Simulated Experiments for Teaching CAD Techniques Using Analytic and Finite Element Solutions of Electromagnetic Two-Dimensional Problems with Longitudinal Symmetry

Antônio Flavio Licarião Nogueira, R. Weinert, Leonardo José Amador Salas Maldonado
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Abstract

The paper describes an approach to teaching low-frequency electromagnetic CAD techniques to undergraduate students pursuing a degree course in electrical engineering. The simulated experiments make use of a two-dimensional open-access software based on the finite-element method. At the laboratory meetings, the problems are initially solved analytically. Upon this, students learn how to create the numeric model and how to define the sequence of field problems that lead to the required solution. Simulation tasks based on a force-producing electromagnet are used to introduce numeric techniques to determine magnetic field distribution, evaluation of energy storage and generation of magnetic forces. The nature of the magnetic force generated in the air gaps of the C-core electromagnet is explained in detail. Magnetic forces are calculated by the classical and weighted versions of the method of Maxwell stress tensor. The paper provides all the basic elements required for further exploration of devices with longitudinal symmetry.
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利用纵向对称电磁二维问题的解析解和有限元解进行CAD技术教学的模拟实验
本文介绍了一种在攻读电气工程学位的本科生中教授低频电磁CAD技术的方法。模拟实验采用基于有限元法的二维开放存取软件。在实验室会议上,这些问题最初是通过分析解决的。在此基础上,学生学习如何创建数字模型,以及如何定义导致所需解决方案的字段问题序列。基于产力电磁铁的模拟任务用于引入数值技术来确定磁场分布、评估能量存储和产生磁力。详细解释了C型芯电磁铁气隙中产生的磁力的性质。磁力是通过麦克斯韦应力张量方法的经典和加权版本计算的。本文提供了进一步探索纵向对称器件所需的所有基本元素。
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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