Comparative study between backstepping adaptive and field-oriented control of the DFIG applied to wind turbines

Taoussi, Mohammed; Karim, Mohamed Rehan; Hammoumi, Dalila; Bekkali, Chakib El; Bossoufi, Badre; Ouanjli, Najib El

doi:10.1109/atsip.2017.8075592

Cited by 27 publications

(13 citation statements)

References 17 publications

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“…Field-oriented control (FOC) is a technique for controlling AC electrical machines, based on the DC machine principle, which is characterized by a natural decoupling between flux and currents, in order to simplify the control of the machines [4]. This control consists of aligning the flux of the rotor (or stator) on one axis of the Park reference.…”

Section: Engineeringmentioning

confidence: 99%

Power control of wind generator using PI regulator

Bouderbala

Bossoufi

Lagrioui

et al. 2020

International Meeting on Advanced Technologies in Energy and Electrical Engineering

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Section: Engineeringmentioning

confidence: 99%

Power control of wind generator using PI regulator

Bouderbala

Bossoufi

Lagrioui

et al. 2020

International Meeting on Advanced Technologies in Energy and Electrical Engineering

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“…It is based on the fact that the machine is similar to a DC machine with separate excitation, this latter ensures a natural decoupling between currents and flux. [14] [15] According to the equation (15) we see clearly the strong coupling between the fluxes and the currents rotoric and statoric which generates a difficulty in the control of the DFigure The principle of vector control is to orient the flux of the machine in one of the two axes d or q. In our case and in order to simplify the control of stator power (active or reactive), we use an orientation on the d axis.…”

Section: Field Oriented Controlmentioning

confidence: 99%

Direct and indirect vector control of a doubly fed induction generator based in a wind energy conversion system

Bouderbala¹,

Bossoufi²,

Lagrioui³

et al. 2019

IJECE

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<p>In the recent years, the development and the exploitation of renewable energy knew a great evolution. Among these energy resources, the wind power represents an important potential for that the wind system has been the subject of several researches. The purpose of this study is to improve the power extracted from wind energy, taking into consideration the variation of wind speed which causes a problem in energy production. For this purpose, we have controlled the powers whether it is active or reactive delivered by the generator. This paper, presents essentially the modeling and control of doubly- fed induction generator (DFIG), which is connected to a variable speed wind turbine. Firstly, the model of the wind power system with the maximum power point tracking (MPPT) strategy is shown. Then, the modeling of doubly- fed induction generator (DFIG) and its power control is presented. Finnaly, to ensure the attitude of these controls the simulations is presented in the Matlab/Simulink environment.</p>

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“…The electromagnetic torque expression of DFIM as a function of the stator flux and stator currents is written as follows [18,19]:…”

Section: Modeling Of the Dfimmentioning

confidence: 99%

Direct torque control of doubly fed induction motor using three-level NPC inverter

Ouanjli

Derouich

Ghzizal

et al. 2019

Prot Control Mod Power Syst

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This article presents the direct torque control (DTC) strategy for the doubly fed induction motor (DFIM) connected to two three-level voltage source inverters (3LVSIs) with neutral point clamped (NPC) structure. This control method allows to reduce the torque and flux ripples as well as to optimize the total harmonic distortion (THD) of motor currents. The use of 3LVSI increases the number of generated voltage, which allows improving the quality of its waveform and thus improves the DTC strategy. The system modeling and control are implemented in Matlab/ Simulink environment. The analysis of simulation results shows the better performances of this control, especially in terms of torque and flux behavior, compared to conventional DTC.

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Comparative study between backstepping adaptive and field-oriented control of the DFIG applied to wind turbines

Cited by 27 publications

References 17 publications

Power control of wind generator using PI regulator

Power control of wind generator using PI regulator

Direct and indirect vector control of a doubly fed induction generator based in a wind energy conversion system

Direct torque control of doubly fed induction motor using three-level NPC inverter

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