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Of amine extractants for uranium and thorium separation from REE. AmineExperimental ConditionsExtraction (%)Ref.TypeNameLiquorOrepHTime (min)ThoriumUraniumREEPrimaryPrimene JM-TSulfateMonazite-595.48.80.32[58]N1923SulfateBastnäsite-->97-ECe: 3–8[60]OctylamineSulfateMonazite41570–8050–60-[59]SecondaryN-methylanilineSulfateMonazite41570–805–100[59]TertiaryAlamine 336SulfateMonazite-53.182.40.02[58]N,N-dimethylanilineSulfateMonazite4157015–20ECe, Eu, Y: 0[59]730055ECe, Eu, Y: 0[59]MixturePrimene JM-T and Alamine 336SulfateMonazite-545.558.80.04[58] Table 6. Phosphorous extractants for uranium and thorium separation from REE. Type of ExtractantFeed Liquor Phosphorous ExtractantExtraction (%)Ref.ThUREEAcidAcidicCyanex 27283-12[69]NitrateDEHEHP20 Ce: 95[65]NitrateMixture of HEH and EHP in kerosene95-Ce: 99[73]NeutralNitrateTiAP (2 solvent extraction steps)9995[74]Nitratep-phosphorylated calixarene99-5[75]NitrateTEHP in n-paraffin50–772.5Y: 0.17[68]OtherNitrateAliquat 3369754[32,76]Nitratepolyaramide 90->48[77] Table 7. Advantages and disadvantages of different methods for separating radioactive elements from REE. TableAdvantagesLimitationsRecovery (%)Scalability 4LeachingSimultaneous recovery of Th & U from REE;Use of cost-effective reagents;Must have a particle size of ore/cake similar or smaller than liberation-equivalent size to avoid higher loss of REE 1;Feed (REE-radioactive mixture) must be in solid phase;Th: >98 3aU: 65–95 3a+++PrecipitationSimultaneous recovery of Th & U from REE;Being pH dependent, possible individual precipitation of Th or U from REE;Use of cost-effective reagents;Highly dependent on reagent, pH and sometimes temperature;Possible co-precipitation of REE with Th & U if right pH is not maintained 2;Difficult to separate both Th & U simultaneously from REE with high recovery in one single step2 although it can be possible;Th ≥ 98U > 80 3aTh > 98U > 90 3b++Solvent ExtractionHigh selectivity towards Th & U;High recovery of Th & U in individual separation steps;Low recovery of Th & U in simultaneous separation;Multiple separation steps required for individual separation of Th & U;Use of chemicals: cost of reagents and environmental impact;Th ≥ 70U ≈ 55 3aTh > 95U > 95 3b+++Ion chromatographyExtraction of Th & U in one step;High recovery of both radioactive elements;Low flow rates;Selection of the scale-up technology and configuration (batch, column, expanded/fluidized-bed or suspended bed);Anion exchange only extracts U (with the presence of ppm);Th: 90–99U: 90–99++ Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( Share and Cite MDPI and ACS Style García, A.C.; Latifi, M.; Amini, A.; Chaouki, J. Separation of Radioactive Elements from Rare Earth Element-Bearing Minerals. Metals 2020, 10, 1524. AMA Style García AC, Latifi M, Amini A, Chaouki J. Separation of Radioactive Elements from Rare Earth Element-Bearing Minerals. Metals. 2020; 10(11):1524. Chicago/Turabian Style García, Adrián Carrillo, Mohammad Latifi, Ahmadreza Amini, and Jamal Chaouki. 2020. "Separation of Radioactive Elements from Rare Earth Element-Bearing Minerals" Metals 10, no. 11: 1524. APA Style García, A. C., Latifi, M., Amini, A., & Chaouki, J. (2020). Separation of Radioactive Elements from Rare Earth Element-Bearing Minerals. Metals, 10(11), 1524. Note that from the first issue of 2016, this journal uses article numbers instead of page numbers.

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