甲苯
催化作用
电晕放电
阳极
非热等离子体
等离子体
化学工程
开裂
氧气
化学
介质阻挡放电
材料科学
电极
复合材料
有机化学
物理
物理化学
量子力学
工程类
作者
Wei Ji,Guangfei Qu,Junhong Zhou,Ping Ning,Junyan Li,Huimin Tang,Keheng Pan,Ruosong Xie
标识
DOI:10.1016/j.seppur.2023.124185
摘要
To solve the problems of complex equipment and low removal efficiency of VOCs with plasma coupled catalysts. In this study, toluene was used as a substitute for VOCs, and MnO2/CeO2 composite catalyst was directly electrodeposited on corona discharge anode to form a catalytic film, and the effective coupling of plasma and catalyst was achieved, which reduced the complexity of the equipment and ensured the high efficiency of toluene cracking. The results show that the oxygen concentration is beneficial to improve the catalytic activity of the catalyst but reduces the corona discharge plasma intensity. When the oxygen content is 5.5% and the voltage is 12 kV, the highest cracked rate of toluene can reach 95%. MnO2 has strong high voltage resistance and can prolong the effective catalytic time of the catalyst. CeO2 has high catalytic activity, mainly for the complete removal of toluene fragments. When the concentration of Ce3+ in the electrodeposition solution is 0.02 mol/L and the electrodeposition time of MnO2 is 60 min, the ratio of MnO2 to CeO2 in the MnO2/CeO2 composite catalyst is the best, and the cracked rate of toluene is the best. Finally, the plasma discharge in this system and the mechanism of toluene removal by catalyst coupled plasma are analyzed in detail.
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