Policymakers, consumers, and industry leaders are increasingly concerned about the environmental impacts of modern products. In response, product designers seek simple and effective methods for lowering the environmental footprints of their concepts. Design for environment (DfE) is a field of product design methodology that includes tools, methods, and principles to help designers reduce environmental impact. The most powerful and well-known tool for DfE is life cycle assessment (LCA). LCA requires a fully specified design, however, which makes it applicable primarily at the end of the design process. Because the decisions with the greatest environmental impact are made during early design stages when data for a comprehensive LCA are not yet available, it is important to develop DfE tools that can be implemented in the early conceptual and embodiment design stages. Based on a broad critical review of DfE literature and best practices, a set of 76 DfE guidelines are compiled and reconciled for use in early stage design of products with minimal environmental impact. Select guidelines are illustrated through examples, and several strategies for using the guidelines are introduced.
Issue Section:
Design Theory and Methodology
Keywords:
Design for the environment,
Life cycle analysis,
Product design,
Sustainable design,
Design
Topics:
Design
References
1.
Cuerva
, M. C.
, Triguero-Cano
, Á.
, and Córcoles
, D.
, 2014
, “Drivers of Green and Non-Green Innovation: Empirical Evidence in Low-Tech SMES
,” J. Cleaner Prod.
, 68
, pp. 104
–113
.2.
de Medeiros
, J. F.
, Ribeiro
, J. L. D.
, and Cortimiglia
, M. N.
, 2014
, “Success Factors for Environmentally Sustainable Product Innovation: A Systematic Literature Review
,” J. Cleaner Prod.
, 65
, pp. 76
–86
.3.
Ramani
, K.
, Ramanujan
, D.
, Bernstein
, W. Z.
, Zhao
, F.
, Sutherland
, J.
, Handwerker
, C.
, Choi
, J.-K.
, Kim
, H.
, and Thurston
, D.
, 2010
, “Integrated Sustainable Lifecycle Design: A Review
,” ASME J. Mech. Des.
, 132
(9
), p. 091004
.4.
Fiksel
, J.
, 2011
, Design for Environment: A Guide to Sustainable Product Development
, McGraw-Hill
, New York
.5.
Fitzgerald
, D. P.
, Herrmann
, J. W.
, and Schmidt
, L. C.
, 2010
, “A Conceptual Design Tool for Resolving Conflicts Between Product Functionality and Environmental Impact
,” ASME J. Mech. Des.
, 132
(9
), p. 091006
.6.
Byggeth
, S.
, and Hochschorner
, E.
, 2006
, “Handling Trade-Offs in Ecodesign Tools for Sustainable Product Development and Procurement
,” J. Cleaner Prod.
, 14
(15–16
), pp. 1420
–1430
.7.
ISO 14040:2006
, 2006
, Environmental Management, Life Cycle Assessment, Principles and Framework
, International Organization for Standardization
, Geneva, Switzerland
.8.
Allenby
, B. R.
, 2000
, “Implementing Industrial Ecology: The AT&T Matrix System
,” Interfaces (Providence)
, 30
(3
), pp. 42
–54
.9.
Allenby
, B. R.
, and Graedel
, T. R.
, 1995
, Industrial Ecology
, Prentice Hall
, Englewood Cliffs, NJ
.10.
Ayres
, R. U.
, 1995
, “Life Cycle Analysis: A Critique
,” Resour. Conserv. Recycl.
, 14
(95
), pp. 199
–223
.11.
Reap
, J.
, Roman
, F.
, Duncan
, S.
, and Bras
, B.
, 2008
, “A Survey of Unresolved Problems in Life Cycle Assessment, Part 1: Goal and Scope and Inventory Analysis
,” Int. J. Life Cycle Assess.
, 13
(4
), pp. 290
–300
.12.
Reap
, J.
, Roman
, F.
, Duncan
, S.
, and Bras
, B.
, 2008
, “A Survey of Unresolved Problems in Life Cycle Assessment, Part 2: Impact Assessment and Interpretation
,” Int. J. Life Cycle Assess.
, 13
(5
), pp. 374
–388
.13.
Bras
, B.
, 2013
, “Recurring and Unresolved Problems in Sustainable Design
,” ASME
Paper No. DETC2013-13459.14.
Kota
, S.
, and Chakrabarti
, A.
, 2010
, “A Method for Estimating the Degree of Uncertainty With Respect to Life Cycle Assessment During Design
,” ASME J. Mech. Des.
, 132
(9
), p. 091007
.15.
Pahl
, G.
, and Beitz
, W.
, 1999
, Engineering Design: A Systematic Approach
, Springer-Verlag
, London
.16.
17.
Royal Melbourne Institute of Technology (RMIT)
, 2001
, “Aiming for Sustainable Product Development: Electrical and Electronic Products
,” Last accessed Aug. 20, 2001, http://www.cfd.rmit.edu.au/18.
Oehlberg
, L.
, Bayley
, C.
, Hartman
, C.
, and Agogino
, A.
, 2012
, “Mapping the Life Cycle Analysis and Sustainability Impact of Design for Environment Principles
,” Leveraging Technology for a Sustainable World
, Springer
, Berkeley, CA
, pp. 221
–226
.19.
Telenko
, C.
, Seepersad
, C. C.
, and Webber
, M. E.
, 2008
, “A Compilation of Design for Environment Principles and Guidelines
,” ASME
Paper No. DETC2008-49651.20.
Lewis
, H.
, and Gertsakis
, J.
, 2001
, Design + Environment: A Global Guide to Designing Greener Goods
, Greenleaf Publishing
, Sheffield, UK
.21.
Crul
, M.
, and Diehl
, J.
, 2006
, “Design for Sustainability: A Practical Approach for Developing Economies
,” Last accessed Aug. 1, 2015, http://www.d4s-de.org/22.
Royal Melbourne Institute of Technology (RMIT)
, 1997
, “Introduction to EcoReDesign: Improving the Environmental Performance of Manufactured Products
,” Last accessed Jan. 1, 2008, http://www.cfd.rmit.edu.au/23.
Johns
, N.
, 2004
, EcoDesign Innovation Professional Practice Guidelines
, Design Institute of Aurstralia Industrial Design
, Melbourne, VIC
.24.
Srivastava
, J.
, and Shu
, L. H.
, 2013
, “Encouraging Resource-Conscious Behavior Through Product Design: The Principle of Discretization
,” ASME J. Mech. Des.
, 135
(6
), p. 061002
.25.
Conyers, A., 2009
, “Introduction to EcoReDesign: Improving the Environmental Performance of Manufactured Products
,” RMIT University, Melbourne, Victoria, Australia, http://mams.rmit.edu.au/n821v5zy4iq3.pdf26.
Royal Melbourne Institute of Technology (RMIT)
, 2001
, “Aiming for Sustainable Product Development: Furniture
,” Last accessed May 1, 2015, http://mams.rmit.edu.au/27.
Royal Melbourne Institute of Technology (RMIT)
, 2001
, “Aiming for Sustainable Product Development: Packaging
,” Last accessed Aug. 20, 2001, http://www.cfd.rmit.edu.au/, pp. 1
–5
.28.
Collado-ruiz
, D.
, Bastante-ceca
, M. J.
, Viñoles-cebolla
, R.
, and Capuz-Rizo
, S. F.
, 2007
, “Identification of Common Strategies for Different Electric and Electronic Equipment in Order to Optimize Their End-of-Life
,” International Conference on Engineering Design
, Paris, France, Paper No. 244.29.
VOLVO Group
, 2005
, Volvo Standards 100-0002 and 100-0003: Black and Grey Lists.30.
White
, P.
, 1995
, Green Pages, Guideline for Ecological Design
, Philips Electronics NV, Philips Corporate Design
, Eindhoven, The Netherlands.31.
Meinders
, H. C.
, 1997
, Point of No Return
, Philips Electronics NV
, Eindhoven, The Netherlands.32.
Siemens
, 2000
, “Product Design, Recycling, Environmental Protection, Ecological Compatibility, Product Development
,” Last accessed Jan. 1, 2008, http://www.greenchain.net33.
Industry Council for Electronic Equipment Recycling (ICER)
, 2008
, “WEEE and ROHS Legislation
,” Last accessed Aug. 20, 2001, http://www.icer.org.uk/34.
Europa
, “EU Eco-Label
,” European Commission, Last accessed May 20, 2005, http://ec.europa.eu/environment/ecolabel35.
McDonough
, B.
, 2015
, “Cradle to Cradle Certification
,” Last accessed Feb. 5, 2015, http://www.c2ccertified.com36.
Environmental Protection Agency
, 2015
, “Energy Star
,” Last accessed Mar. 1, 2014, http://www.energystar.gov/37.
U.S. Green Building Council
, 2015
, “LEED: Leadership in Energy and Environmental Design
,” Last accessed Mar. 1, 2015, http://www.usgbc.org/LEED38.
Zimmerman
, J. B.
, and Anastas
, P. T.
, 2003
, “Design Through the 12 Principles of GREEN Engineering
,” Environ. Sci. Technol.
, 37
(5
), pp. 94
–101
.39.
McDonough
, W.
, Braungart
, M.
, Anastas
, P. T.
, and Zimmerman
, J. B.
, 2003
, “Applying the Principles of GREEN Engineering to Cradle-to-Cradle Design
,” Environ. Sci. Technol.
, 37
(23
), pp. 434
–441
.40.
Braungart
, M.
, McDonough
, W.
, and Bollinger
, A.
, 2007
, “Cradle-to-Cradle Design: Creating Healthy Emissions—A Strategy for Eco-Effective Product and System Design
,” J. Cleaner Prod.
, 15
, pp. 1337
–1348
.41.
Luttropp
, C.
, and Lagerstedt
, J.
, 2006
, “EcoDesign and The Ten Golden Rules: Generic Advice for Merging Environmental Aspects Into Product Development
,” J. Cleaner Prod.
, 14
, pp. 1396
–1408
.42.
Brezet
, H.
, and van Hemel
, C.
, 1997
, EcoDesign: A Promising Approach to Sustainable Production and Consumption
, United Nations Environmental Program (UNEP)
, Paris, France
.43.
Vezzoli
, C.
, and Sciama
, D.
, 2006
, “Life Cycle Design: From General Methods to Product Type Specific Guidelines and Checklists: A Method Adopted to Develop a Set of Guidelines/Checklist Handbook for the Eco-Efficient Design of NECTA Vending Machines
,” J. Cleaner Prod.
, 14
, pp. 1319
–1325
.44.
Pigosso
, D. C. A.
, Rozenfeld
, H.
, and McAloone
, T. C.
, 2013
, “Ecodesign Maturity Model: A Management Framework to Support Ecodesign Implementation into Manufacturing Companies
,” J. Cleaner Prod.
, 59
, pp. 160
–173
.45.
Buzan
, T.
, and Buzan
, B.
, 1996
, The Mind Map Book: How to Use Radiant Thinking to Maximize Your Brain’s Untapped Potential
, Penguin Group
, New York
.46.
Fu
, K. K.
, Yang
, M. C.
, and Wood
, K. L.
, 2015
, “Design Principles: The Foundation of Design
,” ASME
Paper No. DETC2015-4615.47.
Stuart
, J. A.
, and Sommerville
, R. M.
, 1998
, “Materials Selection for Life Cycle Design
,” IEEE
International Symposium on Electronics and the Environment
, Oak Brook, IL, May 4–6, pp. 151
–158
.48.
Giudice
, F.
, La Rosa
, G.
, and Risitano
, A.
, 2006
, Product Design for the Environment: A Life Cycle Approach
, Taylor and Francis Group LLC
, Boca Raton, FL
.49.
Abele
, E.
, Anderl
, R.
, and Birkhofer
, H.
, 2005
, Environmentally-Friendly Product Development: Methods and Tools
, Springer Science + Business Media
, London
.50.
Wood
, K. L.
, and Otto
, K. N.
, 2001
, Product Design: Techniques in Reverse Engineering and New Product Development
, Prentice Hall
, Upper Saddle River, NJ
.51.
Kriwet
, A.
, Zussman
, E.
, and Seliger
, G.
, 1995
, “Systematic Integration of Design-for-Recycling Into Product Design
,” Int. J. Prod. Econ.
, 38
(1
), pp. 15
–22
.52.
Fiksel
, J.
, 1996
, Design for Environment: Creating Eco-Efficient Products and Processes
, McGraw-Hill
, New York
.53.
Koh
, S.
, Lee
, S.
, Chang
, M.
, Liang
, H.
, Lee
, S.
, and Boo
, S.
, 2007
, “Study on the Guideline for Analyzing Eco Design Value System and Establishing Product Design Strategy
,” International Association of Societies of Design Research
, Hong Kong, China.54.
Telenko
, C.
, and Seepersad
, C. C.
, 2010
, “A Methodology for Identifying Environmentally Conscious Guidelines for Product Design
,” ASME J. Mech. Des.
, 132
(9
), p. 091009
.55.
Srivastava
, J.
, and Shu
, L. H.
, 2013
, “Affordances and Product Design to Support Environmentally Conscious Behavior
,” ASME J. Mech. Des.
, 135
(10
), p. 101006
.56.
MacDonald
, E. F.
, and She
, J.
, 2015
, “Seven Cognitive Concepts for Successful Eco-Design
,” J. Cleaner Prod.
, 92
, pp. 23
–36
.57.
Geelen
, D.
, Brezet
, H.
, Keyson
, D.
, and Boess
, S.
, 2010
, “Gaming for Energy Conservation in Households
,” Conference of the European Roundtable on Sustainable Consumption and Production
, Delft, The Netherlands, Oct. 25–29.58.
Dowie
, T.
, 1994
, “Green Design
,” World Cl. Des. Manuf.
, 1
(4
), pp. 32
–38
.59.
60.
Xerox Corporation
, 2010
, “The Environmental Merits of Xerox Manufacturing
,” Xerox North America Manufacturing Brochure, Last accessed May 28, 2015, http://www.xerox.com/downloads/usa/en/e/EHS_ManufactureBrochure_072710_LR.pdf61.
King
, A.
, Barker
, S.
, and Cosgrove
, A.
, 2007
, “Remanufacturing at Xerox: Evaluating the Process to Establish Principles for Better Design
,” International Conference on Engineering Design
, Paris, France, Paper No. 155.62.
Graham
, M.
, Slocum
, A.
, and Sanchez
, R. M.
, 2007
, “Teaching High School Students and College Freshmen Product Development by Deterministic Design With PREP
,” ASME J. Mech. Des.
, 129
(7
), pp. 677
–681
.63.
Xerox Corporation
, 2009
, “Global Waste Prevention Through Xerox Green World Alliance
,” 2009 Representative Global Citizenship, Last accessed May 28, 2015, http://www.xerox.com/corporate-citizenship-2009/xerox-report/waste-prevention.html64.
Shinkawa, O., Fujisawa, T., and Uetake, A.
, 2000
, “Power-Generating Device, Charging Method and Clocking Device
,” U.S. Patent 6154422.65.
Bitters Co.
, 2008
, “Floating Key Rings
,” Last accessed Jan. 1, 2008, http://www.seattlemet.com/style-and-shopping/articles/summer-clothes-accessories-061066.
67.
Mcaloone
, T. C.
, and Andreasen
, M. M.
, 2004
, “Design for Utility, Sustainability, and Societal Virtues: Developing Product Service Systems
,” International Design Conference
, Durovnik, Croatia, pp. 1545
–1552
.68.
Gutowski
, T. G.
, Sahni
, S.
, Boustani
, A.
, and Graves
, S. C.
, 2011
, “Remanufacturing and Energy Savings
,” Environ. Sci. Technol.
, 45
(10
), pp. 4540
–4547
.69.
IKEA Website
, 2015
, “POÄNG Chair Cushion, Robust Glose Black
,” Last accessed Aug. 1, 2015, http://www.ikea.com/us/en/catalog/products/70239456/70.
Ford Motor Company
, 2003
, “2003 Ford Model U Concept
,” Automobiles Review, Last accessed May 1, 2015, http://www.automobilesreview.com/71.
Hritz
, J.
, 2003
, “Ford model U at 2003 Detroit Auto Show
,” Wikimedia Commons.72.
Baeriswyl
, M. C.
, and Eppinger
, S. D.
, 2014
, “Teaching Design for Environment in Product Design Classes
,” International Conference on Engineering Design
, Copenhagen, Denmark, pp. 140
–150
.73.
Ulrich
, K.
, and Eppinger
, S.
, 1995
, Product Design and Development
, McGraw-Hill/Irwin
, New York.74.
Van Hemel
, C.
, 1998
, “Ecodesign Empirically Explored: Design for Environment in Dutch Small and Medium Sized Enterprises
,” Ph.D. thesis, Technische Universiteit Delft, Delft, Netherlands.75.
Bump
, G. P.
, 1913
, “Means for Fastening Paper Sheets
,” U.S. Patent 1,065,904
.76.
The Good Store
, 2015
, “Stapless Stapler
,” Last accessed Oct. 17, 2015, http://www.thegoodstore.com.au/d133-108/stapless-stapler/77.
Vallet
, F.
, Eynard
, B.
, Millet
, D.
, Mahut
, S. G.
, Tyl
, B.
, and Bertoluci
, G.
, 2013
, “Using Eco-Design Tools: An Overview of Experts’ Practices
,” Des. Stud.
, 34
(3
), pp. 345
–377
.78.
Evrard
, D.
, and Brissaud
, D.
, 2012
, “Energy Efficiency Design Method for Electrical and Electronic Equipments
,” ASME
Paper No. ESDA2012-82538.79.
Vargas Hernandez
, N.
, Okudan Kremer
, G.
, Schmidt
, L. C.
, and Acosta Herrera
, P. R.
, 2012
, “Development of an Expert System to Aid Engineers in the Selection of Design for Environment Methods and Tools
,” Expert Syst. Appl.
, 39
(10
), pp. 9543
–9553
.80.
O’Rourke
, J. M.
, and Seepersad
, C. C.
, 2013
, “Examining Efficiency in BioInspired Design
,” ASME
Paper No. DETC2013-13147.81.
Midžić
, I.
, Štorga
, M.
, and Marjanović
, D.
, 2014
, “Using Ecodesign Guidelines for Concept Evaluation: Findings From an Experiment
,” Design 2014
, Cavtat, Croatia, pp. 313
–322
.82.
Reap
, J.
, and Bras
, B.
, 2014
, “A Method of Finding Biologically Inspired Guidelines for Environmentally Benign Design and Manufacturing
,” ASME J. Mech. Des.
, 136
(11
), p. 111110
.Copyright © 2016 by ASME
You do not currently have access to this content.
