用于去除核电厂废水样本中人工放射性核素的沸石的研究和特性分析

IF 5.4 Q2 ENGINEERING, ENVIRONMENTAL
Fabrizio Ambrosino , Nicola Gargiulo , Giuseppe Della Peruta , Carlo Gravino , Gaetano Gagliardo , Francesco Pisciotta , Salvatore Esposito , Giuseppe La Verde , Domenico Caputo , Mariagabriella Pugliese
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引用次数: 0

摘要

4A、13X、phillipsite 和 chabazite 沸石从水溶液中去除 Cs+ 和 Co2+ 离子的能力。研究的目的是模拟放射性废水的净化过程,这些废水来自意大利前加里利亚诺核电厂,受到 137Cs 和 60Co 的污染。四种粉末状态的沸石以不同的固/液比例,在含有硝酸铯和六水硝酸钴的溶液中进行了单独和组合配置测试。通过电感耦合等离子体 (ICP) 光谱法对 Cs+ 和 Co2+ 的浓度进行了长期监测。结果表明,13X 沸石具有很高的功效,能在相对较短的时间内(20-30 分钟)将这两种元素去除近 100%。这些发现是利用放射性溶液对沸石进行动力学表征的基础,因此也是在加里利亚诺设施建立原位预试验工厂,对受污染废水进行测试的基础。13X 沸石是清除放射性废水的一种很有前途的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Study and characterization of zeolites for the removal of artificial radionuclides in wastewater samples from nuclear power plants

Study and characterization of zeolites for the removal of artificial radionuclides in wastewater samples from nuclear power plants

4A, 13X, phillipsite and chabazite zeolites have been characterized regarding their capacity to remove Cs+ and Co2+ ions from aqueous solutions. The aim is to simulate the decontamination process of radioactive wastewater, originating from the former Garigliano nuclear plant in Italy, which is contaminated with 137Cs and 60Co. The four zeolites, in powder state, have been tested with solutions containing cesium nitrate and cobalt nitrate hexahydrate, in both individual and combined configurations, at different solid/liquid ratios. The Cs+ and Co2+ concentrations have been monitored over time by inductively coupled plasma (ICP) spectrometry. The results demonstrate the high efficacy of 13X zeolite providing almost 100 % of removal of both elements in a relatively short time (20–30 min). These findings are the basis for the kinetic characterization of the zeolite using radioactive solutions and, hence, for the setup of an in-situ pre-pilot plant to carry out tests with contaminated wastewater at the Garigliano facility. 13X zeolite presents a promising alternative for decommissioning radioactive wastewater.

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来源期刊
Journal of hazardous materials advances
Journal of hazardous materials advances Environmental Engineering
CiteScore
4.80
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