Effectiveness of Stress Grading System Builds on the Heat Production in a Form-Wound Coil of an Inverter-fed Rotating Machine

2018 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP) Pub Date : 2018-10-01 DOI:10.1109/CEIDP.2018.8544776

Alireza Naeini, E. Cherney, S. Jayaram

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引用次数: 2

Abstract

Limiting the temperature rise in the stress grading system in a medium voltage form-wound coil of a rotating machine driven by an adjustable speed drive is essential to prolong the life of a motor. The common way of increasing the electrical conductivity of the system, thereby to lower joule heat production and temperature rise, is to increase the build of the tape system. Simulation studies on various stress grading system builds on the heat production has been evaluated in this study. A good correlation between measured and simulated temperature profiles under pulse voltage condition confirms the validity of the simulation. The stress grading system has been simulated using the 2D axisymmetric module in COMSOL® 5.2a. The results show that increasing the number of layers of conductive armor tape can reduce the heat production in CAT region but by increasing the number of layers of stress grading tape leads to increase in heat production in SGT region. The study suggests that use of other non-linear tape materials for SGT may be needed to effectively lower the temperature rise in the stress grading system.

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应力分级系统的有效性建立在逆变式进给旋转机械成形线圈产热的基础上

限制由可调速驱动器驱动的旋转机械中压形式绕线线圈的应力分级系统中的温升是延长电机寿命的必要条件。提高系统的导电性，从而降低焦耳产热和温升的常用方法是增加胶带系统的结构。本文对建立在产热基础上的各种应力分级系统的模拟研究进行了评价。脉冲电压条件下的实测温度曲线与模拟温度曲线具有良好的相关性，证实了仿真的有效性。利用COMSOL®5.2a中的二维轴对称模块对应力分级系统进行了模拟。结果表明:增加导电铠装带的层数可以减少CAT区的产热，而增加应力分级带的层数会导致SGT区的产热增加。研究表明，为了有效降低应力分级系统中的温升，可能需要使用其他非线性胶带材料进行SGT。

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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2018 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP)

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