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Evaluating the Environmental Dimension of Material Efficiency Strategies Relating to the Circular Economy

Author

Listed:
  • Stuart Walker

    (Dynamics Research Group, University of Sheffield, Sheffield S1 3JD, UK)

  • Nick Coleman

    (Tata Steel, Group Health, Safety & Environment, Swinden Technology Centre, Moorgate, Rotherham S60 3AR, UK)

  • Peter Hodgson

    (Tata Steel, Group Health, Safety & Environment, Swinden Technology Centre, Moorgate, Rotherham S60 3AR, UK)

  • Nicola Collins

    (Tata Steel, Group Health, Safety & Environment, Swinden Technology Centre, Moorgate, Rotherham S60 3AR, UK
    Savills Property Management, 12 Booth Street, Manchester M2 4AW, UK)

  • Louis Brimacombe

    (Tata Steel, Group Health, Safety & Environment, Swinden Technology Centre, Moorgate, Rotherham S60 3AR, UK
    Department of Materials Science, University of Sheffield, Sheffield S1 3JD, UK)

Abstract
Material efficiency is a key element of new thinking to address the challenges of reducing impacts on the environment and of resource scarcity, whilst at the same time meeting service and functionality demands on materials. Directly related to material efficiency is the concept of the Circular Economy, which is based on the principle of optimising the utility embodied in materials and products through the life-cycle. Although materials such as steel, on account of high recycling rates at end-of-life, are amongst the most ‘circular’ of manufactured materials, significant opportunities for greater material efficiency exist, which are yet to be widely implemented. Life Cycle Assessment (LCA) is commonly used to assess the environmental benefits of recovering and recycling materials through the manufacturing supply chain and at end-of-life. Using an example taken from renewable energy generation, this paper explores the correlation between product circularity and the environmental case for strategies designed to improve material efficiency. An LCA-based methodology for accounting for the recovery and reuse of materials from the supply chain and at end-of-life is used as the basis for calculating the carbon footprint benefits of five material efficiency scenarios. The results are compared with a number of proposed material circularity indicators. Two conclusions from this exercise are that (i) LCA methodologies based around end-of-life approaches are well placed for quantifying the environmental benefits of material efficiency and circular economy strategies and (ii) when applying indicators relating to the circularity of materials these should also be supported by LCA-based studies.

Suggested Citation

  • Stuart Walker & Nick Coleman & Peter Hodgson & Nicola Collins & Louis Brimacombe, 2018. "Evaluating the Environmental Dimension of Material Efficiency Strategies Relating to the Circular Economy," Sustainability, MDPI, vol. 10(3), pages 1-14, March.
  • Handle: RePEc:gam:jsusta:v:10:y:2018:i:3:p:666-:d:134206
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    References listed on IDEAS

    as
    1. Marcus Linder & Steven Sarasini & Patricia Loon, 2017. "A Metric for Quantifying Product-Level Circularity," Journal of Industrial Ecology, Yale University, vol. 21(3), pages 545-558, June.
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    11. Michael Saidani & Harrison Kim, 2022. "Nexus Between Life Cycle Assessment, Circularity, and Sustainability Indicators—Part I: a Review," Circular Economy and Sustainability, Springer, vol. 2(3), pages 1143-1156, September.
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    13. A. Kulakovskaya & C. Knoeri & F. Radke & N. U. Blum, 2023. "Measuring the Economic Impacts of a Circular Economy: an Evaluation of Indicators," Circular Economy and Sustainability, Springer, vol. 3(2), pages 657-692, June.
    14. Ionica Oncioiu & Sorinel Căpuşneanu & Mirela Cătălina Türkeș & Dan Ioan Topor & Dana-Maria Oprea Constantin & Andreea Marin-Pantelescu & Mihaela Ștefan Hint, 2018. "The Sustainability of Romanian SMEs and Their Involvement in the Circular Economy," Sustainability, MDPI, vol. 10(8), pages 1-19, August.
    15. Aristea Kounani & Alexandra Pavloudi & Stamatis Aggelopoulos, 2024. "Performance indicators of circular economy in the agriculture and food industry," Environment Systems and Decisions, Springer, vol. 44(2), pages 380-397, June.
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    17. Laura C. Aguilar Esteva & Akshat Kasliwal & Michael S. Kinzler & Hyung Chul Kim & Gregory A. Keoleian, 2021. "Circular economy framework for automobiles: Closing energy and material loops," Journal of Industrial Ecology, Yale University, vol. 25(4), pages 877-889, August.
    18. Edis Glogic & Guido Sonnemann & Steven B. Young, 2021. "Environmental Trade-Offs of Downcycling in Circular Economy: Combining Life Cycle Assessment and Material Circularity Indicator to Inform Circularity Strategies for Alkaline Batteries," Sustainability, MDPI, vol. 13(3), pages 1-12, January.
    19. Alexandra Barón Dorado & Gerusa Giménez Leal & Rodolfo de Castro Vila, 2022. "Environmental policy and corporate sustainability: The mediating role of environmental management systems in circular economy adoption," Corporate Social Responsibility and Environmental Management, John Wiley & Sons, vol. 29(4), pages 830-842, July.
    20. Zvonimira Sverko Grdic & Marinela Krstinic Nizic & Elena Rudan, 2020. "Circular Economy Concept in the Context of Economic Development in EU Countries," Sustainability, MDPI, vol. 12(7), pages 1-13, April.
    21. Arijit Bhattacharya & Shefali Srivastava & Abhijit Majumdar, 2024. "Circular supply chains in manufacturing—Quo vadis? Accomplishments, challenges and future opportunities," Business Strategy and the Environment, Wiley Blackwell, vol. 33(5), pages 4397-4423, July.
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    23. Fu Haw Ho & Salwa Hanim Abdul-Rashid & Raja Ariffin Raja Ghazilla & Yoke Ling Woo, 2019. "Resources Sustainability through Material Efficiency Strategies: An Insight Study of Electrical and Electronic Companies," Resources, MDPI, vol. 8(2), pages 1-16, June.

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