Mitigating the Load Frequency Fluctuations of Interconnected Power Systems Using Model Predictive Controller

Gulzar, Muhammad Majid; Rizvi, Syed Tahir Hussain; Javed, Muhammad Yaqoob; Sibtain, Daud; Din, Rubab Salah ud

doi:10.3390/electronics8020156

Cited by 30 publications

(23 citation statements)

References 23 publications

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“…Furthermore, the designing of the converter to operate PV at MPP and designing of the inverter which converts DC to AC power to make system compatible for interconnection with the thermal system is also modeled. While designing, the PV system consist of 30 kW linked arrays with a constant voltage source of

6 kV

at PV array side and where the MPP is raised up to 4.5MW 30 …”

Section: System Under Studymentioning

confidence: 99%

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Variable structure model predictive controller based gain scheduling for frequency regulation in renewable based power system

Sibtain

Gulzar

Murtaza

et al. 2022

Int J Numerical Modelling

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This paper presents a load frequency control (LFC) design using the variable structure model predictive controller (VSMPC) for gain scheduling (GS) of PI controller in PV connected thermal for multi-area system. Due to the increasing impact of renewable energy sources into the grid system, the system frequency deteriorates. The proposed PV connected thermal system is evaluated under varying load conditions under increased penetration of the PV source.The combination of renewable energy into the thermal power system aggravates the frequency and it is indispensable to mitigate such a problem by introducing an optimal controller. Perturbation in load greatly affects the system frequency and this problem is addressed by using VSMPC based gain scheduling knowing the effect of proportional and integral in transient and steadystate conditions. The oscillations in frequency are controlled by a proposed controller and the impact of frequency under penetration of PV is monitored.Further verification of the proposed technique is accomplished through communication delay in the governor and turbine. The Hardware in the loop (HIL) which validates the accuracy and real time performance of the controller. Finally, the validation of the proposed controller is compared with MPC to tune PI controller and renowned evolutionary tuned techniques like particle swarm optimization (PSO), genetic algorithm (GA) and firefly algorithm (FA) to optimize PI controller. The VSMPC with GS of PI controller shows promising results.

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6 kV

at PV array side and where the MPP is raised up to 4.5MW 30 …”

Section: System Under Studymentioning

confidence: 99%

“…Gain between AC and DC voltage can be calculated using Equation (1) 30

Z goodbreak= \frac{V_{italicDC}}{V_{italicAC}}

Where,

Z

is known as the gain for AC and DC voltage in the system and the value of Z is generally less than

0.86

.…”

Section: System Under Studymentioning

confidence: 99%

Variable structure model predictive controller based gain scheduling for frequency regulation in renewable based power system

Sibtain

Gulzar

Murtaza

et al. 2022

Int J Numerical Modelling

Self Cite

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“…In this model, altered parametric standards are used for generator regulation and for turbine-governor to shelter the diversity of production categories in the control area. The expressed components and blocks are defined as follows: ΔPm is mechanical power, Δf is frequency deviation, ΔPL is load disturbance, ΔPC is supplementary frequency control action, DSys is equivalent damping coefficient, HSys is equivalent inertia constant, βis frequency bias, αi is participation factor, Riis drooping characteristic, ΔPP is primary frequency control action, ΔPRESis renewable energy source power fluctuation, Mi(s) is a governor-turbine model, ACEis area control error [24], and finally, ΔP′L and ΔP′tie are amplified local load alteration and tie-line power vacillation signals, respectively. In the revised LFC structure, the efficient ACE signal must signify the influences of renewable energy on planned stream over tie-line and local power variation through area frequency.…”

Section: Lfc Model With Integration Of Renewable Energy Sourcementioning

confidence: 99%

Impact of Renewable Energy Sources into Multi Area Multi-Source Load Frequency Control of Interrelated Power System

et al. 2021

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There is an increasing concentration in the influences of nonconventional power sources on power system process and management, as the application of these sources upsurges worldwide. Renewable energy technologies are one of the best technologies for generating electrical power with zero fuel cost, a clean environment, and are available almost throughout the year. Some of the widespread renewable energy sources are tidal energy, geothermal energy, wind energy, and solar energy. Among many renewable energy sources, wind and solar energy sources are more popular because they are easy to install and operate. Due to their high flexibility, wind and solar power generation units are easily integrated with conventional power generation systems. Traditional generating units primarily use synchronous generators that enable them to ensure the process during significant transient errors. If massive wind generation is faltered due to error, it may harm the power system’s operation and lead to the load frequency control issue. This work proposes binary moth flame optimizer (MFO) variants to mitigate the frequency constraint issue. Two different binary variants are implemented for improving the performance of MFO for discrete optimization problems. The proposed model was evaluated and compared with existing algorithms in terms of standard testing benchmarks and showed improved results in terms of average and standard deviation.

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“…Recently advanced controllers are reported to have better control performance 29,30 . Keeping the influence of renewable source in a context in disrupting the frequency different control strategies have been applied for multi‐area PV‐thermal system.…”

Section: Introductionmentioning

confidence: 99%

“…Keeping the influence of renewable source in a context in disrupting the frequency different control strategies have been applied for multi‐area PV‐thermal system. MPC was introduced to control the LFC problem 29 . Furthermore, the genetic and firefly based tuned (GA‐PI), (FA‐PI) controllers are used to control LFC problem under PV‐thermal system these controllers are optimizing PI controller in order to minimize the frequency oscillations 30 .…”

Section: Introductionmentioning

confidence: 99%

Adaptive fuzzy based optimized proportional‐integral controller to mitigate the frequency oscillation of multi‐area photovoltaic thermal system

Gulzar

Sibtain

Murtaza

et al. 2020

Int Trans Electr Energ Syst

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Mitigating the Load Frequency Fluctuations of Interconnected Power Systems Using Model Predictive Controller

Cited by 30 publications

References 23 publications

Variable structure model predictive controller based gain scheduling for frequency regulation in renewable based power system

Variable structure model predictive controller based gain scheduling for frequency regulation in renewable based power system

Impact of Renewable Energy Sources into Multi Area Multi-Source Load Frequency Control of Interrelated Power System

Adaptive fuzzy based optimized proportional‐integral controller to mitigate the frequency oscillation of multi‐area photovoltaic thermal system

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