Litcius/Paper detail

Sliding mode control of grid‐connected wind energy system driven by 2 five‐phase permanent magnet synchronous generators controlled by a new fifteen‐switch converter

Tounsi Kamel, Abdelkader Djahbar, Barkat Said, Atif Iqbal

2020International Transactions on Electrical Energy Systems18 citationsDOI

Abstract

This article presents a new wind energy system using 2 five-phase permanent magnet synchronous generators (PMSGs) controlled by a fifteen-switch rectifier (FSR) topology for grid-connected system. The 2 five-phase PMSGs are connected to the DC link through a FSR; at its turn, the DC link is connected to the grid through a classical three-phase inverter. In order to boost the control performance of the proposed wind system, a sliding mode control is adopted to control both generators-side and grid-side converters. The proposed control is tested under varying wind velocity and compared with a proportional- and integral (PI)-based control system. The obtained simulation results show that the controlled variables follow their references independently of the wind speed fluctuations; and there is a significant reduction in the speeds overshoots by 100% and in the DC-link voltage ripples by more than 78%. In addition, the total harmonic distortion (THD) of the generated current and grid current are reduced to 7.19% and 47.80% compared with PI regulators, respectively.

Topics & Concepts

Total harmonic distortionControl theory (sociology)Rectifier (neural networks)InverterThree-phaseWind speedPermanent magnet synchronous generatorConvertersVoltageEngineeringElectrical engineeringTopology (electrical circuits)Computer sciencePhysicsControl (management)MeteorologyRecurrent neural networkMachine learningArtificial intelligenceArtificial neural networkStochastic neural networkMultilevel Inverters and ConvertersMicrogrid Control and OptimizationWind Turbine Control Systems