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The recent progress of ion exchange for the separation of rare earths from secondary resources – A review

Youssef El OuardiLappeenranta-Lahti University of Technology LUT, School of Engineering Science, Department of Separation Science, Yliopistonkatu 34, FI-53850 Lappeenranta, FinlandSami VirolainenLappeenranta-Lahti University of Technology LUT, School of Engineering Science, Department of Separation Science, Yliopistonkatu 34, FI-53850 Lappeenranta, FinlandEmile Salomon Massima MoueleLappeenranta-Lahti University of Technology LUT, School of Engineering Science, Department of Separation Science, Yliopistonkatu 34, FI-53850 Lappeenranta, FinlandMarkku LaatikainenLappeenranta-Lahti University of Technology LUT, School of Engineering Science, Department of Separation Science, Yliopistonkatu 34, FI-53850 Lappeenranta, FinlandEveliina RepoLappeenranta-Lahti University of Technology LUT, School of Engineering Science, Department of Separation Science, Yliopistonkatu 34, FI-53850 Lappeenranta, FinlandKatri LaatikainenLappeenranta-Lahti University of Technology LUT, School of Engineering Science, Department of Separation Science, Yliopistonkatu 34, FI-53850 Lappeenranta, Finland
2023en
ABI

Аннотация

The challenge towards modern technologies has been enquiring and culminating in the continuously expanding use of rare earth elements (REEs). The non-renewable primary resources of REEs such as bastnasite, monazite, and xenotime, are 78% dominated by China, and their exhaustive exploitation and future availability have raised global concerns. The recycling of end-of-life (EOL) products containing rare earths, waste streams in mining, and metallurgical industry, also referred to as secondary resources - has therefore become an alternative. This, however, requires advanced separation and extraction technologies to achieve high yields from the raw materials and high purities of the recovered REEs. Hydrometallurgy, starting with leaching, and having solvent extraction as the solution purification step, has been employed worldwide for capturing REEs from primary and secondary resources, with high reported recycling efficiencies. Among the frequently used processes, ion exchange (IX) has become one potential method due to its high selectivity, simple use and maintenance, and easy accessibility. This review briefly highlights the updated separation and extraction technologies used to separate REEs from sulfate-based solutions and secondary sources and mostly focuses on ion exchange separation systems. Significant benefits of IX are outlined, and the content of this review emphasizes that IX can still be used as an efficient, economical, and green method for the enhanced extraction of REEs from secondary sources.

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