Evaluating ion exchange resin efficiency and oxidative capacity for the separation of uranium(IV) and uranium(VI)

IF 0.9 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS

Geochemical Transactions Pub Date : 2013-01-31 DOI:10.1186/1467-4866-14-1

Deborah L Stoliker, Nazila Kaviani, Douglas B Kent, James A Davis

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引用次数: 33

Abstract

Previously described methods to separate dissolved U(IV) from dissolved U(VI) under acidic anoxic conditions prior to laboratory analysis were ineffective with materials currently available commercially. Three strong anion exchange resins were examined for their efficiency in separating, recovering, and preserving both redox states during separation.

Under oxic conditions, recovery of U(VI) from three exchange resins (Bio-Rad AG? 1x8 Poly-Prep? prefilled columns, Bio-Rad AG? 1x8 powder, and Dowex? 1x8 powder) ranged from 72% to 100% depending on the dosed mass, eluent volume, and resin selected. Dowex? 1x8 resin was the only resin found to provide 100% recovery of U(VI) with fewer than 5 bed volumes of eluent. Under anoxic conditions, all three resins oxidized U(IV) in aqueous solutions with relatively low U(IV) concentrations (<3x10^-6 M). Resin-induced oxidation was observed visually using a leuco dye, safranin-o. Oxidants associated with the resin were irreversibly reduced by the addition of Ti(III). After anoxic resin pre-treatment, a series of U(IV)/U(VI) mixtures at micro-molar levels were prepared and separated using the Dowex? 1x8 resin with 100% recovery of both U(IV) and U(VI) with no resin-induced changes in oxidation state.

Currently available anion exchange resins with apparently identical physical properties were found to have significantly different recoveries for hexavalent uranium at micro-molar concentrations. A novel qualitative technique was developed to visually assess oxidative capacities of anion exchange resins under acidic anoxic conditions. A protocol was developed for pre-treatment and use of currently available anion exchange resins to achieve quantitative separation of U(IV) and U(VI) in aqueous solutions with low U(IV) concentrations. This method can be applied to future work to quantitatively assess dissolved U(IV) and U(VI) concentrations in both laboratory and field samples.

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离子交换树脂分离铀(IV)和铀(VI)的效率和氧化性能评价

先前描述的在实验室分析之前在酸性缺氧条件下分离溶解的U(IV)和溶解的U(VI)的方法对于目前可用的商业材料是无效的。研究了三种强阴离子交换树脂在分离、恢复和保持两种氧化还原状态时的效率。在氧化条件下，从三种交换树脂(Bio-Rad AG?1×8 Poly-Prep ?预填充柱，Bio-Rad AG?1x8粉末，Dowex?1x8粉末)范围从72%到100%取决于剂量质量，洗脱液体积和树脂选择。Dowex吗?1x8树脂是唯一一种在少于5层体积的洗脱液中能100%回收U(VI)的树脂。在缺氧条件下，所有三种树脂在相对较低的U(IV)浓度(<3x10-6 M)的水溶液中氧化U(IV)。用浅色染料safranin-o观察树脂诱导的氧化。与树脂相结合的氧化剂通过Ti(III)的加入被不可逆地还原。经缺氧树脂预处理后，制备了一系列微摩尔浓度的U(IV)/U(VI)混合物，并用Dowex?1x8树脂，U(IV)和U(VI)回收率100%，无树脂引起的氧化态变化。目前可用的具有明显相同物理性质的阴离子交换树脂在微摩尔浓度下对六价铀的回收率有显著差异。提出了一种在酸性缺氧条件下直观评价阴离子交换树脂氧化性能的定性方法。开发了一种预处理方案，并利用目前可用的阴离子交换树脂在低浓度U(IV)水溶液中实现U(IV)和U(VI)的定量分离。该方法可应用于未来的工作，定量评估实验室和现场样品中溶解的U(IV)和U(VI)浓度。

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来源期刊

Geochemical Transactions 地学-地球化学与地球物理

CiteScore

3.70

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.

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