Influence of slip on the flow past superhydrophobic circular cylinders
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Publication:2891766
DOI10.1017/jfm.2011.172zbMath1241.76043OpenAlexW1993888683MaRDI QIDQ2891766
Jonathan P. Rothstein, Robert J. Daniello, Pranesh Muralidhar, Nangelie Ferrer
Publication date: 15 June 2012
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/5426a5a3f083f4872d1ec43a50d088fa9dc0b3ab
Experimental work for problems pertaining to fluid mechanics (76-05) Wakes and jets (76D25) Flow control and optimization for incompressible viscous fluids (76D55)
Related Items (6)
Influence of slip on the three-dimensional instability of flow past an elongated superhydrophobic bluff body ⋮ Minimum power consumption for drag reduction on a circular cylinder by tangential surface motion ⋮ Janus surface concept for three-dimensional turbulent flows ⋮ Rotation of a superhydrophobic cylinder in a viscous liquid ⋮ Effect of wall slip on laminar flow past a circular cylinder ⋮ An asymptotic theory for the high-Reynolds-number flow past a shear-free circular cylinder
Cites Work
- Wake instability of a fixed spheroidal bubble
- Influence of slip on the dynamics of two-dimensional wakes
- Effects of hydrophobic surface on skin-friction drag
- Laminar drag reduction in microchannels using ultrahydrophobic surfaces
- Effective slip on textured superhydrophobic surfaces
- Direct velocity measurements of the flow past drag-reducing ultrahydrophobic surfaces
- An analysis of superhydrophobic turbulent drag reduction mechanisms using direct numerical simulation
- Direct numerical simulations of turbulent flows over superhydrophobic surfaces
- Drag reduction of Newtonian fluid in a circular pipe with a highly water-repellent wall
- Effective slip in pressure-driven Stokes flow
- Effects of hydrophobic surfaces on the drag and lift of a circular cylinder
- Achieving large slip with superhydrophobic surfaces: Scaling laws for generic geometries
- Drag reduction in turbulent flows over superhydrophobic surfaces
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