A Lorenz-like model for the horizontal convection flow

Abstract
In this work we study a finite dynamical system for the description of the bifurcation pattern of the convection flow of a fluid between two parallel horizontal planes which undergoes a {\em horizontal} gradient of temperature ({\em horizontal} convection flow). Although in the two-dimensional case developed here,literature reports as well a long list of analytical and numerical solutions to this problem, the peculiar aim of this work makes it worthwhile. Actually we develop the route that Saltzman (1962) \cite{Sal62} and Lorenz (1963) \cite{Lor63} proposed for the {\em vertical} convection flow that started successfully the approach to finite dynamical systems. We obtain steady-to-steady and steady-to-periodic bifurcations in qualitative agreement with already published results. At first we adopt the non-dimensional scheme used by Saltzman and Lorenz; as it admits also physically meaningless solutions, we introduce a different set of reference quantities so overcoming this drawback.
Anno
2003
Autori IAC
Tipo pubblicazione
Altri Autori
Bucchignani E., Georgescu A., Mansutti D.
Editore
Pergamon Press.
Rivista
International journal of non-linear mechanics