Simulation and Analysis of Transformer Winding Inter-disk and Inter-turn Faults for Online Diagnosis

2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe) Pub Date : 2019-06-11 DOI:10.1109/EEEIC.2019.8783743

V. Nurmanova, R. Ahangar, Kamilla Aliakhmet, M. Naderi, G. Gharehpetian, M. Bagheri, T. Phung

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引用次数: 1

Abstract

Transformers are considered as the key components in power system network as they are employed in generation, transmission and distribution sectors. Hence electricity providers are highly concerned about proper operation of these valuable assets and specifically normal performance of the transformer active parts. One of the most reliable techniques to monitor the active part of the transformer is the Frequency Response Analysis (FRA). Given the fact that FRA technique has been successfully utilized in offline application for transformer diagnosis; it has been recently studied to apply the FRA once the transformer is in service, called online FRA. In this study, the transformer winding inter-disk and inter-turn faults are studied along with the effect of the bushing on frequency response signature in online FRA setup. Transformer winding physical model is created, simulated and numerically analyzed. It is revealed that the winding inter-disk and inter-turn faults lead to FRA anti-resonance frequency shift and response magnitude alteration in online FRA. Emulation of transformer bushing in the form of two paralleled capacitors unveils the significant influence of this component over the low frequency band of FRA spectrum. Destructive effect of the bushing reactive impedance should be taken into consideration during online FRA test measurements.

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变压器绕组盘间匝间故障在线诊断仿真与分析

变压器被认为是电力系统网络中的关键部件，因为它被用于发电、输电和配电部门。因此，电力供应商高度关注这些宝贵资产的正常运行，特别是变压器有源部件的正常性能。频率响应分析(FRA)是监测变压器有源部分最可靠的技术之一。鉴于FRA技术已成功地应用于变压器的离线诊断;在变压器投入使用后立即进行FRA的研究，称为在线FRA。本文研究了在线FRA设置中变压器绕组盘间和匝间故障以及套管对频率响应特征的影响。建立了变压器绕组物理模型，并进行了仿真和数值分析。结果表明，绕组盘间故障和匝间故障导致FRA反谐振频移和响应幅值发生变化。对两个并联电容器形式的变压器套管进行仿真，揭示了该元件对FRA频谱低频段的重要影响。在进行FRA在线测试时，应考虑套管无功阻抗的破坏效应。

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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来源期刊

2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe)

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