Smail Sahnoun scite author profile

Due to the increased penetration of wind energy into the electrical power systems in recent years, the turbine controls are actively occupied in the research. This paper presents a nonlinear backstepping strategy to control the generators and the grid sides of a Wind Farm System (WFS) based Direct Drive Synchronous Generator (DDSG). The control objectives such as Tracking the Maximum Power (TMP) from the WFS, pitch control, regulation of dc-link voltage, and reactive and active power generation at varying wind velocity are included. To validate the proposed control strategy, simulation results for 6-MW-DDSG based Wind Farm System are carried out by MATLAB-Simulink. Performance comparison and evaluation with Vector Oriented Control (VOC) are provided under a wide range of functioning conditions, three-phase voltage dips, and the probable occurrence of uncertainties. The proposed control strategy offers remarkable characteristics such as excellent dynamic and steady state performance under varying wind speed and robustness to parametric variations in the WFS and under severe faults of grid voltage.

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Control of PMSG wind electrical system in network context and during the MPP tracking process

Errami

Obbadi

Sahnoun

2020

IJSCC

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Performance comparison of TEGs for diverse variable leg geometry with the same leg volume

Khalil

Elhassnaoui

Yadir

et al. 2021

Energy

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Smail Sahnoun

Parameters estimation of the single and double diode photovoltaic models using a Gauss–Seidel algorithm and analytical method: A comparative study

Design of a nonlinear backstepping control strategy of grid interconnected wind power system based PMSG

Power Extraction Control of Variable Speed Wind Turbine Systems Based on Direct Drive Synchronous Generator in All Operating Regimes

Control of PMSG wind electrical system in network context and during the MPP tracking process

Performance comparison of TEGs for diverse variable leg geometry with the same leg volume

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