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Green manufacturing in machinery industry

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Green manufacturing cuts across every aspect of manufacturing including product development, process technologies, energy consumption and material flow. Becoming green can be viewed as a process where we start using more eco-friendly manufacturing resources that have low embedded energy and come from renewable resources. Green Manufacturing covers the whole life cycle of product, from requirements specification, design, manufacturing, and maintenance to final discarding. Green design is the most significant part of product's life cycle. Term "green" means that design should consider the product's impact on the environment and causes minimal pollution. This term includes such important approaches as design for the environment (DFE), design for disassembly (DFD), and design for recycling (DFR). Manufacturers can think about the end-of-life approaches across a wide range of products they use in production processes, for example, different machines, machine-tools, material handling equipment, cranes, etc. The analysis of current end-of-life practices identifies significant improvements to product design that reduce the impact of manufactured goods on the environment as whole. The scope of this paper is to describe possible product's end-of-life strategies on the basis of material handling equipment case study.
Rocznik
Strony
94--106
Opis fizyczny
Bibliogr. 11 poz., tab., rys
Twórcy
autor
  • Tallinn Technical University, Ehitajate tee 5, 19086, Tallinn, Estonia
autor
  • Tallinn Technical University, Ehitajate tee 5, 19086, Tallinn, Estonia
autor
  • Tallinn Technical University, Ehitajate tee 5, 19086, Tallinn, Estonia
Bibliografia
  • 1. SALVENDY G., 2001, Handbook of Industrial Engineering: Technology and Operation Management, A Wiley-Interscience Publication JOHN WILEY  SONS, INC., New York, ISBN 0-471-33057-4.
  • 2. ROBERT B. POJASEK., 2008, When is Green Manufacturing Green? The Society of Manufacturing Engineers www.sme.org/manufacturingengineering, August.
  • 3. KING A. M., BURGESS S. C., IJOMAH W. L., MCMAHON C. A., 2006, Reducing waste: repair, recondition, remanufacture or recycle? Journal Publication Journal of Sustainable Development, Volume 14/4/257-267.
  • 4. ANDREW M., KING A. M., BURGESS S. C,, IJOMAH W. L., CHRIS A., MCMAHON C. A., 2006, Reducing Waste: Repair, Recondition, Remanufacture or Recycle?" Sustainable Development Sust. Dev. Wiley Intersciens Sustainable Development, Volume 14/4/257-267.
  • 5. CASPER GRAY., MARTIN CHARTER., 2007, Remanufacturing and Product Design. Designing for the 7th Generation, The Centre for Sustainable Design, University College for the Creative Arts, Farnham.
  • 6. Wikipedia, November 2009, reuse.
  • 7. NRC, 2003, Buy Recycled Guidebook. http://www.nrc-recycle.org/brba/Buy_Recycled_Guidebook.pdf.
  • 8. IJOMAH W. L., 2002., A Model-Based Definition of the Generic Remanufacturing Business Process, doctoral thesis, University of Plymouth.
  • 9. LUND R. 1985. Remanufacturing: the Eexperience of the United States and Implications for Developing Countries, UNDP Project Management Report 2, World Bank Technical Paper, 31/24–34.
  • 10. KEOLEIAN, MENEREY, 1993, Life Cycle Design Guidance Manual: Environmental Requirements and the Product System, EPA/600/R-92/226, United States Environmental Protection Agency - Office of Research and Development, Risk Reduction Engineering Laboratory, Cincinnati, OH, 1-129, CSS93-02.
  • 11. BILLATOS S. B., BASALY N. A., 1997, Green Technology and Design for the Environment, Taylor & Francis, New York, NY.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9ce37ab3-4ea7-4245-94ed-376c38f73667
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