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Adaptive Frequency Control of Microgrid Based on Fractional Order Control and a Data-Driven Control With Stability Analysis

Mohammad Verij Kazemi, Seyed Jalil Sadati, S. Asghar Gholamian

2021IEEE Transactions on Smart Grid65 citationsDOI

Abstract

In this paper, a new adaptive fractional frequency control method for microgrids(MG) and low inertia networks is presented. The newly proposed grid frequency control is based on the droop and inertia controller for doubly-fed induction generator (DFIG) wind turbine (WT) using a data-driven algorithm. Also, in this paper, to ensure the grid frequency stability, the stability region boundary has been calculated using the parameter space method for above and below synchronous speeds. In the first step in the proposed method, a data-driven control (DDC) is used to update the frequency control coefficients. In the second step, in order to deployment more frequency data and to use both frequency error concavity and slope, the utilization of fractional gradient descent (FGD) and fractional inertia control is proposed. In the third step to maintain frequency stability, the updated frequency controller coefficients are compared with the stability region boundary. If the updated frequency controller coefficients are in the authorized band, they are applied. To test the proposed idea is a simulated real grid in Ontario, Canada. The simulation results indicate the proper operation of the control system in transient and steady-state and under different conditions.

Topics & Concepts

Control theory (sociology)Automatic frequency controlController (irrigation)Voltage droopMicrogridFrequency gridStability (learning theory)Frequency responseFrequency bandTransient (computer programming)GridInertiaComputer scienceEngineeringMathematicsVoltage regulatorControl (management)VoltageClassical mechanicsOperating systemBiologyGeometryPhysicsBandwidth (computing)AgronomyArtificial intelligenceComputer networkElectrical engineeringTelecommunicationsMachine learningMicrogrid Control and OptimizationFrequency Control in Power SystemsWind Turbine Control Systems
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