1. | Mizerski K.A.♦, Tobias S.M.♦, The effect of stratification and compressibility on anelastic convection in a rotating plane layer, GEOPHYSICAL AND ASTROPHYSICAL FLUID DYNAMICS, ISSN: 0309-1929, DOI: 10.1080/03091929.2010.521748, Vol.105, No.6, pp.566-585, 2011Abstract:We study the effect of stratification and compressibility on the threshold of convection and the heat transfer by developed convection in the nonlinear regime in the presence of strong background rotation. We consider fluids both with constant thermal conductivity and constant thermal diffusivity. The fluid is confined between two horizontal planes with both boundaries being impermeable and stress-free. An asymptotic analysis is performed in the limits of weak compressibility of the medium and rapid rotation (τ−1/12 ≪ |θ| ≪ 1, where τ is the Taylor number and θ is the dimensionless temperature jump across the fluid layer). We find that the properties of compressible convection differ significantly in the two cases considered. Analytically, the correction to the characteristic Rayleigh number resulting from small compressibility of the medium is positive in the case of constant thermal conductivity of the fluid and negative for constant thermal diffusivity. These results are compared with numerical solutions for arbitrary stratification. Furthermore, by generalizing the nonlinear theory of Julien and Knobloch [Fully nonlinear three-dimensional convection in a rapidly rotating layer. Phys. Fluids 1999, 11, 1469–1483] to include the effects of compressibility, we study the Nusselt number in both cases. In the weakly nonlinear regime we report an increase of efficiency of the heat transfer with the compressibility for fluids with constant thermal diffusivity, whereas if the conductivity is constant, the heat transfer by a compressible medium is more efficient than in the Boussinesq case only if the specific heat ratio γ is larger than two. Keywords:Anelastic convection, Heat transfer, Compressibility Affiliations:Mizerski K.A. | - | other affiliation | Tobias S.M. | - | University of Leeds (GB) |
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