Effective slip boundary conditions for arbitrary one-dimensional surfaces
From MaRDI portal
Publication:2863226
DOI10.1017/jfm.2012.228zbMath1275.76065arXiv1203.5958OpenAlexW3104584099WikidataQ59223300 ScholiaQ59223300MaRDI QIDQ2863226
E. S. Asmolov, Olga I. Vinogradova
Publication date: 21 November 2013
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1203.5958
Related Items (11)
Stokes flow over a cavity on a superhydrophobic surface containing a gas bubble ⋮ Poiseuille flow of a Bingham fluid in a channel with a superhydrophobic groovy wall ⋮ Turbulent transition in a channel with superhydrophobic walls: anisotropic slip and shear misalignment effects ⋮ Perturbation analysis of subphase gas and meniscus curvature effects for longitudinal flows over superhydrophobic surfaces ⋮ Superhydrophobic annular pipes: a theoretical study ⋮ Linear stability of slip pipe flow ⋮ A theory for the slip and drag of superhydrophobic surfaces with surfactant ⋮ Analytical formulae for longitudinal slip lengths over unidirectional superhydrophobic surfaces with curved menisci ⋮ Flow-driven collapse of lubricant-infused surfaces ⋮ Effective permeability tensor of confined flows with wall grooves of arbitrary shape ⋮ Linear instability of lid- and pressure-driven flows in channels textured with longitudinal superhydrophobic grooves
Cites Work
- Flows satisfying mixed no-slip and no-shear conditions
- Effective slip boundary conditions for arbitrary periodic surfaces: the surface mobility tensor
- Hydrodynamic friction of fakir-like superhydrophobic surfaces
- A note on the effective slip properties for microchannel flows with ultrahydrophobic surfaces
- Anisotropic electro-osmotic flow over super-hydrophobic surfaces
- Effective slip in pressure-driven flow past super-hydrophobic stripes
- Effective slip in pressure-driven Stokes flow
- Tensorial hydrodynamic slip
- Stokes shear flow over a grating: Implications for superhydrophobic slip
- Engineering Flows in Small Devices: Microfluidics Toward a Lab-on-a-Chip
This page was built for publication: Effective slip boundary conditions for arbitrary one-dimensional surfaces
