Fault Feeder Identification in Non-effectively Grounded Distribution Network with Secondary Earth Fault

Abstract: Secondary earth faults occur frequently in power distribution networks under harsh weather conditions. Owing to its characteristics, a secondary earth fault is typically hidden within the transient of the first fault. Therefore, most researchers tend to focus on a feeder with single fault while disregarding secondary faults. This paper presents a fault feeder identification method that considers secondary earth faults in a non-effectively grounded distribution network. First, the wavelet singular entropy metho… Show more

“…According to the survey on resistivity ranges of different urban grounding media, the minimum grounding resistances of SLGFs and SLGFs-LBs can be calculated as 180 Ω according to the grounding model of distribution line [6]. Ta-ble I presents the typical properties of distribution lines and overcompensation degree in 10 kV radial distribution networks.…”

“…Researchers have already paid much attention to various short-circuit faults and made many achievements [2], [5], [6]. However, due to the unobvious fault characteristics and lack of relevant experience on SLGF-LB in the actual operation of distribution networks, few studies have been conducted on the SLGF-LB identification and there is no relay protection device for SLGFs-LBs in distribution networks [7].…”

Identification Method for Single-line-to-ground Faults with Line Break Based on Phasor Measurement in Distribution Networks

“…According to the survey on resistivity ranges of different urban grounding media, the minimum grounding resistances of SLGFs and SLGFs-LBs can be calculated as 180 Ω according to the grounding model of distribution line [6]. Ta-ble I presents the typical properties of distribution lines and overcompensation degree in 10 kV radial distribution networks.…”

“…Researchers have already paid much attention to various short-circuit faults and made many achievements [2], [5], [6]. However, due to the unobvious fault characteristics and lack of relevant experience on SLGF-LB in the actual operation of distribution networks, few studies have been conducted on the SLGF-LB identification and there is no relay protection device for SLGFs-LBs in distribution networks [7].…”

Identification Method for Single-line-to-ground Faults with Line Break Based on Phasor Measurement in Distribution Networks

SSE-YOLOv5: a real-time fault line selection method based on lightweight modules and attention models

Advances on fault detection techniques for resonant grounded power distribution networks in bushfire prone areas: Identification of faulty feeders, faulty phases, faulty sections, and fault locations