The story of rare earth elements (REEs): Occurrences, global distribution, genesis, geology, mineralogy and global production

[Display omitted] •REEs are critical to several modern technologies, especially for green energy.•China dominates the RE industry producing more than 90% of the current requirements.•Secondary RE resources are becoming promising resources to cater the future demand.•Growing ecological concerns in RE...

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Published inOre geology reviews Vol. 122; p. 103521
Main Authors Dushyantha, Nimila, Batapola, Nadeera, Ilankoon, I.M.S.K., Rohitha, Sudath, Premasiri, Ranjith, Abeysinghe, Bandara, Ratnayake, Nalin, Dissanayake, Kithsiri
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2020
Subjects
Environmental concerns
Rare earth applications
Rare earth demand
Rare earth deposits and genesis
Rare earth elements (REEs)
Rare earth elements (REEs)
Environmental concerns
Rare earth applications
Rare earth deposits and genesis
Rare earth demand
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Abstract [Display omitted] •REEs are critical to several modern technologies, especially for green energy.•China dominates the RE industry producing more than 90% of the current requirements.•Secondary RE resources are becoming promising resources to cater the future demand.•Growing ecological concerns in RE industry need to be addressed sustainably. Rare earth elements (REEs) including fifteen lanthanides, yttrium and scandium are found in more than 250 minerals, worldwide. REEs are used in various high-tech applications across various industries, such as electrical and electronics, automotive, renewable energy, medical and defence. Therefore, the demand for REEs in the global market is increasing day by day due to the surging demand from various sectors, such as emerging economies, green technology and R&D sectors. Rare earth (RE) deposits are classified on the basis of their genetic associations, mineralogy and form of occurrences. The Bayan Obo, Mountain Pass, Mount Weld and China’s ion adsorption clays are the major RE deposits/mines in the world to date and their genesis, chronology and mineralogy are discussed in this review. In addition, there are other RE deposits, which are currently being mined or in the feasibility or exploration stages. Most of the RE resources, production, processing and supply are concentrated in the Asia-Pacific region. In this regard, China holds the dominancy in the RE industry by producing more than 90% of the current rare earth requirements. Thus, REEs are used as a powerful tool by China in trade wars against other countries, especially against USA in 2019. However, overwhelming challenges in conventional RE explorations and mining make secondary RE resources, such as electric and electronic waste (e-waste) and mine tailings as promising resources in the future. Due to the supply risk of REEs and the monopoly of the REEs market, REEs recycling is currently considered as an effective method to alleviate market fluctuations. However, economical and sustainable processing techniques are yet to be established to exploit REEs via recycling. Moreover, there are growing ecological concerns along with social resistance towards the RE industry. To overcome these issues, the RE industry needs to be assessed to maintain long-term social sustainability by fostering the United Nations sustainable development goals (SDGs).
AbstractList [Display omitted] •REEs are critical to several modern technologies, especially for green energy.•China dominates the RE industry producing more than 90% of the current requirements.•Secondary RE resources are becoming promising resources to cater the future demand.•Growing ecological concerns in RE industry need to be addressed sustainably. Rare earth elements (REEs) including fifteen lanthanides, yttrium and scandium are found in more than 250 minerals, worldwide. REEs are used in various high-tech applications across various industries, such as electrical and electronics, automotive, renewable energy, medical and defence. Therefore, the demand for REEs in the global market is increasing day by day due to the surging demand from various sectors, such as emerging economies, green technology and R&D sectors. Rare earth (RE) deposits are classified on the basis of their genetic associations, mineralogy and form of occurrences. The Bayan Obo, Mountain Pass, Mount Weld and China’s ion adsorption clays are the major RE deposits/mines in the world to date and their genesis, chronology and mineralogy are discussed in this review. In addition, there are other RE deposits, which are currently being mined or in the feasibility or exploration stages. Most of the RE resources, production, processing and supply are concentrated in the Asia-Pacific region. In this regard, China holds the dominancy in the RE industry by producing more than 90% of the current rare earth requirements. Thus, REEs are used as a powerful tool by China in trade wars against other countries, especially against USA in 2019. However, overwhelming challenges in conventional RE explorations and mining make secondary RE resources, such as electric and electronic waste (e-waste) and mine tailings as promising resources in the future. Due to the supply risk of REEs and the monopoly of the REEs market, REEs recycling is currently considered as an effective method to alleviate market fluctuations. However, economical and sustainable processing techniques are yet to be established to exploit REEs via recycling. Moreover, there are growing ecological concerns along with social resistance towards the RE industry. To overcome these issues, the RE industry needs to be assessed to maintain long-term social sustainability by fostering the United Nations sustainable development goals (SDGs).
ArticleNumber 103521
Author Premasiri, Ranjith
Batapola, Nadeera
Dissanayake, Kithsiri
Ratnayake, Nalin
Dushyantha, Nimila
Rohitha, Sudath
Ilankoon, I.M.S.K.
Abeysinghe, Bandara
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  surname: Dushyantha
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  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
– sequence: 2
  givenname: Nadeera
  surname: Batapola
  fullname: Batapola, Nadeera
  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
– sequence: 3
  givenname: I.M.S.K.
  surname: Ilankoon
  fullname: Ilankoon, I.M.S.K.
  organization: Discipline of Chemical Engineering, School of Engineering, Monash University Malaysia, Jalan Lagoon Selatan, Bandar Sunway, Selangor Darul Ehsan 47500, Malaysia
– sequence: 4
  givenname: Sudath
  surname: Rohitha
  fullname: Rohitha, Sudath
  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
– sequence: 5
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  surname: Premasiri
  fullname: Premasiri, Ranjith
  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
– sequence: 6
  givenname: Bandara
  surname: Abeysinghe
  fullname: Abeysinghe, Bandara
  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
– sequence: 7
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  surname: Ratnayake
  fullname: Ratnayake, Nalin
  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
– sequence: 8
  givenname: Kithsiri
  surname: Dissanayake
  fullname: Dissanayake, Kithsiri
  organization: Department of Earth Resources Engineering, University of Moratuwa, Sri Lanka
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Snippet [Display omitted] •REEs are critical to several modern technologies, especially for green energy.•China dominates the RE industry producing more than 90% of...
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StartPage 103521
SubjectTerms Environmental concerns
Rare earth applications
Rare earth demand
Rare earth deposits and genesis
Rare earth elements (REEs)
Title The story of rare earth elements (REEs): Occurrences, global distribution, genesis, geology, mineralogy and global production
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