改性油页岩对低活度放射性废液模型溶液中137Cs、85Sr和60Co的吸附

Q4 Chemistry
K. E. Zaruba-Venhlinskaya, T. L. Shubarava, A. Radkevich, T. F. Kouznetsova, A. Ivanets
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引用次数: 0

摘要

介绍了热改性油页岩吸附剂对放射性废液模型溶液中铯、锶、钴等放射性核素的吸附研究结果。讨论了氮吸附-解吸的结构参数与油页岩处理方法的关系及其与分布系数、脱氮效率等吸附参数的关系。了解孔隙特征如何影响吸收剂等复杂系统的吸附活性,对于创造具有改进特性的放射性核素吸附材料非常重要。吸附剂样品对铯、锶、钴放射性核素的吸附效率较高,分布系数约为103 ~ 104 ml/g,去除率达66%以上。从油页岩中获得的吸附剂效果最好,升温速率为5℃/min,无需后续蒸汽处理,推荐用于低活性放射性废物处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
137Cs, 85Sr and 60Co sorption from model solutions of low activity liquid radioactive waste by modified oil shale
The results of the study of cesium, strontium, cobalt radionuclides sorption from model solutions simulating liquid radioactive waste on promising sorbents based on thermally modified oil shale are presented. The dependency of texture parameters obtained from the results of nitrogen adsorption-desorption on the treatment method of oil shale and their relationship to sorption parameters such as distribution coefficient and removal efficiency was discussed. Understanding how pore characteristics affect the sorption activity of such complex systems as sorbents is important for the creation of radionuclide sorption materials with improved characteristics. The efficiency of sorption of cesium, strontium and cobalt radionuclides was rather high for sorbent samples: the distribution coefficient was about 103–104 ml/g with a removal efficiency of more than 66 %. The most effective sorbent was obtained from oil shale with a heating rate of 5 deg/min without subsequent steam treatment, which is recommended to be used for low-active radioactive waste treatment.
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CiteScore
0.30
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