Model order reduction of an electro-quasistatic problem using CLN method

IF 3.5 3区工程技术 Q1 MATHEMATICS, APPLIED

Finite Elements in Analysis and Design Pub Date : 2024-05-29 DOI:10.1016/j.finel.2024.104185

Wei Chen , Thomas Henneron , Stéphane Clénet , Théo Delagnes , Jun Zou

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引用次数: 0

Abstract

The Cauer ladder network (CLN) method, as proposed by Kameari et al. (2018), has been extensively studied to construct a reduced model of magneto-quasistatic (MQS) Finite Element (FE) models. In this case, this method enables the construction of an equivalent electrical circuit based on resistances and inductances as well as a reduced basis where the solution of a reduced problem is sought. In this article, we propose to extend the applicability of the CLN method to the development of reduced models for FE electro-quasistatic (EQS) models. It appears that the derivation of the reduction of an EQS model is not similar to the one of an MQS model. After development, the process of reduction using CLN leads to consider two electrical circuits based on the cascade association of resistances and capacitances. Each circuit is associated with a reduced basis constructed by applying the self-adjoint Lanczos method. The reduced solution to the EQS problem is got by first solving the circuit equations to determine the voltages and the currents at the terminals of the resistances and capacitances. Then, the approximated solution of the FE EQS model is got by a linear combination of the vectors of the two reduced bases weighted by the currents (or the voltages) previously calculated. An error estimator is also derived, enabling to calculate the distance between the reduced solution and the FE solution without solving the FE model. The proposed approach has been applied on an industrial application, a resin-impregnated paper bushing, in order to evaluate the accuracy in function of the size of the reduced bases as well as the efficiency in terms of computation time.

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使用 CLN 方法减少电静力学问题的模型阶次

Kameari 等人（2018 年）提出的考尔梯形网络（CLN）方法已被广泛研究，用于构建磁准静电（MQS）有限元（FE）模型的简化模型。在这种情况下，这种方法可以构建基于电阻和电感的等效电路，以及寻求简化问题解决方案的简化基础。在这篇文章中，我们建议将 CLN 方法的适用范围扩展到开发 FE 电准静态（EQS）模型的简化模型。EQS 模型的简化推导似乎与 MQS 模型的简化推导并不相似。经过开发，使用 CLN 的还原过程导致考虑两个基于电阻和电容级联的电路。每个电路都与通过应用自交 Lanczos 方法构建的简化基础相关联。EQS 问题的简化解首先通过求解电路方程来确定电阻和电容终端的电压和电流。然后，通过对之前计算出的电流（或电压）加权的两个简化基向量进行线性组合，得到 FE EQS 模型的近似解。同时还推导出一个误差估算器，可以在不求解 FE 模型的情况下计算简化解与 FE 解之间的距离。所提出的方法已在树脂浸渍纸衬套的工业应用中得到了应用，目的是评估简化基的大小对精确度的影响以及计算时间方面的效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Finite Elements in Analysis and Design 工程技术-力学

CiteScore

4.80

自引率

3.20%

发文量

审稿时长

27 days

期刊介绍： The aim of this journal is to provide ideas and information involving the use of the finite element method and its variants, both in scientific inquiry and in professional practice. The scope is intentionally broad, encompassing use of the finite element method in engineering as well as the pure and applied sciences. The emphasis of the journal will be the development and use of numerical procedures to solve practical problems, although contributions relating to the mathematical and theoretical foundations and computer implementation of numerical methods are likewise welcomed. Review articles presenting unbiased and comprehensive reviews of state-of-the-art topics will also be accommodated.