Litcius/Paper detail

Efficiency Enhancement Using Fault-Tolerant Sliding Mode Control for the PMVG-Based WTS Under Actuator Faults

Ameerkhan Abdul Basheer, Kumarasamy Palanimuthu, Seong Ryong Lee, Young Hoon Joo

2023IEEE Transactions on Industrial Electronics23 citationsDOI

Abstract

This article focuses on the efficiency enhancement using fault-tolerant sliding mode control (SMC) for permanent-magnet vernier generator (PMVG)-based wind turbine system (WTS) under actuator faults. To do this, the dynamical model of the WTS is constructed with the actuator fault model. Next, the optimum tip speed ratio-based SMC method is proposed to calculate the optimum speed reference of the maximum power point tracking controller that achieves the maximum power capture of the WTS. And then, to effectively track the optimum rotor speed under actuator faults, a disturbance attenuation-based sliding surface is proposed with a novel time-varying exponential reaching law. At the same time, the stability conditions of the SMC are also derived using the appropriate Lyapunov function. Finally, the resilient performance and superiority of the proposed control method are demonstrated through simulation for 5-kW PMVG-based and 4.8-MW benchmark WTSs and its applicability is proven through an experimental prototype for the 5-kW PMVG-based WTS.

Topics & Concepts

ActuatorControl theory (sociology)Sliding mode controlMode (computer interface)Fault toleranceComputer scienceControl (management)Fault (geology)EngineeringReliability engineeringArtificial intelligenceGeologyPhysicsNonlinear systemOperating systemQuantum mechanicsSeismologyAdaptive Control of Nonlinear SystemsHydraulic and Pneumatic SystemsFrequency Control in Power Systems