A closed-loop quasi-optimal dynamic braking resistor and shunt reactor control strategy for transient stability

A control strategy for dynamic braking resistor and shunt reactor is proposed for stabilization of power systems when subjected to large disturbances. The time optimal control is derived as a function of synchronous machine power, its rotor angular position and speed deviation. The response for a single machine system with the proposed control has been compared with that from the time optimal solution obtained through the steepest descent method. The strategy has also been tested on two multimachine systems. Results indicate that the proposed strategy provides a simple and effective method of stabilization under transient emergency conditions.