Martin Luxa scite author profile

The paper reports on interferometric measurements of flow over a NACA0015 airfoil model during flutter limit cycle oscillations. The airfoil model is fixed on an elastic support allowing motion with two degrees of freedom — pitch and plunge. The structural mass and stiffness matrices can be tuned to certain extent, so that the eigenfrequencies of the two modes approach as needed. The model is equipped with dynamic pressure probes and sensors measuring the airfoil vertical position. The flow field around the airfoil was measured by Mach-Zehnder interferometer and registered using a high-speed camera synchronously with the mechanical vibration and pressure measurements. The Mach number of the incident airflow was gradually increased and the response of the aeroelastic system to initial impulse measured, until the flutter instability onset occurred. Flutter boundaries were evaluated for various additional masses attached (i.e., for various plunging mode eigenfrequencies), and post-critical behavior of the system investigated. The interferograms recorded by the high-speed camera were postprocessed, yielding pressure distribution around the airfoil during its vibration and an estimate of the total aerodynamic force and energy transfer from the airflow to the structure.

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New test facility for forced blade flutter research

Lepicovsky

Šidlof

Šimurda

et al. 2021

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Optimization of Root Section for Ultra-long Steam Turbine Rotor Blade

et al. 2018

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Aerodynamic Effects of Tie-Boss in Extremely Long Turbine Blades

Radnic

Hála

Luxa

et al. 2018

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Focus of this paper is aerodynamic investigation of tie-boss stabilization devices for extremely long rotor blades. This investigation covered measurements on multiple blade cascades and computational fluid dynamics (CFD) simulation of the flow past these cascades. Conclusions were drawn from results of the measurements and CFD and from the knowledge of prior investigation of the used blade cascade. Main focus of this paper is to describe influence of a tie-boss stabilization device on flow field in interblade channel. Tie-boss with more massive shape proved to cause lesser losses, while tie-boss with a tailored trailing edge showed lesser influence on flow turning.

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Martin Luxa

Investigation of the compressible flow through the tip-section turbine blade cascade with supersonic inlet

Wind Tunnel Measurements of Flow-Induced Vibration of a NACA0015 Airfoil Model

New test facility for forced blade flutter research

Optimization of Root Section for Ultra-long Steam Turbine Rotor Blade

Aerodynamic Effects of Tie-Boss in Extremely Long Turbine Blades

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