Behnaz Babaghorbani scite author profile

This research investigates a wind energy conversion system based on a permanent magnet synchronous generator (PMSG). In addition, a model predictive control (MPC) is proposed for the PMSG in normal and fault conditions. The most efficient mode of the control algorithm is found for maximum power point tracking in normal conditions and fast dynamic response in fault conditions following the selection of the optimum voltage vector. This method prevents a sudden increase in the DC-link voltage by storing the active power in the generator rotor inertia. Moreover, during the low voltage, the grid code adoption of the reactive current is injected into the grid side. The performance of the proposed control scheme is evaluated for a wind power generator using MATLAB software. The simulation results demonstrate that the proposed method can safeguard the DC-link during the fault. KEYWORDSDC-link voltage, low voltage ride through, model predictive control, permanent magnet synchronous generator, switching states, wind turbine

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Behnaz Babaghorbani

Efficiency improvement and torque ripple minimization of Switched Reluctance Motor using FEM and Seeker Optimization Algorithm

A Lyapunov-based model predictive control strategy in a permanent magnet synchronous generator wind turbine

An improved model predictive control of low voltage ride through in a permanent magnet synchronous generator in wind turbine systems

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