Hak-Bong Kim scite author profile

An experimental study was carried out in order to investigate the influence of Reynolds number on the near-wake of an oscillating airfoil. An NACA 0012 airfoil was sinusoidally pitched at the quarter chord point, and is oscillated over a range of instantaneous angles of attack of ±6°. An X-type hot-wire probe was employed to measure the near-wake of an oscillating airfoil, and the smoke-wire visualization technique was used to examine the flow properties of the boundary layer. The

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Flow Control by Piezoceramic Actuator in a flat plate

Kim¹,

Han²,

Chang

et al. 2009

Journal of the Korean Society for Aeronautical & Space Scie

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An actuator using piezoceramic material was designed in order to perform a flow control for flat plate flow. Boundary layer measurements were carried out to explore the flow disturbances by the designed actuator that was activated at low excitation frequency(15Hz). The mean velocity and fluctuation in the boundary layers were measured at x/  =31.9 downstream from the actuator tip by a one-dimensional hot-wire probe(55P14). Results reveal that low-and high-velocity regions were observed in the vicinity of the actuator center and in the outer area of the actuator respectively, and the formation of counter-rotating streamwise vortices was predicted. The fluctuations were persistently found in the outer part of the actuator and an inflection point in the spanwise gradient of the streamwise velocity was observed. Boundary layer instability was amplified at both the actuator excitation frequency and the T-S wave frequency when the actuator was excited at low frequency.

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Hak-Bong Kim

Upstream condition effects on the evolution of symmetric and asymmetric near-wakes of a flat plate

Near-wake Measurements of an Oscillating NACA 0012 Airfoil

Flow Control by Piezoceramic Actuator in a flat plate

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