A Line Selection Method for Small Current Grounding Faults in Distribution Network Based on Transient Correlation Analysis of Fault Signals

Abstract

The invention relates to a small-current earth fault line selection method based on fault signal transient state correlation analysis, and belongs to the technical field of power distribution network automation. The technical problems in power distribution network single-phase earth fault line selection are solved. The small-current earth fault line selection method is characterized in that a feeder three-phase current is led in, the two-phase current difference of each feeder is obtained, correlation analysis is carried out on a feeder zero-sequence current and respective two-phase current differences, and a comprehensive correlation coefficient matrix E is formed; rhomax and rhomin in the E are selected, and if rhomax-rhomin>=rhoset, it is judged that the system has a single-phase earth fault, and fault lines are the feeders corresponding to rhomax; if rhomax-rhomin< rhoset, it is judged that the single-phase earth fault happens at the position of a busbar. The small-current earth fault line selection method is suitable for 35kV and 10kV voltage-class neutral-point non-effectiveness earthed line-cable mixed power distribution networks. The small-current earth fault line selection method has the advantages of being good in instantaneity, high in adaptability and high in accuracy rate, and the project practical value is achieved.

Description

technical field

[0001] The invention belongs to the field of electrotechnical technology, and relates to a line selection method for small-current grounding faults in distribution networks based on transient correlation analysis of fault signals. Background technique

[0002] Most of the domestic medium-voltage distribution network adopts small current grounding, that is, the neutral point is not grounded, grounded through high resistance or grounded through arc suppression coil. When a single-phase ground fault occurs, the fault current is small and the arc is unstable. Various fault line selection technologies based on steady-state quantities are not ideal in actual use. There is a relatively obvious transient process when a single-phase ground fault occurs. In a short period of time, the transient ground capacitance current is often several to dozens of times larger than its steady state. Favorable conditions are provided.

[0003] The traditional methods of selecting s...

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