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Evaluation of Life Cycle Assessment Recycling Allocation Methods

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  • Jeremiah X. Johnson
  • Colin A. McMillan
  • Gregory A. Keoleian

Abstract

Life cycle assessment practitioners struggle to accurately allocate environmental burdens of metals recycling, including the temporal dimension of environmental impacts. We analyze four approaches for calculating aluminum greenhouse gas emissions: the recycled content (RC) or cut‐off approach, which assumes that demand for recycled content displaces primary production; end‐of‐life recycling (EOLR), which assumes that postuse recycling displaces primary production; market‐based (MB) approaches, which estimate changes in supply and demand using price elasticities; and value‐corrected substitution (VCS), which allocates impact based on price differences between primary and recycled material. Our analysis suggests that applications of the VCS approach do not adequately account for the changing scrap to virgin material price ratio over time, whereas MB approaches do not address stock accumulation and depletion. The EOLR and RC approaches were analyzed using two case studies: U.S. aluminum beverage cans and vehicle engine blocks. These approaches produced similar results for beverage cans, which have a closed material loop system and a short product life. With longer product lifetimes, as noted with the engine blocks, the magnitude and timing of the emissions differs greatly between the RC and EOLR approaches. The EOLR approach indicates increased impacts at the time of production, offset by negative impacts in future years, whereas the RC approach assumes benefits to increased recycled content at the time of production. For vehicle engine blocks, emissions using EOLR are 140% higher than with RC. Results are highly sensitive to recycled content and future recycling rates, and the choice of allocation methods can have significant implications for life cycle studies.

Suggested Citation

  • Jeremiah X. Johnson & Colin A. McMillan & Gregory A. Keoleian, 2013. "Evaluation of Life Cycle Assessment Recycling Allocation Methods," Journal of Industrial Ecology, Yale University, vol. 17(5), pages 700-711, October.
    • Handle: RePEc:bla:inecol:v:17:y:2013:i:5:p:700-711
    DOI: 10.1111/jiec.12050
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    Cited by:

    1. Max Rehberger & Michael Hiete, 2020. "Allocation of Environmental Impacts in Circular and Cascade Use of Resources—Incentive-Driven Allocation as a Prerequisite for Cascade Persistence," Sustainability, MDPI, vol. 12(11), pages 1-28, May.
    2. Toniolo, Sara & Mazzi, Anna & Garato, Valentina Giulia & Aguiari, Filippo & Scipioni, Antonio, 2014. "Assessing the “design paradox” with life cycle assessment: A case study of a municipal solid waste incineration plant," Resources, Conservation & Recycling, Elsevier, vol. 91(C), pages 109-116.
    3. Shoshanna Saxe & Dena Kasraian, 2020. "Rethinking environmental LCA life stages for transport infrastructure to facilitate holistic assessment," Journal of Industrial Ecology, Yale University, vol. 24(5), pages 1031-1046, October.
    4. Arbabzadeh, Maryam & Johnson, Jeremiah X. & De Kleine, Robert & Keoleian, Gregory A., 2015. "Vanadium redox flow batteries to reach greenhouse gas emissions targets in an off-grid configuration," Applied Energy, Elsevier, vol. 146(C), pages 397-408.
    5. Abderahman Rejeb & Karim Rejeb & Suhaiza Zailani & Yasanur Kayikci & John G. Keogh, 2023. "Examining Knowledge Diffusion in the Circular Economy Domain: a Main Path Analysis," Circular Economy and Sustainability,, Springer.
    6. Toniolo, Sara & Mazzi, Anna & Pieretto, Chiara & Scipioni, Antonio, 2017. "Allocation strategies in comparative life cycle assessment for recycling: Considerations from case studies," Resources, Conservation & Recycling, Elsevier, vol. 117(PB), pages 249-261.

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