Title :
Synchronizing and damping torque coefficients and power system steady-state stability as affected by static VAr compensators
Author :
De Oliveira, Sebastib E M
Author_Institution :
CEPEL, Electr. Power Res. Center, Rio de Janeiro, Brazil
fDate :
2/1/1994 12:00:00 AM
Abstract :
The utilization of static VAr compensators (SVC) for supplying reactive power at certain points of an electric power system is an efficient way for fast control of transient and steady-state voltage changes following short-circuits, load rejection, opening of severely loaded transmission circuits, etc. Other SVC applications include the increase of power transmission capacity through interconnections between areas of a power system and the damping enhancement of local or inter-area electromechanical oscillation modes. This paper fundamentally deals with these last two issues by analyzing the results of synchronizing and damping torque coefficient calculations for a generation station connected radially to a much larger power system. The results presented pertain to a double-circuit, 800 km, 500 kV transmission system during a one-circuit out contingency
Keywords :
compensation; damping; power control; power stations; power system control; power system stability; reactive power; static VAr compensators; torque; voltage control; 500 kV; 800 km; damping torque coefficients; double-circuit transmission system; inter-area electromechanical oscillation modes; load rejection; power system steady-state stability; reactive power supply; severely loaded transmission circuits; short-circuits; static VAr compensators; steady-state voltage change; synchronizing coefficients; transient voltage change; Damping; Power supplies; Power system analysis computing; Power system interconnection; Power system transients; Power systems; Reactive power control; Static VAr compensators; Torque; Voltage control;
Journal_Title :
Power Systems, IEEE Transactions on
