Combined Voltage and Frequency Control for Diverse Standalone Microgrid Networks Using Flexible IDC with Novel FOC: A Real-Time Validation

Behera, Manoja Kumar; Saikia, Lalit Chandra

doi:10.1080/03772063.2021.1982780

Cited by 15 publications

(7 citation statements)

References 53 publications

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“…Behera and Saikia 51 have performed an improved technique is proposed to control voltage and frequency for an islanded microgrid. Behera and Saikia 52 have studied a maiden application of combined voltage and frequency control ensures voltage, frequency, and power regulation in diverse standalone low voltage AC microgrid (MG) networks by combining flexible improved droop control (IDC) with a novel fractional‐order controller (FOC) proposed. Behera and Saikia 28 have elucidated a hybrid GMPPT scheme integrating an extreme learning machine with 0.8 V oc technique for PV system.…”

Section: Recent Research Work: a Brief Reviewmentioning

confidence: 99%

An elite hybrid strategy for solar photovoltaic system based optimized cascade controller under uniform and partial shading conditions

Kuppusamy¹,

Balaraman²

2022

Optim Control Appl Methods

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A hybrid technique for maximum power point tracking (MPPT) for a photovoltaic (PV) system is proposed in this paper. The proposed hybrid system is combination of Wing suit Flying Search (WFS) and modified Transient search optimization (MTSO), therefore it is called WFS-MTSO method. The proposed controller has three processes: (i) to identify the operating level of photovoltaic (uniform or in PSC), (ii) to estimate the maximal power point using WFS technique, and (iii) to ensure the photovoltaic system runs on the estimated maximum power point (MPP) by MTSO optimized cascade controller. This method begins with a sense of irradiance and temperature. The proposed photovoltaic system has two components. The first one is WFS maximal power point tracking algorithm attain maximal power point. The second one is MTSO optimized cascade controller to force the photovoltaic system to activate at maximal power point. Here, the proposed hybrid technique is utilized at MPPT to diminish tracking error and oscillation across MPP for optimizing power output. The proposed optimized cascade control improves the system efficiency by averting interruptions previously they propagate to the system. Finally, the performance of proposed hybrid system is executed on MAT-LAB/Simulink working platform and the performances are compared with various existing approaches. The statistical matrices, like mean, median, and standard deviation is analyzed the tracking efficiency of the proposed WFS-MTSO approach.

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Section: Recent Research Work: a Brief Reviewmentioning

confidence: 99%

An elite hybrid strategy for solar photovoltaic system based optimized cascade controller under uniform and partial shading conditions

Kuppusamy¹,

Balaraman²

2022

Optim Control Appl Methods

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“…As such, frequency control of the hybrid microgrid has been explored significantly in the single area. [14][15][16][17][18][19][20][21][22][23][24] The authors in Reference 14 tried to settle the frequency of microgrid that has solar PV, diesel generator and wind turbines as the generating units. The system uses PID controllers optimized with craziness-based particle swarm optimization (CRPSO) optimized PID controller.…”

Section: Introductionmentioning

confidence: 99%

“…As such, frequency control of the hybrid microgrid has been explored significantly in the single area 14–24 . The authors in Reference 14 tried to settle the frequency of microgrid that has solar PV, diesel generator and wind turbines as the generating units.…”

Section: Introductionmentioning

confidence: 99%

Chaotic butterfly optimization algorithm based cascaded PI‐TID controller for frequency control in three area hybrid microgrid system

Bhuyan

Das

Barik

2023

Optim Control Appl Methods

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The work represents a unique methodology for control of frequency in three area independent and interconnected hybrid microgrid systems. The proposed hybrid microgrids consist of solar chimney (SC), combined solar gas turbine (CSGT), bio‐diesel operated generator (BDOG), DC link, energy storage units such as battery energy storage unit (BESU), super‐magnetic energy storage unit (SMESU), and redox flow battery (RFB) based. Integration of generating units such as SC, CSGT, BDOG, SMESU, RFB, and DC link in three area hybrid microgrid is also a unique work. A newly developed chaotic butterfly optimization algorithm (CBOA) is applied so as to obtain the optimized standards of the cascaded PI‐TID controller employed with dispatchable generating units. Comparative analysis of different algorithms and controllers is achieved to establish the dominance of the anticipated control strategy. The impact of each component on the system is examined while taking into account various real‐time scenarios. Finally, the efficacy of cascaded PI‐TID controller tuned using CBOA is established by sensitivity analysis with significant changes in source and load circumstances.

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“…In [9], a fractional-order controller is developed, and by online getting data, the stability is analyzed. In [10], a PID is designed, and by a real-time examination on MG, the LFC accuracy is investigated. In [11], the efciency of a PI is analyzed, and by sine-cosine algorithm, the parameters are adjusted.…”

Section: Introductionmentioning

confidence: 99%

A Fuzzy Intelligent Computing Approach for Energy/Voltage Control of Microgrids

Bouteraa

Kausar

et al. 2023

Journal of Mathematics

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The control and energy management problems of microgrids (MGs) are challenging due to the high level of uncertainties and disturbances such as changes in demands, mechanical powers, and solar energies. So, intelligent computing is needed to be developed for these systems. This paper uses an optimal and robust fuzzy controller for automatic voltage and frequency regulation. The fuzzy logic develops the resistance against uncertainties and disturbances such as irradiation, wind power changes, and load demand variation. The introduced controller uses appropriate and effective criteria that include rising time, settling time, overshoot, and the degree of resistance of the control system to uncertainties and perturbation effects. Through simulations and compassion with conventional regulators, the better accuracy of the suggested approach is demonstrated.

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Combined Voltage and Frequency Control for Diverse Standalone Microgrid Networks Using Flexible IDC with Novel FOC: A Real-Time Validation

Cited by 15 publications

References 53 publications

An elite hybrid strategy for solar photovoltaic system based optimized cascade controller under uniform and partial shading conditions

An elite hybrid strategy for solar photovoltaic system based optimized cascade controller under uniform and partial shading conditions

Chaotic butterfly optimization algorithm based cascaded PI‐TID controller for frequency control in three area hybrid microgrid system

A Fuzzy Intelligent Computing Approach for Energy/Voltage Control of Microgrids

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