References
- Brezet H, Van Hemel C. 1997. EcoDesign: a promising approach to sustainable production and consumption. Nice (France): UNEP.
- Casamayor JL, Su D. 2021. Investigation of a process to eco-design led lighting products to enhance the adoption of eco-design methods and tools by industry. Sustainability. 13:4512.
- Casamayor JL, Su D, Ren Z. 2018. Comparative life cycle assessment of LED lighting products. Light Res Technol. 50(6):801–826.
- Charter M, Tischner U. 2001. Sustainable solutions: developing products and services for the future. Sheffield (UK): Greenleaf Publishing.
- Dewulf W 2003. A pro-active approach to eco-design: framework and tools [dissertation]. Leuven (Belgium): Catholic University of Leuven.
- Ecoinvent. 2022. Ecoinvent database. Zurich (Switzerland): ecoinvent. [Accessed 2022 Sept 14]. https://ecoinvent.org/.
- European Commission. 2022. ‘Sustainable product policy.’ [Accessed 2022 Mar 14]. https://ec.europa.eu/jrc/en/research-topic/sustainable-product-policy.
- Graedel TE, Allenby BR. 2003. Industrial Ecology. 2nd ed. Hoboken (NJ): Pearson Education Inc.
- GreenDelta. openLCA software. [Accessed 2022 Mar 14]. https://www.openlca.org/.
- Heijungs R, Goedkoop M, Struijs J, Effting S, Sevenster M, Huppes G 2003. Towards a life cycle impact assessment method which comprises category indicators at the midpoint and the endpoint level. Report of the first project phase: design of the new method VROM report. [accessed 2022 Nov 2]. http://www.leidenuniv.nl/cml/ssp/publications/recipe_phase1.pdf.
- Huijbregts MA, Steinmann ZJ, Elshout PM, Stam G, Verones F, Vieira M, Zijp M, Hollander A, van Zelm R. 2017. ReCiPe2016: a harmonised life cycle impact assessment method at midpoint and endpoint level. Int J LCA. 22(2):138–147.
- Illuminating Engineering Society of North America [IESNA]. 2011. TM-21-11 Projecting Long Term Lumen Maintenance of LED Light Sources. New York (NY): IESNA.
- International Organization for Standardization [ISO]. 2006a. Environmental management - Life cycle assessment - Principles and framework. ISO 14040:2006. [Accessed 2022 Mar 14]. http://www.iso.org/iso/catalogue_detail?csnumber=37456.
- International Organization for Standardization [ISO]. 2006b. Environmental management - Life cycle assessment - Requirements and guidelines. ISO 14044:2006. [Accessed 2022 Mar 14]. https://www.iso.org/standard/38498.html.
- Kärnä A. 2002. Environmentally Oriented Product Design: a Guide for Companies in the Electrical and Electronics Industry. 2nd ed. Helsinki (Finland): Federation of Finnish Electrical and Electronic Industry (SET).
- Lehman S. 1993. Umwelt-controlling in der Mobelindustrie. Berlin (Germany): Institut fur Okologische Wirtschaftsforschung.
- Lewis H, Gertsakis J, Sweatman A, Grant T, Morelli N. 2001. Design and environment - a global guide to designing greener goods. Sheffield (UK): Greenleaf Publishing.
- Lindahl M. 2006. Engineering designers’ experience of design for environment: methods and tools and Requirement definitions from an interview study. J Clean Prod. 14:487–496.
- Mcalonee T, Bey N. 2009. Environmental improvement through product development - a guide. Odense (Denmark): Danish Environmental Protection Agency and Confederation of Danish Industry.
- Nielsen PH, Wenzel H. 2002. Integration of environmental aspects in product development: a stepwise procedure based on quantitative life cycle assessment. J Clean Prod. 10:247–257.
- Ona. 2022. Ona ®. [Accessed 2022 Mar 14]. https://onaemotion.com/en/.
- Principi P, Fioretti R. 2014. A comparative life cycle assessment of luminaires for general lighting for the office – compact fluorescent (CFL) vs light emitting diode (LED) - a case study. J Clean Prod. 83:93–107.
- Rodrigo J, Castells F. 2002. Electrical and electronic practical ecodesign guide. Tarragona (Spain): Rovira i Virgili University.
- Schmalz J, Boks C. 2010. Sustainable, user behaviour centered design applying linked-benefits strategies: the logi desk lamp. Knowledge Collaboration & Learning for Sustainable Innovation ERSCP-EMSU Conference; Delft, The Netherlands, October 25-29, 2010.
- Stevels A. 2007. Adventures in EcoDesign of Electronic Products: 1993-2007. Delft, The Netherlands: Delft University of Technology.
- Tähkämö L, Bazzana M, Ravel P, Grannec F, Martinsons C, Zissis G. 2013. Life cycle assessment of light-emitting diode downlight luminaire - a case study. Int J Life Cycle Assess. 18:1009–1018.
- Tähkämö L, Halonen L. 2015. Life cycle assessment of road lighting luminaires – comparison of light-emitting diode and high-pressure sodium technologies. J Clean Prod. 93:234–242.
- Tischner U, Dietz B, Mabelter S. 2000. How to do Ecodesign? A guide for environmentally and economically sound design. Frankfurt (Germany): Verlag form GmbH.
- Vezzoli C, Manzini E. 2008. Design for Environmental Sustainability. London (UK): Springer.
- Wang S, Su D, Wu Y, Chai Z. 2020. Application of life-cycle assessment to the eco-design of LED lighting products. Euro-Mediterr J Environ Integr. 5:41.
- Wenzel H, Hauschild M, Alting L. 1997. Methodology, tools and case studies in product development, Environmental assessment of products. London (UK): Chapman Hall.
- Wimmer W, Züst R, Lee K. 2004. Ecodesign implementation: A systematic guidance on integrating environmental considerations into product development. Dordrecht: Springer.
- Yung WKC, Chan HK, So JHT, Wong DWC, Choi ACK, Yue TM. 2011. A life-cycle assessment for eco-redesign of a consumer electronic product. J Eng Des. 22(2):69–85.
- Yung WKC, Chan HK, Wong DWC, So JHT, Choi ACK, Yue TM. 2012. Eco-redesign of a personal electronic product subject to the energy-using product directive. Int J Prod Res. 50(5):1411–1423.