Product development organizations are unwilling to compromise product functionality, unit cost, or time to market in order to create products that have less environmental impact than that required by regulations. Thus, designers may face a conflict between improving product functionality and reducing environmental impact. The design for environment (DfE) tools currently available are inadequate with respect to helping designers determine how to resolve this conflict during the conceptual design phase. Design-by-analogy is a promising conceptual design approach for this problem. Examples of products that simultaneously reduce environmental impact and improve product functionality can inspire designers to do likewise. The challenges are to generate the relevant knowledge and to organize it in an accessible DfE tool. This paper describes an approach for generating and organizing this knowledge, an analysis of successful products, and a table of successful designs.
Issue Section:
Research Papers
1.
Alexander
, J.
, 2007, “Environmental Sustainability Versus Profit Maximization: Overcoming Systemic Constraints on Implementing Normatively Preferable Alternatives
,” J. Bus. Ethics
0167-4544, 76
(2
), pp. 155
–162
.2.
Matsushita Group
, 2005, “Factor X: Aiming for Harmonious Coexistence Between Lifestyles and the Global Environment
,” http://panasonic.co.jp/eco/en/factor_x/factor2005e.pdfhttp://panasonic.co.jp/eco/en/factor_x/factor2005e.pdf3.
Toshiba Group
, 2006, “A New Indicator for Products: Factor T
,” http://www.toshiba.co.jp/env/en/products/img/FactorT_E.pdfhttp://www.toshiba.co.jp/env/en/products/img/FactorT_E.pdf4.
Brown
, W.
, 2009, “Fantasy Ride’s Technology Could Trickle Down
,” Washington Post Online, http://www.washingtonpost.com/wp-dyn/content/article/2009/10/09/AR2009100903234.htmlhttp://www.washingtonpost.com/wp-dyn/content/article/2009/10/09/AR2009100903234.html5.
Linsey
, J. S.
, Laux
, J.
, Clauss
, E. F.
, Wood
, K. L.
, and Markman
, A. B.
, 2007, “Effects of Analogous Product Representation on Design-by-Analogy
,” International Conference on Engineering Design
, Paris, Aug. 28–31.6.
Handfield
, R. B.
, Melnyk
, S. A.
, Calantone
, R. J.
, and Curkovic
, S.
, 2001, “Integrating Environmental Concerns Into the Design Process: The Gap Between Theory and Practice
,” IEEE Trans. Eng. Manage.
0018-9391, 48
(2
), pp. 189
–208
.7.
Fiksel
, J.
, 1996, Design for Environment: Creating Eco-Efficient Products and Processes
, McGraw-Hill
, New York
.8.
Bras
, B.
, 1997, “Incorporating Environmental Issues in Product Design and Realization
,” Industry and Environment
, 20
(1–2
), pp. 5
–13
; see http://www.unep.fr/media/review/ie_home.htmhttp://www.unep.fr/media/review/ie_home.htm.9.
Ashley
, S.
, 1993, “Designing for the Environment
,” Mech. Eng. (Am. Soc. Mech. Eng.)
0025-6501, 115
(3
), pp. 53
–55
.10.
Fitzgerald
, D. P.
, Herrmann
, J. W.
, Sandborn
, P. A.
, Schmidt
, L. C.
, and Gogoll
, T. H.
, 2007, “Design for Environment (DfE): Strategies, Practices, Guidelines, Methods, and Tools
,” Environmentally Conscious Mechanical Design
, M.
Kutz
, ed., Wiley
, Hoboken, NJ
.11.
Fitzgerald
, D. P.
, Herrmann
, J. W.
, Sandborn
, P. A.
, Schmidt
, L. C.
, and Gogoll
, T. H.
, 2008, “Constructing a Product Design for Environment Process
,” Handbook on Performability Engineering
, K. B.
Misra
, ed., Springer
, New York
.12.
Fitzgerald
, D. P.
, Herrmann
, J. W.
, Sandborn
, P. A.
, Schmidt
, L. C.
, and Gogoll
, T. H.
, 2005, “Beyond Tools: a Design for Environment Process
,” International Journal of Performability Engineering
0973-1318, 1
(2
), pp. 105
–120
.13.
Ramaswamy
, S.
, 1998, A Survey of DFM Methods
, Arizona State University
, Tempe, AZ
.14.
Lenox
, M.
, King
, A.
, and Ehrenfeld
, J.
, 2000, “An Assessment of Design-for-Environment Practices in Leading US Electronics Firms
,” Interfaces
0092-2102, 30
(3
), pp. 83
–94
.15.
Kutz
, M.
, 2007, “Life-Cycle Design
,” Environmentally Conscious Mechanical Design
, M.
Kutz
, ed., Wiley
, Hoboken, NJ
.16.
Devanathan
, S.
, Ramanujan
, D.
, Bernstein
, W. Z.
, Zhao
, F.
, and Ramani
, K.
, 2010, “Integration of Sustainability Into Early Design Through the Function Impact Matrix
,” ASME J. Mech. Des.
0161-8458, 132
(8
), p. 081004
.17.
Klahr
, D.
, 2000, Exploring Science: The Cognition and Development of Discovery Processes
, MIT
, Cambridge, MA
.18.
Howard
, T.
, Culley
, S.
, and Dekoninck
, E.
, 2008, “Creative Stimulation in Conceptual Design: An Analysis of Industrial Case Studies
,” ASME
Paper No. DETC2008-49672.19.
Tseng
, I.
, Moss
, J.
, Cagan
, J.
, and Kotovsky
, K.
, 2008, “Overcoming Blocks in Conceptual Design: The Effects of Open Goals and Analogical Similarity on Idea Generation
,” ASME
Paper No. DETC2008-49276.20.
Chiu
, I.
, and Shu
, L. H.
, 2008, “Effects of Dichotomous Lexical Stimuli in Concept Generation
,” ASME
Paper No. DETC2008-49372.21.
22.
Hipple
, J.
, 2004, “TRIZ: A New Approach to Inventive Problem Solving
,” http://www.innovation-triz.com/papers/perspective.dochttp://www.innovation-triz.com/papers/perspective.doc23.
Shulyak
, L.
, 2009, “Introduction to TRIZ
,” http://www.aitriz.org/articles/40p_triz.pdfhttp://www.aitriz.org/articles/40p_triz.pdf24.
“
TRIZ Patterns of Evolution of Technological Systems
,” http://www.trizexperts.net/evolutionpatterns.htmhttp://www.trizexperts.net/evolutionpatterns.htm25.
Altshuller
, G.
, 1999, Innovation Algorithm: TRIZ, Systematic Innovation, and Technical Creativity
, Technical Innovation Center, Inc.
, Worcester, MA
.26.
Webb
, A.
, 2002, “TRIZ: An Inventive Approach to Invention
,” Eng. Manage. J.
1042-9247, 12
(3
), pp. 117
–124
.27.
Liu
, C. -C.
, and Chen
, J. L.
, 2001, “Development of Product Green Innovation Design Method
,” Second International Symposium on Environmentally Conscious Design and Inverse Manufacturing
, Tokyo, Japan, Dec. 11–15, pp. 168
–173
.28.
Chang
, H. -T.
, and Chen
, J. L.
, 2003, “Eco-Innovative Examples for 40 TRIZ Inventive Principles
,” The TRIZ Journal
, pp. 1
–16
; see http://www.triz-journal.com/archives/2003/08/a/01.pdfhttp://www.triz-journal.com/archives/2003/08/a/01.pdf.29.
Low
, M. K.
, Lamvik
, T.
, Walsh
, K.
, and Myklebust
, O.
, 2000, “Product to Service Eco-Innovation: The TRIZ Model of Creativity Explored
,” Proceedings of the 2000 IEEE International Symposium on Electronics and the Environment
, San Francisco, CA, May 8–10, pp. 209
–214
.30.
Jones
, E.
, and Harrison
, D.
, 2000, “Investigating the Use of TRIZ Tools in Eco-Innovation
,” http://www.triz-journal.com/archives/2000/09/b/index.htmhttp://www.triz-journal.com/archives/2000/09/b/index.htm31.
Kobayashi
, N.
, and Aoyama
, A.
, 2004, “Design for Environment (DfE) Methodology Using Novel VE-Based Product and Process Model, and TRIZ-Based Innovation Principles in Consideration of Product Lifecycle
,” Sixth International Conference on Foundations of Computer-Aided Process Design
, Princeton, NJ, Jul. 11–16, pp. 283
–286
.32.
Sakao
, T.
, 2007, “A QFD-centered Design Methodology for Environmentally Conscious Product Design
,” Int. J. Prod. Res.
0020-7543, 45
(18
), pp. 4143
–4162
.33.
Desimone
, L. D.
, and Popoff
, F.
, 2000, Eco-Efficiency: The Business Link to Sustainable Development
, MIT
, Cambridge, MA
.34.
Domb
, E.
, 1998, “The 39 Features of Altshuller’s Contradiction Matrix
,” The TRIZ Journal
, see http://www.triz-journal.com/archives/1998/11/d/index.htmhttp://www.triz-journal.com/archives/1998/11/d/index.htm.35.
United States Patent and Trademark Office
, 2000, “Types of Patents
,” http://www.uspto.gov/go/taf/patdesc.htmhttp://www.uspto.gov/go/taf/patdesc.htm36.
Nigel’s Eco-Store
, “About Nigel’s Eco Store
,” http://www.nigelsecostore.com/acatalog/about_us.htmlhttp://www.nigelsecostore.com/acatalog/about_us.htmlCopyright © 2010
by American Society of Mechanical Engineers
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