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Dematerialization: Not Just a Matter of Weight

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  • Ester van der Voet
  • Lauran van Oers
  • Igor Nikolic

Abstract

This article contains the results of a study performed to support the Dutch environmental policy of dematerialization. The aim of the study was to develop and apply a methodology to identify the materials that contribute most to the environmental problems in the Netherlands. The developed methodology combines aspects of material flow accounting (MFA) and life‐cycle assessment (LCA) and aims at adding a set of environmental weights to the flows of the materials. The methodology was applied to a number of materials. For these materials, impacts per kilogram were extracted from a standard LCA database in combination with standard LCA software. These impacts per kilogram are then multiplied with the yearly throughput of each material in the Netherlands to obtain an indication of the environmental impacts associated with each material. This article contains a discussion of dematerialization as background for the research, a description of the methodology followed by the results of its application, and a discussion of the comparison of impact‐based versus mass‐based indicators. Materials vary many orders of magnitude in their impacts per unit mass. In general, the impact per unit of mass of bulk materials is lower than that of materials used in small quantities. This implies that the variation in orders of magnitude of impact multiplied by mass is much less than either mass or impact per kilogram separately. High‐priority materials based on impact multiplied by mass are either small‐quantity materials with very high impacts per kilogram (such as heavy metals) or large‐quantity materials with not‐so‐low impacts per kilogram (such as materials from agriculture and plastics).

Suggested Citation

  • Ester van der Voet & Lauran van Oers & Igor Nikolic, 2004. "Dematerialization: Not Just a Matter of Weight," Journal of Industrial Ecology, Yale University, vol. 8(4), pages 121-137, October.
    • Handle: RePEc:bla:inecol:v:8:y:2004:i:4:p:121-137
    DOI: 10.1162/1088198043630432
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    2. Jan Kovanda & Tomas Hak, 2008. "Changes in Materials Use in Transition Economies," Journal of Industrial Ecology, Yale University, vol. 12(5-6), pages 721-738, October.
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    4. Kanianska, Radoslava & Gustafíková, Tatiana & Kizeková, Miriam & Kovanda, Jan, 2011. "Use of material flow accounting for assessment of energy savings: A case of biomass in Slovakia and the Czech Republic," Energy Policy, Elsevier, vol. 39(5), pages 2824-2832, May.
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    6. Hickel, Jason & Dorninger, Christian & Wieland, Hanspeter & Suwandi, Intan, 2022. "Imperialist appropriation in the world economy: drain from the global South through unequal exchange, 1990–2015," LSE Research Online Documents on Economics 113823, London School of Economics and Political Science, LSE Library.
    7. Huppes, Gjalt & Ishikawa, Masanobu, 2009. "Eco-efficiency guiding micro-level actions towards sustainability: Ten basic steps for analysis," Ecological Economics, Elsevier, vol. 68(6), pages 1687-1700, April.
    8. Raimund Bleischwitz, 2020. "Mineral resources in the age of climate adaptation and resilience," Journal of Industrial Ecology, Yale University, vol. 24(2), pages 291-299, April.
    9. Li, Ying & Beeton, R.J.S. & Halog, Anthony & Sigler, Thomas, 2016. "Evaluating urban sustainability potential based on material flow analysis of inputs and outputs: A case study in Jinchang City, China," Resources, Conservation & Recycling, Elsevier, vol. 110(C), pages 87-98.
    10. Carlos Scheel & Eduardo Aguiñaga & Bernardo Bello, 2020. "Decoupling Economic Development from the Consumption of Finite Resources Using Circular Economy. A Model for Developing Countries," Sustainability, MDPI, vol. 12(4), pages 1-21, February.
    11. Moran, Daniel D. & Wackernagel, Mathis C. & Kitzes, Justin A. & Heumann, Benjamin W. & Phan, Doantam & Goldfinger, Steven H., 2009. "Trading spaces: Calculating embodied Ecological Footprints in international trade using a Product Land Use Matrix (PLUM)," Ecological Economics, Elsevier, vol. 68(7), pages 1938-1951, May.
    12. Hickel, Jason, 2020. "The sustainable development index: Measuring the ecological efficiency of human development in the anthropocene," Ecological Economics, Elsevier, vol. 167(C).
    13. Gallagher, John & Styles, David & McNabola, Aonghus & Williams, A. Prysor, 2015. "Making green technology greener: Achieving a balance between carbon and resource savings through ecodesign in hydropower systems," Resources, Conservation & Recycling, Elsevier, vol. 105(PA), pages 11-17.
    14. Huang, Chu-Long & Vause, Jonathan & Ma, Hwong-Wen & Yu, Chang-Ping, 2012. "Using material/substance flow analysis to support sustainable development assessment: A literature review and outlook," Resources, Conservation & Recycling, Elsevier, vol. 68(C), pages 104-116.
    15. Elisabeth Conrad & Louis F. Cassar, 2014. "Decoupling Economic Growth and Environmental Degradation: Reviewing Progress to Date in the Small Island State of Malta," Sustainability, MDPI, vol. 6(10), pages 1-22, September.
    16. John Gallagher & Biswajit Basu & Maria Browne & Alan Kenna & Sarah McCormack & Francesco Pilla & David Styles, 2019. "Adapting Stand‐Alone Renewable Energy Technologies for the Circular Economy through Eco‐Design and Recycling," Journal of Industrial Ecology, Yale University, vol. 23(1), pages 133-140, February.

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