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A Product-Level Approach to Historical Material Flow Analysis

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  • Ermelinda M. Harper

Abstract

type="main" xml:lang="en"> Studies of material cycles, which have a solid history in biogeochemistry, include characterization of technological materials cycles that quantify the way in which materials move through the economy and environment of a region. One of the most important aspects of historical technological materials cycles is determining how much material goes into various uses over time and modeling its lifetime in each use. A material flow analysis methodology is presented by which a historical (i.e., 1975 to 2000) study of tungsten use in the United States was constructed. The approach utilized in this study is twofold: the traditional approach by which material going into end-use sectors is approximated (the “end-use sector model”), and a second approach by which end-use products are specifically addressed (the “finished product model”). By virtue of the latter method, a detailed historical account of a material's end uses was developed. This study shows that (1) both models present a detailed treatment of trade of finished products over time for a variety of highly disaggregated products, (2) the end-use sector model provides a method to combine quantitative and qualitative data about products in various sectors to estimate domestic production for a metal about which little is known in terms of its end uses, and (3) the finished product model produces detailed estimates of domestic production for a large number of highly disaggregated products.

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  • Ermelinda M. Harper, 2008. "A Product-Level Approach to Historical Material Flow Analysis," Journal of Industrial Ecology, Yale University, vol. 12(5-6), pages 768-784, October.
    • Handle: RePEc:bla:inecol:v:12:y:2008:i:5-6:p:768-784
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    File URL: http://hdl.handle.net/10.1111/j.1530-9290.2008.00070.x
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    References listed on IDEAS

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    1. Binder, Claudia & Bader, Hans-Peter & Scheidegger, Ruth & Baccini, Peter, 2001. "Dynamic models for managing durables using a stratified approach: the case of Tunja, Colombia," Ecological Economics, Elsevier, vol. 38(2), pages 191-207, August.
    2. Kleijn, Rene & Huele, Ruben & van der Voet, Ester, 2000. "Dynamic substance flow analysis: the delaying mechanism of stocks, with the case of PVC in Sweden," Ecological Economics, Elsevier, vol. 32(2), pages 241-254, February.
    3. Spatari, S. & Bertram, M. & Gordon, Robert B. & Henderson, K. & Graedel, T.E., 2005. "Twentieth century copper stocks and flows in North America: A dynamic analysis," Ecological Economics, Elsevier, vol. 54(1), pages 37-51, July.
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    1. Leal-Ayala, David R. & Allwood, Julian M. & Petavratzi, Evi & Brown, Teresa J. & Gunn, Gus, 2015. "Mapping the global flow of tungsten to identify key material efficiency and supply security opportunities," Resources, Conservation & Recycling, Elsevier, vol. 103(C), pages 19-28.
    2. Nassar, Nedal T., 2017. "Shifts and trends in the global anthropogenic stocks and flows of tantalum," Resources, Conservation & Recycling, Elsevier, vol. 125(C), pages 233-250.
    3. António Mateus & Catarina Lopes & Luís Martins & Mário Abel Gonçalves, 2021. "Current and Foreseen Tungsten Production in Portugal, and the Need of Safeguarding the Access to Relevant Known Resources," Resources, MDPI, vol. 10(6), pages 1-26, June.
    4. Helga Weisz & Heinz Schandl, 2008. "Materials Use Across World Regions," Journal of Industrial Ecology, Yale University, vol. 12(5-6), pages 629-636, October.
    5. Huang, Jianbai & Ding, Qian & Wang, Ying & Hong, Huojun & Zhang, Hongwei, 2021. "The evolution and influencing factors of international tungsten competition from the industrial chain perspective," Resources Policy, Elsevier, vol. 73(C).

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