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放电等离子体用催化剂结构设计中的电场分析
引用本文:李胜利,钟生辉,李劲. 放电等离子体用催化剂结构设计中的电场分析[J]. 华中科技大学学报(自然科学版), 2001, 29(11): 79-81
作者姓名:李胜利  钟生辉  李劲
作者单位:华中科技大学环境科学与工程学院
摘    要:计算了电场中单组分和双层组分球形催化剂上电场的分布,结果表明:对单组分催化剂,为提高催化剂中场强,应减小其介电常数;对双层组分催化剂,为提高外层中场强,应提高内层载体介电常数,同时减小外层介电常数。对上述两种情况,为兼顾球表面场强,介电常数存在合理值。

关 键 词:放电等离子体 催化剂 电场分布 结构设计 催化反应 气体放电理论
文章编号:1000-8616(2001)11-0079-03
修稿时间:2001-05-17

Structure Design of Catalysts Gas for Discharge Plasma Based on Electric Field Analysis
Li Shengli Zhong Shenghui Li Jin. Structure Design of Catalysts Gas for Discharge Plasma Based on Electric Field Analysis[J]. JOURNAL OF HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY.NATURE SCIENCE, 2001, 29(11): 79-81
Authors:Li Shengli Zhong Shenghui Li Jin
Affiliation:Li Shengli Zhong Shenghui Li Jin
Abstract:The electric field distribution of single compound and two layer catalyst pellet in the electric field are computed. The results show that for single compound catalyst, the dielectric constant of catalyst pellet is decreased to make electric field in it more intensive. For two layer catalyst, dielectric constant of inner layer is raised and dielectric constant of outer layer is decreased to make electric field in outer layer stronger. If electric field on the surface of catalyst pellet is required, there will be the most suitable dielectric constant for catalyst.
Keywords:discharge plasma  catalyst  electric field distribution
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