Title :
Vacuum switched capacitors to reduce induction motor caused voltage flicker on a 12.47 kV rural distribution line
Author :
Jenner, Michael ; Brockhurst, Frederick C.
fDate :
29 Apr-1 May 1990
Abstract :
The authors describe the use of solid-state controlled, vacuum-switched shunt capacitors to reduce the effects of simultaneously starting two 175 HP induction motors at the end of a rural 12.47 kV distribution line. A rather severe voltage flicker on the 12.47 kV feeder was caused by a 350 HP mining machine. The flicker was reduced to a tolerable level by installing shunt capacitors that are switched on the system in response to the current drawn by the mining machine. The scheme achieved approximately 50% reduction in flicker magnitude and significantly reduced the time of the voltage depression. The system has been in operation for one year with no maintenance problems. A complete analysis and computer simulation of the system is also presented. Verification of system operation prior to, and after, capacitor installation is provided by actual waveshapes from a computerized data acquisition system. The capacitor switching hardware is fully described
Keywords :
data acquisition; digital simulation; distribution networks; induction motors; power capacitors; power engineering computing; starting; transients; 12.47 kV; 175 hp; 350 hp; capacitor switching hardware; computer simulation; computerized data acquisition system; induction motor caused voltage flicker; mining machine; rural distribution line; solid-state controlled; starting; vacuum-switched shunt capacitors; waveshapes; Capacitors; Computer simulation; Hardware; Induction motors; Power generation; Reactive power; Solid state circuits; Switches; Voltage control; Voltage fluctuations;
Conference_Titel :
Rural Electric Power Conference, 1990. Papers Presented at the 34th Annual Conference
Conference_Location :
Orlando, FL
DOI :
10.1109/REPCON.1990.68520
