恒流电解法制备碘

Resources Processing Pub Date : 2011-01-01 DOI:10.4144/RPSJ.58.136

K. Koyama, Mikiya Tanaka, J. Shibata

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引用次数: 0

摘要

本研究研究了含碘离子溶液电解氧化生成碘的方法，以开发利用碘化碘溶液回收金的工艺。在阳极极化曲线中，电流在0.5 V / SHE左右的阳极电位处开始上升，阳极表面附近的溶液变成棕色，这与i3−/I−的热力学势0.536 V / SHE相当。在恒流电解初期，碘浓度随时间增加，碘化物浓度降低。在这一阶段，目前的效率超过90%。在进一步电解过程中，碘浓度随时间降低，在阳极上形成固态碘。根据碘的溶解度与碘和碘化物的初始浓度之间的关系，可以估计出碘的最高浓度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Generation of Iodine by Galvanostatic Electrolysis

In the present study, generation of iodine by an electrolytic oxidation from solutions containing iodide ions was investigated in order to develop a recycling process of gold using iodine-iodide solutions. In an anodic polarization curve, the current began to rise at an anodic potential of around 0.5 V vs. SHE, and solution near anode surface became brown, which is comparable to the thermodynamic potential for I 3 − /I − of 0.536 V vs. SHE. In the initial stage of galvanostatic electrolysis, iodine concentration increased with time and iodide concentration decreased. The current efficiencies were more than 90% in this stage. In the further electrolysis, iodine concentration decreased with time and solid state iodine was formed on the anode. The highest concentration of iodine could be estimated by the relationship between its solubility and the initial concentrations of iodine and iodide.

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Resources Processing

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