Detection of hydroxyl radicals during regeneration of granular activated carbon in dielectric barrier discharge plasma system
Shoufeng TangNa LuKefeng ShangJie LiYan Wu
Abstract
To understand the reactions taking place in the dielectric barrier discharge (DBD) plasma system of activated carbon regeneration, the determination of active species is necessary. A method based on High Performance Liquid Chromatography with radical trapping by salicylic acid, has been developed to measure hydroxyl radical (•OH) in the DBD plasma reactor. The effects of applied voltage, treatment time, and gas flow rate and atmosphere were investigated. Experimental results indicated that increasing voltage, treatment time and air flow rate could enhance the formation of •OH. Oxygen atmosphere and a suitable GAC water content were contributed to •OH generation. The results give an insight into plasma chemical processes, and can be helpful to optimize the design and application for the plasma system.
Metrics
Citation History
Topics
Related Documents
Hydrogen peroxide generation during regeneration of granular activated carbon by bipolar pulse dielectric barrier discharge plasma
Shoufeng TangDeling YuanNa LiJinbang QiJianmin GuHaiming Huang
Simulataneous pentachlorophenol decomposition and granular activated carbon regeneration assisted by dielectric barrier discharge plasma
Guangzhou QuNa LuJie LiYan WuGuofeng LiLi Duan
Regeneration of acid orange 7-exhausted granular activated carbon with dielectric barrier discharge plasma
Guangzhou QuJie LiYan WuGuofeng LiLi Duan
Regeneration of nitrobenzene-exhausted granular activated carbon by dielectric barrier discharge method
Tian LanWenli GaoZhongjian LiLecheng Lei
Dielectric barrier discharge plasma combined with peroxydisulfate for efficient regeneration of waste granular activated carbon: Enhancing micropore recovery
Dong Yoon OhKaufui V. WongSeok Byum JangJun Sup LimJung Hyun LimChoe Earn ChoongYeomin YoonEun Ha ChoiMin Jang