Combined Effect of Temperature and Humidity of Magnet-Wires on Partial Discharge Inception Voltage under Inverter-Surge Voltage

2018 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP) Pub Date : 2018-10-01 DOI:10.1109/CEIDP.2018.8544745

T. Kaji, H. Asai, H. Kojima, N. Hayakawa

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引用次数: 6

Abstract

We investigated the combined effect of temperature and humidity on partial discharge inception voltage (PDIV) of magnet wires under repetitive surge-wave voltages. As the results, the PDIV increased as the temperature increased under uncontrolled humidity, which is peculiar under surge-wave voltage. On the other hand, the PDIV decreased lineally as the temperature increased under controlled humidity. From these results, we found that the PDIV increase under uncontrolled humidity was attributed to the effect of the relative humidity decrease corresponding to the temperature increase. Furthermore, the PDIV was also influenced by the moisture amount in insulation film. Under uncontrolled humidity, the PDIV during the temperature increase was lower than that during the temperature decrease with the hysteresis. We found two reasons for the PDIV hysteresis. One reason is the humidity increase in the air gap due to moisture evaporation from the film. Another reason is the electron emission from the film with the lower first ionization energy. Based on the above reasons, the generation probability of initial electrons during the temperature increase is higher than that during the temperature decrease, which decreases PDIV.

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逆变器浪涌电压下磁线温度和湿度对局部放电起始电压的综合影响

研究了温度和湿度对重复浪涌电压下磁线局部放电起始电压(PDIV)的影响。结果表明，在不受湿度控制的情况下，PDIV随温度的升高而增大，这在浪涌电压下是特有的。另一方面，在湿度控制下，PDIV随温度升高而线性降低。结果表明，湿度控制下PDIV的增加是由于温度升高导致相对湿度降低的结果。此外，PDIV还受保温膜含水量的影响。在不受湿度控制的情况下，温度升高时的PDIV小于温度降低时的PDIV。我们发现了PDIV迟滞的两个原因。其中一个原因是由于薄膜中的水分蒸发导致气隙中的湿度增加。另一个原因是第一电离能较低的薄膜的电子发射。基于上述原因，温度升高时初始电子的产生概率高于温度降低时初始电子的产生概率，使得PDIV降低。

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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