Control and management of unsteady and turbulent flows
Abstract
Active input of tuned and detuned two dimensional and oblique modes in a layer was found to lead to the growth of near-subharmonic modes as well as numerous sum and difference modes, thereby emulating 'natural' transition. Acoustic receptivity of laminar boundary layers with nonlocalized low-amplitude periodic waviness was experimentally investigated and compared favorably to theoretical predictions. Closed loop excitation of axisymmetric and azimuthal modes in a free round jet were used to reveal the character of high Reynolds number transition (i.e., supercritical Hopf bifurcation) and to study mode selection and switching. Suction and blowing were shown to be capable of controlling the asymmetric flow about the forebodies of aircraft and missiles and the experiments indicate that the suction bleed coefficient must increase like the 3.9 power of the velocity to balance the effects of geometric instability at the tip. The effects of yaw on such asymmetries were also documented. A strategy to suppress the dynamic-stall vortex over a range of operating parameters, using controlled leading-edge suction to prevent accumulation of reverse-flowing fluid, was successfully developed from a study of the mechanisms responsible for the evolution of the vortex. The National Diagnostic Facility was completed and several collaborative experiments are scheduled during 1994.
- Publication:
-
Final Report
- Pub Date:
- December 1993
- Bibcode:
- 1993iit..rept.....N
- Keywords:
-
- Boundary Layer Control;
- Boundary Layer Separation;
- Fluid Dynamics;
- Free Jets;
- High Reynolds Number;
- Laminar Boundary Layer;
- Turbulent Flow;
- Unsteady Flow;
- Aerodynamic Stalling;
- Blowing;
- Feedback Control;
- Forebodies;
- Jet Flow;
- Suction;
- Vortices;
- Yaw;
- Fluid Mechanics and Heat Transfer