航空交流电力同步发电机短路暂态涡流分析的均匀场-电路耦合有限元法

M. Xiaohe, Liu Jianxun, Z. Weiwei
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引用次数: 1

摘要

传统的交流同步发电机短路故障分析方法如对称分量法、坐标变换法等不能考虑涡流,而多回路法只能采用气隙导电性概念计算电感,其大致考虑铁磁材料的饱和。有限元法可以解决上述问题,但其缺点是在一个模型中考虑单线圈类型。为此,本文提出了均匀场电路耦合有限元法(UFCCFEM)。在外电路方程中增加可变回路电流,形成系统耦合方程,充分考虑了实线圈涡流影响和股股线圈电流线性分布影响。该方法比纯涡流有限元模型的仿真时间短,比纯瞬态有限元模型的短路电流瞬态特性更准确。将该方法应用于某型航空交流电力同步发电机,得到了涡流和电势的瞬态波形,并与实验值进行了对比,验证了该方法的正确性。空间磁链暂态分布图也表明,UFCCFEM可以方便地考虑电枢对磁场的暂态电抗。该方法已成功应用于恒速恒频航空交流电源同步发电机短路故障分析。
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Uniform Field and Circuit Coupled Finite Element Method for short-circuit transient eddy analysis on aeronautic AC power synchronous generator
Traditional methods of AC synchronous generator short-circuit fault analysis such as symmetrical component method, coordinate transformation method can not consider eddy current, while multi-loop method can only use air-gap magnetic conductivity concept to calculate inductances, which roughly considers the saturation of ferromagnetic materials. Finite Element Method (FEM) can solve the above problems, but it has disadvantage of considering single coil type in one model. Therefore Uniform Field and Circuit Coupled FEM (UFCCFEM) is proposed in this article. It adds additional variable loop-current into external circuit equations to form systematic coupled equations, which can fully consider solid coil eddy current influence and stranded coil current linear distribution influence. This method has less simulation time than pure eddy FEM model and more accurate short-circuit current transient characteristic than pure transient FEM. Perform this method on a certain aeronautic AC power synchronous generator, eddy current and electric potential transient waveforms are obtained and compare with experimental values to verify the correctness of the method. Spatial flux linkage transient distribution plot also show that UFCCFEM can conveniently consider transient armature reactance towards magnetic field. This method has been successfully applied on synchronous generator short-circuit fault analysis of constant speed and frequency aeronautic AC power.
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