Power Quality Enhancement of Grid Connected Doubly-Fed Induction Generator Using Sliding Mode Control

Rouabhi, Riyadh; Abdessemed, Rachid; Chouder, Aissa; Djerioui, Ali

doi:10.15866/iree.v10i2.5347

Cited by 12 publications

(13 citation statements)

References 28 publications

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“…The diagram block of the wind turbine model and its control are presented in Figure 6. The doubly Fed Induction Generator is classically modeled in the Park d-q frame, giving rise to the equations system [24,26]:…”

Section: Maximum Power Tracking Control Strategymentioning

confidence: 99%

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Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator

Zouggar¹,

Chaouch²,

Abdeslam³

et al. 2019

I2M

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The wind system based on double-fed induction generator (DFIG) has become a very important source of energy. To ensure the proper functioning of this system, many improved control algorithms have been developed for the rotor side converter (RSC). This article presents the analysis and design of a double-fed induction generator (DFIG) control technique based on coupling the type-2 fuzzy logic control with the sliding mode control (SMC). For the design of this technique, a decoupled modeling of the DFIG with the orientation of its stator flow is presented. The main purpose of the proposed technique is to make a control to meter the quantities of the powers produced by DFIG which are injected into the electrical network and to reduce the phenomenon of chattering which depends on control by sliding mode. This command has allowed us to reduce the chattering phenomenon and improve the performance of the system in terms of speed monitoring and stator side powers regulation. Simulations are performed using MATLAB / Simulink to validate the effectiveness of the proposed control algorithm. The simulation results, obtained when applying this control strategy to the system, demonstrated the validity of the results and thus validated the high performance of this control technique.

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Section: Maximum Power Tracking Control Strategymentioning

confidence: 99%

“…(1) Choice of sliding surfaces Slotine proposes [26] a surface of sliding which is a scalar function such that the controlled variable slips on the surface:…”

Section: Sliding Mode Controlmentioning

confidence: 99%

Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator

Zouggar¹,

Chaouch²,

Abdeslam³

et al. 2019

I2M

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“…This inverter is equipped with several semiconductor devices controlled at the opening and closing which can be either MOSFET transistors or IGBTs associated with diodes head to tail. The main objectives of this converter are: to wave the voltage of the DC bus to supply it to the stator winding and to allow the application of the commands to control the mechanical power generated (Speed; Torque) by the rotor of this machine [15][16][17]. The converter used is a simple three-phase inverter on two levels.…”

Section: Modelling Of the Permanent Magnet Synchronous Machinementioning

confidence: 99%

“…Figure 2 shows the structure of a three-phase PWM rectifier, which can be broken down into three parts: the source, the converter and the load [15][16][17]. The AC source model and the rectifier model are given by the state space representation:…”

Section: Modelling and Control Of The Grid Side Converter (Rectifier)mentioning

confidence: 99%

Comparative Study Between Two Control Techniques Applied on the Permanent Magnet Synchronous Machine (PMSM)

Rouabhi¹,

Abdessemed²,

Herizi³

et al. 2019

AMA_C

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In this article, we present a comparative study between two control techniques applied on the Permanent Magnet Synchronous Machine (PMSM), namely vector control and fuzzy logic. This comparison is based on three criteria: qualitative, quantitative and robust during the transient and permanent operation of the system. The latter comprises a machine is driven through the stator variables by two bidirectional converters. In the first part, we have presented the individual modeling of the global chain (PMSM, Inverter, and Rectifier). Then we presented and developed the two commands techniques to control the speed and the torque produced by this machine. The results of this study made it possible to evaluate the performance of these controls.

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“…Another method is to use higher order sliding modes, the principle of which is to reject discontinuities at the level of the upper derivatives of the input of the system. In order to reduce chattering, other methods can be applied, such as neural sliding control and sliding-fuzzy control [10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Hybrid Control Using Sliding Mode Control with Interval Type-2 Fuzzy Controller of a Doubly Fed Induction Generator for Wind Energy Conversion

2022

IJIES

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The efficiency of a wind turbine depends primarily on the power of the wind, the power curve of the turbine and the ability of the generator to respond to fluctuations in the wind. This article then proposes a robust control strategy of the doubly-fed induction generator applied in the wind energy conversion system, the active and reactive powers, which are generated by the DFIG will be decoupled by the orientation of the stator flux. The proposed control is combined between sliding mode control and type-2 fuzzy logic, this technique is robust to the modeling uncertainties of the generator and the wind generator, and which makes it possible to optimize energy production (efficiency). Finally, the performance of the system was tested and compared by simulation in terms of follow-up of instructions and the robustness with respect to the parameter variations of the DFIG. The results obtained show the interest of such a control in this system.

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Power Quality Enhancement of Grid Connected Doubly-Fed Induction Generator Using Sliding Mode Control

Cited by 12 publications

References 28 publications

Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator

Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator

Comparative Study Between Two Control Techniques Applied on the Permanent Magnet Synchronous Machine (PMSM)

Hybrid Control Using Sliding Mode Control with Interval Type-2 Fuzzy Controller of a Doubly Fed Induction Generator for Wind Energy Conversion

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