用于模拟钕铁硼磁体与 HTS 磁体之间作用力的有限元框架

COMPEL Pub Date : 2024-04-16 DOI:10.1108/compel-10-2023-0526
Guilherme Homrich, Aly Ferreira Flores Filho, Paulo Roberto Eckert, David George Dorrell
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引用次数: 0

摘要

目的 本文旨在介绍一种替代方法,用于模拟钕铁硼磁体与高温超导体(HTS)块体之间的悬浮力。设计/方法/途径 T-A 和 H-ϕ 公式是超导材料建模最有效的方法之一。研究结果表明,可以在三维模型中使用 T-A 公式的均质化技术,结合混合公式边界和移动网格来模拟整个设备的几何形状。原创性/价值H-j 公式将 HTS 体域视为各向同性,而 T-A 公式均质化方法将其视为各向异性。本文的独创性在于对比了这些不同的建模方法,同时通过拉格朗日-欧勒方法纳入了外部磁场运动。
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An FEM framework for modeling forces between NdFeB magnets and HTS bulks

Purpose

This paper aims to introduce an alternative for modeling levitation forces between NdFeB magnets and bulks of high-temperature superconductors (HTS). The presented approach should be evaluated through two different formulations and compared with experimental results.

Design/methodology/approach

The T-A and H-ϕ formulations are among the most efficient approaches for modeling superconducting materials. COMSOL Multiphysics was used to apply them to magnetic levitation models and predict the forces involved.The permanent magnet movement is modeled by combining moving meshes and magnetic field identity pairs in both 2D and 3D studies.

Findings

It is shown that it is possible to use the homogenization technique for the T-A formulation in 3D models combined with mixed formulation boundaries and moving meshes to simulate the whole device’s geometry.

Research limitations/implications

The case studies are limited to the formulations’ implementation and a brief assessment regarding degrees of freedom. The intent is to make the simulation straightforward rather than establish a benchmark.

Originality/value

The H-ϕ formulation considers the HTS bulk domain as isotropic, whereas the T-A formulation homogenization approach treats it as anisotropic. The originality of the paper lies in contrasting these different modeling approaches while incorporating the external magnetic field movement by means of the Lagrangian–Eulerian method.

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