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A CFD‐based analysis of dynamic induction techniques for wind farm control applications

Alessandro Croce, Stefano Cacciola, Mariana Montero Montenegro, Sebastiano Stipa, Roberto Praticó

2022Wind Energy13 citationsDOIOpen Access PDF

Abstract

Summary Recently, dynamic induction control is gaining the interest of the wind energy community as a promising strategy to increase the overall wind farm power production. Such a technique is based on a dynamic variation of the upstream rotor thrust, generated through a suitable blade pitch motion, to promote a faster wake recovery. Notwithstanding some promising results already published, the knowledge of the physical mechanism, connecting dynamic induction to the increased in‐wake velocity, was not yet exploited to enhance control effectiveness. This paper, through a computational fluid dynamics procedure based on large eddy simulations coupled with actuator line models, provides a description of the working principles of this control from a fluid dynamics standpoint. The analyses show that the faster recovery is strictly connected to the ability of the blade tip vortices to roll up and sucking energy from the outer flow. Exploiting such knowledge, a novel control strategy, which improves the vortex roll up mechanism, is proposed and analyzed. The new control proved more effective than standard techniques especially for very low turbine spacing.

Topics & Concepts

WakeComputational fluid dynamicsTurbineThrustWind powerEngineeringMechanism (biology)VortexRotor (electric)ActuatorMarine engineeringBlade pitchControl theory (sociology)Aerospace engineeringMechanical engineeringComputer scienceControl (management)MechanicsPhysicsElectrical engineeringQuantum mechanicsArtificial intelligenceWind Energy Research and DevelopmentFluid Dynamics and Vibration AnalysisIcing and De-icing Technologies