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Control of flow separation in a turbulent boundary layer using time-periodic forcing
Cited 11 time in
Web of Science
Cited 11 time in Scopus
- Authors
- Issue Date
- 2016-10
- Publisher
- ASME
- Citation
- Journal of Fluids Engineering, Transactions of the ASME, Vol.138 No.10, p. 101204
- Abstract
- A time-periodic blowing/suction is provided to control turbulent separation in a boundary layer using direct numerical simulation. The blowing/suction is given just before the separation point, and its nondimensional forcing frequency ranges from F* = fL(b)/U-infinity = 0.28-8.75, where f is the forcing frequency, L-b is the streamwise length of uncontrolled separation bubble, and U1 is the freestream velocity. The size of separation bubble is minimum at F* = 0.5. At low forcing frequencies of F* <= 0.5, vortices generated by the forcing travel downstream at convection velocity of 0.32-0.35 U1, bring high momentum toward the wall, and reduce the size of separation bubble. However, at high forcing frequencies of F* >= 1.56, flow separation disappears and appears in time during the forcing period. This phenomenon occurs due to high wall-pressure gradients alternating favorably and adversely in time. A potential flow theory indicates that this rapid change of the wall pressure in time occurs through an inviscid mechanism. Finally, it is shown that this high-frequency forcing requires a large control input power due to high pressure work.
- ISSN
- 0098-2202
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