Shan, LiliLiu, JunfengAmbuchi, John JustoYu, YanlingHuang, LinlinFeng, Yujie2023-10-252023-10-252017-04-25http://repository.rongovarsity.ac.ke/handle/123456789/2534The biologically pretreated cellulosic ethanol wastewater poses a serious environmental concern because of its refractory and color compounds. The decolorization of electrochemical oxidation using Sb doped Ti/ SnO2 electrode for advanced treatment of cellulosic ethanol wastewater under different current density (5–30 mAcm2 ), initial pH (3–8.9) and supporting electrolyte (0–0.25 M NaCl) was investigated in this study. Complete decolorization, 8.5% chemical oxygen demand (COD) and 69.1% dissolved organic carbon removal efficiencies were achieved under the optimal conditions (20 mAcm2 , pH 5 and supporting elec- trolyte of 0.1 M NaCl) after 150 min. The energy consumption required to meet National Discharge Standard (GB 27631-2011) is 93.8 kWh kg COD1 . Further investigation revealed that hydroxyl radicals played a primary role in the degradation of organic contaminants, while active chlorine formed from chloride oxidation played a less important role. Direct anodic oxidation and indirect reaction via perox- odisulfate generated from sulfate oxidation could be negligible. The formation of chlorination by- products appeared to be low since the final total Trihalomethanes concentration detected was 263 mg L1 , with the detection of chloroform as the main Trihalomethanes.enAttribution-NonCommercial-ShareAlike 3.0 United Stateshttp://creativecommons.org/licenses/by-nc-sa/3.0/us/Cellulosic ethanol wastewater Biologically treated effluent Decolorization Electrochemical oxidationArticle