摘要
染料废水中含有大量的有机污染物,这些污染物毒性强,色度深,难降解,流入生态系统中对生态环境安全和人类自身健康造成严重威胁。与传统染料废水处理技术相比,微生物燃料电池(MFC)技术具有成本低廉、回收能源,清洁无二次污染等优点。目前,许多研究通过对MFC的阳极电极进行修饰、改性,或者调整电极间距、耦合其他处理技术等方式提升MFC对染料废水的处理效率。本文旨在总结介绍这类提升MFC对染料处理效果的研究的具体方法、研究进展及处理效果,为同类研究提供借鉴。
Dye wastewater contains a large number of organic pollutants, which are highly toxic, deep color and difficult to degrade. The dye wastewater flowing into the ecosystem will cause serious threats to the safety of ecological environment and human health. Compared with traditional technology, microbial fuel cell(MFC) technology has the advantages of low cost, energy recovery, clean and no secondary pollution. At present, many studies have improved the treatment efficiency of dye wastewater by modifying the electrode of MFC, adjusting the electrode spacing and coupling other treatments technologies. The purpose of this paper is to summarize the specific methods, research progress and treatment effects of this kind of research, and providing a reference for similar projects.
作者
毛羽丰
崔颖
赵亚楠
王剑
Mao Yufeng;Cui Ying;Zhao Ya’nan;Wang Jian(Cangzhou Normal University College of Chemistry and Chemical Engineering,Cangzhou 061000,China)
出处
《广东化工》
CAS
2021年第24期91-92,共2页
Guangdong Chemical Industry
基金
沧州市重点研发计划指导项目,编号:192107010
沧州市重点研发计划项目,编号:202101003D
2020年度沧州师范学院“滨海环境与生态科研创新团队”,编号:cxtdl1904
河北省青年拔尖人才计划项目,编号:BJ2019208
沧州师范学院校内科研基金项目,编号:xnjjl1908。
关键词
MFC
染料废水
电极修饰
电极间距
耦合技术
MFC
dye wastewater
electrode modification
electrode spacing
coupling other treatments
