English

Disperse two-phase flows, with applications to geophysical problems

Atmospheric and Oceanic Physics 2015-01-20 v1 Analysis of PDEs Computational Physics Fluid Dynamics Geophysics

Abstract

In this paper we study the motion of a fluid with several dispersed particles whose concentration is very small (smaller than 10310^{-3}), with possible applications to problems coming from geophysics, meteorology, and oceanography. We consider a very dilute suspension of heavy particles in a quasi-incompressible fluid (low Mach number). In our case the Stokes number is small and --as pointed out in the theory of multiphase turbulence-- we can use an Eulerian model instead of a Lagrangian one. The assumption of low concentration allows us to disregard particle--particle interactions, but we take into account the effect of particles on the fluid (two-way coupling). In this way we can study the physical effect of particle inertia (and not only passive tracers), with a model similar to the Boussinesq equations. The resulting model is used in both direct numerical simulations and large eddy simulations of a dam-break (lock-exchange) problem, which is a well-known academic test case. Keywords: Dilute suspensions, Eulerian models, direct and large eddy simulations, slightly compressible flows, dam-break (lock-exchange) problem.

Keywords

Cite

@article{arxiv.1403.5448,
  title  = {Disperse two-phase flows, with applications to geophysical problems},
  author = {Luigi Carlo Berselli and Matteo Cerminara and Traian Iliescu},
  journal= {arXiv preprint arXiv:1403.5448},
  year   = {2015}
}

Comments

28 pages, 7 figures

R2 v1 2026-06-22T03:31:36.199Z