论文信息 - Reattachment studies of an oscillating airfoil dynamic stall flowfield

Reattachment studies of an oscillating airfoil dynamic stall flowfield

The reattaching flow over an oscillating airfoil executing large amplitude sinusoidal motion around a mean angle of attack of 10 degrees has been studied using the techniques of stroboscopic schlieren, two component laser Doppler velocimetry and point diffraction interferometry, for a free stream Mach number of 0.3 and a reduced frequency of 0.05. The results show that the dynamically stalled flow reattaches in a process that begins when the airfoil is very close to the static stall angle on its downward stroke and progresses over the airfoil through a large range of angles of attack as the airfoil decreases to about 6 degrees. The airfoil suction peak shows a dramatic rise as the static stall angle is approached and the velocity profiles develop such that the flow near the surface is accelerated. The process completes through the disappearance of a separation bubble that forms over the airfoil.

M. S. Chandrasekhara | S. Ahmed

[1] .. M.S.Chandrasekhara,et al. Laser velocimetry measurements of oscillating airfoil dynamic stall flow field , 1991 .

[2] M. S. Chandrasekhara,et al. A real time interferometry system for unsteady flow measurements , 1991, ICIASF '91 Record., International Congress on Instrumentation in Aerospace Simulation Facilities.

[3] M. S. Chandrasekhara,et al. Flow visualization studies of the Mach number effects on the dynamic stall of an oscillating airfoil , 1990 .

[4] R. A. McD. Galbraith,et al. Dynamic recovery to fully attached aerofoil flow from deep stall , 1995 .

[5] M. S. Chandrasekhara,et al. A Study of Dynamic Stall Using Real Time Interferometry , 1994 .

[6] M. S. Chandrasekhara,et al. Design and development of a compressible dynamic stall facility , 1992 .

[7] I. Tani. Low-speed flows involving bubble separations , 1964 .

[8] R. J. Goldstein. Optical systems for flow measurement: shadowgraph, Schilieren, and interferometric techniques. , 1983 .

[9] M. S. Chandrasekhara,et al. Flow visualization studies of the Mach number effects on the dynamic stall of an oscillating airfoil , 1989 .

[10] W. J. Mccroskey,et al. The Phenomenon of Dynamic Stall. , 1981 .

[11] L. Carr. Progress in analysis and prediction of dynamic stall , 1988 .