Title :
Separation Control by Single Nonthermal Plasma Discharge
Author :
Benard, Nicolas ; Moreau, Eric
Author_Institution :
Dept. of Fluides, Thermique, Combustion, Axe ElectroFluidoDynamique, Inst. Pprime, Futuroscope, France
Abstract :
The formation of a plasma discharge on the surface of aerodynamic bodies can be helpful to manipulate flow conditions. Here, plasma is used to mitigate the massive flow separation observed for an airfoil model at a high incidence angle. High-speed flow visualizations are provided to demonstrate the plasma/gas interaction for flow in initially quiescent air and in the presence of a 20 m/s cross-stream velocity. The results reveal that flow reattachment results from a significant modification of the vortex street developing within the free separated shear layer.
Keywords :
aerodynamics; flow separation; plasma diagnostics; plasma flow; surface discharges; vortices; 20 m/s cross-stream velocity; aerodynamic bodies; airfoil model; flow conditions; free separated shear layer; high-speed flow visualizations; massive flow separation; plasma-gas interaction; separation control; single nonthermal plasma discharge; vortex street; Actuators; Atmospheric modeling; Automotive components; Dielectrics; Discharges; Plasmas; Surface discharges; Fluid flow control; surface discharges;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2158587
