CN105242174B - Based on impedance mapping function amplitude characteristic line single phase grounding failure distance measuring method - Google Patents

Abstract

The invention discloses a distance measuring method for a single-phase grounding fault of a line based on the amplitude characteristic of an impedance positioning function. The method of the present invention first measures the fault phase voltage, fault phase current, fault phase negative sequence current and zero sequence current at the protection installation of the transmission line, calculates the boundary impedance, and uses a one-dimensional search method to calculate the comprehensive impedance at each point on the transmission line in sequence, and then Calculate the impedance location function value at each point on the transmission line in turn, and then select the distance between the point where the impedance location function value reaches the minimum on the transmission line and the transmission line protection installation as the fault distance. The method of the present invention utilizes the characteristic that the impedance positioning function value at the single-phase ground fault point of the transmission line reaches the minimum to realize the single-end precise distance measurement of the single-phase ground fault point of the transmission line, and eliminates the transition resistance, load current and power system operation mode in principle. impact, with high ranging accuracy.

Description

Single-phase-to-earth fault location method for line based on amplitude characteristic of impedance location function

technical field

The invention relates to the technical field of electric power system relay protection, in particular to a single-phase grounding fault distance measuring method based on the amplitude characteristic of impedance positioning function.

Background technique

The single-ended fault location method only uses the electrical quantity at one end of the transmission line for fault location, does not require communication and data synchronization equipment, has low operating costs and stable algorithms, and has been widely used in transmission lines. Single-ended fault location methods are mainly divided into traveling wave method and impedance method. The traveling wave method utilizes the transmission properties of the fault transient traveling wave to perform single-ended fault location. It has high precision and is not affected by the operation mode and excessive resistance. However, it requires a high sampling rate, requires a special wave recording device, and has high application costs. . The impedance method uses the voltage and current after the fault to calculate the fault loop impedance, and performs single-ended fault location measurement according to the characteristic that the line length is proportional to the impedance. It is simple and reliable, but the fault location accuracy is seriously affected by factors such as transition resistance and load current. Especially when the transition resistance is large, the result of impedance method distance measurement will seriously deviate from the real fault distance, and even the fault distance measurement fails or the fault distance measurement result exceeds the entire length of the line, which cannot provide accurate fault location information, making fault line inspection difficult. It is conducive to the rapid elimination of transmission line faults and the rapid restoration of line power supply.

Contents of the invention

The purpose of the present invention is to overcome the deficiencies in the prior art, and provide a single-phase ground fault distance measurement method based on the amplitude characteristic of the impedance location function. The method adopts lumped parameter modeling, the algorithm principle is simple, the program is easy to implement, the calculation amount is small, and the fault distance measurement speed is fast. This method utilizes the characteristic that the impedance location function value at the single-phase-to-ground fault point of the transmission line reaches the minimum to realize single-end accurate distance measurement of the single-phase-to-ground fault of the transmission line, and eliminates the influence of transition resistance, load current and power system operation mode in principle , with high ranging accuracy, suitable for realizing single-ended ranging function of single-phase ground fault of 500kV, 220kV and 110kV transmission lines.

For accomplishing above-mentioned object, the present invention adopts following technical scheme:

The single-phase grounding fault distance measuring method based on the amplitude characteristic of the impedance positioning function is characterized in that it comprises the following steps:

(1) The protection device measures the fault phase voltage at the protection installation of the transmission line Fault phase negative sequence current fault phase current and zero sequence current Among them, φ=A, B, C phase;

(2) The protection device calculates the boundary impedance

Among them, z ₁ and z ₀ are the positive-sequence impedance and zero-sequence impedance of the transmission line per unit length, respectively; for the imaginary part of for The imaginary part of ; φ = A, B, C phase;

(3) The protection device selects the initial value of the fault distance as lx, and calculates the comprehensive impedance ΔZ+ _{z 1} lx at the lx point where the transmission line protection _is installed _;

(4) The protection device calculates the impedance positioning function value of the point l _x point away from the transmission line protection installation

(5) The fault distance l _x increases with a fixed step size Δl, return to step (3), and calculate the impedance location function value of each l _x point on the transmission line in turn up to the full length of the transmission line;

(6) The protection device selects the impedance positioning function value on the transmission line The distance between the minimum corresponding point and the installation place of transmission line protection is the fault distance; among them, the fixed step size Δl is taken as 0.001l, and l is the length of the transmission line.

Compared with the prior art, the present invention has the following positive results:

The method of the present invention first measures the fault phase voltage, fault phase current, fault phase negative sequence current and zero sequence current at the protection installation of the transmission line, calculates the boundary impedance, and uses a one-dimensional search method to calculate the comprehensive impedance at each point on the transmission line in sequence, and then Calculate the impedance location function value at each point on the transmission line in turn, and then select the distance between the point where the impedance location function value reaches the minimum on the transmission line and the transmission line protection installation as the fault distance. The method of the invention adopts lumped parameter modeling, the algorithm principle is simple, the program is easy to realize, the calculation amount is small, and the fault distance measurement speed is fast. The method of the present invention utilizes the characteristic that the impedance positioning function value at the single-phase ground fault point of the transmission line reaches the minimum to realize the single-end precise distance measurement of the single-phase ground fault point of the transmission line, and eliminates the transition resistance, load current and power system operation mode in principle. It has high ranging accuracy and is suitable for single-end ranging function of single-phase ground fault of 500kV, 220kV and 110kV transmission lines.

Description of drawings

Fig. 1 is a schematic diagram of a line transmission system applying the present invention.

Detailed ways

The technical solution of the present invention will be further described in detail according to the accompanying drawings.

Fig. 1 is a schematic diagram of a line transmission system applying the present invention. In Fig. 1, PT is a voltage transformer, and CT is a current transformer. The protection device samples the voltage waveform of the voltage transformer PT and the current waveform of the current transformer CT at the transmission line protection installation to obtain the instantaneous value of voltage and current, and uses the Fourier algorithm to calculate the fault phase voltage at the transmission line protection installation Fault phase negative sequence current fault phase current and zero sequence current As an input quantity; where, φ=A phase, B phase, C phase;

The protection device calculates the boundary impedance

Among them, z ₁ and z ₀ are the positive-sequence impedance and zero-sequence impedance of the transmission line per unit length, respectively; for the imaginary part of for the imaginary part of .

The protection device utilizes the fault phase voltage Divided by the zero-sequence compensation current get measured impedance

The protection device selects the initial value of the fault distance as l _x , and calculates the comprehensive impedance ΔZ+z ₁ l _x at the point l _x from where the transmission line protection is installed.

The protection device calculates the impedance positioning function value of the l _x point from where the transmission line protection is installed

The fault distance l _x increases with a fixed step size Δl, and the impedance location function value of each l _x point on the transmission line is calculated sequentially Up to the full length of the transmission line; where, the fixed step size Δl is 0.001l, and l is the length of the transmission line.

In the above process, the fault distance _lx starts from 0 and increases with a fixed step size Δl until the end of the entire length of the transmission line to complete the calculation of the impedance positioning function value at each _lx point on the transmission line.

Finally, the protection device selects the impedance positioning function value on the transmission line The distance from the minimum corresponding point to the installation of transmission line protection is the fault distance.

The method of the invention adopts lumped parameter modeling, the algorithm principle is simple, the program is easy to realize, the calculation amount is small, and the fault distance measurement speed is fast. The method of the invention utilizes the characteristic that the impedance positioning function value at the single-phase ground fault point of the transmission line reaches the minimum to realize the single-end distance measurement of the single-phase ground fault point of the transmission line, and eliminates the influence of the transition resistance, load current and power system operation mode in principle , with high ranging accuracy.

The above descriptions are only preferred specific embodiments of the present invention, but the scope of protection of the present invention is not limited thereto, any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in the present invention , should be covered within the protection scope of the present invention.

Claims (1)

1. being based on impedance mapping function amplitude characteristic line single phase grounding failure distance measuring method, which is characterized in that including walking as follows Suddenly：

(1) faulted phase voltage of protector measuring line protection installation placeFailure phase negative-sequence currentFailure phase Electric currentAnd zero-sequence currentWherein, φ=A, B, C phase；

(2) protective device calculates boundary impedance

Wherein, z₁、z₀The respectively impedance of unit length electric transmission line positive sequence, zero sequence impedance；ForImaginary part；ForImaginary part；

(3) it is l that protective device, which chooses fault distance initial value,_x, calculate the l apart from line protection installation place_xThe comprehensive resistance of point Anti- Δ Z+z₁l_x；

(4) protective device calculates the l apart from line protection installation place_xThe impedance mapping function value of point

(5) fault distance l_xIt is incremented by with fixed step size Δ l, return to step (3), successively every l on computing electric power line_xThe resistance of point Anti- mapping function valueUntil transmission line of electricity overall length；

(6) protective device chooses impedance mapping function value on transmission line of electricityMinimum corresponding point Distance away from line protection installation place is fault distance；Wherein, it is that transmission line of electricity is long that fixed step size Δ l, which takes 0.001l, l, Degree.