Asian Business & Management

, Volume 10, Issue 4, pp 463–484 | Cite as

China's move to a Circular Economy as a development strategy

  • John A MathewsEmail author
  • Yiming Tang
  • Hao Tan
Original Article


While China's rapid growth rates have been widely admired, they have been accompanied by extensive pollution and waste. It is therefore unsurprising that China has adopted as its development model the Circular Economy (CE), encompassing notions of industrial ecology and resource reduction, reuse and recycling. This article analyses and appraises China's capacity to implement such a strategy. The article engages in a discussion of what China means by a CE and whether the policies of eco-industrial development being pursued actually fit with this general goal. We also offer our own econometric update on China's progress towards a CE. The article tests the conjecture that China is able to link its ‘compressed development’ strategy with industrial ecology ideas – seeing the CE as not only a source of competitive advantage, but also pointing towards a solution to global resource depletion and waste accumulation and devastation. While it must be understood that China faces enormous obstacles in implementing the CE idea, and starts from a very low base in doing so, nevertheless it has certain latecomer and administrative advantages in putting its economy on a new, closed-loop footing, as compared with more advanced countries with established industrial systems.


China Circular Economy eco-industrial parks eco-industrial development industrial ecology latecomer strategy 


  1. Ayres, R.U. (2004) On the life cycle metaphor: Where ecology and economies diverge. Ecological Economics 48: 425–438.CrossRefGoogle Scholar
  2. Boulding, K.E. (1966) The economics of the coming Spaceship Earth. Environmental Quality in a Growing Economy, Resources for the Future, Inc.,, accessed 4 October 2009.
  3. CCICED. (2003) Strategy and mechanism study for promotion of circular economy and cleaner production in China. China Council for International Cooperation on Environment and Development, Task Force on Circular Economy and Cleaner Production,, accessed 21 September 2008.Google Scholar
  4. Chertow, M. and Ehrenfeld, J. (2001) Industrial symbiosis: The legacy of Kalundborg. In: R. Ayres and L. Ayres (eds.) Handbook of Industrial Ecology. Cheltenham, UK: Edward Elgar, pp. 334–350.Google Scholar
  5. Chertow, M.R. (2007) ‘Uncovering’ industrial symbiosis. Journal of Industrial Ecology 11 (1): 11–30.CrossRefGoogle Scholar
  6. Chiu, A.S.F. and Yong, G. (2004) On the industrial ecology potential in Asian developing countries. Journal of Cleaner Production 12: 1037–1045.CrossRefGoogle Scholar
  7. Chun, L. (2000) Uneven and compressed development: A note on China. In: A. Clesse (ed.) The World and the New Century. Luxembourg: Luxembourg Institute for European and International Studies.Google Scholar
  8. Cohen-Rosenthal, E. (2004) Making sense out of industrial ecology: A framework for analysis and action. Journal of Cleaner Production 12: 1111–1123.CrossRefGoogle Scholar
  9. CSIRO. (2008) Australia and China partner for a low-emission energy future. Reference 07/174,, accessed 23 July 2008.
  10. Daly, H.E. (ed.) (1980) The steady-state economy: Toward a political economy of biophysical equilibrium and moral growth. Economics, Ecology, Ethics: Essays Toward a Steady-state Economy. San Francisco, CA: W.H. Freeman.Google Scholar
  11. Daniels, P. and Moore, S. (2001) Approaches for quantifying the metabolism of physical economies: Pt. 1 methodological overview. Journal of Industrial Ecology 5 (4): 69–93.CrossRefGoogle Scholar
  12. Ehrenfeld, J. (2007) Would industrial ecology exist without sustainability in the background? Journal of Industrial Ecology 11 (1): 73–84.CrossRefGoogle Scholar
  13. Erkman, S. (1997) Industrial ecology: An historical view. Journal of Cleaner Production 5 (1/2): 1–10.CrossRefGoogle Scholar
  14. Eurostat. (2001) Economy-wide Material Flow Accounts and Derived Indicators: A Methodological Guild. Luxembourg: Statistical Office of the European Union.Google Scholar
  15. Fang, Y., Cote, R.P. and Qin, R. (2007) Industrial sustainability in China: Practice and prospects for eco-industrial development. Journal of Environmental Management 83: 315–328.CrossRefGoogle Scholar
  16. Feng, Z. and Yan, N. (2007) Putting a circular economy into practice in China. Sustainability Science 2: 95–101.CrossRefGoogle Scholar
  17. Frosch, R.A. (1997) Industrial ecology: Closing the loop on waste materials. In: D.J. Richards (ed.) The Industrial Green Game: Implications for Environmental Design and Management. Washington DC: National Academy of Engineering.Google Scholar
  18. Frosch, R.A. and Gallopoulos, N.E. (1989) Strategies for manufacturing. Scientific American 261 (3): 144–152.CrossRefGoogle Scholar
  19. Geng, Y. and Doberstein, B. (2008) Developing the circular economy in China: Challenges and opportunities for achieving ‘leapfrog development’. International Journal of Sustainable Development and World Economy 15 (3): 231–239.CrossRefGoogle Scholar
  20. Geng, Y., Zhu, Q. and Haight, M. (2007) Planning for integrated solid waste management at the industrial park level: A case of Tianjin, China. Waste Management 27: 141–150.CrossRefGoogle Scholar
  21. Gerschenkron, A. (1962) The Latecomer in Historical Perspective. Cambridge: Harvard University Press.Google Scholar
  22. Grann, H. (1997) The industrial symbiosis at Kalundborg, Denmark. In: D.J. Richards (ed.) The Industrial Green Game: Implications for Environmental Design and Management. Washington DC: National Academy of Engineering.Google Scholar
  23. Guo, C. (2009) $2.1bn joint venture project in Tianjin eco-city,, accessed 3 April 2010.
  24. Guo, W. and Feng, Y. (2007) Special economic zones and competitiveness: A case study of Shenzhen. Asian Development Bank, November,, accessed 2 September 2010.Google Scholar
  25. Hashimoto, S. and Moriguchi, Y. (2004) Proposal of six indicators of material cycles for describing society's metabolism – From the viewpoint of material flow analysis. Resources, Conservation & Recycling 40: 185–200.CrossRefGoogle Scholar
  26. Hukkinen, J. (2003) From groundless universalism to grounded generalism: Improving ecological economic indicators of human-environmental interaction. Ecological Economics 44: 11–27.CrossRefGoogle Scholar
  27. Huo, C.H. and Chai, L.H. (2008) Physical principles and simulations on the structural evolution of eco-industrial systems. Journal of Cleaner Production 16: 1995–2005.CrossRefGoogle Scholar
  28. Jacobsen, N.B. (2006) Industrial symbiosis in Kalundborg, Denmark. Journal of Industrial Ecology 10 (1/2): 239–255.Google Scholar
  29. Jiang, Z. (2002) Working hard to create a better planet together. Presentation at the Members’ Assembly of the Second Global Environment Facility. Beijing, 16 October 2002.Google Scholar
  30. Lawn, P.A. (2000) Toward Sustainable Development: An Ecological Economics Approach. Boca Raton, FL: CRC.CrossRefGoogle Scholar
  31. Lee, K. and Lim, C. (2001) Technological regimes, catch-up and leapfrogging: Findings from the Korean industries. Research Policy 30 (3): 459–483.CrossRefGoogle Scholar
  32. Lowe, E. (1997) Creating by-product resource exchanges: Strategies for eco-industrial parks. Journal of Cleaner Production 5 (1/2): 57–65.CrossRefGoogle Scholar
  33. Mathews, J.A. (2005) The intellectual roots of latecomer industrial development. International Journal of Technology and Globalisation 1 (3/4): 433–450.CrossRefGoogle Scholar
  34. Mathews, J.A. (2006) Catch-up strategies and the latecomer effect in industrial development. New Political Economy 11 (3): 313–336.CrossRefGoogle Scholar
  35. Mathews, J.A. (2009) China, India and Brazil: Tiger technologies, dragon multinationals and the building of national systems of economic learning. Asian Business & Management 8 (1): 5–32.CrossRefGoogle Scholar
  36. Mathews, J.A. and Tan, T. (2010) Progress towards a circular economy in China: The drivers (and inhibitors) of eco-industrial initiative. Journal of Industrial Ecology 15 (3): 435–457.CrossRefGoogle Scholar
  37. McDonough, W. and Braungart, M. (1998) The NEXT industrial revolution. Atlantic Monthly 282 (October): 82–92.Google Scholar
  38. MEP. (2009) Annual Progress Report for National Eco-industrial Demonstration Parks, 2008. Beijing: Ministry of Environment Protection.Google Scholar
  39. Moriguchi, Y. (2007) Material flow indicators to measure progress toward a sound material-cycle society. Journal of Material Cycles and Waste Management 9: 112–120.CrossRefGoogle Scholar
  40. National People's Congress. (2008) Regulation on promotion of circularly economy,, accessed 20 September 2008.
  41. NDRC (National Development and Reform Commission). (2008) 27 November,, accessed 2 September 2010.
  42. Ning, W., Chen, P., Wu, F., Cockerill, C. and Deng, N. (2007) Industrial ecology education at Wuhan University. Journal of Industrial Ecology 11 (3): 147–153.CrossRefGoogle Scholar
  43. OECD. (2008) Measuring Material Flows and Resource Productivity – Synthesis Report. Paris: OECD.Google Scholar
  44. Oh, D.S., Kim, K.B. and Jeong, S.Y. (2005) Eco-industrial park design: A Daedok Technovalley case study. Habitat International 29 (2): 269–284.CrossRefGoogle Scholar
  45. Park, H.S., Rene, E.R., Choi, S.M. and Chiu, A.S.F. (2008) Strategies for sustainable development of industrial park in Ulsan, S Korea: From spontaneous evolution to systematic expansion of industrial symbiosis. Journal of Environmental Management 87: 1–13.CrossRefGoogle Scholar
  46. Ren, Y. (2007) The circular economy in China. Journal of Material Cycles and Waste Management 9 (2): 121–129.CrossRefGoogle Scholar
  47. Rennings, K., Brockmann, K.L. and Bergmann, H. (1997) Voluntary agreements in environmental protection: Experiences in Germany and future perspectives. Business Strategy and the Environment 6 (5): 245–263.CrossRefGoogle Scholar
  48. Richards, D.J. and Pearson, G. (eds.) (1998) The Ecology of Industry: Sectors and Linkages. Washington DC: National Academy of Engineering.Google Scholar
  49. Schwartz, E.J. and Steininger, K.W. (1997) Implementing nature's lesson: The industrial recycling networks enhancing regional development. Journal of Cleaner Production 5 (1/2): 47–56.CrossRefGoogle Scholar
  50. Shi, H., Chertow, M. and Song, Y. (2010) Developing-country experience with eco-industrial parks: A case study of the Tianjin economic-technological development area in China. Journal of Cleaner Production 18: 191–199.CrossRefGoogle Scholar
  51. Tasker, S.J. (2010) China powers booming climate change industry. Weekend Australian 18–19 September: 25.Google Scholar
  52. Unruh, G.C. (2000) Understanding carbon lock-in. Energy Policy 28 (12): 817–830.CrossRefGoogle Scholar
  53. Unruh, G.C. and Carrillo-Hermosilla, J. (2006) Globalizing carbon lock-in. Energy Policy 34 (10): 1185–1197.CrossRefGoogle Scholar
  54. Van Beers, D., Corder, G., Bossilkov, A. and Van Berkel, R. (2007) Industrial symbiosis in the Australian minerals industry: The cases of Kwinana and Gladstone. Journal of Industrial Ecology 11 (1): 55–72.CrossRefGoogle Scholar
  55. Wang, Q. and Wang, H. (2007) Study in quantitative evaluating of circular economy. China Population, Resources and Environment 17 (1): 33–37.CrossRefGoogle Scholar
  56. Xu, M. and Zhang, T. (2007) Material flows and economic growth in developing China. Journal of Industrial Ecology 11 (1): 121–140.CrossRefGoogle Scholar
  57. Yan, M. (2005) China's establishment of a comprehensive circular economy by 2010. (in Chinese), Post-doctoral Research Station of the State Information Centre,, accessed 20 September 2008.
  58. Yang, P.P. and Lay, B.L. (2004) Applying ecosystem concepts to the planning of industrial areas: A case study of Singapore's Jurong Island. Journal of Cleaner Production 12: 1011–1023.CrossRefGoogle Scholar
  59. Yang, S.-L. and Feng, N.-P. (2008) A case study of industrial symbiosis: Nanning Sugar Co. Ltd. in China. Resources, Conservation and Recycling 52: 813–820.CrossRefGoogle Scholar
  60. Yoshida, H., Shimamura, K. and Aizawa, H. (2007) 3R strategies for the establishment of an international sound material-cycle society. Journal of Material Cycles and Waste Management 9: 101–111.CrossRefGoogle Scholar
  61. Yuan, Z., Bi, J. and Moriguchi, Y. (2006) The circular economy: A new development strategy in China. Journal of Industrial Ecology 10 (1–2): 4–8.Google Scholar
  62. Zhang, H., Hara, K., Yabar, H., Yamaguchi, Y., Uwasu, M. and Morioka, T. (2009) Comparative analysis of socio-economic and environmental performances for Chinese EIPs: Case studies in Baotou, Suzhou and Shanghai. Sustainability Science 4: 263–279.CrossRefGoogle Scholar
  63. Zhou, H. (2006) Circular economy in China and recommendations. Ecological Economy 2: 102–114.Google Scholar
  64. Zhu, Q.-H., Lowe, E.A., Wei, Y.-A. and Barnes, D. (2007) Industrial symbiosis in China: A case study of the Guitan Group. Journal of Industrial Ecology 11 (1): 31–42.CrossRefGoogle Scholar
  65. Zhu, R.-J. (2002) Speech at the third China symposium on environment and development of global cooperation. Beijing: 25 November 2002,, accessed 27 July 2011.

Copyright information

© Palgrave Macmillan, a division of Macmillan Publishers Ltd 2011

Authors and Affiliations

  1. 1.LUISS Guido Carli UniversityRomaItaly
  2. 2.Macquarie Graduate School of Management, Macquarie UniversitySydneyAustralia
  3. 3.School of Management & CinIS, University of Western SydneySydneyAustralia

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