Publication Internationale

M. A. Mahboub, S. Drid, M. A. Sid, and R. Cheikh, “Robust Direct Power Control based on the Lyapunov theory of a grid-connected Brushless doubly fed induction generator,” ournal Frontiers in Energy, Springer, vol. 10 N°3, pp. 298-307, 2016.Abstract
This paper deals with robust direct power control of a grid-connected brushless doubly-fed induction generator(BDFIG). Using a nonlinear feedback linearization strategy, an attempt is made to improve the desired performances by controlling the generated stator active and reactive power in a linear and decoupled manner. Therefore, to achieve this objective, the Lyapunov approach is used associated with a sliding mode control to guarantee the global asymptotical stability. Thus, an optimal operation of the BDFIG in sub-synchronous operation is obtained as well as the stator power flows with the possibility of keeping stator power factor at a unity. The proposed method is tested with the Matlab/Simulink software. Simulation results illustrate the performances and the feasibility of the designed control.
S. Hamada, F. Z. Louai, N. Nait-Said, and A. Benabou, “Dynamic hysteresis modeling including skin effect using diffusion equation model,” Journal of Magnetism and Magnetic Materials, vol. 410, pp. 137-143, 2016.Abstract
An improved dynamic hysteresis model is proposed for the prediction of hysteresis loop of electrical steel up to mean frequencies, taking into account the skin effect. In previous works, the analytical solution of the diffusion equation for low frequency (DELF) was coupled with the inverse static Jiles-Atherton (JA) model in order to represent the hysteresis behavior for a lamination. In the present paper, this approach is improved to ensure the reproducibility of measured hysteresis loops at mean frequency. The results of simulation are compared with the experimental ones. The selected results for frequencies 50 Hz, 100 Hz, 200 Hz and 400 Hz are presented and discussed.

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