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Optimal Frequency Control of Multi-Area Hybrid Power System Using New Cascaded TID-PIλDμN Controller Incorporating Electric Vehicles

Amira A. Hassan, Mokhtar Aly, Ahmed Elmelegi, Loai Nasrat, Masayuki Watanabe, Emad A. Mohamed

2022Fractal and Fractional37 citationsDOIOpen Access PDF

Abstract

Modern structures of electrical power systems are expected to have more domination of renewable energy sources. However, renewable energy-based generation systems suffer from their lack of or reduced rotating masses, which is the main source of power system inertia. Therefore, the frequency of modern power systems represents an important indicator of their proper and safe operation. In addition, the uncertainties and randomness of the renewable energy sources and the load variations can result in frequency undulation problems. In this context, this paper presents an improved cascaded fractional order-based frequency regulation controller for a two-area interconnected power system. The proposed controller uses the cascade structure of the tilt integral derivative (TID) with the fractional order proportional integral derivative with a filter (FOPIDN or PIλDμN) controller (namely the cascaded TID-FOPIDN or TID-PIλDμN controller). Moreover, an optimized TID control method is presented for the electric vehicles (EVs) to maximize their benefits and contribution to the frequency regulation of power systems. The recent widely employed marine predators optimization algorithm (MPA) is utilized to design the new proposed controllers. The proposed controller and design method are tested and validated at various load and renewable source variations, as is their robustness against parameter uncertainties of power systems. Performance comparisons of the proposed controller with featured frequency regulation controllers in the literature are provided to verify the superiority of the new proposed controller. The obtained results confirm the stable operation and the frequency regulation performance of the new proposed controller with optimized controller parameters and without the need for complex design methods.

Topics & Concepts

Control theory (sociology)Automatic frequency controlController (irrigation)Electric power systemPID controllerRenewable energyAutomatic Generation ControlEngineeringComputer scienceControl engineeringPower (physics)Electrical engineeringControl (management)BiologyAgronomyQuantum mechanicsPhysicsTemperature controlArtificial intelligenceFrequency Control in Power SystemsMicrogrid Control and OptimizationPhysics of Superconductivity and Magnetism
Optimal Frequency Control of Multi-Area Hybrid Power System Using New Cascaded TID-PIλDμN Controller Incorporating Electric Vehicles | Litcius