Benard convection in a water layer heated from below is studied numerically
for cases with and without density inversion. Calculations were carried ou
t for varying the temperature difference between the top and bottom walls.
Moreover, for the case where density inverses, the aspect ratio was also in
corporated into parameters. When density inversion occurs, the number of ce
lls takes a maximum value at the commencement of the convection, which equa
ls double the inverse of the aspect ratio, and exhibits a tendency to decre
ase as the Rayleigh number increases. The Nusselt number for the case with
density inversion is smaller than that for no density inversion because a s
tagnant region forms at the top of the cavity behaves as a thermal resistan
ce. However, the difference in the Nusselt number decreases as the Rayleigh
number increases. Further, an approximate model is proposed to predict the
heat transfer rate and the critical Rayleigh number for the case with the
density-inverting system. The predicted critical Rayleigh number shows good
agreement with numerical one.