CN112054487B - Single-phase earth fault judgment and processing method for direct-distribution new energy power plant - Google Patents

Abstract

When the new energy power plant is connected to a power grid transformer substation through a direct distribution connecting line, a high-resistance permanent single-phase earth fault is judged and processed through differential earth line selection, and a low-resistance permanent single-phase earth fault is processed through differential zero-sequence protection time constant value configuration.

Description

Single-phase earth fault judgment and processing method for direct-distribution new energy power plant

Technical Field

The invention is mainly used for judging and processing the single-phase earth fault of a direct-distribution new energy power plant, in particular to a method for judging and processing the single-phase earth fault of the direct-distribution new energy power plant, which is suitable for judging and processing the single-phase earth fault of the new energy accessed into a power grid through the direct-distribution.

Background

The existing small-resistance grounding mode is widely applied to neutral point grounding of a new energy power plant to limit internal overvoltage, when a single-phase grounding fault occurs, a fault line is cut off through zero sequence protection, but the grounding mode has the biggest defect that once a power distribution network is subjected to high-resistance grounding, zero sequence protection is failed, and the fault line cannot be selected and cut off in time. In addition, a plurality of direct-distribution new energy power plants exist, namely, the bus station is converged and then is not boosted by the booster station, and the bus station is directly connected to a transformer substation of an external power grid through a connecting line. Therefore, the connecting line can be cut off when a single-phase earth fault occurs in an external power grid or a new energy power plant. The impact on the power grid or the new energy power plant can be caused, and the safe and stable operation of the power grid and the new energy power plant is influenced.

The mode that the new energy power plant is connected into the power grid transformer substation through the direct distribution tie line is adopted, no matter whether the new energy power plant or the feeder line of the power grid transformer substation has single-phase earth fault, the zero sequence current of the earth fault feeder line is I_H0=I_c1+I_c2+I_r1+I_r2The zero sequence current flowing through the connecting line is I_L0=I_c2+I_r2Namely, one side where single-phase grounding occurs selects a fault line or starts zero-sequence protection to remove the fault line, and meanwhile, the transformer substation or the new energy power plant on the other side selects a tie line grounding (mis-selection) or starts zero-sequence protection to remove the tie line (mis-operation).

Disclosure of Invention

Aiming at the problems, the invention provides a single-phase earth fault judgment and processing method suitable for a direct-distribution new energy power plant, which is characterized by comprising the following steps: when the new energy power plant is connected to a power grid transformer substation through a direct distribution tie line, intelligent resistor complete sets are installed at neutral points of the power grid transformer substation and the new energy power plant, and each feeder line is provided with zero sequence protection.

The high-resistance permanent single-phase earth fault is judged and processed through differential earth line selection, and when the neutral point of the power grid shifts voltage U_N<U_GLWhen the new energy power plant and the power grid transformer substation are connected through the direct distribution tie line, any one side of the new energy power plant and the power grid transformer substation reports that the feeder line is grounded, and when the other side reports that the direct distribution tie line is grounded, the fault is the feeder line fault, and the fault can be eliminated only by cutting off the faulty feeder line; if the new energy power plant and the direct distribution tie line are connected into the power grid transformer substation and the direct distribution tie line is selected to be grounded, the tie line is cut off to remove the fault.

The low-resistance permanent single-phase earth fault is processed by the configuration of the fixed value of the differential zero-sequence protection time when the displacement voltage U of the neutral point of the power grid is processed_N≥U_GLThe device starts zero sequence protection to cut off the fault line, the fixed value of the zero sequence protection current of the feeder line is set according to 1.5-2.0 times of the maximum capacitance current of the feeder line, and the fixed value of the time of the zero sequence protection of the feeder line is T₁The time constant value of the zero sequence protection of the tie line is T₂，T₂>T₁When any feeder line has single-phase low earth fault, the zero sequence protection mis-switching tie line can not be started.

U_NShifting voltage when the neutral point of the power grid; i is_H0Zero sequence current for a ground fault feeder; u shape_GLThe critical value of the neutral point displacement voltage of the high-resistance earth fault and the low-resistance earth fault; t is₁Setting a time value for zero sequence protection of the feeder line; t is₂And (4) determining the time value of the zero sequence protection of the tie line.

U in permanent low-resistance earth fault_N≥U_GLThe permanent low-resistance earth fault is removed by zero sequence protection, and the fault is accurately processed by differential configuration of time constant values of the zero sequence protection.

The invention has the following advantages:

1. because the high-resistance grounding fault can be accurately selected and the fault line can be cut off quickly when the high-resistance grounding fault occurs in the power grid, the problem of high-resistance dead zone of a small-resistance grounding mode is solved.

2. When a low-resistance earth fault occurs in the power distribution network, the fault area isolation is realized by the differential matching of the zero sequence protection time constant values and by disconnecting the intelligent switches of the corresponding nodes, so that the fault power failure range is reduced.

Detailed Description

When the new energy power plant is connected to a power grid transformer substation through a direct distribution tie line, intelligent resistor complete sets are installed at neutral points of the power grid transformer substation and the new energy power plant, and each feeder line is provided with zero sequence protection.

The high-resistance permanent single-phase earth fault is judged and processed through differential earth line selection, and when the neutral point of the power grid shifts voltage U_N<U_GLWhen the new energy power plant and the power grid transformer substation are connected through the direct distribution tie line, any one side of the new energy power plant and the power grid transformer substation reports that the feeder line is grounded, and when the other side reports that the direct distribution tie line is grounded, the fault is the feeder line fault, and the fault can be eliminated only by cutting off the faulty feeder line; if the new energy power plant and the direct distribution tie line are connected into the power grid transformer substation and the direct distribution tie line is selected to be grounded, the tie line is cut off to remove the fault.

The low-resistance permanent single-phase earth fault is processed by the configuration of the fixed value of the differential zero-sequence protection time when the displacement voltage U of the neutral point of the power grid is processed_N≥U_GLThe device starts zero sequence protection to cut off the fault line, the fixed value of the zero sequence protection current of the feeder line is set according to 1.5-2.0 times of the maximum capacitance current of the feeder line, and the fixed value of the time of the zero sequence protection of the feeder line is T₁The time constant value of the zero sequence protection of the tie line is T₂，T₂>T₁When any feeder line has single-phase low earth fault, the zero sequence protection mis-switching tie line can not be started.

U_NShifting voltage when the neutral point of the power grid; i is_H0Zero sequence current for a ground fault feeder; u shape_GLThe critical value of the neutral point displacement voltage of the high-resistance earth fault and the low-resistance earth fault; t is₁Setting a time value for zero sequence protection of the feeder line; t is₂And (4) determining the time value of the zero sequence protection of the tie line.

U in permanent low-resistance earth fault_N≥U_GLThe permanent low-resistance earth fault is removed by zero sequence protection, and the fault is accurately processed by differential configuration of time constant values of the zero sequence protection.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (2)

1. A single-phase earth fault judgment and processing method for a direct-distribution new energy power plant is characterized by comprising the following steps: when a new energy power plant is accessed to a power grid transformer substation through a direct distribution tie line, intelligent resistor complete sets are installed at neutral points of the power grid transformer substation and the new energy power plant, and each feeder line is provided with zero sequence protection;

the high-resistance permanent single-phase earth fault is judged and processed through differential earth line selection, and when the neutral point of the power grid shifts voltage U_N<U_GLWhen the new energy power plant and the power grid transformer substation are connected through the direct distribution tie line, any one side of the new energy power plant and the power grid transformer substation reports that the feeder line is grounded, and when the other side reports that the direct distribution tie line is grounded, the fault is the feeder line fault, and the fault can be eliminated only by cutting off the faulty feeder line; if the new energy power plant and the direct distribution interconnection line are connected to the power grid transformer substation and the direct distribution interconnection line is selected to be grounded, the interconnection line is cut off to remove the fault;

the low-resistance permanent single-phase earth fault is processed by the configuration of the fixed value of the differential zero-sequence protection time when the displacement voltage U of the neutral point of the power grid is processed_N≥U_GLThe device starts zero sequence protection to cut off the fault line, the fixed value of the zero sequence protection current of the feeder line is set according to 1.5-2.0 times of the maximum capacitance current of the feeder line, and the fixed value of the time of the zero sequence protection of the feeder line is T₁The time constant value of the zero sequence protection of the tie line is T₂，T₂>T₁When any feeder line has a single-phase low-resistance earth fault, the zero-sequence protection mis-switching tie line cannot be started;

U_Nshifting voltage when the neutral point of the power grid; i is_H0Zero sequence current for a ground fault feeder; u shape_GLThe critical value of the neutral point displacement voltage of the high-resistance earth fault and the low-resistance earth fault; t is₁Setting a time value for zero sequence protection of the feeder line; t is₂And (4) determining the time value of the zero sequence protection of the tie line.

2. The method for judging and processing the single-phase earth fault of the direct-distribution new energy power plant according to claim 1, characterized in that: u in permanent low-resistance earth fault_N≥U_GLThe permanent low-resistance earth fault is removed by zero sequence protection, and the fault is accurately processed by differential configuration of time constant values of the zero sequence protection.