槽状放电特征PRPD模式的实验室研究

Proceedings: Electrical Insulation Conference and Electrical Manufacturing and Coil Winding Conference (Cat. No.01CH37264) Pub Date : 2001-10-16 DOI:10.1109/EEIC.2001.965756

M. Bélec, C. Hudon, C. Guddemi

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引用次数: 16

摘要

为了重现典型的槽放电活动，在作者的实验室中组装了一个定子铁心的全高度部分。在14个槽段中的3个槽段安装了6个定子棒。三个级别的侧填料被使用:紧，中间和松散。当波纹弹簧压缩到80%时，径向楔入是恒定的。这六根棒材最初没有半导电涂层的任何缺陷。然后去除棒材，并在涂层的特定区域通过磨损产生缺陷。将钢条重新安装到相同的槽中，与之前相同的密封性，并再次进行放电测试。在安装径向楔之前，通过紫外相机可以直观地观察到槽状放电的存在。确定了与槽放电活动相关的相分解局部放电(PRPD)的一些特征。例如，在正极和负极放电的比例方面观察到一些不对称。

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Laboratory study of slot discharge characteristic PRPD patterns

In order to reproduce typical slot discharge activity, a full height section of a stator core was assembled in the authors' laboratory. Six stator bars were installed in three of the 14 slots section. Three levels of side packing were used: tight, intermediate and loose. The radial wedging was constant with ripple springs compressed at 80%. The six bars were initially characterized without any defect of their semi-conductive coating. The bars were then removed, and defects were made by abrasion in specific areas of the coating. The bars were fitted back into the same slots, with the same tightness as before and discharge tests were performed once again. The presence of slot discharges was observed visually with an ultra-violet camera, before radial wedges were installed. Some features of the phase resolved partial discharge (PRPD) features associated with slot discharge activity were identified. For instance, some asymmetry was observed with regard to the ratio of positive and negative discharges.

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来源期刊

Proceedings: Electrical Insulation Conference and Electrical Manufacturing and Coil Winding Conference (Cat. No.01CH37264)

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