Adaptive
            <scp>FOPI</scp>
            controller based on the fuzzy supervisory for wind power conversion system equipped by a doubly fed induction generator

Kasbi, Abdellatif; Rahali, Abderrafii

doi:10.1002/2050-7038.12923

Cited by 4 publications

(5 citation statements)

References 44 publications

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“…, and  is tip speed ratio. The p C is calculated using (2), where C1 to C7 values are as represented in Table-II. From (2), i  is calculated in terms of  and  as (3).…”

Section: A Wind Turbine Modellingmentioning

confidence: 99%

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An SSM-PSO Based MPPT Scheme for Wind Driven DFIG System

et al. 2022

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In this work, a searching space minimization-based particle swarm optimization (SSM-PSO) scheme has been proposed for maximum power point tracking (MPPT) in a doubly fed induction generator (DFIG) based wind energy conversion system (WECS). DFIG displays non-linearity in 𝑃 − 𝜔 characteristics. So different types of conventional and optimization-based schemes are developed for MPPT. The drawbacks in the conventional perturb and observe (P&O) scheme has been successfully abolished by the proposed SSM-PSO method. Because of its weather-insensitive nature, the conventional P&O MPP tracking scheme results in the fluctuation of DFIG output under a sudden change in wind speed. To avoid this problem, maximum and minimum limits for the optimal rotor speed have been determined in the proposed SSM-PSO scheme. Further, the obtained limits for rotor speed are employed to improve the searching space within the non-linear 𝑃 − 𝜔 curve. This initial confinement of particles to a limited searching space in SSM-PSO results in a faster response of the system. Since the proposed SSM-PSO is atmosphere sensitive, it avoids fluctuations under an abrupt variation in wind velocity. The improved initialization part of SSM-PSO leads to better dynamic characteristics compared to existing P&O and optimization-based schemes. The proposed SSM-PSO scheme is implemented for a 2MW DFIG system in MATLAB Simulink atmosphere and showed satisfactory results.

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“…, and  is tip speed ratio. The p C is calculated using (2), where C1 to C7 values are as represented in Table-II. From (2), i  is calculated in terms of  and  as (3).…”

Section: A Wind Turbine Modellingmentioning

confidence: 99%

“…Wind power is most promising because of its abundant accessibility and pollution less nature compared to the other available renewable sources. The usage of wind energy for the residential purpose, leads to energy independence [2].…”

Section: Introductionmentioning

confidence: 99%

An SSM-PSO Based MPPT Scheme for Wind Driven DFIG System

et al. 2022

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“…us, the H ∞ robust controller [23] develops the frequency control loop and the robust controller to improve the inertial response of the DFIG. An adaptive fuzzy fractional-order proportional-integral (FOPI) control system is proposed to improve the performance of a power grid-connected DFIGbased wind power conversion system [24].…”

Section: Introductionmentioning

confidence: 99%

“…e MH-DRPC strategy achieve sinusoidal forms of generated AC current with a constant frequency with minimal current total harmonic distortion and minimum output voltage ripple irrespective of the wind speed fluctuations and the robustness against parametric variations, but it has not been investigated about the measurement uncertainties. In contrast to [18][19][20][21][22][23][24][25][26] improving the performance of DFIG by using the H ∞ controller and other controllers, this paper intends to improve both the performance and the stability of the DFIG in the presence of both model and measurement uncertainties by proposing a new controller based on the combination of H ∞ controller method with the Kalman filter compared to the classical vector control. Table 1 shows the advantages and limitations of other control methods and the proposed method.…”

Section: Introductionmentioning

confidence: 99%

“…e main contribution of this paper is to control the output power of DFIG and keep it constant in the case of adding the worst possible uncertainty to the system, compared to the classical vector control. e rest of the paper is structured as follows: in Section 2, the DFIG model is introduced, and the design details of the robust H∞ controller method and Kalman filter are (i) e robustness during uncertainties [24] (ii) e robustness against parametric variations and good performances [25] (iii) e robustness against parametric variations and good performances [26] (i) Not checking measurement uncertainty (ii) Not checking parametric uncertainty [24] described in Section 3 and Section 4, respectively. en, the simulation results of the control method are illustrated in Section 5, which verifies the robustness and efficiency of the proposed controller with model and measurement uncertainties.…”

Section: Introductionmentioning

confidence: 99%

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Power Control of a Grid-Connected Doubly Fed Induction Generator Using H∞ Control and Kalman Filter

Nezhad

Tousi

Sabahi

2022

International Transactions on Electrical Energy Systems

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A new control method for a grid-connected doubly fed induction generator (DFIG) is proposed in this paper, which is robust against parametric uncertainty and measurement noise. In general, the DFIG controllers can be divided into two main groups: the rotor side converter (RSC) and the grid side converter (GSC) controllers. The parameters of a DFIG may deviate from their rated values due to the operating conditions. For this parametric uncertainty, a robust H∞ vector control (VC) is employed using the complex sensitivity approach. The design of the RSC controller has been carried out using the vector control strategy, and instead of proportional-integral (PI) controllers, a designed robust controller is used. One of the steps in vector control is the extraction of the measured currents to be used in the control equations. If the currents are polluted with noise, the system control will be impaired. Thus, using a Kalman filter is suggested to solve this problem. The effectiveness of the proposed method is then investigated using extensive simulations under various conditions. The obtained results confirm the efficient performance and robustness of the presented controller with model and measurement uncertainties.

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MPPT Performance and Power Quality Improvement by Using Fractional-Order Adaptive Backstepping Control of a DFIG-Based Wind Turbine with Disturbance and Uncertain Parameters

Kasbi

Rahali

2022

Arab J Sci Eng

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Adaptive FOPI controller based on the fuzzy supervisory for wind power conversion system equipped by a doubly fed induction generator

Cited by 4 publications

References 44 publications

An SSM-PSO Based MPPT Scheme for Wind Driven DFIG System

An SSM-PSO Based MPPT Scheme for Wind Driven DFIG System

Power Control of a Grid-Connected Doubly Fed Induction Generator Using H∞ Control and Kalman Filter

MPPT Performance and Power Quality Improvement by Using Fractional-Order Adaptive Backstepping Control of a DFIG-Based Wind Turbine with Disturbance and Uncertain Parameters

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