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Coordination between Demand Response Programming and Learning-Based FOPID Controller for Alleviation of Frequency Excursion of Hybrid Microgrid

Masoud Babaei, Ahmadreza Abazari, S. M. Muyeen

2020Energies31 citationsDOIOpen Access PDF

Abstract

In recent years, residential rate consumptions have increased due to modern appliances which require a high level of electricity demands. Although mentioned appliances can improve the quality of consumers’ lives to a certain extent, they suffer from various shortcomings including raising the electricity bill as well as serious technical issues such as lack of balance between electricity generation and load disturbances. This imbalance can generally lead to the frequency excursion which is a significant concern, especially for low-inertia microgrids with unpredictable parameters. This research proposes an intelligent combination of two approaches in order to alleviate challenges related to the frequency control mechanism. Firstly, a learning-based fractional-order proportional-integral-derivative (FOPID) controller is trained by recurrent adaptive neuro-fuzzy inference (RANFIS) in the generation side during various operational conditions and climatic changes. In the following, a decentralized demand response (DR) programming in the load side is introduced to minimize consumption rate through controllable appliances and energy storage systems (ESSs). Furthermore, parameters uncertainties and time delay, which are generally known as two main concerns of isolated microgrids, are regarded in the frequency plan of a low-inertia microgrid including renewable energy sources (RESs), and energy storage systems (ESSs). Simulation results are illustrated in three different case studies in order to compare the performance of the proposed two methods during various operational conditions. It is obvious that the frequency deviation of microgrid can be improved by taking advantage of intelligent combination of both DR program and modern control mechanism.

Topics & Concepts

MicrogridController (irrigation)Automatic frequency controlRenewable energyFrequency deviationComputer sciencePID controllerDemand responseElectricityControl engineeringAutomatic Generation ControlControl theory (sociology)EngineeringReliability engineeringControl (management)Electric power systemTelecommunicationsArtificial intelligenceTemperature controlPower (physics)Electrical engineeringBiologyPhysicsQuantum mechanicsAgronomyMicrogrid Control and OptimizationSmart Grid Energy ManagementFrequency Control in Power Systems
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