Title of article
Precursor simulations in spreading using a multi-mesh adaptive finite element method
Author/Authors
Di، نويسنده , , Yana and Wang، نويسنده , , Xiao-Ping، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
11
From page
1380
To page
1390
Abstract
Using the phase-field model for immiscible two-phase flows, we have numerically investigated the wetting dynamics. The long-range van der Waals forces towards the solid, which drive the spreading of the wetting phase into the nonwetting phase, have been explicitly taken into account in the governing equations. Our continuum model uses the generalized Navier boundary condition (GNBC) to account for the fluid slipping at the solid surface. The accurate description of the molecular-scale contact-line hydrodynamics makes the numerical simulations cost too much to abide. In this work, we propose an efficient multi-mesh adaptive finite element method which approximates different components of the solution (velocity, pressure and phase variable) on different h-adaptive meshes because of their strongly different local behaviors. That allows us to study the early stage of spreading, wherein the precursor is initiated and developed if the van der Waals forces are strong enough. We find that there is indeed a transition in the spreading behavior across a critical value of the Hamaker constant. In particular, this critical value is noted to be the one that separates the partial wetting from complete wetting.
Keywords
Multi-mesh , Wetting and spreading , precursor film , Diffuse-interface model , Adaptive finite element
Journal title
Journal of Computational Physics
Serial Year
2009
Journal title
Journal of Computational Physics
Record number
1481226
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