Litcius/Paper detail

Maximum Power Point Tracking for Wind Turbine Using Integrated Generator–Rectifier Systems

Phuc Huynh, Samira Tungare, Arijit Banerjee

2020IEEE Transactions on Power Electronics66 citationsDOIOpen Access PDF

Abstract

Offshore wind is a rapidly growing renewable energy resource. Harvesting offshore energy requires multimegawatt wind turbines and high efficiency, high power density, and reliable power conversion systems to achieve a competitive levelized cost of electricity. An integrated system utilizing one active and multiple passive rectifiers with a multiport permanent magnet synchronous generator is a promising alternative for an electromechanical power conversion system. Deployment of the integrated systems in offshore wind energy requires maximum power point tracking (MPPT) capability, which is challenging due to the presence of numerous uncontrolled passive rectifiers. This article shows feasibility of MPPT based on a finding that the active-rectifier d-axis current can control the total system output power. The MPPT capability opens up opportunities for the integrated systems in offshore wind applications.

Topics & Concepts

Maximum power point trackingOffshore wind powerWind powerTurbinePower optimizerPermanent magnet synchronous generatorEngineeringRectifier (neural networks)Maximum power principleElectricity generationElectrical engineeringAutomotive engineeringPower (physics)Computer sciencePhotovoltaic systemAerospace engineeringMagnetPhysicsInverterVoltageStochastic neural networkRecurrent neural networkQuantum mechanicsMachine learningArtificial neural networkMultilevel Inverters and ConvertersWind Turbine Control SystemsElectric Motor Design and Analysis