Journal
INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY
Volume 16, Issue 12, Pages 7735-7746Publisher
SPRINGER
DOI: 10.1007/s13762-018-02183-5
Keywords
Monazite; Lanthanides; TENORM; Treatment
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In this article, new two approaches (A and B) are created for the efficient removal of the technically enhanced radium isotopes (Ra-228, Ra-226 and Ra-223), long-lived radioisotope of lead (Pb-210), thorium (Th4+) and iron (Fe3+) from the rare earth chloride (RECl3) liquor produced during the monazite processing. In the first approach 'A,' elimination of the undesired species is achieved using a synergistic admixture of sulfate-sulfide solution (SO42-/S2- admixture), while the second approach 'B' is performed using an iodate solution (IO3-) as a selective precipitating agent. The results indicated that 14% of radionuclides and Th(IV), 12% of Ln(III) and 40% of Fe(III) were removed from the RECl3 liquor at pH 3. In the first approach 'A,' the average percentage removal (%R) of all the undesired species reached96% using sulfate-sulfide admixture (0.058/0.04 mol/L). In the second approach 'B,' the average % R of all undesired species is improved and increased to 99% using potassium iodate solution of 0.155 mol/L. Therefore, iodate solution is considered as an efficient and selective agent for the removal of Ra isotopes, Pb-210, Th(IV) and Fe(III) from RECl3 liquor without loss in Ln(III) at the optimized conditions. In this respect, promising results are obtained for the purification and production of Ln(III) using iodate solution or sulfate-sulfide admixture. Finally, the proposed two approaches are considered to be efficient not only to minimize the radiological human risks but also to eliminate the interfering of Th and Fe ions, to produce highly purified lanthanides from monazite ore.
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