A heat engine based moist convection parametrization for Jupiter

A heat engine based moist convection parametrization for Jupiter

We have developed a parametrization of Jovian moist convection based on a heat engine model of moist convection. In comparison to other moist convection schemes, this framework allows the computation of the total available convective energy TCAPE and the corresponding mass flux M as dynamic variable...

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Bibliographic Details
Published in:Planetary and space science Vol. 57; no. 13; pp. 1525 - 1537
Main Authors: Zuchowski, L.C., Read, P.L., Yamazaki, Y.H., Renno, N.O.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2009
Subjects:
Atmospheric dynamics
Jovian planets
Jupiter
Moist convection
Jupiter
Atmospheric dynamics
Jovian planets
Moist convection
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Summary:We have developed a parametrization of Jovian moist convection based on a heat engine model of moist convection. In comparison to other moist convection schemes, this framework allows the computation of the total available convective energy TCAPE and the corresponding mass flux M as dynamic variables from the mean atmospheric state. The effects of this parametrization have been investigated both analytically and numerically. In agreement with previous numerical experiments and observations, the inclusion of moist convection leads to heat and water vapor transport from the water condensation level into higher altitudes. The time development of the modeled convective events was found to be strongly influenced by a rapid reduction of kinetic energy and a subsequent lowering of the cumulus tower's top in response to convective heating. We have tested the sensitivity of the scheme to different variations in the fractional cloud coverage and under the inclusion of external radiative forcing towards a stable/unstable temperature profile. While the time development of convective events differs in response to these variations, the general moist convective heating and moistening of the upper troposphere was a robust feature observed in all experiments.
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content type line 23
ISSN:0032-0633
1873-5088
DOI:10.1016/j.pss.2009.05.008