Dynamics of Airfoil Separation Control using Zero-Net Mass-Flux Forcing


Publication Type:
Journal
Authors:
Co-Authors:
Raju, R. and Mittal, R.
Year Published:
2008
Abstract:
Zero-net mass-flux jet based control of flow separation over a stalled airfoil is examined using numerical simulations. Two-dimensional simulations are carried out for a NACA 4418 airfoil at a chord Reynolds number of 40,000 and angle of attack of 18 deg. Results for the uncontrolled flow indicate the presence of three distinct natural time scales in the flow corresponding to the shear layer, separation bubble, and wake regions. The natural frequencies are used to select appropriate forcing frequencies, and it is found that forcing frequencies closer to the separation bubble frequency elicit the best response in terms of reduction of separation extent and an improvement in aerodynamic performance. In contrast, higher forcing frequencies closer to the natural shear layer frequency tend to enhance separation. The vortex dynamics and frequency response of flow are examined in detail to gain insight into mechanisms underlying the observed behavior.
Journal:
AIAA Journal
Volume:
46
Issue:
12
Pagination:
3103-3115
ISSN:
Short Title:
Date Published:
12/1/2008