Power-Law Slip Profile of the Moving Contact Line in Two-Phase Immiscible Flows

Abstract

Large scale molecular dynamics (MD) simulations on two-phase immiscible flows show that associated with the moving contact line, there is a very large 1/x partial-slip region where x denotes the distance from the contact line. This power-law partial-slip region is verified in large-scale adaptive continuum simulations based on a local, continuum hydrodynamic formulation, which has proved successful in reproducing MD results at the nanoscale. Both MD and continuum simulations indicate the existence of a universal slip profile in the Stokes-flow regime, well described by vslip(x)/Vw=1/(1+x/als), where vslip is the slip velocity, Vw the speed of moving wall, ls the slip length, and a is a numerical constant. Implications for the contact-line dissipation are discussed.

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