Decomposition characteristics of toluene by a corona radical shower system 被引量：3

Decomposition characteristics of toluene by a corona radical shower system

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摘要 Non-thermal plasma technologies offer an innovative approach to decomposing various volatile organic compounds(VOCs). The decomposition of toluene from simulated flue gas was investigated using a pipe electrode with nozzles for the generation of free radicals. Corona characteristics and decomposition of toluene were investigated experimentally. In addition, the decomposition mechanism of toluene was explored in view of reaction rate. The experimental results showed that the humidity of additional gas has an important effect on corona characteristics and modes and stable streamer corona can be generated through optimizing flow rate and humidity of additional gas. Applied voltage, concentration of toluene, humidity of toluene and resident time are some important factors affecting decomposition efficiency. Under optimizing conditions, the decomposition efficiency of toluene can reach 80%. These results can give a conclusion that the corona radical shower technology is feasible and effective on the removal of toluene in the flue gas. Non-thermal plasma technologies offer an innovative approach to decomposing various volatile organic compounds(VOCs). The decomposition of toluene from simulated flue gas was investigated using a pipe electrode with nozzles for the generation of free radicals. Corona characteristics and decomposition of toluene were investigated experimentally. In addition, the decomposition mechanism of toluene was explored in view of reaction rate. The experimental results showed that the humidity of additional gas has an important effect on corona characteristics and modes and stable streamer corona can be generated through optimizing flow rate and humidity of additional gas. Applied voltage, concentration of toluene, humidity of toluene and resident time are some important factors affecting decomposition efficiency. Under optimizing conditions, the decomposition efficiency of toluene can reach 80%. These results can give a conclusion that the corona radical shower technology is feasible and effective on the removal of toluene in the flue gas.

作者 WUZu-liang GAOXiang LUOZhong-yang NIMing-jiang CENKe-fa

机构地区 CleanEnergyandEnvironmentEngineeringKeyLabofMinistryofEducation

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2004年第4期543-547,共5页 环境科学学报（英文版）

基金 TheNationalHi TechR&DProgram ( 863)ofChina(No . 2 0 0 2AA5 2 91 80 ) Ph .D .ProgramFoundationofMinistryofEducationofChina(No .2 0 0 2 0 335 0 61 )andtheScience&TechnologyProgramFoundationofZhejiangProvince(No.2 0 0 32 0 1 5 0 9)

关键词 DECOMPOSITION CORONA RADICAL TOLUENE decomposition corona radical toluene

分类号 X131.1 [环境科学与工程—环境科学] X132 [环境科学与工程—环境科学]

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参考文献22

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Decomposition characteristics of toluene by a corona radical shower system 被引量：3

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