Separation of Sm-Eu-Gd mixed solutions using bifunctional ionic liquid [A336][P204]

N. Ismail, A. Hisyam, S. Shariff
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引用次数: 2

Abstract

This paper studied the use of bifunctional ionic liquid as an extractant to extract and separate Sm-Eu-Gd mixed solutions. The extractant combined the conventional extractant di-(2-ethyl hexyl) phosphate (P204) with ionic liquid Aliquat 336 (A336) through acid/base neutralization method. This work explored the effect of extraction medium (chloride, sulphate and nitrate), acid concentration (1.5-5.0M) and organic to aqueous phase ratio (1:1, 3:2, 7:3, 4:1, 9:1) to determine the separation factor of each metals. Based on the results, Sm (III) showed the highest separation factor of total solute (β Sm/total=2.81) in the nitrate medium with the acid concentration of 3.0M and organic to aqueous phase ratio of 4:1. Sm (III) was chosen to be separated in the first stage of extraction from the Sm-Eu-Gd mixed solution. In the second stage, the optimized condition to separate the remaining Eu-Gd mixed solution into individual metal was also in the nitrate medium with organic to aqueous phase ratio of 3:2, except with lower acid concentration, 2.0M. This work shows that [A336][P204] is an impeccable extractant candidate for an improved and environmental friendly to separate Sm-Eu-Gd in both laboratory and industrial application.
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双功能离子液体分离Sm-Eu-Gd混合溶液[A336][P204]
本文研究了双功能离子液体作为萃取剂对Sm-Eu-Gd混合溶液的萃取分离。该萃取剂通过酸碱中和法将常规萃取剂磷酸二(2-乙基己基)(P204)与离子液体Aliquat 336 (A336)结合。考察了萃取介质(氯化物、硫酸盐和硝酸盐)、酸浓度(1.5 ~ 5.0 m)和有机水相比(1:1、3:2、7:3、4:1、9:1)对各金属分离系数的影响。结果表明,在酸浓度为3.0M、有机水相比为4:1的硝酸介质中,Sm (III)对总溶质的分离系数最高(β Sm/total=2.81)。Sm (III)选择在第一阶段从Sm- eu - gd混合溶液中分离。在第二阶段,除酸浓度较低(2.0M)外,其余Eu-Gd混合溶液分离为单个金属的最佳条件也是在有机水相比为3:2的硝酸盐介质中。这项工作表明,[A336][P204]是一种无可挑剔的萃取剂,可以在实验室和工业应用中用于分离Sm-Eu-Gd。
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