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Recovery of thorium and rare earths from leachate of ion-absorbed rare earth radioactive residues with N1923 and Cyanex® 572

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Abstract Ion-absorbed rare earth ores radioactive residues (IREORR) is a class of waste residue from the production of rare earth elements (REEs). Because of its radioactive dose, the IREORR is… Click to show full abstract

Abstract Ion-absorbed rare earth ores radioactive residues (IREORR) is a class of waste residue from the production of rare earth elements (REEs). Because of its radioactive dose, the IREORR is usually stored in a waste warehouse. IREORR is difficult to be disposed of. However, it contains relatively high concentrations of REEs, which can be considered as a valuable secondary resource. In this paper, a novel process is developed for the separation of thorium (Th) and recovery of REEs from IREORR hydrochloric acid leachate with primary amine N1923 and Cyanex® 572, respectively. The effects of sulfate concentration, extractant concentration and pH on N1923 extraction in hydrochloric acid solution were investigated in detail. The results show that the extraction capacity of N1923 can be improved by adding sulfate to the solution and increasing the concentration of N1923. Acidity has little effect on the extraction of Th when pH value is higher than 1. As for the stripping, REEs are more easily stripped from loaded organic phase than Th, and nitric acid is a better stripping agent than hydrochloric acid. Combined with the extraction of Cyanex® 572 for REEs, a fractional extraction experiment for separating Th and enriching of REEs was performed. The yield of Th is higher than 99.9% and the concentration of REEs is enriched to 183.84 g/L.

Keywords: cyanex 572; radioactive residues; absorbed rare; ion absorbed; rare earth

Journal Title: Journal of Rare Earths
Year Published: 2020

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