采用催化内电解法处理松花江硝基苯污染水实验研究
he experimental study on adopting Fe-Cu catalyzing internal-electroanalysis method to dispose the nitrobenzene contaminative water
吉林石化公司双苯厂发生爆炸事故后造成松花江水环境重大污染,如何消除硝基苯污染松花江的长远环境影响,成为了迫在眉睫的问题。本文概述了催化内电解法处理硝基苯的作用机理,介绍了催化内电解法处理松花江硝基苯污染水在不同滤速下的处理效率,滤速在4.5m/h以下,可以维持去除率在80%以上。通过使用Fe-Cu催化剂,提高了传统内电解法对硝基苯的处理效果,在中性或弱碱性条件下,其处理效果比传统内电解法高出5%~15%。
JiLin Petroleum & Chemical Double-Benzene Plants blew up in the last month, which brought the fatal environmental pollution in the Song-Hua River. How to eliminate long-term environmental jeopardousness is no time to delay. The paper set forth briefly the reactive mechanism of the nitrobenzene contaminative water by catalyzing internal-electroanalysis method, and introduced the nitrobenzene removal rate at the different filtration rate. The experiment explained that nitrobenzene removal rate could keep over 80% when filtration rate was less than 4.5m/h. In additional, owing to adopt Fe-Cu catalyzer, it enhanced the disposal efficiency of the traditional internal-electroanalysis method. On the condition of the neutral or alkalescence, the disposal rate was approximate 5%~15% more than that of the traditional internal-electroanalysis method
韩洪军、薛梅、梁杰
环境污染、环境污染防治
催化内电解法硝基苯Fe-Cu作用机理
catalyzing internal-electroanalysis nitrobenzene Fe-Cu reactive mechanism
韩洪军,薛梅,梁杰.采用催化内电解法处理松花江硝基苯污染水实验研究[EB/OL].(2005-12-14)[2025-08-11].http://www.paper.edu.cn/releasepaper/content/200512-367.点此复制
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