Journal Article10.1016/J.ISATRA.2018.11.023
A new rooted tree optimization algorithm for indirect power control of wind turbine based on a doubly-fed induction generator
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TL;DR: A new control strategy based on the root tree optimization (RTO) is presented in order to reduce the chattering phenomena in active and reactive powers, and to minimize the harmonic currents which appear mostly at the level of the rotor side converter, in a doubly-fed induction generator.
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Abstract: A new control strategy based on the root tree optimization (RTO) is presented in order to reduce the chattering phenomena in active and reactive powers, and to minimize the harmonic currents which appear mostly at the level of the rotor side converter (RSC), in a doubly-fed induction generator (DFIG). The root tree optimization is used to adjust the parameters (Kp,Ki) of PI controller (RTO-PI). Simulation results are presented to demonstrate the effectiveness of the new proposed technique. Besides, the system associated with this metaheuristic algorithm can effectively give better dynamic and steady performance. The results with the RTO-PI controller show more performances than the results compared with the classical PI.
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Citations
Robust sliding-Backstepping mode control of a wind system based on the DFIG generator
Farah Echiheb,Yasmine Ihedrane,Badre Bossoufi,Manale Bouderbala,Saad Motahhir,Md. Mehedi Masud,Sultan Aljahdali,Madiha ElGhamrasni +7 more
TL;DR: In this paper , the authors proposed a solution to cancel the chattering phenomenon by the implication of the adaptive backstepping technique to control the powers of the double-fed asynchronous generator (DFIG) connected to the electrical network by two converters (network side and side machine) in the nominal part of the sliding mode model.
Robust sliding-Backstepping mode control of a wind system based on the DFIG generator
Farah Echiheb,Yasmine Ihedrane,Badre Bossoufi,Manale Bouderbala,Saad Motahhir,Md. Mehedi Masud,Sultan Aljahdali,Madiha ElGhamrasni +7 more
TL;DR: In this paper , the authors proposed a solution to cancel the chattering phenomenon by the implication of the adaptive backstepping technique to control the powers of the double-fed asynchronous generator (DFIG) connected to the electrical network by two converters (network side and side machine) in the nominal part of the sliding mode model.
Rooted Tree Optimization for the Backstepping Power Control of a Doubly Fed Induction Generator Wind Turbine: dSPACE Implementation
Badre Bossoufi,Mohammed Karim,Mohammed Taoussi,Hala Alami Aroussi,Manale Bouderbala,Olivier Deblecker,Saad Motahhir,Anand Nayyar,Mohammed A. AlZain +8 more
TL;DR: In this paper, the authors proposed a nonlinear adaptive backstepping control technique applied to a DFIG based wind system and an optimization technique that uses the rooted tree optimization (RTO) algorithm.
Improvement of PMSG-Based Wind Energy Conversion System Using Developed Sliding Mode Control
Btissam Majout,Badre Bossoufi,Manale Bouderbala,Md. Mehedi Masud,Jehad F. Al-Amri,Mohammed Taoussi,Mohammed El Mahfoud,Saad Motahhir,Mohammed Karim +8 more
TL;DR: In this paper , the authors proposed a sliding mode control (PSMC) based on a novel smooth continuous switching control to increase the performance and the efficiency of the Permanent Magnet Synchronous Generator (PMSG) based wind energy conversion system.
Newly Emerging Nature-Inspired Optimization - Algorithm Review, Unified Framework, Evaluation, and Behavioural Parameter Optimization
TL;DR: This paper collects newly emerging nature-inspired optimization algorithms proposed after 2008, present them in a unified way, implement them, and evaluate them on benchmark functions, and optimize the behavioural parameters for these algorithms.
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High-Order Sliding-Mode Control of Variable-Speed Wind Turbines
TL;DR: The proposed sliding-mode control approach has been validated on a 1.5-MW three-blade wind turbine using the national renewable energy laboratory wind turbine simulator FAST (Fatigue, Aerodynamics, Structures, and Turbulence) code and results show that the proposed control strategy is effective in terms of power regulation.
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Abou soufyane Benyoucef,Aissa Chouder,Kamel Kara,Santiago Silvestre,Oussama Ait Sahed +4 more
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TL;DR: A novel artificial bee colony based maximum power point tracking algorithm (MPPT) that does not allow only overcoming the common drawback of the conventional MPPT methods, but it gives a simple and a robust MPPT scheme.
Second-Order Sliding Mode Control of a Doubly Fed Induction Generator Driven Wind Turbine
TL;DR: In this article, a second-order sliding mode is proposed to control the wind turbine DIF according to references given by an MPPT, which can directly track the DFIG torque leading to maximum power extraction.
Direct Active and Reactive Power Regulation of DFIG Using Sliding-Mode Control Approach
TL;DR: In this paper, a direct active and reactive power control (DPC) for grid-connected doubly fed induction generator (DFIG)-based wind turbine systems is proposed, which employs a nonlinear sliding-mode control scheme to directly calculate the required rotor control voltage so as to eliminate the instantaneous errors of reactive powers without involving any synchronous coordinate transformations.
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