使用布洛伊登更新公式的准牛顿法与确定电工钢片局部磁性材料特性的邻接法的比较

COMPEL Pub Date : 2024-05-06 DOI:10.1108/compel-11-2023-0566
Andreas Gschwentner, Manfred Kaltenbacher, Barbara Kaltenbacher, Klaus Roppert
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引用次数: 0

摘要

目的在对电气传动进行精确数值模拟时,精确了解局部磁性材料特性至关重要。由于各种制造步骤(如热处理或切割技术)的影响,磁性材料特性可能会发生强烈的局部变化,因此假设全局材料参数均匀化已不再可行。本文旨在介绍利用参考和模拟数据确定局部磁性材料特性的一般方法和两种不同的解决策略。因此,使用传感器-执行器系统对电工钢片进行局部表征。根据测量数据和有限元模拟结果,采用两种不同的求解策略来解决逆问题。第一种是准牛顿法(QNM),使用布洛伊登更新公式来近似雅各布,第二种是邻接法。为了比较这两种方法的收敛性和效率,我们考虑了一个线性材料模型的人工实例。此外,考虑先验信息提高了收敛速度。原创性/价值所提出的方法能够快速、简单地确定电工钢片的局部磁性材料特性,而无需大量样本或特殊的制备程序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of a quasi Newton method using Broyden’s update formula and an adjoint method for determining local magnetic material properties of electrical steel sheets

Purpose

Performing accurate numerical simulations of electrical drives, the precise knowledge of the local magnetic material properties is of utmost importance. Due to the various manufacturing steps, e.g. heat treatment or cutting techniques, the magnetic material properties can strongly vary locally, and the assumption of homogenized global material parameters is no longer feasible. This paper aims to present the general methodology and two different solution strategies for determining the local magnetic material properties using reference and simulation data.

Design/methodology/approach

The general methodology combines methods based on measurement, numerical simulation and solving an inverse problem. Therefore, a sensor-actuator system is used to characterize electrical steel sheets locally. Based on the measurement data and results from the finite element simulation, the inverse problem is solved with two different solution strategies. The first one is a quasi Newton method (QNM) using Broyden's update formula to approximate the Jacobian and the second is an adjoint method. For comparison of both methods regarding convergence and efficiency, an artificial example with a linear material model is considered.

Findings

The QNM and the adjoint method show similar convergence behavior for two different cutting-edge effects. Furthermore, considering a priori information improved the convergence rate. However, no impact on the stability and the remaining error is observed.

Originality/value

The presented methodology enables a fast and simple determination of the local magnetic material properties of electrical steel sheets without the need for a large number of samples or special preparation procedures.

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