Summary:
The present paper aims to introduce an effective control system which enhances the dynamics of a doubly fed induction generator (DFIG) operating at fixed and variable speeds. To visualize the effectiveness of the formulated control algorithm, the performance of the DFIG is evaluated using other control techniques as well. Each control algorithm is primarily described by showing its operation principles and how it is adapted to manage the DFIG’s operation. The main used control strategies are stator voltage-oriented control (SVOC), model predictive current control (MPCC), model predictive direct torque control (MPDTC), and the formulated predictive voltage control (PVC) algorithm. A detailed comparison is performed between the controllers’ performances, through which the advantages and shortcomings of each method are outlined, and finally, the most effective technique is identified amongst them. The obtained results reveal that the proposed PVC approach possesses multiple advantages such as a faster dynamic response and simpler control structure when compared with SVOC and a faster dynamic response, reduced ripples, and reduced computational burdens when compared with the MPCC and MPDTC approaches. In addition, the robustness of the proposed PVC scheme is confirmed by performing extensive performance evaluation tests considering the parameters’ variation.
Keywords: DFIG; predictive control; field orientation; current control; torque control; ripples; computation burden; dynamic response
JCR Impact Factor and WoS quartile: 3,500 - Q2 (2022)
DOI reference:
https://doi.org/10.3390/pr10030456
Published on paper: March 2022.
Published on-line: February 2022.
Citation:
M.A. Mossa, M.K. Abdelhamid, A.A. Hassan, N. Bianchi, Improving the dynamic performance of a variable speed DFIG for energy conversion purposes using an effective control system. Processes. Vol. 10, nº. 3, pp. 456-1 - 456-70, March 2022. [Online: February 2022]
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