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Slip length formulas for longitudinal shear flow over a superhydrophobic grating with partially filled cavities

Darren Crowdy

2021Journal of Fluid Mechanics24 citationsDOI

Abstract

Explicit formulas are given for the hydrodynamic slip lengths associated with longitudinal shear flow over a superhydrophobic grating where the menisci have partially invaded the cavities and are only weakly curved. For flat menisci that have depinned from the top of the grating and have displaced downwards into the cavities, the axial velocity is determined analytically and the slip length extracted from it. This solution is then combined with an integral identity to determine the first-order correction to the slip length when the displaced menisci bow weakly into the cavity. It is argued that the new formulas provide useful upper bounds for quantifying slip in microchannel flows involving partially filled cavities. The new solutions are natural extensions of prior results due to Philip ( Z. Angew. Math. Phys. , vol. 23, 1972, pp. 353–372) for shear flow over mixed no-slip/no-shear surfaces and due to Bechert & Bartenwerfer ( J. Fluid Mech. , vol. 206, 1989, pp. 105–129) for shear flow over blade-shaped riblets.

Topics & Concepts

Slip (aerodynamics)Shear (geology)Materials scienceMechanicsGratingShear flowMicrochannelSlip line fieldOpticsSlip ratioPhysicsShear stressComposite materialThermodynamicsFluid Dynamics and Turbulent FlowsHeat Transfer MechanismsFluid Dynamics and Thin Films