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Addressing criticality for rare earth elements in petroleum refining: The key supply factors approach

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  • Nieto, Antonio
  • Guelly, Kirsten
  • Kleit, Andrew

Abstract

The group of elements known as the rare earth elements (REEs) is comprised of the 15 lanthanides. REEs are used in a number of technologies including catalysts for automobiles and petroleum refining, magnets for wind turbines and defense technologies, and phosphors in lighting and computer and TV screens. REEs are actually quite abundant in the earth′s crust. The elements are deemed “rare” because they are found in low concentrations and are difficult to extract economically. China holds 48% of the global REE reserves, and until 2012, production of REEs was almost exclusive to China. Over the past decade, China has been steadily decreasing its REE export quotas, reducing the supply of REEs available to the rest of the world. REEs are considered critical materials according to the National Science and Technology Council, which defines critical elements as those serving an essential function in the manufacture of a product, the absence of which would cause significant social consequence. Thus, it is extremely important for consumers of REEs to be aware of and understand the risks facing the supply REEs, as awareness is the first and most important step in developing strategies to mitigate risk. This report presents a mechanism for identifying the risks present in a supply–demand scenario and determining the criticality of an individual rare earth element under specific circumstances.

Suggested Citation

  • Nieto, Antonio & Guelly, Kirsten & Kleit, Andrew, 2013. "Addressing criticality for rare earth elements in petroleum refining: The key supply factors approach," Resources Policy, Elsevier, vol. 38(4), pages 496-503.
  • Handle: RePEc:eee:jrpoli:v:38:y:2013:i:4:p:496-503
    DOI: 10.1016/j.resourpol.2013.08.001
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    Citations

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    Cited by:

    1. Zhang, Kuangyuan & Kleit, Andrew N. & Nieto, Antonio, 2017. "An economics strategy for criticality – Application to rare earth element Yttrium in new lighting technology and its sustainable availability," Renewable and Sustainable Energy Reviews, Elsevier, vol. 77(C), pages 899-915.
    2. Machacek, Erika & Fold, Niels, 2014. "Alternative value chains for rare earths: The Anglo-deposit developers," Resources Policy, Elsevier, vol. 42(C), pages 53-64.
    3. Yufeng Chen & Biao Zheng, 2019. "What Happens after the Rare Earth Crisis: A Systematic Literature Review," Sustainability, MDPI, vol. 11(5), pages 1-26, March.
    4. Lapko, Yulia & Trucco, Paolo, 2018. "Influence of power regimes on identification and mitigation of material criticality: The case of platinum group metals in the automotive sector," Resources Policy, Elsevier, vol. 59(C), pages 360-370.
    5. Lapko, Yulia & Trucco, Paolo & Nuur, Cali, 2016. "The business perspective on materials criticality: Evidence from manufacturers," Resources Policy, Elsevier, vol. 50(C), pages 93-107.
    6. Elshkaki, Ayman & Graedel, T.E., 2014. "Dysprosium, the balance problem, and wind power technology," Applied Energy, Elsevier, vol. 136(C), pages 548-559.
    7. Zhou, Mei-Jing & Huang, Jian-Bai & Chen, Jin-Yu, 2022. "Time and frequency spillovers between political risk and the stock returns of China's rare earths," Resources Policy, Elsevier, vol. 75(C).
    8. Proelss, Juliane & Schweizer, Denis & Seiler, Volker, 2020. "The economic importance of rare earth elements volatility forecasts," International Review of Financial Analysis, Elsevier, vol. 71(C).
    9. Griffin, Gillian & Gaustad, Gabrielle & Badami, Kedar, 2019. "A framework for firm-level critical material supply management and mitigation," Resources Policy, Elsevier, vol. 60(C), pages 262-276.
    10. Schmid, Marc, 2019. "Mitigating supply risks through involvement in rare earth projects: Japan's strategies and what the US can learn," Resources Policy, Elsevier, vol. 63(C), pages 1-1.

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