Title :
Transient stability-constrained optimal power flow
Author :
Bettiol, A.L. ; Ruiz-Vega, D. ; Ernst, D. ; Wehenkel, L. ; Pavella, M.
Author_Institution :
Dept. of Electr. Eng., Liege Univ., Belgium
Abstract :
This paper proposes a new approach able to maximize the interface flow limits in power systems and to find a new operating state that is secure with respect to both, dynamic (transient stability) and static security constraints. It combines the maximum allowable transfer (MAT) method, recently developed for the simultaneous control of a set of contingencies, and an optimal power flow (OPF) method for maximizing the interface power flow. The approach and its performances are illustrated by means of simulations carried out on a real world power system.
Keywords :
control system analysis; control system synthesis; load flow control; optimal control; power system control; power system transient stability; control design; control simulation; dynamic security constraints; interface flow limits optimisation; maximum allowable transfer method; operating state; power systems; simultaneous contingencies set control; static security constraints; transient stability; transient stability-constrained optimal power flow; Control systems; Load flow; Optimal control; Power generation; Power system dynamics; Power system security; Power system simulation; Power system stability; Power system transients; Strain control;
Conference_Titel :
Electric Power Engineering, 1999. PowerTech Budapest 99. International Conference on
Conference_Location :
Budapest, Hungary
Print_ISBN :
0-7803-5836-8
DOI :
10.1109/PTC.1999.826493
