Thermosolutal convection in a Brinkman-Darcy-Kelvin-Voigt fluid with a bidisperse porous medium

Abstract

A model for thermosolutal convection of a category of viscoelastic fluids in a bidisperse porous medium is comprehensively investigated. The Brinkman model is employed in macropores, whereas the Darcy model is utilized in micropores. In the momentum equations, the densities are considered a linear function of temperature and concentration. The concentration of solutes at equilibrium is assumed to be a linear function of temperature. There are two situations considered, where we have study systems that are heated below and salted above and heated and salted below. The fluids are of the Kelvin-Voigt type. The critical Rayleigh numbers for linear instability and nonlinear stability are computed.