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Material flow analysis of polyethylene terephthalate in the US, 1996–2007

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  • Kuczenski, Brandon
  • Geyer, Roland

Abstract

We present a material flow analysis (MFA) for polyethylene terephthalate (PET), a synthetic polymer, in the United States for the years 1996–2007. We model the industrial metabolism of PET as a network of flows linking stocks and processes. The most common worldwide use of PET is in textile production, but in the US it is increasingly used to make disposable beverage containers for transporting water, carbonated soda, and other beverages. Bottles made from PET are the most-recycled plastic product in the US by mass and by recovery rate, and thus the PET material flow system constitutes an ideal case study of polymer recycling. We find that total consumption of PET resin grew at 2.7% per year over the period of the study, reaching 5.01 million metric tons in 2007. This growth was driven largely by the beverage packaging market, which accounted for 55% of consumption in 2007. About a quarter of PET bottles are collected for recycling, a number that has fluctuated widely but kept pace with consumption. However, domestic capacity for reclamation of post-consumer PET has not grown as quickly, leading recyclers to export increasing amounts of post-consumer material. Manufacturers have also imported secondary PET in increasing amounts. Reclaimed PET accounted for 6–9% of total resin demand throughout the study. While polymer recycling appears to be viable, efforts to improve material efficiency are confounded by low collection rates and a lack of reclamation infrastructure.

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  • Kuczenski, Brandon & Geyer, Roland, 2010. "Material flow analysis of polyethylene terephthalate in the US, 1996–2007," Resources, Conservation & Recycling, Elsevier, vol. 54(12), pages 1161-1169.
    • Handle: RePEc:eee:recore:v:54:y:2010:i:12:p:1161-1169
    DOI: 10.1016/j.resconrec.2010.03.013
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    References listed on IDEAS

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    1. 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.
    2. Woolridge, Anne C. & Ward, Garth D. & Phillips, Paul S. & Collins, Michael & Gandy, Simon, 2006. "Life cycle assessment for reuse/recycling of donated waste textiles compared to use of virgin material: An UK energy saving perspective," Resources, Conservation & Recycling, Elsevier, vol. 46(1), pages 94-103.
    3. Mutha, Nitin H. & Patel, Martin & Premnath, V., 2006. "Plastics materials flow analysis for India," Resources, Conservation & Recycling, Elsevier, vol. 47(3), pages 222-244.
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    Cited by:

    1. Kuczenski, Brandon & Geyer, Roland & Zink, Trevor & Henderson, Ashley, 2014. "Material flow analysis of lubricating oil use in California," Resources, Conservation & Recycling, Elsevier, vol. 93(C), pages 59-66.
    2. Van Eygen, Emile & Feketitsch, Julia & Laner, David & Rechberger, Helmut & Fellner, Johann, 2017. "Comprehensive analysis and quantification of national plastic flows: The case of Austria," Resources, Conservation & Recycling, Elsevier, vol. 117(PB), pages 183-194.
    3. Lagioia, Giovanni & Calabrò, Grazia & Amicarelli, Vera, 2012. "Empirical study of the environmental management of Italy's drinking water supply," Resources, Conservation & Recycling, Elsevier, vol. 60(C), pages 119-130.
    4. Ciacci, L. & Passarini, F. & Vassura, I., 2017. "The European PVC cycle: In-use stock and flows," Resources, Conservation & Recycling, Elsevier, vol. 123(C), pages 108-116.
    5. 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.

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