%0 Journal Article
%T 不锈钢片感应电芬顿法降解氯化苄<br>Benzyl Chloride Degradation in Inductive Electro-Fenton Process with Stainless Steel Sheets
%A 张悦
%A 高宇
%A 刘莉
%A 柏聪聪
%A 史传国
%J Journal of Advances in Physical Chemistry
%P 195-201
%@ 2168-6130
%D 2021
%I Hans Publishing
%R 10.12677/JAPC.2021.104019
%X 构建石墨为阴阳极、不锈钢片为感应电极的感应电芬顿体系降解处理氯化苄。研究初始pH值、电流、电解时间、30% H2O2投加量等因素对氯化苄去除率影响。对于10 mL模拟废水，初始pH为3、恒定电流0.3 A、电解时间为40 min、30% H2O2投加量为1 mL时，氯化苄去除率达83%。不锈钢片感应电芬顿法降解氯化苄为难降解有机污染物处理提供新途径。<br />
The inductive electro-Fenton process was constructed for the degradation treatment of benzyl chloride with graphite as the cathode and anode and stainless steel sheets as the inductive electrode. The influence of initial pH value, constant current, electrolysis time and initial H2O2 dosage on the degradation of benzyl chloride were studied. For 10 mL simulated wastewater, when the initial pH is 3, the current is 0.3 A, the electrolysis time is 40 min, and the volume of 30% H2O2 is 1 mL, the degradation effect reaches 83%. The inductive electro-Fentonsystem device with stainless steel sheets as inductive electrodes for the degradation of benzyl chloride provides a new way for the degradation of refractory organic pollutants.
%K 氯化苄，电芬顿，不锈钢片阳极<br>Benzyl Chloride
%K Inductive Electro-Fenton
%K Stainless Steel Sheets Inductive Electrode
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=45798