用快速实验法测定绕组绝缘系统等效导热系数

A. Boglietti, E. Carpaneto, M. Cossale, Mircea Popescu, D. Staton, S. Vaschetto
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引用次数: 10

摘要

在电机热模型的实现过程中面临的主要问题之一是正确选择一些不能用解析方程计算的热参数。本文重点研究了绕组绝缘系统的导热系数,这取决于所使用的绝缘材料和绝缘制造工艺。采用短时热瞬态试验方法对绕组和定子层合之间的热阻以及绝缘的等效导热系数进行了评定。此外,还将该方法推广到保温系统比热的评定中。该程序已在一组4台工业感应电动机上进行了测试,额定功率从1.5千瓦到4千瓦。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Equivalent thermal conductivity determination of winding insulation system by fast experimental approach
One of the main issues to be faced during the implementation of thermal model for electrical machines is the correct selection of some thermal parameters that cannot be computed using analytical equations. The paper is focused on the thermal conductivity of the winding insulation system, which depends on the used insulation materials and on the insulation manufacturing process. A short-time thermal transient test is adopted to evaluate the thermal resistance between winding and stator lamination as well as the equivalent thermal conductivity of the insulation. In addition, the method is extended for evaluating the specific heat of the insulation system. The procedure has been tested on a set of four industrial induction motors with rated power ranging from 1.5 kW up to 4 kW.
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