Title :
Turbulent drag reduction by transverse wall oscillations
Author :
Moarref, R. ; Jovanovic, Mihailo R.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Minnesota, Minneapolis, MN, USA
Abstract :
Skin-friction drag reduction by transverse wall oscillations has received significant attention of flow control community. Both experiments and simulations have demonstrated that oscillations with properly selected amplitude and frequency can reduce turbulent drag by as much as 40 percent. For a turbulent channel flow, we develop a model-based approach to design oscillations that suppress turbulence. We show that judiciously selected linearization of the flow with control can be used to determine turbulent viscosity in a computationally efficient manner. The resulting correction to the turbulent mean velocity is then used to identify optimal frequency of oscillations, which is in close agreement with previously conducted experimental and numerical studies. This demonstrates the predictive power of our simulation-free approach to controlling turbulent flows.
Keywords :
boundary layer turbulence; channel flow; computational fluid dynamics; drag reduction; flow control; flow simulation; fluid oscillations; numerical analysis; viscosity; flow control; model-based approach; simulation-free approach; skin-friction drag reduction; transverse wall oscillations; turbulent channel flow; turbulent drag reduction; turbulent mean velocity; turbulent viscosity; Drag; Equations; Mathematical model; Numerical models; Numerical simulation; Oscillators; Viscosity; Drag reduction; flow control; stochastically forced Navier-Stokes equations; time-periodic systems; turbulence modeling;
Conference_Titel :
American Control Conference (ACC), 2012
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4577-1095-7
Electronic_ISBN :
0743-1619
DOI :
10.1109/ACC.2012.6315686
