Power supply line arc light earth fault range finding method

A technology for power supply lines and ground faults, which is applied in the field of power systems and can solve the problems of complex structure, deviation of ranging results, and difficulty in popularizing medium and low voltage power supply systems.

Active Publication Date: 2015-09-23
广西电网有限责任公司河池供电局 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are still some problems in this method in practical application: 1. Under the condition of AC voltage breakdown, the impedance of the fault point is seriously non-linear, which affects the measurement accuracy; 2. The user load has a great interference to the measurement process; 3. The fault The line and the normal line are connected together, and the structure is complex, which leads to a large deviation in the distance measurement results; 4. In most cases, the ground fault is an arc flashover fault, and the fault point cannot be re...

Method used

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  • Power supply line arc light earth fault range finding method
  • Power supply line arc light earth fault range finding method
  • Power supply line arc light earth fault range finding method

Examples

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Effect test

Embodiment 1

[0041] Such as figure 2 Shown is the first-order fault equivalent circuit diagram of the faulty line. In the figure, L is the equivalent inductance of the line between the current injection point and the fault breakdown point, which is proportional to the fault distance; R 0 is the line equivalent resistance between the current injection point and the fault breakdown point, which is proportional to the fault distance; R 1 is the ground transition resistance after fault breakdown.

[0042] Perform Laplace transform on the first-order fault equivalent circuit to obtain its transfer function, after discretization, obtain a discrete pulse transfer function, use the dynamic system identification method to obtain the parameters of the pulse transfer function, and obtain by solving the equation The transfer function parameters of the continuous system, and then calculate the equivalent inductance L in the equivalent circuit, and divide L by the inductance of the unit length of the...

Embodiment 2

[0044] Such as image 3 Shown is the second-order fault equivalent circuit diagram of the faulty line. In the figure, L is the equivalent inductance of the line between the current injection point and the fault breakdown point, which is proportional to the fault distance; R 0 is the line equivalent resistance between the current injection point and the fault breakdown point, which is proportional to the fault distance; R 1 is the ground transition resistance after fault breakdown, C 1 It is the equivalent capacitance converted from the fault line to the fault point.

[0045] Perform Laplace transform on the second-order fault equivalent circuit to obtain its transfer function, after discretization, obtain a discrete pulse transfer function, use the dynamic system identification method to obtain the parameters of the pulse transfer function, and obtain by solving the equation The transfer function parameters of the continuous system, and then calculate the equivalent inducta...

Embodiment 3

[0047] Such as Figure 4 Shown is the third-order fault equivalent circuit diagram of the faulty line. In the figure, L is the equivalent inductance of the line between the current injection point and the fault breakdown point, which is proportional to the fault distance; R 0 is the line equivalent resistance between the current injection point and the fault breakdown point, which is proportional to the fault distance; R 1 is the ground transition resistance after fault breakdown, C 0 is the equivalent capacitance converted from the line capacitance to the current injection point, C 1 It is the equivalent capacitance converted from the line capacitance to the fault point. The line capacitance includes each branch line, the line between the fault point and the current injection point, and the line capacitance between the fault point and the end of the line.

[0048] Perform Laplace transform on the third-order fault equivalent circuit to obtain its transfer function, after ...

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PUM

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Abstract

The invention belongs to the power system field, and especially relates to a power supply line arc light earth fault range finding method; most power supply line earth faults belong to arc light earthing; after a fault line is in power failure, a DC current generator charges the line so as to boost a line voltage to earth; a fault point can be broken again when reaching a fault breakdown voltage, and the fault point fast turns to a low resistance state from a high resistance state; line distribution capacitance discharges through the breakdown point, and the voltage on the line suddenly drops. The line is considered to be a dynamic system; a line dynamic model is set up; a dynamic system parameter identification method can identify line dynamic model parameters according to a current and voltage sampling series on the line, thus calculating a fault range according to the model parameters.

Description

technical field [0001] The invention belongs to the field of power systems, and in particular relates to a distance measuring method for an arc-light grounding fault of a power supply line. Background technique [0002] More than 80% of power supply line faults are ground faults. Ground faults are roughly divided into two types: resistance grounding and arcing grounding. In medium and high voltage power supply lines, the proportion of arc grounding is much higher than that of resistance grounding. [0003] Most of the existing ground fault location methods are online detection, that is, the fault location equipment is always hung on the power grid, and after the ground fault is detected, the location function of the equipment is started immediately to complete the fault location. During online fault location, the fault line has not been separated from the grid system. When the power grid structure is complex, such as many branches and users, the ranging results are often ...

Claims

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Application Information

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IPC IPC(8): G01R31/08
Inventor 刘隆华黄洪全黄启哲李民强卢绍成邓春明李步锦韦唯危秋珍
Owner 广西电网有限责任公司河池供电局
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