Parallel model predictive direct power control of DFIG for wind energy conversion

This paper presents a parallel model predictive power control (PMPPC) method of doubly-fed induction generator (DFIG) for variable-speed wind turbine applications (VSWT). The use of a hysteresis controller and a predefined switching table will inevitably lead to select a non-optimal voltage vector in terms of minimizing power errors, power ripple and THD currents. In this research paper, a new approach of direct power control (DPC) of DFIG based model predictive direct power control is developed by minimizing two cost functions to select the voltage vectors for stator active and reactive power in synchronously manner and consequently the optimal switching vector state of two-level voltage source inverter (2L-VSI). The proposed PMPPC control scheme takes full advantage and the power regulation objective of DFIG is confirmed by the simulation results compared to the DPC and PPC methods.