The Rare Earth Elements: Demand, Global Resources, and Challenges for Resourcing Future Generations

Kathryn M. Goodenough; Frances Wall; David Merriman

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The Rare Earth Elements: Demand, Global Resources, and Challenges for Resourcing Future Generations

机译：稀土元素：需求，全球资源以及用于资助后代的挑战

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AbstractThe rare earth elements (REE) have attracted much attention in recent years, being viewed as critical metals because of China’s domination of their supply chain. This is despite the fact that REE enrichments are known to exist in a wide range of settings, and have been the subject of much recent exploration. Although the REE are often referred to as a single group, in practice each individual element has a specific set of end-uses, and so demand varies between them. Future demand growth to 2026 is likely to be mainly linked to the use of NdFeB magnets, particularly in hybrid and electric vehicles and wind turbines, and in erbium-doped glass fiber for communications. Supply of lanthanum and cerium is forecast to exceed demand. There are several different types of natural (primary) REE resources, including those formed by high-temperature geological processes (carbonatites, alkaline rocks, vein and skarn deposits) and those formed by low-temperature processes (placers, laterites, bauxites and ion-adsorption clays). In this paper, we consider the balance of the individual REE in each deposit type and how that matches demand, and look at some of the issues associated with developing these deposits. This assessment and overview indicate that while each type of REE deposit has different advantages and disadvantages, light rare earth-enriched ion adsorption types appear to have the best match to future REE needs. Production of REE as by-products from, for example, bauxite or phosphate, is potentially the most rapid way to produce additional REE. There are still significant technical and economic challenges to be overcome to create substantial REE supply chains outside China.]]>

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《Natural resources research》 |2018年第2期|共16页
作者
Kathryn M. Goodenough; Frances Wall; David Merriman;
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作者单位

British Geological Survey The Lyell Centre;

Camborne School of Mines and Environment and Sustainability Institute University of Exeter Penryn Campus;

Roskill Information Services Ltd.;

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原文格式 PDF
正文语种 eng
中图分类自然资源学;
关键词
Rare earth elements; Resources; Supply chain; Minerals processing;

机译：稀土元素;资源;供应链;矿物加工;

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1. The Rare Earth Elements: Demand, Global Resources, and Challenges for Resourcing Future Generations [J] . Kathryn M. Goodenough, Frances Wall, David Merriman Natural resources research . 2018,第2期

机译：稀土元素：需求，全球资源以及用于资助后代的挑战
2. Global Potential of Rare Earth Resources and Rare Earth Demand from Clean Technologies [J] . Congcong Chen, Zhongxue Li, Baolu Zhou Minerals . 2017,第11期

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3. Global rare earth resources and scenarios of future rare earth industry [J] . 陈占恒中国稀土学报：英文版 . 2011,第001期

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4. Status Quo and Future Evaluations of Global Rare Earth Mining (with Respect to Special Rare Earth Element-industry Criteria) [C] . G Barakos, H Mischo, J Gutzmer International Future Mining Conference . 2015

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5. Compositional characteristics and ages of plutons in the central Ruby batholith, Alaska: Implications for rare-earth-element resources. [D] . Tuzzolino, Amy L. 2016

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7. The rare earth elements: demand, global resources, and challenges for resourcing future generations [O] . Goodenough, KM, Wall, F, Merriman, D 2017

机译：稀土元素：需求，全球资源以及为子孙后代提供资源的挑战

The Rare Earth Elements: Demand, Global Resources, and Challenges for Resourcing Future Generations

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