Solvent extraction of Terbium(III) from chloride solution using organophosphorus extractant, its mixture and ionic liquid in the presence of organic acids

Tran, Thanh Tuan; Song, Si Jeong; Oh, Chang Geun; Lee, Man Seung

doi:10.37190/ppmp/162714

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Tytuł artykułu

Solvent extraction of Terbium(III) from chloride solution using organophosphorus extractant, its mixture and ionic liquid in the presence of organic acids

Autorzy

Tran Thanh Tuan , Song Si Jeong , Oh Chang Geun , Lee Man Seung

Treść / Zawartość

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DOI

10.37190/ppmp/162714

Warianty tytułu

Języki publikacji

Abstrakty

Addition of organic acids to dilute hydrochloric acid solution can improve the extraction of rare earth elements by single cationic extractants. However, the correlation between the chemical structure of organic acids and the extraction of REEs as well as the variation in equilibrium pH has not been elucidated. In this study, we investigated the extraction of Tb(III) from dilute HCl solutions containing an organic acid like formic, lactic, fumaric, or maleic acid. As extractants, single Cyanex 272, a mixture of Cyanex 272 and Alamine 336 (Ala336-Cy272), and an ionic liquid (ALi-Cy272) synthesized by Cyanex 272 and Aliquat 336 were used. The speciation of Tb(III) in dilute HCl solutions containing organic acids was analyzed. In extraction of Tb(III), organic acids showed two roles as complexing and buffering agent, which depended on the chemical structure of the acids. There was some difference in the extraction of Tb(III) between single Cyanex 272 and ionic liquid, ALi-Cy272. During extraction with ALi-Cy272, formic and lactic acid negatively affected the extraction of Tb(III). The fact that the chemical structure of organic acids affected the extraction of Tb(III) from dilute HCl solution by the studied extractants can provide important information on the selection of suitable extraction systems.

Słowa kluczowe

extraction Terbium(III) organic acid ionic liquid buffer effect

Wydawca

Oficyna Wydawnicza Politechniki Wrocławskiej

Czasopismo

Physicochemical Problems of Mineral Processing

Rocznik

2023

Tom

Vol. 59, iss. 2

Strony

art. no. 162714

Opis fizyczny

Bibliogr. 23 poz., rys., tab., wykr.

Twórcy

autor

Tran Thanh Tuan

Fuculty of Biological, Chemical and Food Technology, Can Tho University of Technology, Can Tho City 900000, Vietnam

autor

Song Si Jeong

Department of Advanced Materials Science & Engineering, Institute of Rare Metal, Mokpo National University, Chonnam 534-729, Republic of Korea

autor

Oh Chang Geun

Department of Advanced Materials Science & Engineering, Institute of Rare Metal, Mokpo National University, Chonnam 534-729, Republic of Korea

autor

Lee Man Seung

mslee@mokpo.ac.kr

Department of Advanced Materials Science & Engineering, Institute of Rare Metal, Mokpo National University, Chonnam 534-729, Republic of Korea

Bibliografia

BANDA, R., JEON, H.S, LEE, M.S., 2013. Extraction behavior of REEs (La, Pr, and Nd) in the presence of EDTA from chloride solutions. Korean J. Met. Mater. 51, 421-427.
CHEN, H., SHI, R., OW, H., 2019. Predicting stability constants for Terbium(III) complexes with dipicolinic acid and 4-substituted dipicolinic acid analogues using density functional theory. ACS Omega. 4, 20665-20671.
FORTUNY, A., COLLl, M.T., SASTRE, A.M., 2012. Use of methyltrioctyl/decylammonium bis 2,4,4-(trimethylpentyl)phosphinate ionic liquid (ALiCy IL) on the boron extraction in chloride medi. Sep. Purif. Technol. 97, 137-141..
JUNG, H.B., KIM, S.M., MOON, H.J., OH, Y.S., LEE, Y.J., LEE, H.S., 2018. Influence of cooling condition of casted strips on magnetic properties of Nd-Fe-B sintered magnets. Met. Mater. Int. 24, 1422-1431.
KASHI, E., HABIBPOUR, R., GORZIN, H., MALEKI, A., 2018. Solvent extraction and separation of light rare earth elements (La, Pr and Nd) in the presence of lactic acid as a complexing agent by Cyanex 272 in kerosene and the effect of citric acid, acetic acid and Titriplex III as auxiliary agents. J. Rare Earths. 36, 317-323.
LIU, Y., JEON, H.S., LEE, M.S., 2015. Separation of Pr and Nd from La in chloride solution by extraction with a mixture of Cyanex 272 and Alamine 336. Met. Mater. Int. 21, 944-949.
LEE, M.S, SON, S.H., 2017. Status and strategy on recycling of domestic used chemical catalysts. Resour. Recycl. 26, 3-16.
LEE, M.S, LEE, J.Y., KIM, J.S., 2005a. Chemical model for the solvent extraction of GdCl3 from a chloride solution with saponified PC88A. Met. Mater. Int. 11, 505-511.
LEE, M.S., LEE, G.S., LEE, J.Y., KIM, S.D.; KIM, J.S., 2005b. Solvent extraction separation of Nd and Sm from chloride solution with PC88A and saponified PC88A. Resour. Recycl. 14, 33-42.
LIU, Y., JEON, H.S, LEE, M.S., 2014. Solvent extraction of Pr and Nd from chloride solution by the mixtures of Cyanex 272 and amine extratants. Hydrometallurgy 150, 61-67.
MARTAK, J., SCHLOSSER, S., 2007. Extraction of lactic acid by phosphonium ionic liquids. Sep. Purif. Technol. 57, 483-494.
NILSSON, M., NASH, K.L., 2007. Review Article: A Review of the Development and Operational Characteristics of the TALSPEAK Process. Solvent Extr. Ion Exch. 25(6), 665–701.
OH, S.G., SON, S.H., LEE, M.S. Solvent extraction of Tb(III) from chloride solution using organophosphorous extractant, its mixture and ionic liquids with Amines. Resour. Recycl. 28, 40-46.
OH, C.G., LEE, M.S., 2018. Solvent extraction of Tb(III) from hydrochloric acid solution with Cyanex 272, its mixture and ionic liquid. Korean J. Met. Mater. 56, 870-877.
OH, C.G., SON, S.H., LEE, M.S., 2019. Separation of Tb(III) anf Dy(III) from chloride solution by extraction and scrubbing with ionic liquid prepared with Cyanex 272 and Aliquat 336. Korean J. Met. Mater. 57, 499-505.
PAVON, S., LAPO, B., FORTUNY, A., SASTRE, A.M., BERTAU, M. 2021. Recycling of rare earths from fluorescent lamp waste by the integration of solid-state chlorination, leaching and solvent extraction processes. Sep. Purif. Technol. 272, 118879.
QUINN, J.E., SOLDENHOFF, K.H., STEVENS, G.W., LENGKEEK, N.A., 2015. Solvent extraction of rare earth elements uing phosphonic/phosphinic acid mixtures. Hydrometallurgy 157, 298-305.
RAJU, B., JEON, H.S., LEE, M.S., 2011. Solvent extraction of Nd from chloride solution with individual and mixed extractants. Resour. Recycl. 20, 46-51.
SATPATHY, S., MISHRA, S., 2017. Extractive separation studies of La(III) and Ni(II) in the presence of lactic acid using DEHPA in petrofin. Sep. Purif. Technol. 179, 513-522.
SPAREKEL, L.M.J., SCHUUR, B., 2019. Solvent developments for liquid-liquid extraction of carboxylic acids in perspective. Sep. Purif. Technol. 211, 935-957.
TRAN, T.T., LEE, M.S., 2020. Interactions Between Ionic Liquid (ALiCY) and TBP and their Use in Hydrometallurgy for Extracting Co(II) and Ni(II). Korean J. Met. Mater. 58, 423-432.
TRUONG, H.T., KIM, Y.H., LEE, M.S., 2017. Separation of rhenium (VII) and vanadium (V) from hydrochloric acid solutions by solvent extraction. Korean J. Met. Mater. 55, 724-731.
YIN, S., WU, W., BIAN, X., ZHANG, F., 2013. Effect of complexing agent lactic acid on the extraction and separation of Pr(III)/Ce(III) with di-(2-ethylhexyl)phosphoric acid. Hydrometallurgy 131-132, 133-137.

Uwagi

Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-c8663368-ded3-496e-a0b4-ef1855415db6