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Improved Rotor Flux and Torque Control Based on the Third-Order Sliding Mode Scheme Applied to the Asynchronous Generator for the Single-Rotor Wind Turbine

Habib Benbouhenni, Nicu Bizon

2021Mathematics58 citationsDOIOpen Access PDF

Abstract

In this work, a third-order sliding mode controller-based direct flux and torque control (DFTC-TOSMC) for an asynchronous generator (AG) based single-rotor wind turbine (SRWT) is proposed. The traditional direct flux and torque control (DFTC) technology or direct torque control (DTC) with integral proportional (PI) regulator (DFTC-PI) has been widely used in asynchronous generators in recent years due to its higher efficiency compared with the traditional DFTC switching strategy. At the same time, one of its main disadvantages is the significant ripples of magnetic flux and torque that are produced by the classical PI regulator. In order to solve these drawbacks, this work was designed to improve the strategy by removing these regulators. The designed strategy was based on replacing the PI regulators with a TOSMC method that will have the same inputs as these regulators. The numerical simulation was carried out in MATLAB software, and the results obtained can evaluate the effectiveness of the designed strategy relative to the traditional strategy.

Topics & Concepts

Control theory (sociology)TorqueDirect torque controlRotor (electric)TurbineVector controlMATLABAsynchronous communicationGenerator (circuit theory)Controller (irrigation)Work (physics)Computer scienceEngineeringControl engineeringPhysicsInduction motorControl (management)Power (physics)Mechanical engineeringVoltageElectrical engineeringAgronomyArtificial intelligenceComputer networkBiologyOperating systemThermodynamicsQuantum mechanicsWind Turbine Control SystemsMicrogrid Control and OptimizationElectric Motor Design and Analysis
Improved Rotor Flux and Torque Control Based on the Third-Order Sliding Mode Scheme Applied to the Asynchronous Generator for the Single-Rotor Wind Turbine | Litcius