Use of alternating current for colored water purification by anodic oxidation with SS/PbO2 and Pb/PbO2 electrodes

被引:0
作者
Amina Othmani
Aida Kesraoui
Hanene Akrout
Montserrat López-Mesas
Mongi Seffen
Manuel Valiente
机构
[1] University of Sousse,Laboratory of Energy and Materials (LabEM): LR11ES34, Higher School of Science and Technology of Hammam Sousse
[2] Monastir University,Faculty of Sciences of Monastir
[3] Center of Water Researches and Technologies (CERTE),Laboratory of Wastewaters and Environment
[4] Universitat Autònoma de Barcelona,Centre Grup de Técniques de Separació, en Química (GTS), Unitat de Química Analítica, Departament de Química, Facultat de Ciències
来源
Environmental Science and Pollution Research | 2019年 / 26卷
关键词
Anodic oxidation; Alternating current; Direct current, Pb/PbO; SS/PbO;
D O I
暂无
中图分类号
学科分类号
摘要
This paper suggests a new alternative for the acceleration of dye removal by adopting alternating current instead of direct current in the treatment of methylene blue solutions and industrials effluents, using anodic oxidation on Pb/PbO2 and stainless steel (SS)/PbO2 anodes. A comparative study of the influence of electrolyte support (NaCl, NaNO3, and Na2SO4) on the anodic oxidation performance and the anode stability was performed. The best results were obtained in presence of NaCl where the color removal percentage reached about 80.13% and 55.8%, for Pb/PbO2 anodes, and 89.5% and 60.4% for the SS/PbO2 anodes for alternating and direct current, respectively. Treatment in alternating current conditions enhanced the removal speed. Atomic absorption analysis confirmed the decrease of the release of (Pb2+) ions to much lower values compared with direct current and to those allowed by the Standards. LC/MS and phytotoxicity analyses confirmed the non-toxicity of the generated by-products during the anodic oxidation of methylene blue and the possibility of the reuse of the treated water.
引用
收藏
页码:25969 / 25984
页数:15
相关论文
共 239 条
[1]  
Abu Ghalwa N(2011)Electrochemical degradation of linuron in aqueous solution using Pb/PbO Arab J Chem 9 S821-S828
[2]  
Hamada M(2015) and C/PbO C R Chim 18 110-120
[3]  
Abu Shawish HM(2019) electrodes Pol J Environ Stud 28 1-6
[4]  
Shubair O(2018)Enhancement of methylene blue removal by anodic oxidation using BDD electrode combined with adsorption onto sawdust J Environ Manag 217 337-345
[5]  
Akrout H(2018)Reuse of textile wastewater after treating with combined process of chemical coagulation and electrocoagulation JCLP 201 28-38
[6]  
Jellali S(2014)Removal of ciprofloxacin from seawater by reverse osmosis Electrochim Acta 143 180-187
[7]  
Bousselmi L(2019)Dynamic investigations on cationic dye desorption from chemically modified lignocellulosic material using a low-cost eluent: dye recovery and anodic oxidation efficiencies of the desorbed solutions Water 11 460-153
[8]  
Ali A(2019)Degradation of armanth dye in alkaline medium by ultrasonic cavitation coupled with electrochemical oxidation using a boron–doped diamond anode J Clean Prod 214 145-38
[9]  
Shaikh IA(2019)Brine recycling from industrial textile wastewater treated by ozone. By-products accumulation. Part 1: multi recycling loop Aquaculture 504 30-246
[10]  
Abid T(2016)Treatment of sanitary landfill leachate by the combination of photo-Fenton and biological processes Chem Eng J 289 239-657
12345678910