Abstract
A novel direct reactive power control strategy based on the three-level inverter topology (DRPC-3N) is proposed for a doubly fed induction generator (DFIG)-based wind power plant system. The robustness against parametric variations and control performances of the presented methodology are analyzed under random wind speeds, taking into account the effect of the heating of the windings as well as the saturation of the magnetic circuit. The performance indices include obtaining a sinusoidal AC-generated current with low THD and less ripples in the output. Moreover, the generator can be considered as a reactive power compensator, which allows for the controlling of the active and reactive power of the stator side connected directly to the grid side using only the rotor converter. In this study, unpredictable conduct of the wind velocity that forces the DFIG to operate through all modes of operation in a continual and successive way is considered. The received wind power is utilized to extract the optimum power by using an appropriate MPPT algorithm, and the pitch angle control is activated during the overspeed to restrict the produced active power. The simulation tests are performed under Matlab/Simulink and the presented results show the robustness and effectiveness of the new DRPC strategy with the proposed topology, which means that the performances are more sophisticated.
Highlights
Among the most efficient power generation systems, mention may be made of wind power generation systems
A new non-linear control strategy based on fuzzy direct reactive power control (DRPC) applied to a three-level inverter (DRPC-3N) that supplied the rotor of the doubly fed induction generator (DFIG)-wind turbine (WT) system while considering random wind variations and all DFIG’s operation modes, even the overspeed case
In zone IV, once the maximum wind speed is reached, the DFIG rotor is disconnected from the turbine, interrupting the power generation [18]
Summary
Among the most efficient power generation systems, mention may be made of wind power generation systems. The DFIG remains widely used, because of the possibility of achieving high efficiencies in energy production and the ability to have an independent control of both active and reactive powers without using capacitors for reactive power compensation [1]. The benefits of the operation and use of the DFIG in addition to the operation of the direct reactive power control method, using the multi-level inverter, are not addressed. The exploitation of different advantages of the WT-DFIG system, fuzzy controllers, multilevel inverters, and DRPC during all modes of operation in a continual and successive way is addressed in this paper. A new non-linear control strategy based on fuzzy DRPC applied to a three-level inverter (DRPC-3N) that supplied the rotor of the DFIG-WT system while considering random wind variations and all DFIG’s operation modes, even the overspeed case.
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