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From Life Cycle Assessment to Life Cycle Management

Author

Listed:
  • Pere Fullana i Palmer
  • Rita Puig
  • Alba Bala
  • Grau Baquero
  • Jordi Riba
  • Marco Raugei

Abstract

Life cycle assessment (LCA) is a widely accepted methodology to support decision‐making processes in which one compares alternatives, and that helps prevent shifting of environmental burdens along the value chain or among impact categories. According to regulation in the European Union (EU), the movement of waste needs to be reduced and, if unavoidable, the environmental gain from a specific waste treatment option requiring transport must be larger than the losses arising from transport. The EU explicitly recommends the use of LCA or life cycle thinking for the formulation of new waste management plans. In the last two revisions of the Industrial Waste Management Programme of Catalonia (PROGRIC), the use of a life cycle thinking approach to waste policy was mandated. In this article we explain the process developed to arrive at practical life cycle management (LCM) from what started as an LCA project. LCM principles we have labeled the “3/3” principle or the “good enough is best” principle were found to be essential to obtain simplified models that are easy to understand for legislators and industries, useful in waste management regulation, and, ultimately, feasible. In this article, we present the four models of options for the management of waste solvent to be addressed under Catalan industrial waste management regulation. All involved actors concluded that the models are sufficiently robust, are easy to apply, and accomplish the aim of limiting the transport of waste outside Catalonia, according to the principles of proximity and sufficiency.

Suggested Citation

  • Pere Fullana i Palmer & Rita Puig & Alba Bala & Grau Baquero & Jordi Riba & Marco Raugei, 2011. "From Life Cycle Assessment to Life Cycle Management," Journal of Industrial Ecology, Yale University, vol. 15(3), pages 458-475, June.
    • Handle: RePEc:bla:inecol:v:15:y:2011:i:3:p:458-475
    DOI: 10.1111/j.1530-9290.2011.00338.x
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    Cited by:

    1. Dhanush Dinesh & Robert B. Zougmore & Joost Vervoort & Edmond Totin & Philip K. Thornton & Dawit Solomon & Paresh B. Shirsath & Valerien O. Pede & Isabel Lopez Noriega & Peter Läderach & Jana Körner &, 2018. "Facilitating Change for Climate-Smart Agriculture through Science-Policy Engagement," Sustainability, MDPI, vol. 10(8), pages 1-21, July.
    2. Thornton, PK & Schuetz, T & Förch, W & Cramer, L & Abreu, D & Vermeulen, S & Campbell, BM, 2017. "Responding to global change: A theory of change approach to making agricultural research for development outcome-based," Agricultural Systems, Elsevier, vol. 152(C), pages 145-153.
    3. Romain Debref, 2012. "The Paradoxes of Environmental Innovations: The Case of Green Chemistry," Post-Print hal-02047209, HAL.
    4. Alejandra Balaguera & Jaume Alberti & Gloria I. Carvajal & Pere Fullana-i-Palmer, 2021. "Stabilising Rural Roads with Waste Streams in Colombia as an Environmental Strategy Based on a Life Cycle Assessment Methodology," Sustainability, MDPI, vol. 13(5), pages 1-20, February.
    5. Daniela C. A. Pigosso & Mariana Ferraz & Cláudia Echevenguá Teixeira & Henrique Rozenfeld, 2016. "The Deployment of Product-Related Environmental Legislation into Product Requirements," Sustainability, MDPI, vol. 8(4), pages 1-15, April.
    6. Milena Stefanova & Concetta Tripepi & Alessandra Zamagni & Paolo Masoni, 2014. "Goal and Scope in Life Cycle Sustainability Analysis: The Case of Hydrogen Production from Biomass," Sustainability, MDPI, vol. 6(8), pages 1-13, August.

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