Research on Evaluation Index System for Green Manufacturing Based on PSR Model and Life Cycle

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Green manufacturing is the important manufacturing pattern to achieve sustainable development. The core is to reduce the damage on the environment and to realize sustained rapid economic growth. The Paper establishes evaluation index system of green manufacturing using life cycle theory and the “pressure - state – response” model. The index system is the 3-tier indicator system, a total of 39 sub-indicators, including 17 environmental attributes index, 8 energy property index, 7 resource properties index and 7 economic attributes index.

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79-84

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October 2010

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© 2010 Trans Tech Publications Ltd. All Rights Reserved

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[1] Information on http: /www. ipcc. ch /(2008).

Google Scholar

[2] K.M. Zhang, S.Q. Zhang and D, Zhu: Sustainable development in China. China Environmental Science. Vol. 15-5 (1995), pp.323-329.

Google Scholar

[3] S.A. Melnyk and R. T Smith in: Green manufacturing, edited by M. Dearborn Society of Manufacturing Engineers, USA (1996), in press.

Google Scholar

[4] F. Liu, H.J. Cao and H. Zhang in: The theory and technology of green manufacturing, Science Press, Beijing (2005).

Google Scholar

[5] B.H. Roberts: The Application of Industrial Ecology Principles and Planning Guidelines for the Development of Eco-industrial Parks: An Australian Case Study. J Clean Prod. Vol. 12-8 (2004), pp.997-1010.

DOI: 10.1016/j.jclepro.2004.02.037

Google Scholar

[6] E.R. Pleshette, G.E. Pitts and C.F. Murphy in: Eco-Industrial Development as a New Strategy for End of Life Management of Electronic Equipment [C]/The IEEE International Symposium on Electronics and the Environment (ISEE 2000). San Francisco: Institute of Electrical and Electronics Engineers Inc. (2000).

DOI: 10.1109/isee.2000.857671

Google Scholar

[7] G. Timothy, M. Cynthia, A. David, et al. in: Environmentally Benign Manufacturing: Observations from Japan, Europe and the United States. J Clean Prod. Vol. 13-1(2005), pp.1-17.

Google Scholar

[8] H.M. Shi in: The Design of the Product Life Cycle. China J Mech Eng. Vol. 9-12 (1998), pp.1-2.

Google Scholar

[9] Z.Y. Gu, F. Liu, C.B. Li and H.J. Cao in: Study on the Operation Pattern for Green Manufacturing and Its Case. China J Mech Eng. Vol. 19-19 (2008).

Google Scholar

[10] Liu Fei, Zhang Hua, Chen Xiaohui. Integrated features of green manufacturing and green integrated manufacturing system [J]. Computer Integrated Manufacturing System, 1999, 8(5): 9-13.

Google Scholar

[11] O. Bonifaz, N. Hansjorg and K. Walter in: LCA-How it came about: An Early Systems Analysis of Packaging for Liquids. Inter J Life Cycle Assess. Vol. 1-2 (1996), pp.62-65.

Google Scholar

[12] A. Helias, H. Udo, J. Olivier, N. Greg and S. Konrad in: UNEP/SETAC Life Cycle Initiative: Background, Aims and Scope. Inter J Life Cycle Assess. Vol. 7-4(2002), pp.192-195.

DOI: 10.1007/bf02978872

Google Scholar

[13] H. Xia in: Study on prototype system for green electronic products life cycle assessment. Huazhong University of Science and Technology. (2007).

Google Scholar

[14] OECD in: Towards Sustainable Development: Environmental Indicators. Organisation for Economic Co-operation and Development, Paris, (1998), p.129.

Google Scholar

[15] OECD in: Environmental Indicators for Agriculture: Volume 1Concepts and Frameworks. Organisation for Economic Cooperation and Development, Paris, (1999), p.45.

Google Scholar