Civil and Environmental Engineering Department, Northeastern University, Boston, MA 02115, USA.
Water Res. 2012 Apr 15;46(6):1847-57. doi: 10.1016/j.watres.2012.01.002. Epub 2012 Jan 8.
Electrochemical dechlorination of trichloroethylene (TCE) in aqueous solution is investigated in a closed, liquid-recirculation system. The anodic reaction of cast iron generates ferrous species, creating a chemically reducing electrolyte (negative ORP value). The reduction of TCE on the cathode surface is enhanced under this reducing electrolyte because of the absence of electron competition. In the presence of the iron anode, the performances of different cathodes are compared in a recirculated electrolysis system. The copper foam shows superior capability for dechlorination of aqueous TCE. Electrolysis by cast iron anode and copper foam cathode is further optimized though a multivariable experimental design and analysis. The conductivity of the electrolyte is identified as an important factor for both final elimination efficiency (FEE) of TCE and specific energy consumption. The copper foam electrode exhibits high TCE elimination efficiency in a wide range of initial TCE concentration. Under coulostatic conditions, the optimal conditions to achieve the highest FEE are 9.525 mm thick copper foam electrode, 40 mA current and 0.042 mol L(-1) Na(2)SO(4). This novel electrolysis system is proposed to remediate groundwater contaminated by chlorinated organic solvents, or as an improved iron electrocoagulation process capable of treating the wastewater co-contaminated with chlorinated compounds.
在封闭的液体循环系统中研究了水溶液中三氯乙烯(TCE)的电化学脱氯。铸铁的阳极反应会生成亚铁物质,从而产生具有化学还原作用的电解质(负氧化还原电位值)。由于不存在电子竞争,TCE 在阴极表面的还原反应得到增强。在铁阳极的存在下,在循环电解系统中比较了不同阴极的性能。在水中 TCE 的脱氯方面,泡沫铜表现出卓越的性能。通过多变量实验设计和分析,进一步优化了铸铁阳极和泡沫铜阴极的电解。电解质的电导率被确定为 TCE 的最终消除效率(FEE)和比能消耗的重要因素。泡沫铜电极在初始 TCE 浓度的广泛范围内表现出高的 TCE 消除效率。在恒电流条件下,达到最高 FEE 的最佳条件为 9.525 毫米厚的泡沫铜电极、40 mA 的电流和 0.042 mol/L 的 Na2SO4。该新型电解系统被提议用于修复受氯化有机溶剂污染的地下水,或者作为一种改进的铁电化学凝聚工艺,能够处理与氯化化合物共存的废水。