【摘要】 本研究开发了等离子体微放电填充床反应器和等离子体微放电填充床反应系统,采用多孔陶瓷作为填充床材料,用控制变量法探索了停留时间、放电电压、催化剂负载量、初始浓度、能量密度等因素对反应系统的甲苯去除能力的影响.结果发现,上述因素的最优组合参数为:1.1s、9.5kV、负载量为15%,物质的量比为0.25的Co/Mn催化剂、189.52mg/m³、6000J/L.同时,对多孔陶瓷填充床进行了SEM和XRD等表征研究,研究表明, Mn催化剂包括Mn₂O₃和Mn₃O₄晶体;Co/Mn催化剂包括CoMnO₃和Mn O₂晶体;Fe/Mn催化剂包括FeMnO₃、Fe₂O₃和Mn₂O₃晶体,并且Mn催化剂比Co/Mn催化剂和Fe/Mn催化剂的晶体颗粒更加均匀.更多还原

【Abstract】 A plasma micro discharge packed bed reactor and a plasma micro discharge packed bed reaction system were developed and porous ceramic was used as the packed bed material. The effects of residence time, catalyst loading, initial concentration, energy density and discharge voltage on the toluene removal ability of the reaction system were investigated by using the control variable method. The experimental results showed that the optimal parameter profile for above five factors was 1.1 s, Co/Mn catalyst with catalyst loading of 15% and molar ratio of 0.25, 189.52 mg/m³, 6000 J/L and 9.5 kV, respectively. Meanwhile, the characterization of the porous ceramic packed bed by SEM and XRD showed that Mn catalyst included Mn₂O₃ and Mn₃O₄ crystal, Co/Mn catalyst included CoMnO₃ and MnO₂ crystal, Fe/Mn catalyst included FeMnO₃, Fe₂O₃ and Mn₂O₃ crystal, and the crystal particle of Mn catalyst was more uniform than that of Co/Mn catalyst and Fe/Mn catalyst.更多还原