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Estimating the quantities of critical metals embedded in ICT and consumer equipment

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  • Chancerel, Perrine
  • Marwede, Max
  • Nissen, Nils F.
  • Lang, Klaus-Dieter

Abstract

The manufacturing of Electrical and Electronic Equipment is dependent on the supply of several technology metals that are classified as critical. Recycling is key strategy to secure the long-term supply of these metals. To determine the recycling potential, the mass and the economic value of nine metals and metal families contained in information and communications technology and consumer equipment sold in Germany in 2007 and 2012 were estimated under consideration of uncertainties. The study focused on the critical metals and metal families cobalt, gallium, indium, palladium and rare earth elements (REE), as well as tantalum and the lead metals tin, gold and silver. The estimation was based on data on sales volumes of 126 products, on the mass or surface of the assemblies containing the target metals (populated printed circuit boards, panels and backlighting systems of flat displays, batteries and magnets in drives and loudspeakers) and on the mass fraction of metal in the assemblies. The estimations show that gold is by far the most important carrier of economic value. Flat televisions, desktop computers, laptops and smartphones contain a large part of the target metals. Recommendations for improving recycling were formulated. Besides the technological barriers, enhancing or enabling the recovery of indium, gallium, REE and tantalum requires the creation of economic incentives, because it is very unlikely that the revenues expectable from the production of secondary metals can cover the process costs.

Suggested Citation

  • Chancerel, Perrine & Marwede, Max & Nissen, Nils F. & Lang, Klaus-Dieter, 2015. "Estimating the quantities of critical metals embedded in ICT and consumer equipment," Resources, Conservation & Recycling, Elsevier, vol. 98(C), pages 9-18.
    • Handle: RePEc:eee:recore:v:98:y:2015:i:c:p:9-18
    DOI: 10.1016/j.resconrec.2015.03.003
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    References listed on IDEAS

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    1. Perrine Chancerel & Christina E.M. Meskers & Christian Hagelüken & Vera Susanne Rotter, 2009. "Assessment of Precious Metal Flows During Preprocessing of Waste Electrical and Electronic Equipment," Journal of Industrial Ecology, Yale University, vol. 13(5), pages 791-810, October.
    2. Ardente, Fulvio & Mathieux, Fabrice & Recchioni, Marco, 2014. "Recycling of electronic displays: Analysis of pre-processing and potential ecodesign improvements," Resources, Conservation & Recycling, Elsevier, vol. 92(C), pages 158-171.
    3. Henckens, M.L.C.M. & Driessen, P.P.J. & Worrell, E., 2014. "Metal scarcity and sustainability, analyzing the necessity to reduce the extraction of scarce metals," Resources, Conservation & Recycling, Elsevier, vol. 93(C), pages 1-8.
    4. David Laner & Helmut Rechberger & Thomas Astrup, 2014. "Systematic Evaluation of Uncertainty in Material Flow Analysis," Journal of Industrial Ecology, Yale University, vol. 18(6), pages 859-870, December.
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    2. Barbara V. Kasulaitis & Callie W. Babbitt & Andrew K. Krock, 2019. "Dematerialization and the Circular Economy: Comparing Strategies to Reduce Material Impacts of the Consumer Electronic Product Ecosystem," Journal of Industrial Ecology, Yale University, vol. 23(1), pages 119-132, February.
    3. Zhang, Zhouyi & Song, Yi & Cheng, Jinhua & Zhang, Yijun, 2023. "Effects of heterogeneous ICT on critical metal supply: A differentiated perspective on primary and secondary supply," Resources Policy, Elsevier, vol. 83(C).
    4. Ueberschaar, Maximilian & Geiping, Julia & Zamzow, Malte & Flamme, Sabine & Rotter, Vera Susanne, 2017. "Assessment of element-specific recycling efficiency in WEEE pre-processing," Resources, Conservation & Recycling, Elsevier, vol. 124(C), pages 25-41.
    5. Zhu, Xuan & Lane, Ruth & Werner, T.T., 2017. "Modelling in-use stocks and spatial distributions of household electronic devices and their contained metals based on household survey data," Resources, Conservation & Recycling, Elsevier, vol. 120(C), pages 27-37.
    6. Panchal, Rohit & Singh, Anju & Diwan, Hema, 2021. "Economic potential of recycling e-waste in India and its impact on import of materials," Resources Policy, Elsevier, vol. 74(C).
    7. Vahidi, Ehsan & Navarro, Julio & Zhao, Fu, 2016. "An initial life cycle assessment of rare earth oxides production from ion-adsorption clays," Resources, Conservation & Recycling, Elsevier, vol. 113(C), pages 1-11.
    8. Schulze, Rita & Buchert, Matthias, 2016. "Estimates of global REE recycling potentials from NdFeB magnet material," Resources, Conservation & Recycling, Elsevier, vol. 113(C), pages 12-27.
    9. Yvonne Ryan‐Fogarty & Damian Coughlan & Colin Fitzpatrick, 2021. "Quantifying WEEE arising in scrap metal collections: Method development and application in Ireland," Journal of Industrial Ecology, Yale University, vol. 25(4), pages 1021-1033, August.
    10. Ruiz-Mercado, Gerardo J. & Gonzalez, Michael A. & Smith, Raymond L. & Meyer, David E., 2017. "A conceptual chemical process for the recycling of Ce, Eu, and Y from LED flat panel displays," Resources, Conservation & Recycling, Elsevier, vol. 126(C), pages 42-49.

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