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Large-scale numerical simulations: Convection in an annular channel rotating about a vertical axis with side-walls

Published online by Cambridge University Press:  01 April 2008

Yingli Chang  and
Yu Liu
Yingli Chang
Affiliation:
Shanghai fisheries university.334Jungong Road, Shanghai 200090, China
Yu Liu
Affiliation:
Shanghai Astronomical Observatory, 80 Nandan Road, Shanghai, China Graduate University of Chinese Academy of Science, China email: [email protected]
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Abstract

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For the purpose of understanding the dynamics of planetary atmospheres, we use the annular convection model to simulate the dynamics of atmospheres of Jupiter and Saturn. The model (annular channel) rotates about a vertical axis with side-walls, and it is heated from below.

We use the software NaSt3DGP (a parallel software package to solve the 3D incompressible fluid dynamic problems in Cartesian coordinates by using Finite Difference Method) for the computation. It's reliability is tested by our application to simulate fully three-dimensional nonlinear convection in a box with lateral stress-free side-walls, uniformly heated from below. We found that, at moderately large Rayleigh numbers, the complex formation of multiple-jet flows can be maintained by the traveling convective eddies; we also found that the type of the sidewall velocity condition does not play an essential role in determining the primary properties of strongly nonlinear convection.

Keywords

Solverrotationannular channelsimulation convection
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 4 , Symposium S252: The Art of Modeling Stars in the 21st Century , April 2008 , pp. 111 - 112
Copyright
Copyright © International Astronomical Union 2008

References

Busse, F. H. 1970, J. Fluid Mech. 10, 441460CrossRefGoogle Scholar
Liao, X., Zhang, K., & Chang, Y. 2005, Geophys. Astrophys. Fluid Dyn. 99, 441460CrossRefGoogle Scholar
Davies-Jones, R. P. & Gilman, P. A. 1971, J. Fluid Mech. 46, 6581CrossRefGoogle Scholar