Abstract
Eco-design is used as a tool in the manufacturing and services sectors for improving the sustainability of products by integrating environmental aspects into the design stage, where most of the product impacts are determined. Laws (e.g., EU eco-design directive) and international schemes (e.g., ISO 14006) have encouraged the use of eco-design by companies; in addition, the literature has reported advances in methodology and widespread case studies in different economic sectors. This chapter aims to show a combined design for environment (DfE) and life cycle assessment (LCA) methodology for the implementation of eco-design by companies. The steps and tools of the methodology, as well as the most common strategies, are described. Product carbon footprint (PCF) plays an important role in the methodology in two main ways. First, PCF is one of the indicators that can be calculated with LCA, which has become a common environmental indicator used by companies, not only as quantitative data of the current environmental performance but also as a benchmark for further improvements. Second, PCF is used as a strategy for environmental communication to consumers through eco-labeling. The main strength of the carbon footprint is that stakeholders (business and consumers) are aware of and understand its meaning due to the presence of carbon emissions and global warming in mass media and public science studies.
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References
Almeida CMVB, Rodrigues AJM, Bonilla SH, Giannetti BF (2010) Emergy as a tool for Ecodesign: evaluating materials selection for beverage packages in Brazil. J Clean Prod 18(1):32–43
Alves C, Ferrão PMC, Silva AJ, Reisa LG, Freitasa M, Rodrigues LB, Alves DD (2010) Ecodesign of automotive components making use of natural jute fiber composites. J Clean Prod 18(4):313–327
Aoe T (2007) Eco-efficiency and ecodesign in electrical and electronic products. J Clean Prod 15(5):1406–1414
Autoliv Sverige AB (1999) Konstruera för livet e En miljöhandledning för konstruktörer [in Swedish]
Baumann H, Tillman AM (2004) The Hitch Hiker’s Guide to LCA: and orientation in life cycle assessment methodology and application. Studentlitteratur, Lund
Bergendahl CG, Hedemalm P, Segerberg T (1994) Handbok i miljöanpassad konstruktion av elektronikprodukter. Institutet för Verkstadsteknisk Forskning, Mölndal
BMIF (2000) BMIF environmental code of practice, 2nd edn. British Marine Industries Federation, Surrey
Boks C (2006) The soft side of ecodesign. J Clean Prod 14(15–16):1346–1356
Boothroyd G, Dewhurst P, Knight W (1994) Product design for manufacture and assembly. Marcel Deckel, New York
Borchardt M, Wendt MH, Pereira GM, Sellitto MA (2011) Redesign of a component based on ecodesign practices: environmental impact and cost reduction achievements. J Clean Prod 19(1):49–57
Bovea MD, Pérez-Belis V (2012) A taxonomy of ecodesign tools for integrating environmental requirements into the product design process. J Clean Prod 20(1):61–71
Brezet H, van Hemel C (1997) EcoDesign: a promising approach to sustainable production and consumption. UNEP, France
BSI (2011) PAS 2050: specification for the assessment of the life cycle greenhouse gas emissions of goods and services. BSI, London
Casamayor JL, Su D (2013) Integration of eco-design tools into the development of eco-lighting products. J Clean Prod 47:32–42
Clarimón L, Cortés A, Aragonés E (2009) Ecodiseño. Estado De La Cuestión. Prospectiva Del Ecodiseño Para Su Impulso En Aragon. Observatorio de Medio Ambiente de Aragón, Zaragoza
CPRAC (2012) Greening the entrepreneurial spirit of mediterraneans—training program on green entrepreneurship and eco-design. Regional Centre for Cleaner Production, Barcelona
Cramer J (1997) Towards innovative more eco-efficient product strategies. J Sustain Prod Des 1:7–16
Cser L, István Z (1996) Assembly and disassembly—an unified approach? In: Proceedings of the 28th CIRP international seminar on manufacturing systems, Johannesburg, pp 61–65
DTU (2005) Institute for product development DTU Denmark and Danish Toxicology Center. http://www.ecodesignguide.dk.2005-05e15
Esty D, Winston A (2006) Green to gold: how smart companies use environmental strategies to innovate, create value, and build competitive advantage. Yale University Press, Yale
European Comission (2003) Communication from the comission to the council and the European Parliament: integrated product policy. COM (2003) 302
European Council (1992) Council directive 92/75/ECC of 22 September 1992 on the indication by labelling and standard product information of the consumption of energy and other resources by household appliances
European Council (1994) Directive 94/62/EC of the European Parliament and of the Council of 20 December 1994 on packaging and packaging waste
European Council (1996) Directive 96/57/EC of the European Parliament and of the Council of 3 September 1996 on energy efficiency requirements for household electric refrigerators, freezers and combinations thereof
European Council (2000a) Directive 2000/55/EC of the European Parliament and of the Council of 18 September 2000 on energy efficiency requirements for ballasts for fluorescent lighting
European Council (2000b) Directive 2000/53/EC of the European Parliament and of the Council of 18 September 2000 on end-of-life vehicles
European Council (2004) Directive 2004/12/EC of the European Parliament and of the Council of 11 February 2004 amending directive 94/62/EC on packaging and packaging waste—statement by the council, the commission and the European parliament
European Council (2005a) Directive 2005/32/EC of the European Parliament and of the Council of 6 July 2005 establishing a framework for the setting of eco-design requirements for energy-using products and amending council directive 92/42/EEC and directives 96/57/EC and 2000/55/EC
European Council (2005b) Directive 2005/20/EC of the European Parliament and of the Council of 9 March 2005 amending directive 94/62/EC on packaging and packaging waste
European Council (2009a) Directive 2009/125/EC of the European Parliament and of the Council of 21 October 2009 establishing the framework for the setting of eco-design requirements for energy-related products
European Council (2009b) Regulation (EC) No 219/2009 of the European Parliament and of the Council of 11 March 2009 adapting a number of instruments subject to the procedure referred to in Article 251 of the treaty to council decision 1999/468/EC with regard to the regulatory procedure with scrutiny—adaptation to the regulatory procedure with scrutiny—part two
European Council (2009c) Regulation (EC) no 66/2010 of the European Parliament and of the Council of 25 November 2009 on the EU Ecolabel
European Council (2010) Directive 2010/30/EU of the European Parliament and of the Council of 19 May 2010 on the indication by labelling and standard product information of the consumption of energy and other resources by energy-related products
Fundació La Caixa (2007) Ecodiseño. Área de Medio Ambiente y Ciencia—Fundació La Caixa, Barcelona
González-García S, Garcia Lozano R, Estévez J, Pascual R, Moreira MT, Gabarrell X, Rieradevall J, Feijoo G (2012a) Environmental assessment and improvement alternatives of a ventilated wooden wall from LCA and DfE perspective. Int J LCA 17(4):432–443
González-García S, García Lozano R, Buyo P, Pascual RC, Gabarrell X, Rieradevall J, Moreira MT, Feijoo G (2012b) Eco-innovation of a wooden based modular social playground: application of LCA and DfE methodologies. J Cleaner Production 27:21–31
González-García S, García Lozano R, Moreira MT, Gabarrell X, Rieradevall J, Feijoo G, Murphy RJ (2012c) Eco-innovation of a wooden childhood furniture set: an example of environmental solutions in the wood sector. Sci Total Environ 426:318–326
González-García S, Gasol CM, Lozano RG, Moreira MT, Gabarrell X, Rieradevall J, Feijoo G (2011a) Assessing the global warming potential of wooden products from the furniture sector to improve their eco-design. Sci Total Environ 410–411:16–25
González-García S, Silva FJ, Moreira MT, Castilla Pascual R, García Lozano R, Gabarrell X, Rieradevall J, Feijoo G (2011b) Combined application of LCA and eco-design for the sustainable production of wood boxes for wine bottles storage. Int J LCA 16(3):224–237
Gottberg A, Morris J, Pollard S, Mark-Herbert C, Cook M (2006) Producer responsibility, waste minimisation and the WEEE directive: case studies in eco-design from the European lighting sector. Sci Total Environ 359(1–3):38–56
Hoffmann M, Kopacek B, Kopacek P, Knoth R (2001) Design for re-use and disassembly. In: Proceedings of second international symposium on environmentally conscious design and inverse manufacturing, Ecodesign’01, Tokyo, 11–15 Dec, 2001, pp 378–381
IHOBE (2000) Manual práctico de ecodiseño. Operativa de implantación en 7 pasos. IHOBE, Bilbao
ISO (1999) ISO 14021: environmental labels and declarations—self-declared environmental claims (Type II environmental labelling). International Organization for Standardization, Geneva
ISO (2000) ISO 14001: environmental management systems. International Organization for Standardization, Geneva
ISO (2002) ISO/TR 14062: Environmental Management—integrating environmental aspects into product design and development. International Organization for Standardization, Geneva
ISO (2006a) ISO 14040: environmental management—life cycle assessment—principles and framework, vol 2006. International Organization for Standardization, Geneva
ISO (2006b) ISO 14064–1: Greenhouse gases—part 1: specification, establish the basic specifications and guidance for certification. International Organization for Standardization, Geneva
ISO (2006c) ISO 14064–1: Greenhouse gases—part 2: specification with guidance at the project level for quantification, monitoring and reporting of greenhouse gas emission reductions or removal enhancements. International Organization for Standardization, Geneva
ISO (2006d) ISO 14064–3: Greenhouse gases—part 3: specification with guidance for the validation and verification of greenhouse gas assertions. International Organization for Standardization, Geneva
ISO (2006e) ISO 14025: environmental labels and declarations—Type III environmental declarations—principles and procedures. International Organization for Standardization, Geneva
ISO (2006f) ISO 14063:2006: environmental management—environmental communication—guidelines and examples. International Organization for Standardization, Geneva
ISO (2011) ISO 14006: environmental management systems—guidelines for incorporating Eco-design. International Organization for Standardization, Geneva
ISO (2013) ISO 14067: Greenhouse gases—Carbon footprint of products—requirements and guidelines for quantification and communication. International Organization for Standardization, Geneva
Jeong IT, Lee KM (2009) Assessment of the ecodesign improvement options using the global warming and economic performance indicators. J Clean Prod 17(13):1206–1213
Knight P, Jenkins J (2008) Adopting and applying eco-design techniques: a practicioner’s perspective. J Clean Prod 17(6):549–558
Le Pochat S, Bertoluci G, Froelich D (2007) Integrating ecodesign by conducting changes in SMEs. J Clean Prod 15(7):671–680
Mathieux F, Rebitzer G, Ferrendier S, Simon M, Froelich D (2001) Ecodesign in the European electr(on)ics industry—an analysis of the current practices based on cases studies—an analysis of the current practices based on cases studies. J Sustain Prod Des 1(4):233–245
Muñoz I, Rieradevall J, Domènech X, Gazulla C (2006) Using LCA to assess eco-design in the automotive sector: case study of a polyolefinic door panel. Int J LCA 11(5):323–334
Okumura S, Morikuni T, Okino N (2001) Life design for remanufacturing durable products. In: Second international symposium on environmentally conscious design and inverse manufacturing, Ecodesign’01, Tokyo, 11–15 Dec 2001, pp 275–280
Oyasato N, Kobayashi H, Haruki K (2001) Development of recyclability evaluation tool. In: Second international symposium on environmentally conscious design and inverse manufacturing, Ecodesign’01, Tokyo, 11–15 Dec 2001, pp 303–306
Pigosso D, Zanette ET, Filho AG, Ometto AR, Rozenfeld H (2010) Ecodesign methods focused on remanufacturing. J Clean Prod 18(1):21–31
Plouffe S, Lanoie P, Berneman C, Vernier MF (2011) Economic benefits tied to ecodesign. J Clean Prod 19(6–7):573–579
Rieradevall J, Bala A, Domenech X, Gazulla C, Milà Canals L (2005) Ecoproducte Ecodisseny. Vol. 4. Barcelona: Museu de les Arts Decoratives. Institut de Cultura. Departament d’Imatge i Producció Editorial, Barcelona
Rieradevall J, Domenech X, Bala A, Gazulla C (2000) Ecodiseño De Envases. El Sector De La Comida Rápida. Elisava edicions, Barcelona
Rieradevall J, Domenech X, Milà Canals L, Gazulla C, Bala A (2003) Household ecoproducts. Environ Educ Guides 16:23
Rodrigo J, Castells F (2002) Electric and electronic: practical eco-design guide. Universitat Rovira I Virgili, Tarragona
Rupérez JA, Vela N, García A (2008) Ecodiseño: Necesida Social y Oportunidad Empresarial. Cuadernos para la Sostenibilidad. Fundación Ecología y Desarrollo (Ecodes), Zaragoza
Seliger G, Mueller K, Perlevitz H (1999), Product and Process Planning for Recycling, in: International symposium on Environmentally Conscious Design and Inverse Manufacturing, Ecodesign’99, Tokyo, 1 – 3 February 1999
Smith J, Wyatt R (2006) Project inception: a performance brief approach. In: Proceedings of CRIOCM 2006 international research symposium on advancement of construction management and real estate vol 1 and 2:29–38
Stevels ALN (1997) Moving companies towards sustainability through ecodesign: conditions for success. J Sustain Prod Des 3:47–55
Tischner U, Schmincke E, Rubik F, Prasler M (2000) How to Do Ecodesign? A guide for environmentally and economically sound design. German Federal Environmental Agency, Dessau-Roßlau
Tischner U, Nickel R (2003) Eco-design in the printing industry Life cycle thinking: Implementation of Eco-design concepts and tools into the routine procedures of companies. J Sustain Prod Des 3(1–2):19–27
Unger N, Schneider F, Salhofer S (2008) A review of ecodesign and environmental assessment tools and their appropriateness for electrical and electronic equipment. Prog Ind Ecol Int J 5(1–2):13–29
van Hemel C, Cramer J (2002) Barriers and stimuli for ecodesign in SMEs. J Clean Prod 10(5):439–453
Westerlund G (1999) Miljöhandledning för konstruktörer. Volvo Personvagnar AB, Göteborg
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Sanyé-Mengual, E., Lozano, R.G., Farreny, R., Oliver-Solà, J., Gasol, C.M., Rieradevall, J. (2014). Introduction to the Eco-Design Methodology and the Role of Product Carbon Footprint. In: Muthu, S. (eds) Assessment of Carbon Footprint in Different Industrial Sectors, Volume 1. EcoProduction. Springer, Singapore. https://doi.org/10.1007/978-981-4560-41-2_1
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