Pumping or drag reduction?
From MaRDI portal
Publication:3550365
DOI10.1017/S0022112009007629zbMath1183.76703OpenAlexW2153956580MaRDI QIDQ3550365
Jérôme Hoepffner, Koji Fukagata
Publication date: 31 March 2010
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/s0022112009007629
Related Items (23)
Localized drag modification in a laminar boundary layer subject to free-stream travelling waves via critical and Stokes layer interactions ⋮ The role of vibrations for reducing the resistance in the relative movement of parallel plates ⋮ Induced flow due to blowing and suction flow control: an analysis of transpiration ⋮ Money versus time: evaluation of flow control in terms of energy consumption and convenience ⋮ Steady streaming in a channel with permeable walls ⋮ Nonlinearity in cytoplasm viscosity can generate an essential symmetry breaking in cellular behaviors ⋮ Effects of wall vibrations on channel flows ⋮ Use of heated corrugations for propulsion ⋮ Effect of the dynamic slip boundary condition on the near-wall turbulent boundary layer ⋮ Hampering Görtler vortices via optimal control in the framework of nonlinear boundary region equations ⋮ Reduction of pressure losses and increase of mixing in laminar flows through channels with long-wavelength vibrations ⋮ Proposal of control laws for turbulent skin friction reduction based on resolvent analysis ⋮ Optimal Control of Heat and Fluid Flow for Efficient Energy Utilization ⋮ Controlling the onset of turbulence by streamwise travelling waves. Part 1. Receptivity analysis ⋮ Controlling the onset of turbulence by streamwise travelling waves. Part 2. Direct numerical simulation ⋮ The linear response of turbulent flow to a volume force: comparison between eddy-viscosity model and DNS ⋮ Dissimilarity between turbulent heat and momentum transfer induced by a streamwise travelling wave of wall blowing and suction ⋮ Drag reduction in a thermally modulated channel ⋮ Assessment of suboptimal control for turbulent skin friction reduction via resolvent analysis ⋮ Physics and control of wall turbulence for drag reduction ⋮ Streamwise-varying steady transpiration control in turbulent pipe flow ⋮ Groove-induced changes of discharge in channel flows ⋮ On the use of transpiration patterns for reduction of pressure losses
Cites Work
- Interaction of peristaltic motion with Poiseuille flow
- On the lower bound of net driving power in controlled duct flows
- Laminar and turbulent comparisons for channel flow and flow control
- A fundamental limit on the balance of power in a transpiration-controlled channel flow
- Contribution of Reynolds stress distribution to the skin friction in wall-bounded flows
- Microelectromechanical Systems–Based Feedback Control of Turbulence for Skin Friction Reduction
- Acoustic streaming
- Active turbulence control for drag reduction in wall-bounded flows
- A winwin mechanism for low-drag transients in controlled two-dimensional channel flow and its implications for sustained drag reduction
- Sustained sub-laminar drag in a fully developed channel flow
This page was built for publication: Pumping or drag reduction?
