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Single phase ground fault section locating method in small current grounding system

A single-phase ground fault, small current grounding technology, applied in the direction of the fault location, etc., can solve the problems of low detection accuracy, low detection accuracy, and poor fault detection effect, and achieve high anti-interference ability, high detection accuracy, and good versatility sexual effect

Inactive Publication Date: 2012-08-01
HENAN POLYTECHNIC UNIV
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Problems solved by technology

The traveling wave method cannot solve the problem of accurate extraction of transient traveling wave components, identification and calibration of reflected waves at fault points, determination of wave velocity, calibration of arrival time of initial traveling wave surge, etc.
The signal injection method is suitable for systems where only two-phase current transformers are installed on the line. The injected signal is greatly affected by factors such as voltage transformer capacity, grounding resistance, and intermittent arcing, and the fault detection effect is poor.
The outdoor fault point detection method determines the fault point according to the magnitude of the magnetic field generated by the zero-sequence current before and after the grounding point, but the detection accuracy is not high
The impedance method is greatly affected by factors such as path impedance, line load, and power supply parameters, and is only suitable for lines with relatively simple structures. For lines with multiple branches, false fault points cannot be ruled out.
Artificial intelligence technology, such as wavelet neural network, fuzzy expert system, support vector machine and other methods, the algorithm is complex, the amount of calculation is large, and basically stay in the stage of laboratory simulation
[0004] It can be seen that in the prior art, no matter whether the structure of the small current grounding system is complex or not, there is no general fault detection method that can realize the location of the single-phase grounding fault section of various small current grounding systems; even if some faults The detection method can realize the detection of the fault point of the small current grounding system with a relatively simple structure, but its detection accuracy is relatively low

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  • Single phase ground fault section locating method in small current grounding system
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  • Single phase ground fault section locating method in small current grounding system

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Embodiment

[0064] Figure 7 It is the radial small current grounding system described in the embodiment of the present invention. like Figure 7 As shown, in this embodiment, the line parameters are: positive sequence impedance Z 1 =0.17+j0.38Ω / km, positive sequence ground admittance b 1 =j3.045us / km, zero sequence impedance Z 0 =0.23+j1.72Ω / km, zero sequence ground admittance b 0 =j1.884us / km, the length of each load branch line is l 1 =20km, l 2 =15km, l 3 =24km, l 4 = 8km, l 5 =16km, l 6 = 30km. Transformer parameters are: Δ / Y connection, primary side voltage 220KV, secondary side voltage 35KV, rated capacity S N =40000KVA, the no-load loss is 35.63KW; among them, the leakage impedance of the primary winding is Z 1g =0.4+j12.2Ω, the leakage impedance of the secondary winding is Z 2g =0.006+j0.183Ω, the steady-state excitation current is 0.672A, the main magnetic flux is 202.2Wb, and the excitation impedance is 400kΩ. The parameters of the arc suppression coil of the tran...

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Abstract

The invention provides a single phase ground fault section locating method in a small current grounding system, which includes the following steps: step 1, recording the zero mode voltage and the zero mode current of the previous period and the next period of the single phase ground fault time when the single phase ground fault occurs to the small current grounding system; step 2, selecting the highest frequency intrinsic mode function component after decomposing the transient zero mode power pure fault component of the single phase ground fault time through empirical mode decomposition; step 3, obtaining the approximate entropy proportionality factor of the highest frequency intrinsic mode function component of each detecting section through the approximate entropy value of the high frequency intrinsic mode function component of each detecting section; and step 4, comparing the approximate entropy proportionality factor of the highest frequency intrinsic mode function component of each detecting section with the preset first threshold in the main station, so as to find out the section with the single phase ground fault. The single phase ground fault section locating method has the characteristics of high detecting precision and universality, and can be widely applied to the power system.

Description

technical field [0001] The invention relates to a distribution network fault diagnosis technology, in particular to a method for locating a single-phase ground fault section of a small current ground system. Background technique [0002] In recent years, the fault location research work of high-voltage transmission lines has made great progress, and the distance measurement devices developed have been popularized and used in the national power grid, and good results have been achieved. However, compared with the high-voltage transmission network, the low-current grounding system has more branch lines, complex network topology, and is easily affected by transition resistance, etc., and the transmission distance of the small-current grounding system is relatively short, so it is still impossible to achieve high-precision fault location . [0003] At present, generally speaking, the research on fault location of small current grounding systems has the following methods: travel...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R31/08
Inventor 王晓卫李玉东朱贞卫张玉均张涛田书封海潮何金朋程志磊
Owner HENAN POLYTECHNIC UNIV
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