RARE METALS, SEMICONDUCTORS | |
ArticleName | Application of silica-based sorbents to extraction of rare earth elements from loparite processing products |
DOI | 10.17580/nfm.2022.01.03 |
ArticleAuthor | Muslimova A. V., Bujnovskij A. S., Karakchieva, N. I., Sachkov V. I. |
ArticleAuthorData | Seversk Technological Institute, a branch of State Autonomous Educational Institution of Higher Education National Research Nuclear University MEPhl, Seversk, Russia: A. V. Muslimova, Associated Professor, Department of Chemistry and Technology of Modern Energy Materials, e-mail: klameri7@gmail.com
National Research Tomsk State University, Tomsk, Russia1 ; Siberian Research Institute of Agriculture and Peat-branch of Siberian Federal Scientific Centre of Agro-biotechnologies of The Russian Academy of Sciences, Tomsk, Russia2: N. I. Karakchieva, Senior Researcher1, 2, e-mail: karakchieva@mail.tsu.ru
National Research Tomsk State University, Tomsk, Russia V. I. Sachkov, Professor, Head of the Laboratory “Innovation and Technology Center”, e-mail: itc@spti.tsu.ru |
Abstract | Apatite and loparite are the main sources of rare earth elements (REE) in Russia. Loparite is a complex titanate and niobate containing up to 30% wt. of REE oxides predominantly of the cerium group. Extraction processing methods are used at the stages of group separation and separation of REE concentrates. Tributyl phosphate (TBP) is a widely used extracting agent for these purposes. Extraction technologies have a number of disadvantages, in particular, a large number of separation stages because of low separation coefficients of individual REE combined with difficulties in separating liquid phases. The use of TBP-containing sorbents allows to eliminate the latter disadvantage. Both organic polymers and inorganic compounds may be used as sorbent carriers; among inorganic ones, silica is widely used, and it was selected for this study. The purpose of this work was to study the effect of variations of the proposed methods for synthesis of silica and modified TBP based sorbents on their ability to extract REE from the solutions of loparite concentrate processing. The article briefly describes a procedure for sorbent samples synthesis. Tetraethoxysilane, tributyl phosphate, stannic chloride and nanotubes have been used as starting reagents for the synthesis. A number of physicochemical properties have been determined for the synthesized samples (pore volume and their average diameter, surface area and morphology, acid-base properties of the surface), and thermogravimetric analysis has been performed. The sorption properties of the samples have been tested by the example of REE extraction from process solutions of loparite working up. The separation coefficients of Sm/La pairs up to 3.7, Pr/Nd up to 1.8 were obtained; therefore, the studied samples may be potentially used for samarium isolation from the REE combination, as well as for Pr – Nd pair separation. This study was supported by the Tomsk State University Development Programme (Priority-2030). |
keywords | Loparite, rare earth elements, thorium, separation, sorbents, tributyl phosphate, silica, stannic chloride |
References | 1. Kosynkin V. D., Moiseev S. D., Peterson C. H., Nikipelov B. V. Rare Earths Industry of Today in the Commonwealth of Independent States. Journal of Alloys and Compounds. 1993. Vol. 192, Iss. 1-2. pp. 118–120. 4. Kudryavskii Y. P. Investigation of Physicochemical Fundamentals and Elaboration of the New, Improved Technology of Deactivation of Liquid Radioactive Waste of The Chlorination Process of Loparite Concentrates. Russian Journal of Applied Chemistry. 2011. Vol. 84, Iss. 3. pp. 515–525. |
Full content | Application of silica-based sorbents to extraction of rare earth elements from loparite processing products |