A Novel Nonlinearly Equivalent Circuit Model for Calculating Electric Fields Along the Stator End-winding of HV Rotating Machine

2019 IEEE Electrical Insulation Conference (EIC) Pub Date : 2019-06-01 DOI:10.1109/EIC43217.2019.9046598

Ping Liu, Xuezhong Liu, Yue Zhang, Zhiming Liang, Bo Hu

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引用次数: 1

Abstract

In order to study the performances of electric potential or electric field distribution along the stator bar end-winding, a novel equivalent circuit model was proposed to calculate the electric field distribution along the surface of stress grading system in this paper. Compared with the conventional equivalent circuit which just described the stress grading tape (SGT) and groundwall insulation, this model was more complex and also took the air gap into account. Based on the proposed equivalent circuit, the transient potential and electric field distributions along the three-segment SGTs, usually named as medium, medium-high and high resistance coating respectively, of a rated 24 kV class hydro-generator stator bar end-winding were simulated. The simulation results show that the transient potential or electric field at each point along the three-segment SGTs has a significant phase or time difference (or delay) with any other location at a moment. This novel proposed equivalent circuit model should be adequate to optimize SG system of stator end-winding for the high voltage rotating machines.

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一种计算高压旋转电机定子端部电场的非线性等效电路模型

为了研究定子棒端绕组的电位或电场分布特性，本文提出了一种新的等效电路模型来计算应力分级系统表面的电场分布。与仅描述应力分级带(SGT)和地壁绝缘的传统等效电路相比，该模型更为复杂，并且考虑了气隙。基于所提出的等效电路，模拟了额定24kv级水轮发电机定子棒端绕组中、中、高、高电阻三段sgt的暂态电位和电场分布。仿真结果表明，三段sgt上各点的瞬态电位或电场在某一时刻与其他任何位置都存在显著的相位或时间差(或延迟)。该等效电路模型可用于高压旋转电机定子端绕组SG系统的优化。

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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2019 IEEE Electrical Insulation Conference (EIC)

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