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Short communication, Note

Large-scale modes of the tropical atmosphere. Part II: analytical modeling of Kelvin waves using the CAPE closure

Željka Fuchs
Antun Marki


Full text: english pdf 149 Kb

page 43-55

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Abstract

The thermal assumption of the model is based on the convective available potential energy (CAPE) closure, i.e. increased CAPE, represented by decreased midlevel potential temperature, results in increased precipitation. The dynamic assumption of the model is that the vertical heating profile has the shape of the first baroclinic mode, while the vertical dependence of modeled fields is calculated, i.e. the model is vertically resolved. The modeled modes are free Kelvin waves and convectively coupled Kelvin waves. It is shown that the CAPE closure is not sufficient to produce the observed destabilization of the Kelvin mode, but that the dynamical properties of the model give the observed phase speeds.

Keywords

CAPE; Kelvin waves

Hrčak ID:

16717

URI

https://hrcak.srce.hr/16717

Publication date:

10.6.2007.

Article data in other languages: croatian

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