摘要:Sewage wastewater contains large volume of pollutants and its discharge pose a serious environmental problem due to possible ground water contamination. This could be treated by electrocoagulation (EC) because of its proven effectiveness in treating different pollutants from various industries, however, this technology is not yet fully optimized. Process enhancements through chemical dosing were investigated in this study wherein electrocoagulation H2O2 dimethicone combined treatment was considered for the reduction of COD and removal of phosphate from an actual sewage wastewater source. Varying concentration of H2O2 and dimethicone was considered and it was found that at 1% H2O2 and 1% dimethicone, the phosphate removal of an EC system was improved from 83.06% to 100%. Likewise, the COD reduction increased from 68.25% to 82.89% after an hour of electrolysis time. Furthermore, using this blend, it reduced the settling time, minimized the electrode consumption and reduced froth height. Thus, the efficiency of the EC process improved using these additives.
其他摘要:Sewage wastewater contains large volume of pollutants and its discharge pose a serious environmental problem due to possible ground water contamination. This could be treated by electrocoagulation (EC) because of its proven effectiveness in treating different pollutants from various industries, however, this technology is not yet fully optimized. Process enhancements through chemical dosing were investigated in this study wherein electrocoagulation H2O2 dimethicone combined treatment was considered for the reduction of COD and removal of phosphate from an actual sewage wastewater source. Varying concentration of H2O2 and dimethicone was considered and it was found that at 1% H2O2 and 1% dimethicone, the phosphate removal of an EC system was improved from 83.06% to 100%. Likewise, the COD reduction increased from 68.25% to 82.89% after an hour of electrolysis time. Furthermore, using this blend, it reduced the settling time, minimized the electrode consumption and reduced froth height. Thus, the efficiency of the EC process improved using these additives.
