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Analysing energy intensity trends and decoupling of growth from energy use in Indian manufacturing industries during 1973–1974 to 2011–2012

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Abstract

This paper has two research objectives: first, it derives and analyses energy intensity trends for seven energy intensive manufacturing industries and the aggregate manufacturing sector in India for the period 1973–1974 to 2011–2012 and compares the same with best practice benchmarks. Second, based on Index Decomposition Analysis, it studies the extent to which the energy efficiency has contributed in the decoupling of industrial activity growth from growth in energy use. The study finds faster decline in energy intensity in all the seven industries during the recent years (1998–1999 to 2011–2012). Aluminium, cement and fertilizer industries are found to operate close to the global best-practice energy intensities with transformational changes in process technology. Iron and steel and pulp and paper are found to be lagging behind with only incremental transformation in technology in place. The decomposition results show that activity growth is the major driver of growth in energy demand with marginal impact coming from structural change. However, declining energy intensity has been able to neutralize a major portion of the growing energy demand resulting in decoupling trends, especially in recent years, with more energy efficiency-related voluntary and mandatory policies in place).

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References

  • Al-Ghandoor, A. (2012). Analysis of Jordan’s industrial energy intensity and potential mitigations of energy and GHGs emissions. Renewable and Sustainable Energy Reviews, 16(2012), 4479–4490.

    Article  Google Scholar 

  • Allcott, H., & Greenstone, M. (2012). Is there an energy efficiency gap? Journal of Economic Perspectives, 26(1), 3–28.

    Article  Google Scholar 

  • Ang, B. W., (2012). A simple guide to lmdi decomposition analysis. http://www.ise.nus.edu.sg/staff/angbw/pdf/A_Simple_Guide_to_LMDI.pdf.

  • Ang, B. W., & Choi, K. H. (1997). Decomposition of aggregate energy and gas emission intensities for industry: a refined divisia index method. The Energy Journal, 18(3), 59–73.

    Article  Google Scholar 

  • Ang, B. W., & Xu, X. U. (2013). Tracking industrial energy efficiency trends using index decomposition analysis. Energy Economics, 40, 1014–1021.

    Article  Google Scholar 

  • Ang, B. W., & Zhang, F. Q. (1999). Inter-regional comparisons of energy-related CO2 emissions using the decomposition technique. Energy, 24(4), 297–305.

    Article  MathSciNet  Google Scholar 

  • Ang, B. W., & Zhang, F. Q. (2000). A survey of index decomposition analysis in energy and environmental studies. Energy, 25(12), 1149–1176.

    Article  Google Scholar 

  • BEE, (2012). National mission for enhanced energy efficiency. Bureau of Energy Efficiency. Government of India. http://www.moef.nic.in/downloads/others/Mission-SAPCC-NMEEE.pdf

  • Bernstein, L., Roy, J., Delhotal, K. C., Harnisch, J., Matsuhashi, R., Price, L., et al. (2007). Climate change 2007: mitigation. In B. Metz, O. R. Davidson, P. R. Bosch, R. Dave, & L. A. Meyer (Eds.), Contribution of working group III to the fourth assessment report of the intergovernmental panel on climate change. Cambridge: Cambridge University Press.

    Google Scholar 

  • Bhaduri, S. N., & Chaturvedi, R. K. (2002). Decomposition of India’s industrial energy use, a case study using energy intensity approach. International Journal of Global Energy Issues, 17(1), 92–105.

    Article  Google Scholar 

  • Bhattacharya, S., Cropper, M. L., (2010). Options for energy efficiency in india and barriers to their adoption: a scoping study. Discussion Paper, Resources for Future. RFF DP 10–20 Washington DC. http://www.rff.org/files/sharepoint/WorkImages/Download/RFF-DP-10-20.pdf.

  • Bhattacharyya, S. C., & Ussanarassameeb, A. (2004). Decomposition of energy and CO2 intensities of Thai industry between 1981 and 2000. Energy Economics, 26(5), 765–781.

    Article  Google Scholar 

  • Calili, R. F., Souza, R. C., Galli, A., Armstrong, A., & Marcato, A. L. M. (2014). Estimating the cost savings and avoided CO2 emissions in Brazil by implementing energy efficient policies. Energy Policy, 67(2014), 4–15.

    Article  Google Scholar 

  • Chakraborty, D., Roy, J., (2012). Climate change adaptation and mitigation strategies: responses from select Indian energy intensive industrial units. In the Proceedings of International Conference on Public Policy and Governance 2012, Vol.I, jointly organized by the Department of Management Studies, Indian Institute of Science, Bangalore and Public Affairs Centre, Bangalore

  • Chander, S. (2008). An Overview of Fertilizer Industry and Government Situation in India. Paper presented in Fertilizer Technology and Outlook Conference. held 11–13 November 2008 in Charleston, South Carolina, USA. http://www.firt.org/sites/default/files/Chander_%20Fertilizer_Situation%26Gov't_Policy_India_presentation.pdf

  • CII. (2013). Technology compendium on energy saving poortunities – cement sector. Confederation of Indian Industries. http://www.indiaenvironmentportal.org.in/files/file/cement.pdf.

  • CSE (2010a). Industry index: chapter 02- iron and steel. New Delhi, India: Center for Science and Environment http://www.cseindia.org/userfiles/39-56%20Steel(1).pdf.

    Google Scholar 

  • CSE (2010b). Industry index: chapter 03 - Aluminium. New Delhi, India: Center for Science and Environment http://www.cseindia.org/userfiles/57-66%20Aluminium(1).pdf.

    Google Scholar 

  • CSE (2010c). Industry index: chapter 05- fertilizer. New Delhi, India: Center for Science and Environment http://www.cseindia.org/userfiles/79-90%20Fertilizer(1).pdf.

    Google Scholar 

  • Csereklyei, Z., Varas, M., Stern, D. (2014). Energy and economic growth: The stylized facts. CCEP working papers from Centre for Climate Economics and Policy, Crawford School of Public Policy, The Australian National University. https://ccep.crawford.anu.edu.au/sites/default/files/publication/ccep_crawford_anu_edu_au/2014-12/ccep1417.pdf.

  • Dasgupta, M., & Roy, J. (2000). Manufacturing energy use in India: a decomposition analysis. Asian Journal of Energy and Environment, 1(3), 223–247.

    Google Scholar 

  • Dasgupta, M., & Roy, J. (2001). Estimation and analysis of carbon dioxide emission from energy intensive manufacturing industris in India. International Journal of Energy, Environment, Economics, 11(3), 165–179.

    Google Scholar 

  • Dasgupta, M., Roy, J. (2002a). Energy Consumption in India: an Indicator Analysis. Development Alternatives, October, pp 12–13. http://www.devalt.org/newsletter/oct02/of_6.htm Accessed 22 July 2016.

  • Dasgupta, M., Roy, J. (2002b). Energy consumption in India: An indicator analysis. Development Alternatives, (October), 12–13.http://www.devalt.org/newsletter/oct02/of_6.htm.

  • Dasgupta, S., & Roy, J. (2015). Understanding technological progress and input price as drivers of energy demand in manufacturing industries in India. Energy Policy, 83, 1–13.

    Article  Google Scholar 

  • Dasgupta, S., Roy, J., Bera, A., Sharma, A., & Pandey, P. (2011). Growth accounting for six energy intensive industries in India. Journal of Industrial Statistics, 1(1), 1–15.

    Google Scholar 

  • Farla, J., Blok, K., & Schipper, L. (1997). Energy efficiency developments in the paper and pulp industry. Energy Policy, 25(7–9), 745–758.

    Article  Google Scholar 

  • Fischedick, M., Roy, J., Abdel-Aziz, A., Acquaye, A., Allwood, J.M.,Ceron, J.-P.,Geng, Y., Kheshgi, H., Lanza, A., Perczyk, D., Price, L., Santalla, E., Sheinbaum, C.,Tanaka, K. (2014). Industry In: Edenhofer, O., Pichs-Madruga, R., Sokona, Y., Farahani, E., Kadner, S., Seyboth, K., Adler, A., Baum, I., Brunner, S., Eickemeier, P., Kriemann, B., Savolainen, J., Schlömer, S., von Stechow, C., Zwickel, T., Minx, J. (Eds.), Climate change 2014: mitigation of climate change. Contribution of working group III to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge

  • Fleurbaey, M., Kartha, S., Bolwig, S., Chee, Y. L., Chen, Y., Corbera, E., et al. (2014). Sustainable Development and Equity. In: Edenhofer, O., Pichs-Madruga, R., Sokona, Y., Farahani, E., Kadner, S., Seyboth, K., Adler, A., Baum, I., Brunner, S., Eickemeier, P., Kriemann, B., Savolainen, J., Schlömer, S., von Stechow, C., Zwickel, T., Minx, J. (Eds.), Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge

  • Freeman, S. L., Neifer, M. J., & Roop, J. M. (1997). Measuring industrial energy intensity: practical issues and problems. Energy Policy, 25(7–9), 703–714.

    Article  Google Scholar 

  • GOI. (1970). National Industrial Classification. New Delhi: Central Statistical Organization, Ministry of Statistics and Programme Implementation, Government of India. New Delhi.

  • GOI. (1987). National Industrial Classification. New Delhi: Central Statistical Organization, Ministry of Statistics and Programme Implementation, Government of India. New Delhi.

  • GOI. (1998). National Industrial Classification. New Delhi: Central Statistical Organization, Ministry of Statistics and Programme Implementation, Government of India.

  • GOI. (2001). The Energy Conservation Act, 2001, Government of India. New Delhi.

  • GOI. (2004). National Industrial Classification. Central Statistical Organization, Ministry of Statistics and Programme Implementation, Government of India. New Delhi.

  • GOI. (2008a). National Industrial Classification. Central Statistical Organization, Ministry of Statistics and Programme Implementation, Government of India. New Delhi.

  • GOI. (2008b). National Action Plan on Climate Change. Ministry of Environment and Forest, Government of India. New Delhi.

  • GOI. (2009). Eleventh Five Year Plan (2008–2012): Chapter 7: Industry. Planning Commission, Government of India. New Delhi.

  • GOI. (2011). Report of the working group of steel industry for the 12th Five year Plan (2012–17). Ministry of Steel, Government of India. New Delhi.

  • GOI. (2012a). PAT: Perform Achieve and Trade. Ministry of Power. Governement of India. New Delhi

  • GOI. (2012b). Annual Report: Ministry of Steel. Government of India. New Delhi.

  • GOI. (2013). Instructions to field officials on annual survey of industries: concepts, definitions and procedures. Ministry of Statistics and Programme Implementation, Government of India.

  • Goldar, B. (2010). Energy Intensity of Indian Manufacturing Firms: Effect of Energy Prices, Technology and Firm Characteristics. Institute of Economic Growth, Delhi, India. http://www.mse.ac.in/Frontier/m13%20Goldar%20A.pdf Accessed 22 July 2016.

  • Howarth, R. B., Schipper, L., & Anderson, B. (1993). The Structure & Intensity of energy use: trends in five OECD nations. The Energy Journal., 14(2), 27–45.

    Article  Google Scholar 

  • Huang, J. (1993). Industry energy use and structural change. A case study of the people’s republic of China. Energy Economics, 15(2), 131–136.

    Article  MathSciNet  Google Scholar 

  • IAEA (2005). Energy indicators for sustainable development. Vienna: International Atomic Energy Agency http://www-pub.iaea.org/MTCD/publications/PDF/Pub1222_web.pdf.

    Google Scholar 

  • IEA (2012). World energy outlook 2012. Paris: International Energy Agency.

    Book  Google Scholar 

  • Jain, S. K. (2010). Energy efficiency and new technology deployment in Indian iron and steel sector. New Delhi: Presented in the International Workshop on Industrial Energy Efficiency http://ietd.iipnetwork.org/content/steel-authority-india-limited.

    Google Scholar 

  • Kumar, A. (2003). Energy Intensity: A quantitative exploration for Indian manufacturing. Working Paper, Indira Gandhi Institute of Development Research, Mumbai. http://papers.ssrn.com/sol3/papers.cfm?abstract_id=468440. Accessed 22 July 2016.

  • Liaskas, K., Mavrotas, G., Mandaraka, M., & Diakoulaki, D. (2000). Decomposition of industrial CO2 emissions: the case of European Union. Energy Economics, 22(4), 383–394.

    Article  Google Scholar 

  • Miketa, A. (2001). Analysis of energy intensity developments in manufacturing sectors in industrialized and developing countries. Energy Policy, 29(2001), 769–775.

    Article  Google Scholar 

  • Mukherjee, K. (2008). Energy use efficiency in the Indian manufacturing sector: an interstate analysis. Energy Policy, 36(2008), 662–672.

    Article  Google Scholar 

  • Nand, S., & Goswami, M. (2008). Recent efforts in energy conservation in ammonia and urea plants. Indian Journal of Fertilizers, 4(12), 17–20.

    Google Scholar 

  • Parliament of India: Rajya Sabha. (2011). Ninety Fifth Report on Performance of Cement Industry. Department related Parliamentary Standing Committee on Commerce.

  • Patel, S. (2014). An analysis of Indian fertilizers industry. Global Journal of Multidisciplinary Studies, 3(3), 212–219.

    Google Scholar 

  • Phylipsen, G. J., Bolk, K., & Worrell, E. (1997). International comparison of energy efficiency: methodologies for the manufacturing industries. Energy Policy, 25(7–9), 715–725.

    Article  Google Scholar 

  • Phylipsen, D., Blok, K., Worrell, E., & de Beer, J. (2002). Benchmarking the energy efficiency of Dutch industry: an assessment of the expected effect on energy consumption and CO2 emissions. Energy Policy, 30(2002), 663–679.

    Article  Google Scholar 

  • Rao, N., Sant, G., Rajan, S.C. (2009). An overview of Indian energy trends: low carbon growth and development challenges. Reprot by Prayas, Energy Group, Pune, India. http://indiatogether.org/uploads/document/document_upload/2145/env-lowcarb.pdf.

  • Reddy, S., & Ray, B. K. (2010). Decomposition of energy consumption and energy intensity in Indian manufacturing industries. Energy for a Sustainable World, 14(8), 35–47.

    Article  Google Scholar 

  • Reddy, S. B., & Ray, B. K. (2011). Understanding industrial energy use: physical energy intensity changes in Indian manufacturing sector. Energy Policy, 39(11), 7234–7243.

    Article  Google Scholar 

  • Roy, J. (1992). Demand for energy in Indian industries—a quantitative approach. Delhi: Daya Publishing House.

    Google Scholar 

  • Roy, J. (2007). Delinking economic growth from GHG emission through energy efficiency route: how far are we in India? The Bulletin of Energy Efficiency, 7, 52–57.

    Google Scholar 

  • Roy, J., Sathaye, J., Sanstad, A., Mongia, P., & Schumacher, K. (1999). Productivity trends in India's energy intensive industries. The Energy Journal., 20(3), 33–61.

    Article  Google Scholar 

  • Roy, J., Bose, C., Bose, R., Das, S., Dhakal, S., Dasgupta, M., et al. (2010). Development pathway. In A. Sharma (Ed.), Global environmental changes in South Asia: a regional perspective. New Delhi: Capital Publishing Company.

    Google Scholar 

  • Roy, J., Dasgupta, S., & Chakravarty, D. (2013). Energy efficiency: technology, behavior, and development. In A. Goldthau (Ed.), The handbook of global energy policy (pp. 282–302). Oxford: Wiley Blackwell.

    Chapter  Google Scholar 

  • Sahu, S., Narayanan, K., (2009). Determinants of Energy Intensity: A Preliminary Investigation of Indian Manufacturing. Indian Institute of Technology, Mumbai, MPRA Paper no. 16606.

  • Sahu, S. K., & Narayanan, K. (2011). Determinants of energy intensity in Indian manufacturing industries: a firm level analysis. Eurasian Journal of Business and Economics, 4(8), 13–30.

    Google Scholar 

  • Saxena, A. (2010). Best Practices in technologies for energy efficiency in Indain cement industry. Presented in IEA.

  • Schipper, L., Unander, F., Marie-Lilliu, C. (1998). Energy Use in Canada in an International Perspective. Comparison of trends through the early 1990s. International Energy Agency.

  • Schipper, L., Unander, F., Marie-Lilliu, C., Walker, I., Gorham, R. (2000). Energy use in Australia in an International Perspective: Comparison of trends through the mid 1990s. International Energy Agency, Paris and Canberra- Department of Industry, Science and Resources.

  • Schumacher, K., Sathaye, J. (1999a). India’s cement industry: productivity, energy efficiency and carbon emissions. LBNL Working Paper LBNL-41842, Lawrence Berkeley National Laboratory, Berkeley.

  • Schumacher, K., & Sathaye, J. (1999b). India’s fertilizer industry: productivity and energy efficiency, LBNL Working Paper LBNL-41846. Berkeley: Lawrence Berkeley National Laboratory.

    Google Scholar 

  • Sheerin, J. (1992). Energy & Economic Interaction in Thailand. The Energy Journal, 13(1), 145–156.

    Article  Google Scholar 

  • Sheinbaum, C., & Rodriguez, L. V. (1997). Recent trends in Mexican industrial energy use & their impact on CO2 emissions. Energy Policy, 25(7–9), 825–831.

    Article  Google Scholar 

  • Sun, J. W. (1999). Decomposition of aggregate CO2 emissions in the OECD. 1960-1995. The Energy Journal, 20(3), 147–155.

    Article  MathSciNet  Google Scholar 

  • Ten Raa, T. (2009). The economics of benchmarking: measuring performance for competitive advantage. Palgrave Macmillan.

  • TERI (2001). TERI energy data directory and yearbook. New Delhi, India: The Energy Research Institute.

    Google Scholar 

  • TERI (2004). TERI energy data directory and yearbook. New Delhi, India: The Energy Research Institute.

    Google Scholar 

  • TERI (2006). National energy map for India: technology vision 2030. New Delhi: Office of the Principal Scientific Adviser to the Government of India.

    Google Scholar 

  • TERI (2007). TERI energy data directory and yearbook. New Delhi, India: The Energy Research Institute.

    Google Scholar 

  • TERI (2010). TERI energy data directory and yearbook. New Delhi, India: The Energy Research Institute.

    Google Scholar 

  • UNEP. (2011). Decoupling natural resource use and environmental impacts from economic growth. Report of the Working Group on Decoupling to the International Resource Panel. United Nations Environment Program. United Nations. http://www.unep.org/resourcepanel/decoupling/files/pdf/Decoupling_Report_English.pdf.

  • UNIDO. (2010). Global Industrial energy efficiency benchmarking: An energy policy tool. UNIDO working paper November, 2010. United Nations Industrial Development organization. United Nations. http://www.unido.org/fileadmin/user_media/Services/Energy_and_Climate_Change/Energy_Efficiency/Benchmarking_%20Energy_%20Policy_Tool.pdf. Accessed 20 Nov 2015

  • Voigt, S., De Cian, E., Schymura, M., & Verdolini, E. (2014). Energy intensity developments in 40 major economies: structural change or technology improvement? Energy Economics, 41, 47–62.

    Article  Google Scholar 

  • Worrell, E., Price, L., Martin, N., Farla, J., & Schaeffer, R. (1997). Energy intensity in the iron and steel industry: a comparison of physical and economic indicators. Energy Policy, 25(7–9), 727–744.

    Article  Google Scholar 

  • Worrell, E., Price, L., Neelis, M., Galitsky, C., Nan, Z. (2008). World best practice energy intensity values for selected industrial sectors. LBNL Working Paper LBNL-62806, Rev. 2, Lawrence Berkeley National Laboratory, Berkeley, USA.

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Acknowledgments

Authors duly acknowledge the anonymous reviewers for their valuable comments that helped in improving the paper. Authors acknowledge the active cooperation and timely data support of the Computer Center, Central Statistical Organization (CSO), Ministry of Statistics and Programme Implementation, Government of India. Shyamasree Dasgupta acknowledges the fellowship grant of Sasakawa Young Leaders Fellowship Fund (SYLFF) during her doctoral research. Joyashree Roy acknowledges Indian Council for Social Science Research.

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Dasgupta, S., Roy, J. Analysing energy intensity trends and decoupling of growth from energy use in Indian manufacturing industries during 1973–1974 to 2011–2012. Energy Efficiency 10, 925–943 (2017). https://doi.org/10.1007/s12053-016-9497-9

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