Litcius/Paper detail

Fault Ride-Through for PMVG-Based Wind Turbine System Using Coordinated Active and Reactive Power Control Strategy

Kumarasamy Palanimuthu, Ganesh Mayilsamy, Seong Ryong Lee, Sang‐Yong Jung, Young Hoon Joo

2022IEEE Transactions on Industrial Electronics53 citationsDOI

Abstract

This article investigates a fault ride-through capability for grid-connected permanent magnet vernier generator (PMVG)-based wind turbine system (WTS) using coordinated active and reactive power control strategy. To do this, the generator peak current and speed limitation schemes are proposed for the machine-side converter to satisfy grid code requirements during grid fault conditions. At the same time, the reactive power control is implemented on the grid-side converter to meet the reactive current requirement of the grid code. And then, to suppress the DC-link power unbalance during grid fault conditions, an efficient variable exponential reaching law-based sliding mode control is designed. Further, the coordinated control schemes are employed to ensure the stable DC-link voltage and maintain the converter's maximum peak current during grid faults. Finally, the proposed control methods demonstrate their superiority through simulations on 5-kW PMVG, 1.5 MW PMSG-based WTS, and its application potential is shown through the experimental prototype of a 5-kW PMVG-based WTS.

Topics & Concepts

Grid codeAC powerFault (geology)Control theory (sociology)GridLow voltage ride throughWind powerTurbineEngineeringPermanent magnet synchronous generatorPower controlPower (physics)Computer scienceVoltageElectrical engineeringControl (management)PhysicsQuantum mechanicsArtificial intelligenceGeometryMechanical engineeringMathematicsSeismologyGeologyWind Turbine Control SystemsMicrogrid Control and OptimizationMultilevel Inverters and Converters