Method for simulating GIS transformer substation to produce very fast transient overvoltage (VFTO) and test circuit

A transient overvoltage and test circuit technology, applied in the electric power field, can solve problems such as uncertainty, possible occurrence at a certain point on the busbar, and inability to fully simulate and measure

Active Publication Date: 2010-11-10
STATE GRID ELECTRIC POWER RES INST +3
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  • Summary
  • Abstract
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Problems solved by technology

The waveform of the VFTO generated under this condition is different from that of the VFTO occurring in the UHV GIS substation, and it is difficult to judge whether the maximum VFTO amplitude will occur in the project
The VFTO that appears in the UHV GIS substation is caused by the multiple refraction and reflection of the voltage wave at the discontinuous point of the wave impedance. The difference in the GIS wiring mode causes the position of the maximum amplitude of the VFTO to appear when the isolating switch is operated at different positions. Uncertainty
[0005] Therefore, the isolation switch in the GIS proposed by the current power industry standard must be opened and closed. The small capacitive current test circuit ca

Method used

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  • Method for simulating GIS transformer substation to produce very fast transient overvoltage (VFTO) and test circuit
  • Method for simulating GIS transformer substation to produce very fast transient overvoltage (VFTO) and test circuit
  • Method for simulating GIS transformer substation to produce very fast transient overvoltage (VFTO) and test circuit

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Embodiment Construction

[0041] Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

[0042] see figure 2 It is a schematic structural diagram of a test circuit provided in the present invention; the test circuit includes: a first isolating switchgear 21, a second isolating switchgear 22, a first isolating sleeve 23, a second isolating sleeve 24 and a branch bus 25; Wherein, one end of the first isolating switch device 21 is connected to one end of the second isolating switch device 22 through a pipe, and the other end of the first isolating switch device 21 is connected to the first isolating sleeve through a pipe 23 is connected at one end, the other end of the second isolating switchgear 22 is connected to one end of the second isolating sleeve 24 through a pipe, and one end of the branch bus 25 is connected between the first isolating switchgear 21 and the first On the pipeline between the isolation sleeves 23, the other end of the ...

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Abstract

The invention provides a method for simulating a gas insulated switchgear (GIS) transformer substation to produce very fast transient overvoltage (VFTO) by a test circuit and the test circuit. The test circuit comprises a first isolating switch gear, a second isolating switch gear, a first isolating pipe sleeve, a second isolating pipe sleeve and a branch bus, wherein one end of the first isolating switch gear is connected with one end of the second isolating switch gear via a pipeline; and the other end of the first isolating switch gear is connected with one end of th first isolating pipe sleeve via a pipeline; the other end of the second isolating switch gear is connected with one end of the second isolating pipe sleeve; one end of the branch bus is connected with the pipeline between the first isolating switch gear and the first isolating pipe sleeve and the other end thereof is overhung; and VTTO waveforms occurring on isolating switch fractures and GIS pipelines in the GIS transformer substation are simulated by changing the length of the branch bus under different GIS connection modes.

Description

technical field [0001] The invention relates to the field of electric power technology, in particular to a method and a test circuit for simulating the ultra-fast transient overvoltage generated in a gas-insulated metal-enclosed switchgear GIS substation through a test circuit. Background technique [0002] With the development of power technology, at present, the power industry standard GB1985-89 (AC high-voltage disconnector and grounding switch) clearly stipulates that the disconnector in the gas-insulated metal-enclosed switchgear (GIS, GasInsulated Switchgear) substation must be opened and closed. Capacitive current test method, and recommended test circuit, to test and assess the ability of the disconnector to close and break small capacitive current. [0003] Such as figure 1 As shown, it is a schematic diagram of the disconnector test wiring circuit in the prior art, in which figure 1 Among them, U1 represents the power supply voltage, and its AC voltage amplitude ...

Claims

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Application Information

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IPC IPC(8): G01R31/327
CPCG01R31/3333G01R31/027G06F17/5036G01R31/62G06F30/367
Inventor 陈维江戴敏谷定燮林集明吴军辉周沛洪陈国强李振强韩彬何慧雯李文艺
Owner STATE GRID ELECTRIC POWER RES INST
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