An Experimental Study on Active Flow Control Using Synthetic Jet Actuators over S809 Airfoil

2014-6-16
Gul, M
Uzol, Oğuz
Akmandor, I S
This study investigates the effect of periodic excitation from individually controlled synthetic jet actuators on the dynamics of the flow within the separation and re-attachment regions of the boundary layer over the suction surface of a 2D model wing that has S809 airfoil profile. Experiments are performed in METUWIND's C3 open-loop suction type wind tunnel that has a 1 m x 1 m cross-section test section. The synthetic jet array on the wing consists of three individually controlled actuators driven by piezoelectric diaphragms located at 28% chord location near the mid-span of the wing. In the first part of the study, surface pressure, Constant Temperature Anemometry (CTA) and Particle Image Velocimetry (PIV) measurements are performed over the suction surface of the airfoil to determine the size and characteristics of the separated shear layer and the re-attachment region, i.e. the laminar separation bubble, at 2.3x10(5) Reynolds number at zero angle of attack and with no flow control as a baseline case. For the controlled case, CTA measurements are carried out under the same inlet conditions at various streamwise locations along the suction surface of the airfoil to investigate the effect of the synthetic jet on the boundary layer properties. During the controlled case experiments, the synthetic jet actuators are driven with a sinusoidal frequency of 1.45 kHz and 300Vp-p. Results of this study show that periodic excitation from the synthetic jet actuators eliminates the laminar separation bubble formed over the suction surface of the airfoil at 2.3x10(5) Reynolds number at zero angle of attack.
Journal of Physics: Conference Series

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Citation Formats
M. Gul, O. Uzol, and I. S. Akmandor, “An Experimental Study on Active Flow Control Using Synthetic Jet Actuators over S809 Airfoil,” Journal of Physics: Conference Series, 2014, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/28549.