阴极材料对偶氮染料电-Fenton降解的影响

化工进展

阴极材料对偶氮染料电-Fenton降解的影响

汤茜1,2，范宗良2，毛志红3，李贵贤2，余华2

1吉林师范大学环境工程学院；2兰州理工大学石油化工学院；3甘肃银光聚银化工有限公司

出版日期:2010-02-05 发布日期:2010-02-05

Effect of cathode on the electro-Fenton degradation of azo dye Methyl Orange

TANG Qian1,2，FAN Zongliang2，MAO Zhihong3，LI Guixian2，YU Hua2

1 College of Environmental Engineering，Jilin Normal University；2 College of Petrochemical Engineering，Lanzhou University of Technology；3 Gansu Yinguang Juyin Chemical Engineering Limited Company

Online:2010-02-05 Published:2010-02-05

摘要/Abstract

摘要： 选择偶氮染料甲基橙（MO）为目标污染物，在电-Fenton降解体系中考察了4种自制阴极电极（石墨电极、钢丝电极、镀钛钢丝电极和镀银钢丝电极）对MO的氧化降解的影响。研究表明，在相同的实验条件下，镀银钢丝电极作阴极时，MO的去除率最大，镀钛钢丝电极、钢丝电极、石墨电极依次减小，且4种阴极材料下MO的氧化降解反应均符合一级反应动力学。

Abstract: The electro-Fenton degradation of azo dye methyl orange (MO) in water was conducted with four different cathodes (plumbaginous cathode，steel wire cathode，titanizing steel wire cathode and silver-gilt steel wire cathode)，and the effect of cathode on the removal rate of MO was investigated. The decoloration value of MO is the highest with the silver-gilt steel wire cathode under same conditions，and then the titanizing steel wire cathode，the steel wire cathode and the plumbaginous cathode in turn. Moreover，the degradation of MO accorded with a first order kinetic equation with all the four different cathodes.

汤茜1,2，范宗良2，毛志红3，李贵贤2，余华2. 阴极材料对偶氮染料电-Fenton降解的影响 [J]. 化工进展.

TANG Qian1,2，FAN Zongliang2，MAO Zhihong3，LI Guixian2，YU Hua2. Effect of cathode on the electro-Fenton degradation of azo dye Methyl Orange[J]. Chemical Industry and Engineering Progree.