Issue 48, 2013

Flow in channels with superhydrophobic trapezoidal textures

Abstract

Superhydrophobic one-dimensional surfaces reduce drag and generate transverse hydrodynamic phenomena by combining hydrophobicity and roughness to trap gas bubbles in microscopic textures. Recent studies in this area have focused on specific cases of superhydrophobic stripes. Here we provide some theoretical results to guide the optimization of the forward flow and transverse hydrodynamic phenomena in a parallel-plate channel with a superhydrophobic trapezoidal texture, varying on scales larger than the channel thickness. The permeability of such a thin channel is shown to be equivalent to that of a striped one with greater average slip. The maximization of a transverse flow normally requires largest possible slip at the gas areas, similar to a striped channel. However, in the case of trapezoidal textures with a very small fraction of the solid phase this maximum occurs at a finite slip at the gas areas. Exact numerical calculations show that our analysis, based on a lubrication theory, can also be applied for a larger gap. However, in this case it overestimates a permeability of the channel, and underestimates an anisotropy of the flow. Our results provide a framework for the rational design of superhydrophobic surfaces for microfluidic applications.

Graphical abstract: Flow in channels with superhydrophobic trapezoidal textures

Article information

Article type
Paper
Submitted
07 Jul 2013
Accepted
11 Oct 2013
First published
14 Oct 2013

Soft Matter, 2013,9, 11671-11679

Flow in channels with superhydrophobic trapezoidal textures

T. V. Nizkaya, E. S. Asmolov and O. I. Vinogradova, Soft Matter, 2013, 9, 11671 DOI: 10.1039/C3SM51850G

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