Abstract
As engineers make decisions on how resources are allocated, used, and disposed in pursuit of a product, they impact sustainability’s triple bottom line of social, environmental, and economic factors. Design for Environment (DfE) principles help engineers identify possible sustainable paths forward. We collected over 300 DfE principles from 29 different sources, including textbooks, academic references, and industry resources on sustainable design. We coded each principle according to where it impacts the Product Lifecycle, and which Sustainability Impacts it addresses. Future work includes eliciting additional DfE principles for sparse categories, and developing DfE tools to inform sustainable decision making.
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References
Elkington, J.: Partnerships from cannibals with forks: The triple bottom line of 21st‐century business. Environmental Quality Management 8(1), 37–51 (1998)
Oehlberg, L., Shelby, R., Agogino, A.: Sustainable Product Design: Designing for Diversity in Engineering Education. IJEE 26(2), 498–498 (2010)
Fiksel, J., Fiksel, J.R.: Design for environment: a guide to sustainable product development. McGraw-Hill Prof. Med./Tech. (2009)
Crow, K.: Design for the Environment (2002)
Telenko, C., Seepersad, C.C., Webber, M.E.: A Compilation of Design for Environment Principles and Guidelines. DETC2008/49651 (2008)
Telenko, C., Seepersad, C.C.: A Methodology for Identifying Environmentally Conscious Guidelines for Product Design. J. Mech. Des. 132(9), 091009–091009 (2010)
Telenko, C., Seepersad, C., Webber, M.E.: A Method for Developing Design for Environment Guidelines for Future Product Design (2009)
Otto, K.N., Wood, K.L.: Product design: techniques in reverse engineering and new product development. Prentice Hall (2001)
Ulrich, K.T., Eppinger, S.D.: Product design and development. McGraw-Hill/Irwin (2004)
Gerber, E., McKenna, A., Hirsch, P., Yarnoff, C.: Learning to Waste and Wasting to Learn? How to Use Cradle to Cradle Principles to Improve the Teaching of Design. International Journal of Engineering Education 26(2), 314–323 (2010)
Székely, F., Knirsch, M.: Responsible Leadership and Corporate Social Responsibility: Metrics for Sustainable Performance. European Management Journal 23(6), 628–647 (2005)
Hutchins, M.J., Sutherland, J.W.: An exploration of measures of social sustainability and their application to supply chain decisions. Journal of Cleaner Production 16(15), 1688–1698 (2008)
Shu-Yang, F., Freedman, B., Cote, R.: Principles and practice of ecological design. Environmental Reviews 12(2), 97–112 (2004)
Carter, C.R., Jennings, M.M.: Social responsibility and supply chain relationships. Transportation Research Part E: Logistics and Transportation Review 38(1), 37–52 (2002)
Bergen, S.D., Bolton, S.M., Fridley, J.L.: Design principles for ecological engineering. Ecological Engineering 18(2), 201–210 (2001)
DTU: Environmental improvement through product development (2009)
UNEP, and Delft University of Technology, D4S - Design for Sustainability
Menter, A., Faludi, J.: Design for Product Lifetime: Quick Reference Guide. In: Autodesk Sustainability Workshop
Faludi, J., Menter, A.: Design for Durability Quick Reference Guide. In: Autodesk Sustainability Workshop
Lunar Design, The Designer’s Field Guide to Sustainability
PRé Consultants, 10 Guidelines for ecodesign
AIGA, The Living Principles: Framework
Rubin, E.: Introduction to Engineering and the Environment. McGraw-Hill Science/Engineering/Math. (2000)
Graedel, T.E., Howard-Grenville, J.A.: Greening the industrial facility: perspectives, approaches, and tools. Springer (2005)
Shedroff, N.: Design is the problem: the future of design must be sustainable. Rosenfeld Media (2009)
Fuad-Luke, A.: The eco-design handbook: a complete sourcebook for the home and office. Thames & Hudson (2009)
Greenwood, T.: Sustainable Design Guide, ESP Design (2004)
Brezet, H., Van Hemel, C.: Ecodesign: A Promising Approach to Sustainable Production and Consumption. United Nations Pubns. (1998)
McDonough, W., Braungart, M.: Cradle to cradle: remaking the way we make things. Macmillan (2002)
Beckman, S.L., Shedroff, N.: Designing Sustainable Solutions: Frameworks and Tools for Considering Sustainability Issues in New Product Development. In: The Handbook of Technology Management. Wiley, Hoboken (2010)
Datschefski, E.: Missing Link Technologies for Sustainability
Gold, R.: The Plenitude: Creativity, Innovation, and Making Stuff. MIT Press (2007)
Anastas, P.T., Zimmerman, J.B.: Design Through the 12 Principles of Green Engineering. Environ. Sci. Technol. 37(5), 94A–101A (2003)
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Oehlberg, L., Bayley, C., Hartman, C., Agogino, A. (2012). Mapping the Life Cycle Analysis and Sustainability Impact of Design for Environment Principles. In: Dornfeld, D., Linke, B. (eds) Leveraging Technology for a Sustainable World. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-29069-5_38
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DOI: https://doi.org/10.1007/978-3-642-29069-5_38
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