Analysis of conditions of partial discharges inception and development at non-sinusoidal testing voltages

2006 IEEE Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2006-10-01 DOI:10.1109/CEIDP.2006.312015

B. Florkowska, P. Zydroń

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引用次数: 11

Abstract

Progress in construction of electrical insulation systems needs new investigations of partial discharges (PD) mechanisms. Working conditions and exploitation stresses, i.e. overvoltages, harmonics and other disturbances have crucial influence on arising of PD in insulation systems. Their influence on partial discharge development is different from normal conditions at nominal sinusoidal voltage. In such a cases interpretation of measurement results (by classical or phase-resolved PD images method) could be more difficult. Paper presents influence of sinusoidal and non-sinusoidal testing voltages (triangular and trapezoidal) on partial discharge distributions, their parameters and changes with increasing of applied voltage. The test object was real insulation system (stator bar thermo-setting insulation system) with many internal PD sources. Presented results of measurements made for sinusoidal, triangular and trapezoidal voltages show the PD mechanism in these conditions. Slew-rate of applied voltage with fixed peak voltage value determines specific conditions for PD generation and has important consequences for phase location of discharges.

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非正弦测试电压下局部放电发生和发展的条件分析

电气绝缘系统建设的进步需要对局部放电机制进行新的研究。工作条件和开发应力，即过电压、谐波和其他干扰对绝缘系统中局部放电的产生有重要影响。它们对局部放电发展的影响不同于名义正弦电压下的正常情况。在这种情况下，解释测量结果(通过经典或相位分辨PD图像方法)可能会更加困难。本文介绍了正弦波和非正弦波测试电压(三角形和梯形)对局部放电分布的影响，以及局部放电分布的参数和随外加电压增加的变化。试验对象为具有多个内部PD源的真实绝缘系统(定子棒热固性绝缘系统)。对正弦、三角形和梯形电压的测量结果显示了在这些条件下的局部放电机制。电压峰值值固定时施加电压的变化率决定了局部放电产生的特定条件，并对放电的相位定位有重要影响。

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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2006 IEEE Conference on Electrical Insulation and Dielectric Phenomena

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