摘要
放电等离子反应器的结构与高压电源的匹配对于VOCs的降解产生重要影响.采用针-板式反应器并引入脉 冲高压和交流高压,采用3种不同电极形状(锥形、圆台、扁平)对甲苯的降解特性进行了实验研究.结果发现: 脉冲电源可以提高电极间的击穿电压,并使流光放电更加稳定,产生瞬间高能粒子,从而提高甲苯的脱除效率;不 同的电极形状对放电特性及降解率产生影响,圆台形电极获得最大的甲苯降解率和降解效率.
The matching between the structure of discharge plasma reactor and high-voltage generator plays an important role in decomposition of VOCs. In this study, a needle-plate reactor driven by high-voltage pulse and AC power is used to investigate the decomposition characteristic of toluene. In experiments, three types of electrode (taper-electrode, frustum-electrode, thallus-electrode) are used and compared on the efficiency of toluene degradation. Results indicate that pulse power supply can increase breakdown voltage and enhance the stabilization of streamer discharge, which is advantageous for production of energized particle and for increasing of removal efficiency of VOCs. At the same time, different types of electrodes have effect on the discharge characteristic of the reactor and removal efficiency, in experiments, the highest and decomposition efficiency of toluene is attained with the frustum-electrode.
出处
《北京理工大学学报》
EI
CAS
CSCD
北大核心
2005年第z1期230-233,共4页
Transactions of Beijing Institute of Technology
关键词
脉冲高压
流光电晕放电
VOCs降解
high-voltage pulse
streamer corona discharge
removing VOCs