment and Climate Change, Canberra: Asia Pacific Press, Brookings Institution Press, Social Sciences Academic Press, pp. 367391.Google Scholar
Shi, X. (2010), ‘Carbon footprint labeling activities in the East Asia summit region: spillover effects to less developed countries’, ERIA Discussion Paper ERIA-DP-2010-06, Economic Research Institute for ASEAN and East Asia, Jakarta.Google Scholar
State Council (1998), Official Reply of the State Council Concerning Acid Rain Control Areas and Sulfur Dioxide Pollution Control Areas, Beijing: The State Council of China [in Chinese].Google Scholar
State News Office (2006), Environmental Protection in China (1996–2005), Beijing: State News Office of China.Google Scholar
Torvanger, A. (1991), ‘Manufacturing sector carbon dioxide emissions in nine OECD countries, 1973–87’, Energy Economics 13: 168186.Google Scholar
Tzimas, E., Georgakaki, A., Cortes, C.G., and Peteves, S.D. (2006), ‘CO2 Storage Potential in the North Sea via Enhanced Oil Recovery’, Paper 03-20-09, European Commission DG–Joint Research Centre, Institute for Energy, Petten, The Netherlands.Google Scholar
US EPA (US Environmental Protection Agency) (2010), ‘Air trends’, [Available at] http://www.epa.gov/airtrends/.Google Scholar
Wang, C., Chen, J., and Zou, J. (2005), ‘Decomposition of energy-related CO2 emission in China: 1957–2000’, Energy 30: 7383.Google Scholar
Wang, Q. (1999), ‘Coal industry is not a “sunset industry”China Coal 25: 79 [in Chinese].Google Scholar
Wang, X. and Feng, Z. (2003), ‘Energy consumption with sustainable development in developing country: a case in Jiangsu, China’, Energy Policy 31: 16791684.Google Scholar
Wells, C. (2009), ‘Reducing emissions at coal-fired plants’, [Available at] http://www.chinadaily.com.cn/bw/2009-11/16/content_8974916.htm.Google Scholar
Wooldridge, J.M. (2003), Introductory Econometrics: A Modern Approach, Manson, OH: South-Western College Publishing.Google Scholar
WCI (World Coal Institute) (2008), ‘Coal facts 2008’, [Available at] http://www.worldcoal.org/assets_cm/files/PDF/coalfacts08.pdf.Google Scholar
Wu, L., Kaneko, S., and Matsuoka, S. (2006), ‘Dynamics of energy-related CO2 emissions in China during 1980 to 2002: the relative importance of energy supply-side and demand-side effects’, Energy Policy 34: 35493572.Google Scholar
Xinhua (2010), ‘Xi: China active, serious in tackling climate change’, [Available at] http://www.chinadaily.com.cn/china/2010bfa/2010-04/10/content_9711377.htm.Google Scholar