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Method capable of realizing low-current route selection and fault location

A small current grounding and fault location technology, which is applied in the direction of fault location, measurement of electricity, and measurement of electrical variables, can solve the problem of affecting the detection accuracy of fault line selection, failing to achieve excellence, and having no way to adjust the inductance value of the distribution network to the ground And other issues

Active Publication Date: 2014-11-05
DALIAN ELECTRIC POWER SURVEY & DESIGN INST
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Problems solved by technology

However, due to the limitations of technical means (universal problems) at that time, only the zero-sequence voltage of the system and the zero-sequence current value of each branch line could be detected, and only the adjustment of the capacitance value of the distribution network to the ground was achieved; The zero-sequence current of the branch is not detected, and the change of the zero-sequence current of the branch will affect the detection accuracy of the faulty line selection. At the same time, there is no way to adjust the inductance value of the distribution network to the ground. In short, it has not achieved the point of excellence

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  • Method capable of realizing low-current route selection and fault location
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  • Method capable of realizing low-current route selection and fault location

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[0177] The specific implementation of a small current grounding line selection and fault location method according to the present invention is shown in the accompanying drawings. The present invention takes the 10kV distribution network as an example to illustrate the neutral point grounding and non-grounding methods through the arc suppression coil Next, the method of small current grounding line selection and fault location. A method for selecting a small current grounding line and fault location according to the present invention, which is divided into the following steps:

[0178] (1) Detect the zero-sequence voltage of the system and the zero-sequence current value of each branch line at the first time when a single-phase ground fault occurs, including the zero-sequence current of the bus voltage transformer;

[0179] (2) Determination of the fault line:

[0180] At the second time, for the neutral point ungrounded system, adjust the capacitance or inductance value of th...

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Abstract

The invention discloses a method capable of realizing low-current route selection and fault location and discloses a novel method capable of realizing single-phase grounding route selection and fault location. The method comprises the following steps: detecting the zero sequence voltage value of a system and the zero sequence current value of each branch line at the first time of the single-phase grounding fault; at the second time, changing the capacitance value or the inductance value of the whole power distribution network on the ground for a neutral point ungrounded system, changing the compensation degree of an arc suppression coil or changing the capacitance value or the inductance value of the whole power distribution network on the ground for an arc suppression coil grounding system, and detecting the zero sequence voltage value of the system and the zero sequence current value of each branch line at the second time after adjusting; and after determining the branch line of the single-phase grounding fault, uploading the detected zero sequence current value of the branch line, dividing the zero sequence voltage of the system by the detected zero sequence current value and judging to determine the position of the fault point. When the zero sequence current change of a voltage transformer on a bus influences the fault route selection and location, the zero sequence loop of the voltage transformer can be cut off, so that the detection precision is improved.

Description

technical field [0001] The invention relates to a small current grounding line selection and fault location method, in particular to a new method that can accurately realize single-phase grounding line selection and fault location. Background technique [0002] At present, line selection for single-phase ground faults basically relies on comparison of zero-sequence currents. The scope of the fault line is very small, and its theoretical derivation has as many falsehoods as possible. For the neutral point ungrounded and small current grounded systems, the regulations stipulate that when a single-phase ground fault occurs, it is allowed to operate with the fault for two hours. Since the non-faulted phase voltage rises to the line voltage, long-term operation may cause insulation breakdown. Therefore, fast single-phase ground fault line selection and fault location have been our subjects for a long time, and have not been well resolved. The principle of the existing microcomp...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/02G01R31/08
CPCY04S10/522Y04S10/52
Inventor 陈昌鹏
Owner DALIAN ELECTRIC POWER SURVEY & DESIGN INST
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