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11.07.2023 | Original Paper

Electrical endurance design of multi-operation isolators using semi-physical simulation via algebraic multigrid iteration

verfasst von: Jinghua Xu, Yinji Huang, Qianyong Chen, Xiayu Zhu, Shuyou Zhang, Jianrong Tan, Gaohe Qiu

Erschienen in: Electrical Engineering | Ausgabe 6/2023

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Abstract

This paper presents an electrical endurance design method of multi-operation isolators using semi-physical simulation via algebraic multigrid iteration (AMG). The mathematical model of Magnetohydro dynamics (MHD) is built by simultaneous equations of mass conservation, horizontal momentum, vertical momentum, conservation equation of ion energy, as well as electromagnetic equation. In addition, the physical properties of plasma medium in non-solid state, including thermal conductivity, electrical conductivity, dielectric density over temperature are used to dynamically update the coupled multi-physics. The established model can thus be solved via AMG, which is a fast iterative method for solving large-scale sparse normal equations based on geometric multigrid method. The finite element method (FEM) is likewise conducted under the various operating conditions to seek arc plasma temperature, the electric potential, electromagnetic distribution. The electrical endurance reliability can be reckoned using the maximum likelihood estimator of the desired shape parameters and scale parameters of Weibull's distribution, by integrating analogical semi-physical simulation. The physical experiment is carried out which involves electrical safety test, the withstanding voltage test, also called Hipot test or dielectric test, arc ignition test, resistance test. It proves that the proposed method can realize the endurance design of electrical equipment with high convergence efficiency and low residual error, and is especially suitable for the analysis under multiple working conditions.

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Metadaten
Titel
Electrical endurance design of multi-operation isolators using semi-physical simulation via algebraic multigrid iteration
verfasst von
Jinghua Xu
Yinji Huang
Qianyong Chen
Xiayu Zhu
Shuyou Zhang
Jianrong Tan
Gaohe Qiu
Publikationsdatum
11.07.2023
Verlag
Springer Berlin Heidelberg
Erschienen in
Electrical Engineering / Ausgabe 6/2023
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI
https://doi.org/10.1007/s00202-023-01891-7