Transformer Practical Turn-to-Turn Fault Detection Performance using Negative Sequence and Space Vector-Based Methods

2019 International Conference on Protection and Automation of Power System (IPAPS) Pub Date : 2019-01-01 DOI:10.1109/IPAPS.2019.8641951

Nima Farzin, M. Vakilian, E. Hajipour

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引用次数: 1

Abstract

Transformer turn-to-turn fault (TTF) is one of the most difficult failures to detect. The negative sequence percentage differential current (NSPD) and extended park vectors approach (EPVA) are the two most promising methods for detection of the TTF inception. In this paper, in order to evaluate the performance of these methods, various experimental tests are carried out to detect the TTF initiation on the winding of the transformer under different operating conditions such as: no-load operation, when an external fault or an open conductor fault is also occurred. The results show that the setting of the proper thresholds plays the main role in the reliable and secure performance of NSPD and EPVA-based methods. Moreover, the experimental results verify that the selection of a fixed threshold for these detection methods can be very difficult. Even if the adjustment of the fixed threshold is possible, it may endanger the reliable and secure performance of the related protection methods.

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基于负序列和空间矢量方法的变压器实际匝间故障检测性能

变压器匝间故障(TTF)是最难以检测的故障之一。负序列百分比差分电流法(NSPD)和扩展公园向量法(EPVA)是TTF起始检测中最有前途的两种方法。为了评价这些方法的性能，本文进行了各种实验测试，以检测变压器绕组在空载运行、外部故障或开路导体故障等不同运行条件下的TTF起爆。结果表明，阈值的设置对NSPD和epva方法的可靠性和安全性起着重要作用。此外，实验结果验证了为这些检测方法选择固定阈值是非常困难的。即使可以调整固定阈值，也可能危及相关保护方法的可靠和安全性能。

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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2019 International Conference on Protection and Automation of Power System (IPAPS)

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