Time domain analysis of a 12 coil section and 18 coil section transformer model winding subjected to a variety of surge voltages

2015 International Conference on Power and Advanced Control Engineering (ICPACE) Pub Date : 2015-08-01 DOI:10.1109/ICPACE.2015.7274981

M. Ansari, Javid Akhtar

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引用次数: 1

Abstract

The response of transformer windings due to the impact of high voltage surges has evoked the attention of insulation engineers for almost a century. The reason is simple: These fast rising voltages give rise to non-uniform voltage stress distribution along the coil sections and can endanger the insulation of high voltage power transformer windings. Hence an in depth knowledge of this is necessary for insulation engineers to design the winding insulation and also protective devices to be used to ensure that insulation failure does not take place when such fast rising voltages appear at the terminals of high voltage power transformers. In this paper, time domain analysis on model winding of a high voltage power transformer with 12-coil sections and 18-coil sections is being carried out to investigate its dynamic behaviour under a variety of fast rising impulse voltages. Simulation results of both the 12-coil sections and 18-coil sections of model winding impressed with full impulse, time-step and chopped impulse surge voltages with α=10 and 20 have been presented.

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12圈段和18圈段变压器模型绕组在各种浪涌电压下的时域分析

近一个世纪以来，变压器绕组在高压浪涌冲击下的响应一直引起绝缘工程师的关注。原因很简单:这些快速上升的电压使沿线圈截面的电压应力分布不均匀，可能危及高压电力变压器绕组的绝缘。因此，绝缘工程师在设计绕组绝缘和保护装置时，必须深入了解这一点，以确保当高压电力变压器端子出现如此快速上升的电压时，绝缘不会发生故障。本文对高压电力变压器模型绕组进行了时域分析，研究了其在各种快速上升冲击电压下的动态特性。给出了模型绕组的12圈段和18圈段在α=10和20的全冲击、时间步长和斩波冲击电压作用下的仿真结果。

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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2015 International Conference on Power and Advanced Control Engineering (ICPACE)

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