Onset of Bénard–Marangoni convection in a micropolar fluid

A linear stability analysis was conducted to assess the feasibility of using a feedback control strategy on the onset of Bénard-Marangoni convection in a micropolar fluid. The single-term Galerkin technique was used to obtain the closed-form solution for the Marangoni number M for the onset of conve

We consider a volatile fluid with a free surface. If the evaporation rate is large enough, the temperature gradient caused by latent heat may destabilize the conducting, motionless state and convection sets in. The conditions for instability are computed by means of a linear stability analysis of th

Two immiscible fluid layers that are subjected to a temperature gradient perpendicular to their interface exhibit a range of behaviors that is considerably richer than for the single-fluid case. We describe a numerical technique for calculating thermally driven flows in two fluid layers which uses a

Linear stability analysis is performed to study the effect of non-uniform basic temperature gradients on the onset of Bénard-Marangoni convection in a micropolar fluid. The influence of various parameters on the onset of convection has been analysed. The possibility of delaying the onset of convecti