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Thermographic detection of turbulent flow separation on rotor blades of wind turbines in operation

Felix Oehme, Daniel Gleichauf, Janick Suhr, Nicholas Balaresque, Michael Sorg, Andreas Fischer

2022Journal of Wind Engineering and Industrial Aerodynamics21 citationsDOIOpen Access PDF

Abstract

An IR thermography-based detection and localization of turbulent flow separation at an operating wind turbine is presented and verified for the first time. Turbulent flow separation limits the efficiency of wind turbines and causes increased structural loads and acoustic emissions. IR thermography is an established measurement method for stall detection in wind tunnel experiments, however a transfer to operating wind turbines is an open research question. With respect to the state of the art for thermographic stall detection, a novel thermographic measurement approach for a feature-based stall detection is presented, verified and applied on wind turbines. The measurement approach evaluates the surface temperature response to unsteady inflow conditions and enables an unambiguous detection of flow separation by means of temperature fluctuation maxima in the regions of flow transition as well as an increasing temperature fluctuation within the separated flow region. Finally, the aim to obtain a non-invasive and in-process detection of flow separation on an operating wind turbine with IR thermography is achieved and verified using tufts flow visualization.

Topics & Concepts

ThermographyStall (fluid mechanics)TurbineWind tunnelFlow separationTurbulenceWind powerTurbine bladeInflowFlow visualizationWind speedAerodynamicsFlow (mathematics)AcousticsEnvironmental scienceMarine engineeringEngineeringAerospace engineeringMechanicsMeteorologyPhysicsOpticsInfraredElectrical engineeringWind Energy Research and DevelopmentFluid Dynamics and Turbulent FlowsIcing and De-icing Technologies
Thermographic detection of turbulent flow separation on rotor blades of wind turbines in operation | Litcius