Abstract :
A distributed array of sensors mounted between poles on the rotor of an operating salient-pole hydrogenerator continuously provides the powerhouse control room with position-resolved, noncontact surveillance of both the stator core and the end turns. As the rotor spins, the sensors scan the stator for various symptoms of distress, including infrared, acoustic, and RFI (radio-frequency interference) emissions, which are sensitive indicators of hot spots, corona and/or partial discharges, and loose coils and/or wedges. The installation of the rotor-mounted scanner (RMS) greatly reduces the chances of forced outages resulting from catastrophic generator failure. As a diagnostic system, the RMS enables the utility to make realistic decisions relative to corrective actions, such as reducing machine load or scheduling a repair outage that has minimum impact on the economic dispatch of system generation. The RMS is described in detail along with a reliability verification
Keywords :
hydroelectric generators; machine testing; partial discharges; reliability; rotors; stators; IR emission; RFI; acoustic emission; catastrophic generator failure; distributed array; economic dispatch; end turns; forced outages; hot spots; hydroelectric generators; machine load; noncontact surveillance; operating salient-pole hydrogenerator; partial discharges; powerhouse control room; reliability verification; stator core; Acoustic emission; Acoustic sensors; Hydroelectric power generation; Infrared sensors; Radio frequency; Radiofrequency interference; Rotors; Sensor arrays; Stator cores; Surveillance;
Conference_Titel :
Electrical Electronics Insulation Conference, 1989. Chicago '89 EEIC/ICWA Exposition., Proceedings of the 19th
