Promoted supercapacitor control scheme based on robust fractional-order super-twisting sliding mode control for dynamic voltage restorer to enhance FRT and PQ capabilities of DFIG-based wind turbine

Falehi, Ali Darvish; Torkaman, Hossein

doi:10.1016/j.est.2021.102983

Cited by 32 publications

(11 citation statements)

References 53 publications

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“…There is numerous research in the literature that use fractional calculus to solve classical PID controller [35,36]. According to previous research, FOPID and PIDD2 controllers can surpass PID controllers in numerous engineering applications in addition to the LFC system.…”

Section: Introductionmentioning

confidence: 99%

Cascaded Fractional-Order Controller-Based Load Frequency Regulation for Diverse Multigeneration Sources Incorporated with Nuclear Power Plant

Ye,

Daraz,

Basit

et al. 2024

International Journal of Energy Research

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To sustain a system frequency within acceptable limits, it is widely conceded that retaining a power balance between generation and demand is necessary. In order to regulate the frequency of power systems (PSs) this article proposes a novel cascaded based fractional-order controller termed as fractional-order integer- (FOI-) fractional-order proportional integral with double derivative (FOPIDD2). In addition to redox flow batteries and capacitive energy storage, the recommended control strategy has been validated with gas, thermal reheat, hydro, and nuclear power systems. Additionally, a newly designed algorithm known as squid game optimizer (SGO) optimizes the gains of the new FOI-FOPIDD2 controller. The squid game optimizer technique is inspired by the fundamental principles of a conventional Korean sport. It employs a population of candidate solutions and iteratively adjusts the control parameters to discover the optimal set that reduces frequency abnormalities and improves system stability. A comparison is also made between the controller’s performance and benchmarks, including the jellyfish search algorithm, the firefly algorithm, the grey wolf optimizer, and the particle swarm algorithm. The proposed algorithms reduced peak overshoot as compared to grey wolf optimizer algorithm by 35.34%, 46.78%, and 76.89%; jellyfish search optimization algorithm by 34.76%, 77.22%, and 82.56%; and firefly algorithm by 82.67%, 89.23%, and 29.67% for frequency variations in area 1, area 2 and tie line power, respectively. Furthermore, SGO-FOI-FOPIDD2 controllers under different loading circumstances and conditions were evaluated and endorsed for their ability to withstand uncertainties in power system parameters.

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Section: Introductionmentioning

confidence: 99%

Cascaded Fractional-Order Controller-Based Load Frequency Regulation for Diverse Multigeneration Sources Incorporated with Nuclear Power Plant

Ye,

Daraz,

Basit

et al. 2024

International Journal of Energy Research

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“…To eliminate the penetration problem of traditional voltage inverters, the staggered inverter topology is proposed in reference [ 16 ] to improve system efficiency. Reference [ 17 ] presents a new multilevel inverter and a strong control system to improve the fault ride-through and power quality capabilities of DFIG-based wind turbines. Recent advances in lithium-battery and super-capacitor technologies have allowed for their use as a hybrid energy storage system for the DC-power supply of dynamic voltage restorer, with the proposed fractional-order super-twisting sliding mode control effectively compensating for system uncertainties and nonlinearities [ 18 ].…”

Section: Introductionmentioning

confidence: 99%

LADRC-based grid-connected control strategy for single-phase LCL-type inverters

Feng,

Zhou,

Wang

et al. 2024

PLoS ONE

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To ensure that grid-connected currents are of high quality, it is crucial to optimize the dynamic performance of grid-connected inverters and their control. This study suggests using a combination of reduced-order linear active disturbance rejection control (LADRC) and a Proportional-Integral (PI) controller. By applying this control strategy to a single-phase photovoltaic grid-connected system, the system’s ability to suppress grid harmonics is significantly improved. The validity and effectiveness of this control approach have been confirmed through simulations and experiments. The results show that the LADRC-based control system is robust and capable of rejecting disturbances, resulting in a significant reduction in the Total Harmonic Distortion (THD) of grid-connected currents. Comparative analysis with traditional control methods demonstrates the superior performance of the proposed approach.

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“…For the purpose of developing the RPO-FOSMC as efficiently as possible, a Multi-Objective Grasshopper Optimisation Algorithm (MOGOA) has been taken into consideration. Darvish Falehi et al [24] proposed two novelties, which involves a robust fractionalorder super-twisting sliding mode control for super capacitor-based power supply that delivers consistent and smooth DC voltage and an asymmetrical mutual E-type clamped X-type multilevel inverter that generates high-step staircase sinusoidal voltage with less number of switches.…”

Section: Introductionmentioning

confidence: 99%

“…Darvish Falehi et al. [24] proposed two novelties, which involves a robust fractional‐order super‐twisting sliding mode control for super capacitor‐based power supply that delivers consistent and smooth DC voltage and an asymmetrical mutual E‐type clamped X‐type multilevel inverter that generates high‐step staircase sinusoidal voltage with less number of switches.…”

Section: Introductionmentioning

confidence: 99%

A novel optimally tuned super twisting sliding mode controller for active and reactive power control in grid‐interfaced photovoltaic system

Mohapatra,

Sahu,

Pati

2023

IET Energy Syst Integration

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In photovoltaic (PV) systems, inverters play a crucial role for supplying electricity to meet the demand while maintaining power quality. For a local load connected to a grid‐interfaced photovoltaic (GIPV) system, active and reactive power control is necessary at the distribution level. Thus, the foremost purpose of this article is to get the best optimally designed robust controller for control of active and reactive power. A GIPV system with Improved Arithmetic Optimisation Algorithm (IAOA)‐based Super Twisting Sliding Mode Controller (ST‐SMC) methodology has been proposed in this article for active and reactive power management. The conventional PI controller in the GIPV system that is most frequently used has considerable undershoot and a long settling period. PI controller tuning parameters were also changed to account for the wide change in the reference pattern. Therefore, STSMC and SMC are used for ensuring robustness against external disturbances. The conventional SMC comes out to have a chattering issue. Furthermore, the proposed IAOA technique is validated through some benchmark functions. The proposed IAOA technique outperforms Particle Swarm Optimisation (PSO), Forensic Based Investigation (FBI), and Traditional Arithmetic Optimisation Algorithm (TAOA) in terms of the number of iterations and accurately achieving optimal solutions for active and reactive power control. The results show that the proposed IAOA‐based STSMC technique has an improved performance of settling time and undershoot for active and reactive power control. This article also presents stability analysis and robustness test of the above mentioned controllers to illustrate the effectiveness of each optimally designed controller. A 40 kW GIPV system performance is evaluated using the MATLAB environment, and the results are validated in a real‐time simulator platform OPAL‐RT 4510.

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Promoted supercapacitor control scheme based on robust fractional-order super-twisting sliding mode control for dynamic voltage restorer to enhance FRT and PQ capabilities of DFIG-based wind turbine

Cited by 32 publications

References 53 publications

Cascaded Fractional-Order Controller-Based Load Frequency Regulation for Diverse Multigeneration Sources Incorporated with Nuclear Power Plant

Cascaded Fractional-Order Controller-Based Load Frequency Regulation for Diverse Multigeneration Sources Incorporated with Nuclear Power Plant

LADRC-based grid-connected control strategy for single-phase LCL-type inverters

A novel optimally tuned super twisting sliding mode controller for active and reactive power control in grid‐interfaced photovoltaic system

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