Surge related partial discharges resulting from IFDs applied to random wound motors

M. Fenger, B. Lloyd, J. Pedersen
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引用次数: 1

Abstract

Random wound stator windings in motors operating in utility and industrial plants through out the world have been reported to suffer from premature winding failures. Although several failure mechanisms exist, some of these failures have been caused by exposure to fast rise-time voltage surges coming from inverter drives. Dissection of failed stator windings have indicated that partial discharges have been a predominate cause of the stator failure. Partial discharges may occur between turns during fast rise-time voltage surges and result in degradation of the organic magnet wire enamel impregnants, eventually resulting in turn-to-turn or phase-to-phase failures. In this paper, measurements of the surge environment for several motors are presented, some of which have suffered stator winding failures. Inspection of the winding after failure showed local melting caused by puncture of the insulation. Utilizing custom PD detection instrumentation and a variable rise-time surge generator, measurements of partial discharge inception voltage (DIV) have been made. Combining the DIV data; with the actual surge environment from inverter drive allows assessment of the risk of motor failure due to PD related insulation breakdown.
应用于随机绕线电机的ifd引起的浪涌相关局部放电
据报道,在世界各地的公用事业和工业工厂运行的电机中,随机绕线定子绕组存在过早绕组失效的问题。虽然存在几种故障机制,但其中一些故障是由于暴露于来自逆变器驱动器的快速上升时间电压浪涌而引起的。对失效定子绕组的解剖表明,局部放电是导致定子失效的主要原因。在快速上升时间电压浪涌期间,匝间可能发生局部放电,导致有机磁线搪瓷浸渍剂降解,最终导致匝间或相间故障。本文介绍了几种电机的浪涌环境测量,其中一些电机的定子绕组发生了故障。故障后对绕组的检查显示,绝缘被击穿造成了局部熔化。利用定制的PD检测仪器和可变上升时间浪涌发生器,对局部放电起始电压(DIV)进行了测量。结合DIV数据;与逆变器驱动的实际浪涌环境相结合,可以评估由于PD相关绝缘击穿导致电机故障的风险。
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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