基于ANSYS的电磁阀可控电抗器磁路结构研究

Ziqiang Wang, Z. Yin, Zhengyu Xie
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引用次数: 13

摘要

磁阀可控电抗器的堆芯截面面积减小。通过改变截面面积的饱和程度,可以改变反应器的容量。本文以一种新型电磁阀可控电抗器样机为研究对象,在有限元分析软件ANSYS中建立了样机的精确二维场路耦合模型。在此模型的基础上,研究了交直流复合作用下铁芯内的磁态。理论分析和仿真结果表明,所分析的二维场路耦合模型能较准确地反映电抗器的实际瞬变电磁过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on Magnetic Circuit Structure of Magnetic Valve Controllable Reactor Based on ANSYS
The core cross section area of magnetic valve controllable reactor has a reduced section. By changing the saturation degree of the cross section area, the capacity of the reactor can be changed. In this paper, focusing on a new type of magnetic valve controllable reactor prototype, the precise 2-D field-circuit coupling model of the prototype is established in the finite element analysis software ANSYS. Based on this model, the magnetic state within the core is studied under the combined effects of AC and DC. The theoretical analyses and simulation results show that the analyzed 2-D field-circuit coupling model can reflects the actual reactor transient electromagnetic process accurately.
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