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The International Journal of Life Cycle Assessment
Erschienen in: The International Journal of Life Cycle Assessment 6/2010

01.07.2010 | LIFE CYCLE MANAGEMENT

Metals recycling maps and allocation procedures in life cycle assessment

verfasst von: Alain Dubreuil, Steven B. Young, John Atherton, Thomas P. Gloria

Erschienen in: The International Journal of Life Cycle Assessment | Ausgabe 6/2010

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Abstract

Goal, scope, and background

The aim of this work is to present guidance on the application of ISO 14044 to allocation procedures for metal recycling. As such, graphical patterns of metal recycling and generic “rules” for metal recycling maps are presented. The results are intended to be useful in assessing and validating the suitability of allocation procedures for metal recycling in the context of life cycle assessment (LCA) and assist in the understanding of metals flow patterns in product systems. LCA uses a product-focus; therefore, the perspective here is on recycling metals in post-consumer products. The discussions, analysis, and illustrations in this paper emphasize old (post-consumer) scrap and do not detail flows of new (post-manufacturing, pre-consumer) or prompt (internal) scrap. The work included participation and review from International Council on Mining and Metals, the Nickel Institute, the International Copper Association, the International Zinc Association, worldsteel (formerly International Iron and Steel Institute), and the International Aluminium Institute.

Methods

A survey of generic metal flows was conducted for three major non-ferrous metals—nickel, copper, and zinc. Based on the results of this survey, four metal recycling map models were developed. Implications of these recycling maps for LCA were then considered, and parameters necessary to model metal recycling were presented. Relationships of inherent properties and recycling loops are provided and connected to the allocation procedures in the context of LCA.

Results and discussion

Four metals recycling map models were generated based on a survey and analysis of current metals flow analysis. The utility of the recycling maps is to serve the basis of a structured approach to recycling allocation in life cycle assessment and leveraging the efforts of harmonized recycling metrics.

Conclusions

A consensus on mapping metals is important in order to achieve an accurate understanding and measurement of metals recycling. To this end, consensus mapping presentation of a general allocation approach and identification of harmonized metrics were achieved among representatives of ferrous and non-ferrous metals groups.

Perspectives

For the future, allocation factors based on sound empirical data needs to be developed. Those metrics will empower the various stakeholders—industry, policy makers, non-governmental organizations, and academics to make appropriate decisions based on agreed scientific bases.
Vorheriger Artikel PIQET: the design and development of an online ‘streamlined’ LCA tool for sustainable packaging design decision support

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Fußnoten
1
The RPT was comprised of the International Metal Study Groups (the International Lead and Zinc Study Group, the International Copper Study Group, and the International Nickel Study Group), Eurometaux, and Eurofer. Other organizations that participated in the work of the RPT were the Lead Development Association International, The International Zinc Association-Europe, the Nickel Institute, the European Copper Institute, the European Aluminium Association, and the Organisation of European Aluminium Refiners and Remelters, and the ICMM.
 
Literatur
Atherton J (2007) Declaration by the metals industry on recycling principles. Int J LCA 12:59–60CrossRef
Campbell MC (1996) Non-ferrous metals recycling: a complement to primary metals production. The International Council on Metals and the Environment, Ottawa
Desrochers P (2000) Market processes and the closing of “Industrial Loops”: a historical reappraisal. J Ind Ecol 4(1):29–43CrossRef
Ekvall T (2000) A market-based approach to allocation at open-loop recycling. Resour Conserv Recycl 29:91–109CrossRef
Erol P, Thoming J (2005) ECO-design of reuse and recycling networks by multi-objective optimization. J Clean Prod 13:1492–1503CrossRef
Geiser K (2001) Materials matter: towards a sustainable materials policy. MIT, Cambridge
Georgiadis P, Besiou M (2008) Sustainability in electrical and electronic equipment closed-loop supply chains: a system dynamics approach. J Clean Prod 16:1665–1678CrossRef
Gleich AV, Ayres RU, Göbling-Reisemann S (2006) Sustainable metals management: securing our future—steps towards a closed loop economy. Springer, Dordrecht
Gordon RB, Bertram M, Graedel TE (2006) Metal stocks and sustainability. Proc Natl Acad Sci 103:1209–1214CrossRef
Graedel TE, van Beers D, Bertram M, Fuse K, Gordon RB, Gritsinin A, Kapur A (2004) Multilevel cycle of anthropogenic copper. Environ Sci Technol 38:1242–1252CrossRef
Graedel TE, van Beers D, Bertram M, Fuse K, Gordon RB, Gritsinin A, Harper EM (2005) The multilevel cycle of anthropogenic zinc. J Ind Ecol 9(3):67–90CrossRef
Harper EM, Johnson J, Graedel TE (2006) Making metals count: applications of material flow analysis. Environ Eng Sci 23:493–506CrossRef
Henstock ME (1996) The recycling of non-ferrous metals. The International Council on Metals and the Environment, Ottawa
ISO 14021 (1999) Environmental labels and declarations—self-declared environmental claims (Type II environmental labeling). International Organization of Standardization, ISO, Geneva
ISO 7000 (2004) Graphical symbols for use on equipment—index and synopsis. International Organization for Standardization, ISO, Geneva
ISO 14025 (2006) Environmental labels and declarations—Type III environmental declarations —Principles and procedures. International Organization for Standardization, ISO, Geneva
ISO 14040 (2006) Environmental management—Life cycle assessment—Principles and framework. International Organization for Standardization, ISO, Geneva
ISO 14044 (2006) Environmental management—life cycle assessment—requirements and guidelines. International Organization for Standardization, ISO, Geneva
ISO 14049 (2000) Environmental management—Life cycle assessment—examples of application of ISO 14041 to goal and scope definition and inventory analysis. International Organization for Standardization, ISO, Geneva
Kirchain R, Cosquer A (2007) Strategies for maintaining light metal reuse: Insights from modeling of firm-wide raw materials availability and demand. Resour Conserv Recycl 51:367–396CrossRef
Matsuno Y, Daigo I, Adachi Y (2007) Application of Markov chain model to calculate the average number of times of use of a material in society: an allocation methodology for open-loop recycling part: 2 methodology development. Int J LCA 12:34–39CrossRef
Pelletiere D (2001) The Economics of downcycling: an overview with illustration from the international used car trade. Paper presented at The Science & Culture of Industrial Ecology ISIE 2001 Meeting, 12–14, November 2001, Leiden, The Netherlands
Ruhrber M (2006) Assessing the recycling efficiency of copper from end-of-life products in Western Europe. Resour Conserv Recycl 48:141–165CrossRef
Steinhilper R, Hieber M (2001) Remanufacturing—the key solution for transforming “downcycling” into “upcycling” of electronics. Paper presented at the Electronics and the Environment, 2001. Proc 2001 IEEE Intl Symp, Denver, CO
Stewart M, Beck J, Petrie J (2004) An analysis of the metals value chain: assessing the sustainability of the Australian Minerals Industry, paper presented at the Fourth SETAC World Congress and 25th annual meeting in North America, Oregon Convention Center, Portland, Oregon, pp 14–18
Verhoef EV, Dijkema GPJ, Reuter MA (2008) Process knowledge, system dynamics, and metal ecology. J Ind Ecol 8(1–2):23–43
Yamada H, Daigo I, Matsuno Y, Adachi Y, Kondo Y (2006) Application of Markov chain model to calculate the average number of times of use of a material in society: an allocation methodology for open-loop recycling part: 1 methodology development. Int J LCA 11:354–360CrossRef
Young SB, Brady K, Fava J, Saur K (2001) Eco-efficiency and materials. International Council on Metals and the Environment, Ottawa
Metadaten
Titel
Metals recycling maps and allocation procedures in life cycle assessment
verfasst von
Alain Dubreuil
Steven B. Young
John Atherton
Thomas P. Gloria
Publikationsdatum
01.07.2010
Verlag
Springer-Verlag
Erschienen in
The International Journal of Life Cycle Assessment / Ausgabe 6/2010
Print ISSN: 0948-3349
Elektronische ISSN: 1614-7502
DOI
https://doi.org/10.1007/s11367-010-0174-5

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