文章摘要
宋 燕, 陈 捷, 张国权, 杨凤林.掺杂石墨烯气体扩散电极电芬顿氧化降解三氯生废水模拟Journal of Water Resources and Water Engineering[J].,2014,25(2):49-53
掺杂石墨烯气体扩散电极电芬顿氧化降解三氯生废水模拟
Electro-fenton degradation of simulation wastewater of triclosan by use of graphene doped gas-diffusion electrode
  
DOI:10.11705/j.issn.1672-643X.2014.02.010
中文关键词: 石墨烯  气体扩散电极  电-Fenton体系  H2O2  三氯生废水
英文关键词: graphene  gas diffusion cathode  electro-Fenton system  H2O2  triclosan
基金项目:国家自然科学基金项目(21177017);中国博士后科学基金项目(2011M500560);中央高校基本科研业务费专项(DUT13LK50)
Author NameAffiliation
SONG Yan, CHEN Jie, ZHANG Guoquan, YANG Fenglin (大连理工大学 环境学院 工业生态与环境工程教育部重点实验室, 辽宁 大连 116023) 
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中文摘要:
      为了解决水中个人护理品难以处理的问题,以具有优良氧还原催化活性的掺杂石墨烯气体扩散电极(rGO/C-PTFE GDE)为阴极,构建了均相电芬顿氧化体系,探讨了石墨烯掺杂量、电流密度、电解质浓度等因素对rGO/C-PTFE GDE原位生成H2O2的产率和电流效率的影响,确定了电生成H2O2的最优化条件,即石墨烯与片状石墨的质量比为1∶8,电流强度为2.0 mA/cm2,电解液浓度为0.05mol/L。该条件下经180 min电解H2O2积累浓度可达到187.1 mg/L。以rGO/C-PTFE GDE为阴极构建了均相电芬顿氧化体系,并应用于含三氯生模拟废水的氧化降解,研究了电解液pH值和外加Fe2+浓度对三氯生去除效果的影响。结果表明:对于初始浓度为45 mg/L的三氯生,在pH值为3.0,外加Fe2+浓度0.75 mmol/L的条件下,经过180 min均相电芬顿氧化的处理,73.9%的三氯生可被氧化降解。
英文摘要:
      In order to resolve the problem of personal care product being difficult to be dealt with,the paper constructed an undivided electro Fenton system with the reduced graphene oxide (rGO)-doped gas diffusion electrode (rGO/C-PTFE GDE) as cathode to achieve the electrocatalytic oxidation degradation of personal care products (PPCPs)-triclosan. The influence of additive amount of graphene, current densities and electrolyte concentration on electrochemical generation of H2O2 and current efficiency were investigated in detail.The most optimum conditions of producing H2O2 are that the mass ratio of graphene and graphite equals 1:8, current density is 2.0 mA/cm2, electrolyte concentration is 0.05 mol/L.The accumulation concentration of H2O2 electrode after 180 minutes reaches 187.1 mg/L under which conditions. The homogeneous electro-Fenton oxidation system was constructed to degrade triclosan simulation wastewater. The influences of electrolyte pH and Fe2+ concentration on the removal rate of triclosan were investigated. The triclosan of 73.9% of can be removed under the optimal conditions of pH 3.0 and 0.75 mmol/L Fe2+ electrolyzed after 180 minutes.
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