Stall controll at high angle of attack with plasma sheet actuators

ROBERTO SOSA; GUILLERMO ARTANA; ERIC MOREAU; GÉRARD TOUCHARD

EXPERIMENTS IN FLUIDS

Springer

Año: 2007 vol. 42 p. 143 - 167

0723-4864

We analyzed the modifications of the airflow around an NACA 0015 airfoil when the flow wasperturbed with electrohydrodynamic forces. The actuation was produced with a plasma sheet device (PSD) consisting in two bare electrodes flush mounted on the surface of the wing profile operated to obtain a discharge contouring the body in the interelectrode space. We analyze the influence of different parameters of the actuation (frequency, input power, electrodes position) on the aerodynamic performance of the airfoil, basing our study on measurements of the surface pressure distribution and of the flow fields with particle image velocimetry technique. The experiments indicated that at moderate Reynolds numbers (150,000 < Re < 333,000) and at high angles of attack, steady or periodic actuations enabled large improvement of the lift and drag/lift aerodynamic coefficients by reattaching the flow along the extrados.However, to attain the same results steady actuations required larger power consumption. Whenexciting the flow with a moderate value of nondimensional power coefficient (ratio of electric power flow with the kinetic power flow), a frequency of excitation produced a peak on the coefficients that evaluate the airfoil performance. This peak in terms of a non-dimensional frequency was close to 0.4 and can be associated to an optimal frequency of excitation.However, our work indicates that this peak is not constant for all stalled flow conditions and should be analyzed considering scale factors that take into account the ratio of the length where the forcing acts and the cord length.