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Does increased circularity lead to environmental sustainability?: The case of washing machine reuse in Germany

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  • Sandra Boldoczki
  • Andrea Thorenz
  • Axel Tuma

Abstract

This study investigates under which circumstances increases in circularity through the reuse of use‐phase‐intensive electrical and electronic equipment lead to environmental benefits. We combine dynamic material flow analysis (dMFA) and life cycle assessment (LCA) to assess a Circular Economy strategy toward its environmental sustainability on midpoint and endpoint levels. The hybrid approach measures long‐term implications of policy decisions in multiple impact categories and shows the need to comprehensively evaluate Circular Economy activities. We apply the approach to the strategy of setting reuse targets in a case study on washing machines in Germany. As a consequence of a reuse target, the product portfolio changes over time. The resulting stocks and flows are calculated in a dMFA, and attributed with the respective LCA‐based environmental impacts. We present cumulated impacts between 2015 and 2050 for scenarios with different reuse targets for 18 midpoints and three endpoints of the impact assessment method ReCiPe 2016, and the cumulative energy demand. The latest proposal of a 5% reuse target results in average impact reductions of 1% compared to “business as usual.” An increase of reuse up to 87% results in an average impact reduction of 9%, ranging from an increase of 1% (water consumption) to a decrease up to 26% (land use). This shows that even high reuse rates only have a limited leverage on reducing environmental impacts and that it is therefore necessary to include detailed environmental assessments in a holistic evaluation of Circular Economy activities. This article met the requirements for a gold‐gold JIE data openness badge described at http://jie.click/badges.

Suggested Citation

  • Sandra Boldoczki & Andrea Thorenz & Axel Tuma, 2021. "Does increased circularity lead to environmental sustainability?: The case of washing machine reuse in Germany," Journal of Industrial Ecology, Yale University, vol. 25(4), pages 864-876, August.
    • Handle: RePEc:bla:inecol:v:25:y:2021:i:4:p:864-876
    DOI: 10.1111/jiec.13104
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    References listed on IDEAS

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    4. Trevor Zink & Roland Geyer, 2017. "Circular Economy Rebound," Journal of Industrial Ecology, Yale University, vol. 21(3), pages 593-602, June.
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    Cited by:

    1. Karakaya, Etem & Alataş, Sedat & Erkara, Elif & Mert, Betül & Akdoğan, Tuğba & Hiçyılmaz, Burcu, 2024. "The rebound effect of material and energy efficiency for the EU and its major trading partners," Energy Economics, Elsevier, vol. 134(C).
    2. Sourabh Jain & Jury Gualandris, 2023. "When does upcycling mitigate climate change? The case of wet spent grains and fruit and vegetable residues in Canada," Journal of Industrial Ecology, Yale University, vol. 27(2), pages 522-534, April.
    3. Haitao Yu & Pratima Bansal & Diane-Laure Arjaliès, 2023. "International business is contributing to environmental crises," Journal of International Business Studies, Palgrave Macmillan;Academy of International Business, vol. 54(6), pages 1151-1169, August.
    4. Koide, R. & Murakami, S. & Nansai, K., 2022. "Prioritising low-risk and high-potential circular economy strategies for decarbonisation: A meta-analysis on consumer-oriented product-service systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 155(C).
    5. Josh Lepawsky & Kathia Cáceres & Marco Gusukuma & Ramzy Kahhat, 2023. "Carbon and water conservation value of independent, place‐based repair in Lima, Peru," Journal of Industrial Ecology, Yale University, vol. 27(3), pages 896-907, June.
    6. Liu, Yiwen & Jiang, Meng & Hertwich, Edgar G., 2025. "Environmental impact of machinery and equipment: a comparison between EXIOBASE, national environmentally extended input-output models, and ecoinvent," MPRA Paper 126712, University Library of Munich, Germany.

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