镓在碱金属氯化物熔体中的阳极溶解

Q4 Materials Science

Chimica Techno Acta Pub Date : 2023-12-28 DOI:10.15826/chimtech.2023.10.4.16

O. Tokarev, V. Volkovich

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引用次数: 0

摘要

镓和镓基合金可用于乏核燃料的热化学和热电化学后处理，特别是用于分离锕系元素和稀土裂变产物。然而，人们对镓在高温熔盐电解质中的电化学行为研究甚少。本研究旨在探讨镓在熔融碱氯化物（6NaCl-9KCl-5CsCl 三元共晶混合物）中阳极溶解的过程，并确定熔体中形成和残留的不同氧化态镓氯物种的比例。实验在 550 至 750 °C 之间进行，阳极电流密度在 0.024 至 0.094 A/cm2 之间变化。实验使用了阳极极化和库仑计，结果表明镓阳极溶解过程中形成了两种镓，即 Ga（I）和 Ga（III）。这两种氧化态之间的比例取决于温度和阳极电流密度。文中介绍了处理实验数据的方法以及在不同条件下体系中镓离子形态比例的计算值。

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Anodic dissolution of gallium in alkali metal chloride melts

Gallium and gallium based alloys can be potentially used in pyrochemical and pyroelectrochemical reprocessing of spent nuclear fuels, particularly for separating actinides and rare earth fission products. However, the electrochemical behavior of gallium in high temperature molten salt electrolytes is very little studied. The present work was aimed at investigating the processes taking place during anodic dissolution of gallium in fused alkali chlorides (the ternary 6NaCl–9KCl–5CsCl eutectic mixture) and determining the ratio of gallium chloro-species in different oxidation states formed and remained in the melt. The experiments were performed between 550 and 750 °C, and the anodic current density varied from 0.024 to 0.094 A/cm2. Anodic polarization and coulometry were used, and the results obtained demonstrated that two gallium species, Ga(I) and Ga(III), were formed as a result of gallium anodic dissolution. The ratio between these two oxidation states depended on temperature and anodic current density. The method of processing the experimental data and the calculated values of the ratio of gallium ionic forms in the system under various conditions are presented.

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来源期刊

Chimica Techno Acta Chemical Engineering-Chemical Engineering (all)

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

4 weeks