A Stable Weighted Residual Finite Element Formulation for the Simulation of Linear Moving Conductor Problems

IF 1.8 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Sethupathy Subramanian;Sujata Bhowmick
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引用次数: 1

Abstract

The finite element method is one of the widely employed numerical techniques in electrical engineering for the study of electric and magnetic fields. When applied to the moving conductor problems, the finite element method is known to have numerical oscillations in the solution. To resolve this, the upwinding techniques, which are developed for the transport equation are borrowed and directly employed for the magnetic induction equation. In this work, an alternative weighted residual formulation is explored for the simulation of the linear moving conductor problems. The formulation is parameter-free and the stability of the formulation is analytically studied for the 1D version of the moving conductor problem. Then the rate of convergence and the accuracy are illustrated with the help of several test cases in 1D as well as 2D. Subsequently, the stability of the formulation is demonstrated with a 3D moving conductor simulation.
线性运动导体问题模拟的稳定加权剩余有限元公式
有限元法是电气工程中广泛应用的数值技术之一,用于研究电场和磁场。当应用于移动导体问题时,已知有限元方法在解中存在数值振荡。为了解决这一问题,借鉴了为输运方程开发的逆风技术,并直接用于磁感应方程。在这项工作中,探索了一种用于模拟线性运动导体问题的替代加权残差公式。该公式是无参数的,并且对于运动导体问题的1D版本分析研究了该公式的稳定性。然后,借助于1D和2D中的几个测试案例,说明了收敛速度和精度。随后,通过三维移动导体模拟验证了该公式的稳定性。
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
CiteScore
4.30
自引率
0.00%
发文量
27
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