Integrated modelling of vacuum flashover development: Above-surface processes and breakdown threshold analyses

IF 4.4 2区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC High Voltage Pub Date : 2023-12-06 DOI:10.1049/hve2.12386
Guangyu Sun, Yitong Yao, Xiong Yang, Baohong Guo, Shu Zhang, Chao Wang, Ruhui Lian, Baipeng Song, Haibao Mu, Guanjun Zhang
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Abstract

The flashover in vacuum is a rapid interfacial discharge across the insulator surface when subjected to high applied voltage. Here a theoretical model covering above-surface processes is introduced. The model calculates the flashover threshold in vacuum, with revised secondary electron emission avalanche theory and improved desorbed neutral transport model. The model serves as the first part of an integrated flashover model, aiming for consistent treatment of both above-surface and subsurface processes during the entire flashover development. The flashover threshold is obtained by combining the desorbed neutral pressure at given applied voltage and the gas breakdown criterion dictated by the Paschen's law. An analytical formula for threshold estimation containing physical parameters, and a simplified formula consisting of empirical coefficients are introduced, catering for both conceptual understanding and practical application. The derived formulae are validated by experimental data for a variety of insulator materials. The theory generalisation for non-uniform electric field distribution is further discussed.

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真空闪爆发展的综合建模:地表以上过程和击穿阈值分析
真空中的闪络是绝缘体表面在施加高电压时发生的快速界面放电。这里引入了一个涵盖表面以上过程的理论模型。该模型利用修正的二次电子发射雪崩理论和改进的解吸中性输运模型计算真空中的闪蒸阈值。该模型是综合闪变模型的第一部分,旨在对整个闪变过程中的上表面和地下过程进行一致的处理。闪爆阈值是通过将给定外加电压下的解吸中性压力和帕申定律规定的气体击穿标准结合起来获得的。介绍了包含物理参数的阈值估算分析公式,以及由经验系数组成的简化公式,以满足概念理解和实际应用的需要。得出的公式通过各种绝缘体材料的实验数据进行了验证。还进一步讨论了非均匀电场分布的理论概括。
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来源期刊
High Voltage
High Voltage Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
27.30%
发文量
97
审稿时长
21 weeks
期刊介绍: High Voltage aims to attract original research papers and review articles. The scope covers high-voltage power engineering and high voltage applications, including experimental, computational (including simulation and modelling) and theoretical studies, which include: Electrical Insulation ● Outdoor, indoor, solid, liquid and gas insulation ● Transient voltages and overvoltage protection ● Nano-dielectrics and new insulation materials ● Condition monitoring and maintenance Discharge and plasmas, pulsed power ● Electrical discharge, plasma generation and applications ● Interactions of plasma with surfaces ● Pulsed power science and technology High-field effects ● Computation, measurements of Intensive Electromagnetic Field ● Electromagnetic compatibility ● Biomedical effects ● Environmental effects and protection High Voltage Engineering ● Design problems, testing and measuring techniques ● Equipment development and asset management ● Smart Grid, live line working ● AC/DC power electronics ● UHV power transmission Special Issues. Call for papers: Interface Charging Phenomena for Dielectric Materials - https://digital-library.theiet.org/files/HVE_CFP_ICP.pdf Emerging Materials For High Voltage Applications - https://digital-library.theiet.org/files/HVE_CFP_EMHVA.pdf
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