ОПТИМИЗАЦИЯ ПРОЦЕССА СХОДИМОСТИ ПЕРИОДИЧЕСКОГО РЕШЕНИЯ ПРИ МОДЕЛИРОВАНИИ НЕЛИНЕЙНОГО ПОВЕРХНОСТНОГО ЭФФЕКТА МЕТОДОМ КОНЕЧНЫХ ЭЛЕМЕНТОВ

ОПТИМИЗАЦИЯ ПРОЦЕССА СХОДИМОСТИ ПЕРИОДИЧЕСКОГО РЕШЕНИЯ ПРИ МОДЕЛИРОВАНИИ НЕЛИНЕЙНОГО ПОВЕРХНОСТНОГО ЭФФЕКТА МЕТОДОМ КОНЕЧНЫХ ЭЛЕМЕНТОВ

The problem of accuracy modeling of the alternating magnetic field in the ferromagnetic medium by the finite element method by considering higher time harmonics of the field and the associated problem of ensuring the convergence of iterative process were considered. The numerically-harmonic model an...

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Bibliographic Details
Date:2016
Main Author: Петухов, И.С.
Format: Article
Language:Ukrainian
Published: Інститут електродинаміки НАН України, Київ 2016
Subjects:
ферромагнитная среда
периодический процесс
временные гармоники
поверхностный эффект
метод конечных элементов
метод Ньютона
оптимизация сходимости
Online Access:https://techned.org.ua/index.php/techned/article/view/845
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Journal Title:Technical Electrodynamics

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Technical Electrodynamics
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Summary:The problem of accuracy modeling of the alternating magnetic field in the ferromagnetic medium by the finite element method by considering higher time harmonics of the field and the associated problem of ensuring the convergence of iterative process were considered. The numerically-harmonic model and the proposed solution algorithm based on the modified Newton's method were described. To accelerate the convergence the proposed algorithm includes the optimization procedure of damping coefficient by using Golden section method, as well as a set of heuristic rules that ensure reliability and speed of convergence. When solving the problem on excitation of magnetic field in rectangular domain with sinusoidal current waveform excitation the proposed algorithm showed convergence in several times better than the package COMSOL versions 3.1 and 3.5. References 4, figures 3.

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