Title :
Transient short circuit current calculation using decoupled networks
Author :
Lagacé, P.J. ; Dessaint, L.-A. ; Lavoie, M. ; Mahseredjian, J. ; Chartrand, A.
Author_Institution :
Ecole de Technol. Superieure, Montreal, Que., Canada
fDate :
7/1/1999 12:00:00 AM
Abstract :
Classical fault analysis methods for power systems are based on symmetrical components to represent various fault configurations. The complete electrical network is decomposed using a complex transformation matrix into decoupled zero, positive and negative sequence circuits. Faulted power system steady-state voltages and currents are computed using a nodal analysis solution method. This paper presents an extension of the above methodology using discretized RLC elements for the computation of the actual transient response of a network for various fault types. The decoupled networks are obtained using a real transformation matrix
Keywords :
power system faults; power system transients; short-circuit currents; transient response; decoupled networks; decoupled zero sequence circuits; discretized RLC elements; electrical network decomposition; fault analysis methods; fault configurations; faulted power system; negative sequence circuits; nodal analysis solution method; positive sequence circuits; power systems; steady-state currents; steady-state voltages; symmetrical components; transformation matrix; transient response; transient short circuit current calculation; Circuit faults; Matrix decomposition; Power system analysis computing; Power system faults; Power system transients; RLC circuits; Short circuit currents; Steady-state; Symmetric matrices; Voltage;
Journal_Title :
Power Delivery, IEEE Transactions on
