论文信息 - A Generalized Morphological Transform Based Faulty Feeder Selector Suitable for the Non-Effectively Grounded Power Systems

A Generalized Morphological Transform Based Faulty Feeder Selector Suitable for the Non-Effectively Grounded Power Systems

Single phase-to-ground faults are the most frequent faults likely to occur in power distribution networks. The fault current of the faulty feeder is quite low when a single-phase earth fault occurs on a neutral non-effectively grounded grid. As for the safety of the system, such faults should be quickly distinguished and the faulty feeder should be correctly selected as well. This paper analyses the characteristic of the zero-sequence transient currents of a neutral non-effectively grounded system when a single phase-to-ground fault occurs. The generalized morphological transform is designed to form the new method for fault feeder selecting, which combines the excellent singularity detecting together with the noise-repressing abilities of mathematical morphology filter. The results of simulation using ATP and Matlab demonstrate that this method is immune to the variation of network structures and parameters. It also has the ability of enduring high fault path resistance.

Zhiqian Bo | Pei Liu | Xiangning Lin | Yan Gao

[1] Bi Jian-guang. ANALYSIS ON TRANSIENT TRAVELING WAVE AND STUDY ON FAULT LINE SELECTION FOR DISTRIBUTION LINES , 2005 .

[2] Jean Serra,et al. Image Analysis and Mathematical Morphology , 1983 .

[3] Yutian Liu,et al. A method of fault line detection in distribution systems based on wavelets , 2002, Proceedings. International Conference on Power System Technology.

[4] Chen Yu,et al. Single phase fault detection technique based on transient current and its application in non-solid grounded network , 2001 .

[5] Yang Yihan,et al. Multi-criteria relaying strategy for single phase to ground fault in MV power systems , 2002, Proceedings. International Conference on Power System Technology.

[6] G. Matheron. Random Sets and Integral Geometry , 1976 .

[7] Lin Xiang-ning. A NOVEL INTEGRATED MORPHOLOGY-WAVELET FILTER ALGORITHM USED FOR ULTRA-HIGH SPEED PROTECTION OF POWER SYSTEMS , 2002 .

[8] Michel Meunier,et al. Prony's method: an efficient tool for the analysis of earth fault currents in Petersen-coil-protected networks , 1995 .

[9] Dahai Zhang,et al. Single-phase-to-ground fault feeder detection based on transient current and wavelet packet , 2004, 2004 International Conference on Power System Technology, 2004. PowerCon 2004..