Comparison of Different Simulating Calculation Methods for Electric Fields Along the Stator End-winding of HV Rotating Machine

2020 IEEE Electrical Insulation Conference (EIC) Pub Date : 2020-06-01 DOI:10.1109/EIC47619.2020.9158676

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

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Abstract

The stress grading (SG) system is the important structure of stator end-winding of high voltage (HV) rotating machine, whose performance is closely related to the safe operation of HV rotating machine. How to evaluate the performance of the SG system is vital and helpful to the design and optimization of SG system. In this paper, the available numerical calculation methods, including conventional pi-type equivalent circuit method (PECM), complex reticular equivalent circuit method (CECM), and finite element method (FEM), were described. And the comparative analyses were made based on the potential and electric field distribution along the three-segment stress grading coating (SGC) of a rated 24kV class hydro-generator, which is obtained from three calculation methods. The results showed that three methods all could be applied to evaluate the performance of the SG system, but the complex reticular equivalent circuit method and finite element method are in agreement with each other and should be more suitable for the optimization design of the SG system of HV rotating machine.

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高压旋转电机定子端部电场不同模拟计算方法的比较

应力分级(SG)系统是高压旋转电机定子端绕组的重要结构，其性能好坏关系到高压旋转电机的安全运行。如何评价SG系统的性能对SG系统的设计和优化具有重要意义。本文介绍了现有的数值计算方法，包括传统pi型等效电路法(PECM)、复杂网状等效电路法(CECM)和有限元法(FEM)。并对某额定24kV级水轮发电机三段应力分级涂层(SGC)沿线的电位场分布进行了对比分析，得到了三种计算方法的结果。结果表明，三种方法均可用于SG系统的性能评价，但复杂网状等效电路法和有限元法具有较好的一致性，更适合于高压旋转电机SG系统的优化设计。

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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2020 IEEE Electrical Insulation Conference (EIC)

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