Abstract
A flexible grounding system is a system in which the neutral point of the power supply is grounded via the arc suppression coil in parallel with a low-resistance resistor. When operating normally or a temporary ground fault occurs, the arc suppression coil is used for grounding, whereas the small resistance is switched on when a permanent ground fault occurs. At present, the problem of low protection sensitivity when a high-resistance ground fault occurs in a flexible grounding system has not been solved yet. According to the characteristics of low waveform similarity between the faulty line and the non-faulty line when a single-phase grounding fault occurred, a new faulty line selection method based on a combination of Dynamic Time Warping (DTW) distance and the transient projection method is proposed in this paper. Firstly, the fault transient signal is extracted by a digital filter as a basis for faulty line selection. Secondly, the transient zero-sequence current of each line is projected onto the busbar transient zero-sequence voltage, and the projected DTW distance of each line is calculated. Finally, according to the calculation formula of waveform comprehensive similarity coefficient, the Comprehensive DTW (CDTW) distance is obtained, and the top three CDTW distance values are selected to determine the faulty line. If the maximum value is greater than the sum of the other two CDTW distance values, the line corresponding to the maximum value is judged as the faulty line; otherwise, it is judged as a busbar fault. The simulation results based on MATLAB/Simulink and field data test show that the method can accurately determine the faulty line under diverse fault conditions.
Highlights
In China, the neutral point ungrounded or grounded through the arc suppression coil is widely used in the power distribution network [1]
B represents the state before the small resistance is switched on, while A represents the state after the small resistance is witched on
When a single-phase grounding fault occurs in a flexible grounding system, the amplitude and polarity of the transient zero-sequence current in the faulty line and the nonfaulty line are quite different
Summary
In China, the neutral point ungrounded or grounded through the arc suppression coil is widely used in the power distribution network [1]. When a permanent fault occurs, the arc suppression coil will increase the difficulty in selecting the faulty line and in clearing the fault quickly and decrease the service life of the cable [2,3]. Compared with the neutral point grounded via arc suppression coil, in the neutral point grounded via a small resistance system, when a permanent ground fault occurs, the relay protection can act quickly to clear the fault due to the large fault current. The flexible grounding mode of the arc suppression coil paralleled with a small resistance combines the advantages of the arc suppression coil grounding and the low-resistance grounding mode, which has developed rapidly and is quickly applied to the distribution network
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