Cylindrical electromagnets: modeling, analysis, simulation and implementation

COMPEL Pub Date : 2023-12-14 DOI:10.1108/compel-01-2023-0029
Ali Hashemi, Parsa Yazdanpanah Qaraei
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Abstract

Purpose

This paper aims to present an accurate magnetic equivalent circuit for modeling the cylindrical electromagnet so that by analyzing it, the magnetic flux density in different parts of the electromagnet, as well as its lifting force, can be calculated.

Design/methodology/approach

The structure of the electromagnet is divided into parts that can be modeled by lumped element parameters. Mathematical equations for calculating these elements are presented and proved. The axial symmetry of the cylindrical electromagnet made it possible to use planar circuits for its modeling. To increase the accuracy of the proposed equivalent circuit, attention has been paid to the leakage flux as well as the nonlinear behavior of the ferromagnetic core. Also, the curvature of the magnetic flux path is considered in the calculation of the corner permeances of the core.

Findings

The magnetic flux density in different parts of the electromagnet was calculated using nodal analysis of the circuit and compared to the results of the finite element method. Also, a test bed was established to measure the lifting force of the electromagnet. Comparing the results shows a difference of less than 3% which indicate the good accuracy of the proposed circuit. In addition, due to the curvature of the flux path, there is a no-flux region in the center of the disk, the extent of which depends on the thickness of the disk and the diameter of the middle leg.

Originality/value

Magnetic equivalent circuit is a new contribution to analyze the cylindrical electromagnet and calculate its lifting force with good accuracy. The circuit lumped elements can be quickly calculated using mathematical equations and software such as MATLAB according to the actual path of the magnetic flux. Compared to other methods, the proposed circuit analyzes the electromagnet in a shorter period of time. This is the most important advantage of the proposed circuit model.

圆柱形电磁铁:建模、分析、模拟和实施
目的 本文旨在为圆柱形电磁铁建模提供精确的磁等效电路,以便通过分析该等效电路,计算电磁铁不同部分的磁通密度及其提升力。提出并证明了计算这些元素的数学公式。圆柱形电磁铁的轴对称性使得使用平面电路建模成为可能。为了提高所提议等效电路的精确度,对漏磁通量以及铁磁磁芯的非线性行为进行了关注。此外,在计算铁芯的角磁导率时还考虑了磁通路径的曲率。研究结果利用电路的节点分析计算了电磁铁不同部分的磁通密度,并与有限元法的结果进行了比较。此外,还建立了一个试验台来测量电磁铁的提升力。比较结果显示,两者之间的差异小于 3%,这表明所提出的电路具有良好的精确性。此外,由于磁通路径的曲率,圆盘中心存在一个无磁通区域,其范围取决于圆盘的厚度和中间脚的直径。 原创性/价值磁等效电路是对分析圆柱形电磁铁并精确计算其提升力的新贡献。根据磁通的实际路径,利用数学公式和 MATLAB 等软件可以快速计算电路的叠加元件。与其他方法相比,所提出的电路分析电磁铁的时间更短。这是拟议电路模型的最大优势。
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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