Electric transmission line inter-phase short circuit fault direction discriminating method based on discrete sampled values

A transmission line and phase-to-phase short-circuit technology, which is applied in the direction of fault location, measurement of electricity, and measurement of electrical variables, etc., can solve problems such as poor real-time performance, malfunction of relay protection devices, and impact on grid stability

Inactive Publication Date: 2014-04-30
STATE GRID CORP OF CHINA +2
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Problems solved by technology

The existing transmission line direction discrimination elements mainly include zero sequence power directional element, negative sequence power directional element and zero sequence directional element, negative sequence directional element, zero sequence power directional element, negative sequence power directional element and zero sequence directional element, negative sequence The electrical quantities used in the directional element algorithm are all phasors, which require a whole wave of data windows to participate in the calculation, involving relatively complex Fourier algorithm calculations, so the traditional ...

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  • Electric transmission line inter-phase short circuit fault direction discriminating method based on discrete sampled values
  • Electric transmission line inter-phase short circuit fault direction discriminating method based on discrete sampled values
  • Electric transmission line inter-phase short circuit fault direction discriminating method based on discrete sampled values

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Embodiment Construction

[0019] Please check figure 1 , figure 1 The middle CVT is the voltage transformer 2, and the CT is the current transformer 3. The protection device 1 uses the voltage transformer 2 and the current transformer 3 to collect in real time the sampling values ​​of the fault phase voltage, the fault phase current and the fault phase negative sequence current at each sampling time at the transmission line protection installation;

[0020] Furthermore, the protection device 1 judges

[0021] u φφ ( t ) i φφ 2 ( t - Δt ) - u φφ ( t - ...

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Abstract

The invention discloses an electric transmission line inter-phase short circuit fault direction discriminating method based on discrete sampled values. The electric transmission line inter-phase short circuit fault direction discriminating method includes the steps of measuring fault inter-phase voltage sampled values, fault inter-phase current sampled values and fault inter-phase negative sequence current sampled values at the protection installation position of an electric transmission line at sampling moments, calculating whether an electric transmission line inter-phase short circuit fault direction criterion is workable or not through the fault inter-phase electric component sampled values at the three adjacent sampling moments, and if the electric transmission line inter-phase short circuit fault direction criterion is workable, judging that an inter-phase short circuit fault in the corresponding direction is generated on the electric transmission line. According to the electric transmission line inter-phase short circuit fault direction discriminating method, the electric transmission line inter-phase short circuit fault direction criterion is calculated only through the fault inter-phase electric component sampled values at the three adjacent sampling moments, a required data window is short, Fourier algorithm operation is not referred, the operation amount is small, and the calculating speed is high; the discriminating result is not influenced by the factors such as electric system oscillation, the fault position, transition resistance and a load current, and the fault direction of the electric transmission line inter-phase short circuit fault is accurately discriminated.

Description

technical field [0001] The invention relates to the technical field of electric power system relay protection, in particular to a method for judging the direction of a short-circuit fault between phases of a transmission line based on discrete sampling values. Background technique [0002] In the actual power grid, the fault point may be located in the opposite direction of the transmission line, or in the forward direction of the transmission line. If the fault point is located in the opposite direction of the transmission line, the relay protection device of the protected line will not act, but the relay protection device of the adjacent line will act to isolate the fault. If the fault point is located in the positive direction of the transmission line, the relay protection device of the protected line will act to isolate the fault on the protected line. The existing transmission line direction discrimination elements mainly include zero sequence power directional element...

Claims

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Application Information

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IPC IPC(8): G01R31/08G01R31/02
Inventor 林富洪
Owner STATE GRID CORP OF CHINA
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