Title :
Applying 100% stator ground fault protection by low frequency injection for generators
Author_Institution :
Beckwith Electr. Co., Largo, FL, USA
Abstract :
This paper covers practical considerations for proper application of this protection for a variety of different applications. The total capacitance to ground of the generator stator windings, bus work and delta-connected transformer windings of the unit transformer is a very important factor and must be known to ensure the protection settings are correctly determined. It will be shown that unless special steps are taken in the design of this protection, there are cases when it is hard to distinguish between normal operating conditions and an actual ground fault. The protection must also reject fundamental frequency (50 or 60 Hz) voltage and current signals that are present during ground faults on the stator windings. A real-life example for a back-to-back start at a pump storage facility, captured via relay oscillography, is included.
Keywords :
earthing; power generation faults; power system protection; stators; transformer windings; current signals; delta-connected transformer windings; generator stator windings; low frequency injection; power system protection; pump storage facility; relay oscillography; stator ground fault protection; unit transformer; voltage signals; Band pass filters; Capacitance; Current transformers; Frequency; Grounding; Power transformer insulation; Protection; Resistors; Signal generators; Stator windings; 20 Hz neutral current; 20 Hz neutral voltage; 20 Hz signal generator; bandpass filter; grounding transformer turns ratio; neutral resistor; oscillography; stator ground fault protection; stator windings insulation resistance to ground; total capacitance to ground;
Conference_Titel :
Power & Energy Society General Meeting, 2009. PES '09. IEEE
Conference_Location :
Calgary, AB
Print_ISBN :
978-1-4244-4241-6
DOI :
10.1109/PES.2009.5275862
