Fault line selection method of distribution network based on empirical mode decomposition (EMD)

An empirical mode decomposition and distribution network fault technology, applied in the direction of the fault location, can solve the problems of high sampling rate, difficult technology implementation, and high hardware equipment requirements, and achieve low hardware requirements, short data length, and easy implementation Effect

Active Publication Date: 2011-07-20
CHUXIONG POWER SUPPLY BUREAU OF YUNNAN POWER GRID CO LTD
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Problems solved by technology

This type of method can correctly select the line but requires a high sampling rate and

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  • Fault line selection method of distribution network based on empirical mode decomposition (EMD)
  • Fault line selection method of distribution network based on empirical mode decomposition (EMD)
  • Fault line selection method of distribution network based on empirical mode decomposition (EMD)

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Embodiment Construction

[0035] Such as figure 1 As shown, set the overhead line L 1 A single-phase ground fault occurs at a distance of 10km from the busbar, and the fault time t f =25ms, the transition resistance is 20Ω, the fault closing angle is 90°, the time window length is 10ms, and the sampling frequency is 10kHz.

[0036] (1) After a single-phase ground fault occurs in the distribution network, when the bus zero-sequence voltage is 15% higher than the rated phase voltage, the starting element starts immediately. According to the three-phase current of each line measured at the protection installation place, the zero-sequence current of each line is obtained by using the Clarke transformation matrix:

[0037] i j0 = i jA + i jB + i jC j = 1, 2, ... 6

[0038] The zero-sequence current waveform of each line is as follows: figure 2 shown.

[0039] (2) Perform EMD decomposition on the zero-sequence current of each line, the sampling frequency is 10kHz, and the effective sampling seq...

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Abstract

The invention relates to a fault line selection method of a distribution network based on empirical mode decomposition (EMD), belonging to the technical field of the relay protection of a power system. The fault line selection method provided by the invention comprises the following steps of: solving a zero-sequence current by utilizing the Clarke transformation theory according to the three-phase current of each line when the distribution network fails and a protection element starts, wherein the three-phase current of each line is measured at the protection mounting part; selecting a discrete zero-sequence current signal with the sampling sequence length of 100 dots, and carrying out EMD (Empirical Mode Decomposition) on the discrete zero-sequence current signal so as to acquire m IMF (Intrinsic Mode Function) components; respectively solving the absolute values of the m IMF components of the zero-sequence current of each line to acquire m absolute values of IMFt (i); and then, summing the m absolute values of IMFt (i) of the zero-sequence current of each line to acquire EMD energy Ei, wherein the line with the maximum Ei value is a fault line. By adopting the sampling frequency of 10 kHz and the time window of 10 ms, the fault line selection method provided by the invention needs data shorter in length, has the advantages of low hardware requirements, easiness in technological implementation, stronger tolerance to transition resistance and stronger practicability and is free from interference influences.

Description

technical field [0001] The invention relates to the technical field of electric power system relay protection, in particular to a fault line selection method of a power distribution network. Background technique [0002] The distribution network is responsible for the task of directly supplying power to the majority of users. The neutral point mainly adopts non-grounding, grounding through resistance and grounding through arc suppression coils. Because the grounding current is small when it fails, it is called a small current grounding system. . According to statistics, single-phase grounding faults account for more than 80% of distribution network faults. When a single-phase ground fault occurs in a small-current grounding system, the non-fault phase-to-ground voltage rises, causing damage to the insulation of power grid equipment; if intermittent arcing occurs, it will cause arc overvoltage, threaten the system insulation, and then develop into phase-to-phase or Multi-po...

Claims

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Application Information

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IPC IPC(8): G01R31/08
Inventor 杨昌武周丹冯俊宗阮绍忠汪滔周志新李刚李起荣陈继金
Owner CHUXIONG POWER SUPPLY BUREAU OF YUNNAN POWER GRID CO LTD
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