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Quick distinguishing method for zero-sequence directional elements of alternating-current and direct-current serial-parallel power grid

An AC-DC hybrid, zero-sequence direction technology, applied in the direction of measuring electricity, measuring electrical variables, measuring devices, etc., can solve problems such as adverse effects of relay protection performance, large calculation errors, etc., to achieve important application value and ensure reliability. Effect

Inactive Publication Date: 2015-01-07
XJ ELECTRIC +2
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  • Claims
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Problems solved by technology

[0018] The purpose of the present invention is to provide a fast zero-sequence directional element discrimination method for AC / DC hybrid power grids to solve the large calculation errors in the phasor algorithm using Fourier filtering in the relay protection of AC / DC hybrid power grids. Problems that adversely affect relay protection performance

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  • Quick distinguishing method for zero-sequence directional elements of alternating-current and direct-current serial-parallel power grid
  • Quick distinguishing method for zero-sequence directional elements of alternating-current and direct-current serial-parallel power grid
  • Quick distinguishing method for zero-sequence directional elements of alternating-current and direct-current serial-parallel power grid

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Embodiment Construction

[0038] Such as Figure 5 , 6 As shown in , 7 and 8, the fast zero-sequence directional element discrimination method for AC / DC hybrid power grid, firstly use the instantaneous sampling values ​​of the three-phase voltage and current at the protection installation to calculate the instantaneous sampling values ​​of zero-sequence voltage and current; Establish a time-domain differential equation based on the instantaneous sampling values ​​of zero-sequence voltage and zero-sequence current; use the least square method to calculate the zero-sequence resistance and zero-sequence inductance components of the system at fault; transfer the system zero-sequence resistance and zero-sequence inductance components to frequency Calculate the zero-sequence impedance of the power frequency system; judge the direction of the ground fault according to the zero-sequence impedance in the area where the impedance plane is located in the forward action area or the reverse action area. The data w...

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Abstract

The invention relates to a quick distinguishing method for zero-sequence directional elements of an alternating-current and direct-current serial-parallel power grid. The quick distinguishing method includes computing sampling values of zero-sequence voltage and zero-sequence current according to sampling values of three-phase voltage and three-phase current at a protection mounting position; establishing a time-domain differential equation based on instantaneous sampling values of the zero-sequence voltage and the zero-sequence current; computing weights of zero-sequence resistance and zero-sequence inductance by the aid of the time-domain differential equation and a least square method; converting the weight of zero-sequence resistance and the zero-sequence inductance of a system to frequency domain, and computing power-frequency zero-sequence impedance; and judging whether forward or reverse grounding faults occur or not by means of judging whether an area of an impedance plane with the zero-sequence impedance is in a positive-direction action area or a negative-direction action area. The method is not affected by low-frequency weights, fractional harmonic waves or the fact that positive-sequence impedance is unequal to negative-sequence impedance after the alternating-current and direct-current serial-parallel power grid fails, reliability of computation results is guaranteed, action performances of the zero-sequence directional elements are far superior to those of various power-frequency directional elements based on full-period Fourier algorithm and semi-period Fourier algorithm, and the quick distinguishing method has an extremely important application value.

Description

technical field [0001] The invention relates to the technical field of relay protection automation in the field of electric power engineering, in particular to a fast zero-sequence directional element discrimination method suitable for an AC / DC hybrid power grid. Background technique [0002] Compared with the AC transmission mode, HVDC transmission has the characteristics of large transmission capacity, small active power loss, can be used for asynchronous networking, can limit the short-circuit current level of the power system, and has no stability problems in the AC transmission system. The AC-DC hybrid power grid has become the development direction of my country's power grid. [0003] The characteristic of HVDC transmission is that its inverter side converter will fail in commutation when the AC system fails. The main features of commutation failure are: if the commutation failure lasts for more than two cycles, the waveform of commutation failure will appear as a pul...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/02
Inventor 雷振锋杨恢宏裘愉涛陈水耀许庆强宋国兵索南加乐
Owner XJ ELECTRIC
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