Title :
Ground-fault detection in multiple source solidly grounded systems via the single-processor concept for circuit protection
Author :
Valdes, Marcelo E. ; Lavoie, Greg ; Papallo, Tom ; Premerlani, William
Author_Institution :
Gen. Electr. Co., Plainville, CT, USA
Abstract :
Modern power distribution systems often contain multiple power sources integrated within one system. A simple variant may be the common double-ended substation, which can be further complicated by an additional emergency or alternate sources. This presents significant complexity to the designer attempting to design a protection system that will not be fooled by circulating neutral currents. The authors describe how the "single processor concept for circuit breaker protection and control" (M. E. Valdes et al., Proc. PCIC, 2003, pp. 267-275) provides ways to address this sensing problem. One such method is described in further detail. Handling of resistance-grounded systems will be the subject of a related paper.
Keywords :
circuit breakers; design engineering; earthing; fault diagnosis; power distribution faults; power distribution protection; circuit breaker protection; circuit protection; circulating neutral currents; double-ended substation; ground fault detection; multiple source solidly grounded systems; power distribution systems; single processor; Circuit breakers; Circuit faults; Conductors; Detectors; Electrical fault detection; Fault detection; Power distribution; Power system protection; Pulp and paper industry; Substation protection; Circulating neutral currents; double-ended substation; ground fault; multiple grounds; single-processor concept;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2006.873666
