An efficient computational model for macroscale simulations of moving contact lines
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Publication:401513
DOI10.1016/j.jcp.2013.02.005zbMath1311.76085OpenAlexW2012262409MaRDI QIDQ401513
Publication date: 27 August 2014
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2013.02.005
level-set methodmoving contact lineasymptotic theoriesinertial regimemacroscale simulationviscous regime
Finite volume methods applied to problems in fluid mechanics (76M12) Multiphase and multicomponent flows (76Txx) Finite volume methods for initial value and initial-boundary value problems involving PDEs (65M08)
Related Items (15)
A level-set method for moving contact lines with contact angle hysteresis ⋮ Three dimensional modeling of liquid droplet spreading on solid surface: an enriched finite element/level-set approach ⋮ A finite-volume method for simulating contact lines on unstructured meshes in a conservative level-set framework ⋮ Curvature boundary condition for a moving contact line ⋮ Comparison between numerical models for the simulation of moving contact lines ⋮ A level-set-based sharp-interface method for moving contact lines ⋮ Comparison of Navier-Stokes simulations with long-wave theory: Study of wetting and dewetting ⋮ Multiscale level-set method for accurate modeling of immiscible two-phase flow with deposited thin films on solid surfaces ⋮ A Unified Variational Framework on Macroscopic Computations for Two-Phase Flow with Moving Contact Lines ⋮ A level-set method for large-scale simulations of three-dimensional flows with moving contact lines ⋮ On the use of a friction model in a volume of fluid solver for the simulation of dynamic contact lines ⋮ Finite element setting for fluid flow simulations with natural enforcement of the triple junction equilibrium ⋮ A three-dimensional volume-of-fluid method for reconstructing and advecting three-material interfaces forming contact lines ⋮ Numerical and theoretical analyses of the dynamics of droplets driven by electrowetting on dielectric in a Hele-Shaw cell ⋮ Effective boundary conditions for dynamic contact angle hysteresis on chemically inhomogeneous surfaces
Uses Software
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