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湿法氧化处理放射性废离子交换树脂的方法 被引量:5

Wet Oxidation Treatment of Radioactive Spent Ion-Exchange Resin
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摘要 本文对放射性废离子交换树脂湿法氧化处理方法的反应机理、工艺特点、工业应用情况进行了总结。主要对酸煮解法、蒸汽重整工艺、超临界水氧化法(SCWO)及芬顿湿法氧化法进行了对比,通过分析国内外研究现状及工业应用情况,同时结合各个方法的优缺点及后处理难易程度,考虑到核安全及经济性,认为芬顿湿法氧化法处理放射性废离子交换树脂是较为可行的方案之一。 Radioactive waste ion-exchange resins have been treated by cement solidification directly,however,the effect of cement is unsatisfactory.In order to find other proper treatment methods,many investigations have been carried out.Especially,wet oxidation treatment technology is favored by many researchers because of its short treatment cycle and high volume reduction ratio.In this work,the reaction mechanism,process characteristics and industrial application of the wet oxidation treatment of radioactive spent ion-exchange resins were summarized.The analysis of the acid boiling degradation,Fenton wet oxidation technology,steam reforming process and supercritical water oxidation method had been focused.Mainly for the acid digestion,steam reforming process,supercritical water oxidation and Fenton wet oxidation were compared by the status of research at home and abroad and industrial applications,combined with the advantages and disadvantages of each method and the ease of post-processing,and considering the perspective of nuclear safety and convenient for subsequent processing,four treatment methods were briefly analyzed by comparing the advantages and disadvantages of each method.The results indicated that Fenton wet oxidation treatment of radioactive spent ion exchange resin was one of the feasible schemes.
作者 李江博 王烈林 谢华 冯志强 曾阳 LI Jiangbo;WANG Lielin;XIE Hua;FENG Zhiqiang;ZENG Yang(Fundamental Science on Nuclear Wastes and Environmental Safety Laboratory,Southwest University of Science and Technology, Mianyang 621010, China)
出处 《同位素》 CAS 2019年第1期45-52,I0003,共9页 Journal of Isotopes
基金 国家自然学科基金项目(21101129 41502028) 四川省教育厅科研重点项目(14ZA0103) 四川省教育厅重大成果培育项目(17zd1103)
关键词 放射性废离子交换树脂 酸煮解 芬顿湿法氧化 蒸汽重整 超临界水氧化 radioactive spent ion-exchange resin acid boiling degradation Fenton wet oxidation steam reforming supercritical water oxidation
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