Title :
Robust H∞ load frequency control in interconnected power systems
Author_Institution :
Prof. Eng. Electr. Design, Perth, WA, Australia
fDate :
Sept. 29 2013-Oct. 3 2013
Abstract :
This paper describes a robust load frequency control (LFC) scheme to design a centralized H∞ controller for a two-area power system interconnected by a lossless tie line with uncertain disturbances. A sector-bounded H∞ control approach is used for compensating of nonlinear power systems in LFC. The simulation results in time domain have verified the effectiveness of the proposed robust H∞ controller to significantly reduce the area control error (ACE), frequency errors and tie-line power errors in the presences of external disturbance, parameter uncertainties and accidental crashing of generating units, which represents the structural or model uncertainties. Simulation results show that the proposed H∞ controller guarantees robust performance and fast response under a wide range of operating conditions and system uncertainties.
Keywords :
H∞ control; frequency control; load regulation; nonlinear control systems; power system interconnection; robust control; ACE; LFC; accidental crashing; area control error reduction; frequency errors reduction; interconnected power system; nonlinear power system compensation; robust H∞ load frequency control; sector-bounded H∞ control approach; tie-line power errors reduction; Nickel; Open systems;
Conference_Titel :
Power Engineering Conference (AUPEC), 2013 Australasian Universities
Conference_Location :
Hobart, TAS
DOI :
10.1109/AUPEC.2013.6725418
