Onset of fully compressible convection in a rapidly rotating spherical shell

Shuang Liu University of Science and Technology of China Zhenhua Wan University of Science and Technology of China Rui Yan University of Science and Technology of China Chao Sun Tsinghua University Dejun Sun University of Science and Technology of China

Fluid Dynamics and Shock Waves mathscidoc:2205.14011

Journal of Fluid Mechanics, 873, 2019.8
The onset of thermal convection in a rapidly rotating spherical shell is studied by linear stability analysis based on the fully compressible Navier-Stokes equations. Compressibility is quantified by the number of density scale heights N-rho, which measures the intensity of density stratification of the motionless, polytropic base state. The nearly adiabatic flow with polytropic index n = 1.499 < na = 1.5 is considered, where na is the adiabatic polytropic index. By investigating the stability of the base state with respect to the disturbance of specified wavenumber, the instability process is found to be sensitive to the Prandtl number Pr and to N-rho. For large Pr and small N-rho, the quasi-geostrophic columnar mode loses stability first; while for relatively small Pr a new quasi-geostrophic compressible mode is identified, which becomes unstable first under strong density stratification. The inertial mode can also occur first for relatively small Pr and a certain intensity of density stratification in the parameter range considered. Although the Rayleigh numbers Ra for the onsets of the quasi-geostrophic compressible mode and columnar mode are different by several orders of magnitude, we find that they follow very similar scaling laws with the Taylor number. The critical Ra for convection onset is found to be always positive, in contrast with previous results based on the widely used anelastic model that convection can occur at negative Ra. By evaluating the relative magnitude of the time derivative of density perturbation in the continuity equation, we show that the anelastic approximation in the present system cannot be applied in the small-Ra and large-N-rho regime.
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@inproceedings{shuang2019onset,
  title={Onset of fully compressible convection in a rapidly rotating spherical shell},
  author={Shuang Liu, Zhenhua Wan, Rui Yan, Chao Sun, and Dejun Sun},
  url={http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20220517144455774734227},
  booktitle={Journal of Fluid Mechanics},
  volume={873},
  year={2019},
}
Shuang Liu, Zhenhua Wan, Rui Yan, Chao Sun, and Dejun Sun. Onset of fully compressible convection in a rapidly rotating spherical shell. 2019. Vol. 873. In Journal of Fluid Mechanics. http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20220517144455774734227.
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