Investigation of Multilayer Organic Insulation Structure on Surface Flashover Properties and Mechanism in Vacuum

Investigation of Multilayer Organic Insulation Structure on Surface Flashover Properties and Mechanism in Vacuum

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摘要 In order to further investigate the surface flashover mechanism in vacuum, the surface flashover and electric field distribution of multilayer organic insulation structure are studied and developed based on the previous studies. The samples of multilayer organic insulation structure are prepared by inserting multilayer organic composite material with different relative permittivity between the electrode and the dielectric. Two multilayer organic insulation structures are prepared in this study. One is the cylindrical samples, the other is 45° samples. The impulse (1.2/50 μs) and DC flashover voltages in vacuum are tested, and the electric field distributions of two insulation structures are analyzed by ANSYS. It is found that these two insulation structure could effectively improve the surface flashover performance in vacuum. The results indicate that the highest impulse first flashover voltage of cylindrical samples reaches 65 kV and increases by 25% under im- pulse voltage. The highest first flashover voltage of /c samples reaches 81 kV and increases by 32% under impulse voltage. The results of electric field simulation demonstrate that different mechanisms exist between 45° insulation structure and cylindrical structure. In order to further investigate the surface flashover mechanism in vacuum, the surface fiashover and electric field distribution of multilayer organic insulation structure are studied and developed based on the previous studies. The samples of multilayer organic insulation structure are prepared by inserting multilayer organic composite material with different relative permittivity between the electrode and the dielectric. Two multilayer organic insulation structures are prepared in this study. One is the cylindrical samples, the other is 45~ samples. The impulse （1.2/50 Its） and DC flashover voltages in vacuum are tested, and the electric field distributions of two insulation structures are analyzed by ANSYS. It is found that these two insulation structure could effectively improve the surface flashover performance in vacuum. The results indicate that the highest impulse first flashover voltage of cylindrical samples reaches 65 kV and increases by 25% under im- pulse voltage. The highest first flashover voltage of/c samples reaches 81 kV and increases by 32% under impulse voltage. The results of electric field simulation demonstrate that different mechanisms exist between 45% insulation structure and cylindrical structure.

作者 LI Shengtao HUANG Qifeng

机构地区 (State Key Laboratory of Electrical Insulation and Power Equipment

出处《高电压技术》 EI CAS CSCD 北大核心 2013年第8期1821-1829,共9页 High Voltage Engineering

基金 Project supported by National Science Fund for Outstanding Young Scholars of China (50625721) National Basic Research Program of China (973 Program) (2011CB 209404)

关键词沿面闪络特性高真空结构调查相对介电常数绝缘结构保温机理电场分布 surface flashover multilayer structure electric field simulation relative permittivity flashover voltage impulse voltage

分类号 TM212 [一般工业技术—材料科学与工程] TS223.6 [电气工程—电工理论与新技术]

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Investigation of Multilayer Organic Insulation Structure on Surface Flashover Properties and Mechanism in Vacuum

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