Resonant earthed system fault line selection method utilizing waveform time domain feature clustering

A technology of resonance grounding, system fault, applied in the direction of fault location etc.

Inactive Publication Date: 2014-07-23
FUZHOU UNIV
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Problems solved by technology

[0004] In the existing method of using the similarity between the transient zero-sequence current waveforms after the fault to realize the fault line selection of the resonant grounding system, only through the similarity of the charging and discharging process of the non-faulted line after the fault or the similarity of the zero-sequence current waveform after the observation simulation To describe the similarity between zero-sequence current waveforms, there is no explanation for the similarity principle

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  • Resonant earthed system fault line selection method utilizing waveform time domain feature clustering
  • Resonant earthed system fault line selection method utilizing waveform time domain feature clustering
  • Resonant earthed system fault line selection method utilizing waveform time domain feature clustering

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Embodiment Construction

[0068] When a single-phase ground fault occurs in a resonant grounding system, the similarity between the transient zero-sequence current waveforms between non-fault lines after the fault is greater than the similarity between the fault line and the non-fault line. The present invention is based on the transient zero-sequence current waveform after the fault Based on the similarity principle, a new method of line selection for single-phase grounding fault in resonant grounding system is proposed using waveform time domain feature clustering.

[0069] In the present invention, the fault line selection method of the resonant grounding system using waveform time-domain feature clustering, such as Figure 12 shown, including the following steps:

[0070] Step 1: Decompose the histogram of the half-cycle transient zero-sequence current waveform of each line after a single-phase-to-ground fault in the resonant grounding system, and obtain a histogram that reflects the time-domain di...

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Abstract

The invention relates to a resonant earthed system fault line selection method utilizing waveform time domain feature clustering. The resonant earthed system fault line selection method comprises the following steps of 1 performing histogram decomposition on a half cyclic wave transient-state zero-sequence current waveform of each line after a resonant earthed system single-phase earth fault to obtain a histogram of time domain features reflecting the transient-state zero-sequence current waveforms of all of lines after the fault, and adopting a relative entropy reflecting state difference to establish a relative entropy matrix S including fault polarity information based on the time domain features reflecting the transient-state zero-sequence current waveforms of all of lines after the fault; 2 establishing a comprehensive amplitude matrix F3 including fault polarity information; 3 combining the relative entropy matrix S with the comprehensive amplitude matrix F3 to establish a comprehensive relative entropy feature matrix XS including transient-state zero-sequence current waveform fault information, utilizing a threshold-setting-free fuzzy kernel-clustering algorithm to perform clustering on the comprehensive relative entropy feature matrix XS, further distinguishing fault lines. The resonant earthed system fault line selection method improves the automation degree of fault line selection.

Description

technical field [0001] The invention relates to the technical field of relay protection for intelligent power distribution systems, in particular to a fault line selection method for a resonant grounding system using waveform time-domain feature clustering. Background technique [0002] my country's 6~35kV distribution network mainly adopts the small current grounding method. In the small current grounding mode, the single-phase grounding fault has the highest occurrence rate, accounting for more than 80% of the faults in the distribution network. In the small current grounding system, since there is no direct electrical connection between the neutral point and the ground or a reactor is connected in series, the short-circuit current is very small, and the line voltage between the three phases remains symmetrical, which has no effect on the power supply of the load, so Under normal circumstances, it is allowed to continue to run for another 1~2 hours without tripping immedi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R31/08
Inventor 郭谋发严敏杨耿杰高伟缪希仁
Owner FUZHOU UNIV
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