Litcius/Paper detail

Load mitigation and power tracking capability for wind turbines using linear matrix inequality‐based control design

Florian Pöschke, Eckhard Gauterin, Martin Kühn, Jens Fortmann, Horst Schulte

2020Wind Energy29 citationsDOIOpen Access PDF

Abstract

Abstract This article deals with nonlinear model‐based control design for wind turbines. By systematically integrating several mechanical degrees of freedom in the control design model, the load mitigation potential from the proposed multivariable control framework is demonstrated. The application of the linear matrix inequality (LMI)‐based control design is discussed in detail. Apart from the commonly considered power production mode, an extended operating range to provide stabilization of the electrical grid through power tracking is considered. This control functionality allows for an evaluation of the resulting fatigue and ultimate loads for power tracking at different dynamic requirements. The results indicate that under the impact of a dedicated control scheme, this functionality is feasible with respect to the occurring loads and operational behavior of the wind turbine.

Topics & Concepts

Wind powerControl theory (sociology)TurbineControl engineeringLinear matrix inequalityRange (aeronautics)EngineeringPower (physics)Tracking (education)Control (management)Multivariable calculusComputer scienceMathematical optimizationMathematicsMechanical engineeringQuantum mechanicsAerospace engineeringPsychologyPedagogyPhysicsElectrical engineeringArtificial intelligenceWind Turbine Control SystemsMicrogrid Control and OptimizationWind Energy Research and Development