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W2005329908 abstract "During immiscible-fluid displacement, the contact angle between the interface and the wall of a tube, as well as the velocity V of the contact line where a fluid interface intersects the wall of a tube, depends on the applied capillary pressure ${P}_{mathrm{cap}}.$ In this paper, the contact line dynamics of immiscible-fluid displacement is simulated by using the lattice Boltzmann model in a two-dimensional capillary channel with an ideally smooth wall. The V dependence of the contact angle is studied for two different wetting cases. Our simulational results are in good agreement with those based on theoretical computations and with molecular dynamics simulations. In particular, the power-law behavior ${P}_{mathrm{cap}}ensuremath{sim}{V}^{x}$ is found with an exponent x very close to $1.$ The simulations suggest that the lattice Boltzmann model may serve as an alternative reliable quantitative approach to study the contact line dynamics, and also may be a promising tool for invesitgating some other immiscible displacement related subjects." @default.
W2005329908 created "2016-06-24" @default.
W2005329908 creator A5001921790 @default.
W2005329908 creator A5025624326 @default.
W2005329908 creator A5075057638 @default.
W2005329908 date "2001-04-17" @default.
W2005329908 modified "2023-10-14" @default.
W2005329908 title "Simulation of contact line dynamics in a two-dimensional capillary tube by the lattice Boltzmann model" @default.
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W2005329908 doi "https://doi.org/10.1103/physreve.63.051603" @default.
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