用有限元法优化并联电抗器气隙数

2022 5th International Conference on Power Electronics and their Applications (ICPEA) Pub Date : 2022-03-29 DOI:10.1109/icpea51060.2022.9791139

Necmettin Toprak, Kamran Dawood, G. Komurgoz

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引用次数: 0

摘要

本文对具有不同气隙数的铁芯并联电抗器进行了研究，并尝试得出最合适的设计方案。首先，详细介绍了并联电抗器及其类型。详细研究了气隙数对磁通分布的影响。利用有限元方法，通过选择适当的气隙个数，得到理想的磁通密度值，从而得到最合适的设计方案。有限元结果表明，随着气隙数量的增加，磁通密度减小。然而，考虑到技术和经济方面也很重要。

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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Optimization of the number of the airgaps in the shunt reactor using finite element method

In this study, an iron core shunt reactor with different numbers of air gaps was investigated and the most suitable design was tried to be obtained. First of all, detailed information was given about the shunt reactor and its types. The effect of the number of air gaps on the magnetic flux distribution was investigated in detail. With the help of the finite element method, it was aimed to obtain the most appropriate design by obtaining the desired value for the magnetic flux density by selecting the appropriate number of airgaps in the shunt reactor. The finite element results show that with the increase in the numbers of the airgaps, magnetic flux density decreases. However, considering the technical and economic aspects are also important.

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2022 5th International Conference on Power Electronics and their Applications (ICPEA)

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