Key Laboratory of Reservoir Aquatic Environment, Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, Chongqing 401122, PR China; School of Environmental Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, PR China.
J Hazard Mater. 2013 Oct 15;261:570-6. doi: 10.1016/j.jhazmat.2013.08.010. Epub 2013 Aug 12.
To avoid electrolyte leakage and gas bubbles in the electro-Fenton (E-Fenton) reactors using a gas diffusion cathode, we developed a trickle bed cathode by coating a layer composed of carbon black and polytetrafluoroethylene (C-PTFE) onto graphite chips instead of carbon cloth. The trickle bed cathode was optimized by single-factor and orthogonal experiments, in which carbon black, PTFE, and a surfactant were considered as the determinant of the performance of graphite chips. In the reactor assembled by the trickle bed cathode, H2O2 was generated with a current of 0.3A and a current efficiency of 60%. This performance was attributed to the fine distribution of electrolyte and air, as well as the effective oxygen transfer from the gas phase to the electrolyte-cathode interface. In terms of H2O2 generation and current efficiency, the developed trickle bed reactor had a performance comparable to that of the conventional E-Fenton reactor using a gas diffusion cathode. Further, 123 mg L(-1) of reactive brilliant red X-3B in aqueous solution was decomposed in the optimized trickle bed reactor as E-Fenton reactor. The decolorization ratio reached 97% within 20 min, and the mineralization reached 87% within 3h.
为避免使用气体扩散阴极的电芬顿(E-Fenton)反应器中的电解质泄漏和气泡,我们开发了一种滴流床阴极,方法是将由碳黑和聚四氟乙烯(C-PTFE)组成的涂层涂覆到石墨片上,而不是涂覆到碳布上。通过单因素和正交实验对滴流床阴极进行了优化,其中碳黑、PTFE 和表面活性剂被认为是石墨片性能的决定因素。在由滴流床阴极组装的反应器中,以 0.3A 的电流和 60%的电流效率产生了 H2O2。这种性能归因于电解质和空气的精细分布,以及气相到电解质-阴极界面的有效氧转移。就 H2O2 的生成和电流效率而言,开发的滴流床反应器的性能可与使用气体扩散阴极的传统 E-Fenton 反应器相媲美。此外,在优化的滴流床反应器中,水溶液中的 123mg/L 的活性艳红 X-3B 被分解为 E-Fenton 反应器。在 20 分钟内达到 97%的脱色率,在 3 小时内达到 87%的矿化率。
