Distribution network fault line selection method based on zero sequence current variable quantity waveform correlation coefficient matrix

A waveform correlation coefficient and zero-sequence current technology, applied in the direction of the fault location, etc., can solve the problems of weak fault signal, difficulty in online application of the traveling wave method, difficulty in identifying the fault wave head of the fault waveform, etc., and achieve the effect of simple line selection principle

Active Publication Date: 2013-01-09
STATE GRID CORP OF CHINA +2
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Problems solved by technology

However, the fault signal in the small current grounding system is very weak, and the fault wave head of the fault

Method used

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  • Distribution network fault line selection method based on zero sequence current variable quantity waveform correlation coefficient matrix
  • Distribution network fault line selection method based on zero sequence current variable quantity waveform correlation coefficient matrix
  • Distribution network fault line selection method based on zero sequence current variable quantity waveform correlation coefficient matrix

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Embodiment 1

[0022] figure 1 It is a flowchart of a distribution network fault line selection method based on zero-sequence current variation waveform correlation coefficient matrix applying the present invention. In this embodiment, the non-diagonal elements of the row non-diagonal elements of the zero-sequence current variation waveform correlation coefficient matrix before and after parallel resistor switching and the minimum corresponding feeder are used as the principle of the fault line to select the fault line. When the zero-sequence voltage of the distribution network bus is greater than 15% of the phase voltage of the distribution network bus, collect the sampling value of the zero-sequence current flowing through each feeder; keep the parameters of the arc suppression coil unchanged and switch the parallel resistance, and collect the zero-sequence current flowing through each feeder again Sequence current sampling value; calculate the zero-sequence current variation of each feede...

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Abstract

The invention discloses a distribution network fault line selection method based on a zero sequence current variable quantity waveform correlation coefficient matrix. According to the distribution network fault line selection method disclosed by the invention, a row off-diagonal element of each feeder zero sequence current variable quantity waveform correlation coefficient matrix and feeders in minimum corresponding before and after switching of a parallel resistance are utilized to carry out line selection for a fault line principle; and zero sequence voltage of a distribution network bus is larger than 15% phase voltage, the parallel resistance is switched by keeping arc suppression coil parameters invariable, a zero sequence current sampling value of each feeder flowing before and after switching of the parallel resistance is measured, the zero sequence current variable quantity waveform correlation coefficient matrix is further calculated, and the row off-diagonal element of each feeder zero sequence current variable quantity waveform correlation coefficient matrix and the feeders in minimum corresponding are selected as fault lines. With the adoption of the method, a line selection result is not influenced by factors such as transition resistance, line parameters, line length, distribution network running mode and fault position, the line selection principle is simple, and the line selection result is high in reliability and strong in practicability.

Description

technical field [0001] The invention relates to the technical field of power system distribution network fault line selection, in particular to a distribution network fault line selection method based on zero-sequence current variation waveform correlation coefficient matrix. Background technique [0002] After a single-phase fault occurs on the distribution network feeder whose neutral point is grounded through the arc-suppression coil, the inductive current provided by the arc-suppression coil compensates the capacitive current at the ground point of the fault line. The zero-sequence current is still small, so that the distribution network fault line selection method based on the zero-sequence current method (such as "New Criteria for Small Current Grounding Line Selection Based on Zero-Sequence Current Transient Maximum Value" published by Zhang Fan, Pan Zhencun, and Zhang Huifen) ) The line selection results are not reliable enough. Due to the compensation effect of the...

Claims

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Application Information

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IPC IPC(8): G01R31/08
Inventor 陈文景林富洪徐致远柯敏徐志忠李振华
Owner STATE GRID CORP OF CHINA
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