(390h) Simultaneous Electrochemical Oxidation and Coagulation for the Treatment of Dye-Containing Wastewater by Using RuO2 Coated Titanium Electrode
AIChE Annual Meeting
2008
2008 Annual Meeting
Environmental Division
Advanced Oxidation and Reduction Processes for Environmental Applications I -Liquid Phase
Wednesday, November 19, 2008 - 10:22am to 10:38am
Dye-containing wastewater from colorants manufacturing industries presents serious problems to the water environments due to its greater toxicity, carcinogenicity, mutagenicity, and poor biodegradability. Electrochemical technologies appear to be promising, since these technologies are low cost and able to provide full decolourization of dyes. In this study, an efficient electrochemical technology for the removal of Rhodamine 6G, a fluorescent-rigid dye, by using RuO2 coated titanium mesh as dimensionally stable anode was developed and studied. Our results show that, the decolourisation process is favorable under acidic conditions (pH 2 ? 4) in the presence of 0.1 ? 0.2 M of NaCl as electrolyte salt and the applied current of 1.0 ? 1.9 A, and full decolourisation of dye-containing wastewater can be achieved within 5 min under the optimum condition. The simultaneous electrochemical oxidation and coagulation are involved in the removal of dye. Total organic carbon (TOC) analysis reveals, under the optimum conditions (pH 2, 1.9 A, and in the presence of 0.2 M NaCl), the electrochemical process significantly reduces the organic content (~ 95 % of TOC removal) in the wastewater within 5 min. Above 55% of the TOC is removed by forming solid foam products via an electrocoagulation process, and another ~ 40 % of TOC is mineralized by electrochemical oxidation. FTIR and GC/MS spectroscopy were used to analyze the solid foam products and intermediate products to probe the removal mechanism of the electrochemical process.