Title :
Capacitor overcurrent protection for industrial distribution systems
Author :
Mendis, S.R. ; Biship, M.T. ; McCall, J.C. ; Hurst, W.M.
Author_Institution :
Cooper Power Syst., Franksville, WI, USA
Abstract :
Many industrial facilities apply power factor correction capacitors to enhance their electrical system efficiency. Power factor improvement, power loss reduction, release of system capacity, and voltage improvement can all be achieved by applying capacitors in industrial plants. Protection of these capacitor banks against excessive overcurrents is a critical part of the safe and reliable operation of the bank. We review different considerations in the selection of capacitor fuse applications and the philosophies behind them. Individual and group fusing are discussed. Continuous current, transient current, fault current, tank rupture curve coordination, voltage on good capacitors during a fault, energy discharged into a failed unit, outrush current, and coordination with unbalance detection schemes are topics covered. Examples of actual applications of capacitors in industrial distribution systems are presented throughout
Keywords :
capacitor storage; distribution networks; electric fuses; fault currents; industrial power systems; overcurrent protection; power factor correction; power system protection; capacitor fuse applications; capacitor overcurrent protection; continuous current; energy discharge; fault current; industrial distribution systems; outrush current; power factor correction capacitors; power loss reduction; system capacity release; tank rupture curve coordination; transient current; unbalance detection schemes; voltage improvement; Fault currents; Fault detection; Fuses; Industrial plants; Power capacitors; Power factor correction; Power system protection; Power system reliability; Reactive power; Voltage;
Journal_Title :
Industry Applications Magazine, IEEE
DOI :
10.1109/2943.491382
