阴极材料对三相三维电极反应器电解处理酸性橙7的影响研究

采用具有不同阴极材料的三相三维电极反应器,对300 mg/L酸性橙7(AO7)模拟废水进行处理研究,重点考察阴极材料对脱色率和反应体系矿化能力的影响,同时利用HPLC、UV-Vis、GC-MS等分析方法对·OH、H2O2以及降解产物进行测定,探讨了3种电极对AO7的降解行为.结果表明,在电压20 V条件下电解60 min后,活性炭纤维(ACF)、石墨和不锈钢等3种阴极体系对于AO7的脱色率均高于96%,三者之间没有明显差别.但是ACF体系对TOC的去除率可达到57.4%,高于其它两者.3种阴极体系中均有高活性的·OH和H2O2生成,但是ACF阴极体系中产生的浓度较高,从而决定了其具有较高的矿化能力.几种不同电极体系电解AO7过程中都遵循了相同的产生酮类和萘酚类物质的过程.

Effect of Cathode Material on Electrolytic Treatment of Acid Orange 7 by a Three-Phase Three-Dimensional Electrode Reactor

The simulative wastewater containing Acid Orange 7 (AO7) of 300 mg/L was electrolytically treated by a three-phase three-dimensional electrode reactor. Particular attention was paid on the comparison of treatment efficiency of different cathodes in the system. Intermediate products and concentration of *OH and H2O2 were further investigated using HPLC, UV-Vis scan and GC-MS, with the purpose of investigating the electrolysis behavior of AO7 with different cathodes. Results showed that activated carbon fiber (ACF) cathode was more effective than graphite or stainless steel cathode. Despite all of the three investigated cathodes showed high efficiency in the decolorization of AO7 (more than 96% after 60 min of electrolysis under 20 V), the TOC removal ratio of ACF system (57.4%) was much higher than those of the other two. Although the generation of *OH and H2O2 were both found in the three systems, the concentration in the system with ACF as the cathode was much higher than those in the other two, which resulted in the better mineralization ability. Moreover, the same degradation route of AO7 was found in the three systems, which involved the generation of ketone and naphthol compounds.