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Effectiveness analysis of twelve sectors of DTC based on a newly modified switching table implemented on a wind turbine DFIG system under variable wind velocity

Younes Sahri, Salah Tamalouzt, Sofia Lalouni Belaid, Mohit Bajaj, Youcef Belkhier, Arvind R. Singh, Mohamed F. Elnaggar, Salah Kamel

2023Ain Shams Engineering Journal33 citationsDOIOpen Access PDF

Abstract

This paper aims to present a novel Direct Torque Control (DTC) strategy based on twelve sectors and a new Modified Switching Table (12-MST-DTC) used to control the Doubly Fed Induction Generator (DFIG) powered by Wind Turbine (WT) and operating under random wind speed. Robustness and fast dynamic performances have made Conventional DTC (C-DTC) popular and widely used, but presents major drawbacks which are high torque and flux ripples. Therefore, the 12-DTC has been proposed in the literature as an improvement but suffers from significant oscillations during super-synchronous operation mode as well as the case of overspeed. The proposed control strategy maintains the performances that offer (C-DTC and 12-DTC) and furthermore minimizes those drawbacks. The newly modified switching table is designed with additional input to cover all WT-DFIG system operation modes (sub-, super- and synchronous modes in addition to the case of over-speed) in order to diminish the flux, torque ripples and THD of the AC-grid injected currents. For optimal operating of variable-speed WT, MPPT algorithm and blade pitch control are invested. Simulation results of the 12-MST-DTC are compared with those of C-DTC and 12-DTC using MATLAB/Simulink environment treating all operation modes of WT-DFIG system and even in case of wind over speeds. The comparison results demonstrate the efficiency of the proposed control strategy in terms of flux/torque ripples and THD reduction, therefore fewer DFIG mechanical vibration and acoustic noise.

Topics & Concepts

Control theory (sociology)Wind speedTorqueDirect torque controlVariable speed wind turbineTurbineWind powerRobustness (evolution)Total harmonic distortionInduction generatorMATLABComputer scienceElectronic speed controlVoltageEngineeringInduction motorControl (management)Permanent magnet synchronous generatorPhysicsElectrical engineeringMechanical engineeringBiochemistryMeteorologyChemistryOperating systemThermodynamicsGeneArtificial intelligenceWind Turbine Control SystemsMicrogrid Control and OptimizationElectric Motor Design and Analysis
Effectiveness analysis of twelve sectors of DTC based on a newly modified switching table implemented on a wind turbine DFIG system under variable wind velocity | Litcius