A practical experimental method with high accuracy for research of thermal aging properties in winding insulating systems

Hongyu Wang, R. Busch
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引用次数: 1

Abstract

Summary form only given. In the research of thermal stress performance as well as aging phenomena and properties of insulating materials and systems for electrical machine the controlling accuracy of the thermal stress intensity (the aging temperature) exercises immediately an influence on the precision of the researching results. Such as the statements in another paper, some deviation and error that occurred in the conclusion of many aging tests and studies were just caused by the inaccurate control of thermal stress intensity. A practical experimental method with high accuracy and reliability for research of thermal aging properties in winding insulating systems has been developed in this works in consideration of the distinction between thermal aging and thermal breakdown in the thermal aging process. By means of this method the aging phenomena and performance of the tested winding insulating systems can be accurately observed, measured, and analyzed in various aging phases or periods, so that these experimental data will provide reliable scientific basis not only for the improvement, of the insulating systems design but also for the fault detection and fault prognosis in the applications. There are many experimental techniques, which are used in this method, such as SPS, sensor-technique, signal-feedback-control, reverse-driving, PC-monitoring, EDP system and etc. The test winding insulating systems aged practically at the complete stresses that include the accurate control of thermal stresses (deviations: /spl plusmn/1/spl deg/C) in a specially developed driving-stand. The experimental results provided with lots of reliable and accurate data for research of thermal aging properties in winding insulating systems and verified the necessity of the distinction between thermal aging and thermal breakdown in the meantime.
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为研究绕组绝缘系统热老化性能提供了一种实用、高精度的实验方法
只提供摘要形式。在研究绝缘材料和电机绝缘系统的热应力性能、老化现象和性能时,热应力强度(老化温度)的控制精度直接影响到研究结果的精度。如另一篇文章所述,许多老化试验和研究结论中出现的一些偏差和误差正是由于热应力强度控制不准确造成的。考虑到热老化过程中热老化与热击穿的区别,本文提出了一种研究绕组绝缘系统热老化性能的高精度、可靠的实验方法。通过该方法可以准确地观察、测量和分析被测绕组绝缘系统在各个老化阶段或阶段的老化现象和性能,从而为改进绝缘系统的设计以及在实际应用中进行故障检测和故障预测提供可靠的科学依据。该方法采用了多种实验技术,如SPS、传感器技术、信号反馈控制、反向驱动、pc监控、EDP系统等。测试绕组绝缘系统几乎在完全应力下老化,包括在专门开发的驱动台上精确控制热应力(偏差:/spl plusmn/1/spl度/C)。实验结果为研究绕组绝缘系统的热老化性能提供了大量可靠、准确的数据,同时也验证了区分热老化和热击穿的必要性。
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