English

Mesoscopic two-phase model for describing apparent slip in micro-channel flows

Fluid Dynamics 2016-09-08 v1 Statistical Mechanics Cellular Automata and Lattice Gases

Abstract

The phenomenon of apparent slip in micro-channel flows is analyzed by means of a two-phase mesoscopic lattice Boltzmann model including non-ideal fluid-fluid and fluid-wall interactins. The weakly-inhomogeneous limit of this model is solved analytically. The present mesoscopic approach permits to access much larger scales than molecular dynamics, and comparable with those attained by continuum methods. However, at variance with the continuum approach, the existence of a gas layer near the wall does not need to be postulated a priori, but emerges naturally from the underlying non-ideal mesoscopic dynamics. It is therefore argued that a mesoscopic Lattice Boltzmann approach with non-ideal fluid-fluid and fluid-wall interactions might achieve an optimal compromise between physical realism and computational efficiency for the study of channel micro-flows.

Keywords

Cite

@article{arxiv.physics/0507026,
  title  = {Mesoscopic two-phase model for describing apparent slip in micro-channel flows},
  author = {R. Benzi and L. Biferale and M. Sbragaglia and S. Succi and F. Toschi},
  journal= {arXiv preprint arXiv:physics/0507026},
  year   = {2016}
}

Comments

5 pages, 3 figures