Arman Oshnoei, Rahmat Khezri, M. Ghaderzadeh, Hasti Parang, Soroush Oshnoei, M. Kheradmandi
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Application of IPSO algorithm in DFIG-based wind turbines for efficient frequency control of multi-area power systems
Load frequency control is one of the most important issues in multi area power systems. In this context, due to growing development of wind turbines in power systems, this type of renewable power sources can be used efficiently in frequency control. This paper applies doubly-fed induction generators (DFIGs) along with other conventional generation units for frequency performance enhancement after disturbances in multi-area power systems. Proportional integral (PI) controller is the conventional controller which is used in DFIGs to contribute in frequency control. The parameters of PI controller for DFIG are optimized by improved particle swarm optimization (IPSO) method. Simulation results in a three-area power system illustrate the efficiency of the DFIGs for frequency and tie-line power oscillations improvement.
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