Journal ArticleDOI
On the non-hydrostatic equations in pressure and sigma coordinates
M. J. Miller,A. A. White +1 more
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In this article, a quasi-non-hydrostatic version of Miller's equations were derived by applying a systematic scale analysis and power series expansion, and the results showed that these equations are the pressure coordinate counterparts of the anelastic height coordinate equations obtained by Y. Ogura and N. A. Phillips in 1962.Abstract:
The non-hydrostatic equations governing the inviscid, adiabatic motion of a perfect gas are formulated using pressure as vertical coordinate; and M. J. Miller's 1974 approximate quasi-non-hydrostatic pressure coordinate equations are derived by applying a systematic scale analysis and power series expansion. The derivation makes clear that these equations are the pressure coordinate counterparts of the anelastic height coordinate equations obtained by Y. Ogura and N. A. Phillips in 1962. The two sets cannot be interconverted by coordinate transformation and so they are not physically equivalent; but the differences are small at the order of validity of both sets. Consideration of a quasi-hydrostatic approximation emphasizes the non-hydrostatic character of Miller's equations. Sigma coordinate quasi-non-hydrostatic equations are obtained by direct transformation of the pressure coordinate forms, and consistent energy equations are derived for both sets. Convenient diagnostic partial differential equations for the geopotential field are obtained for both pressure and sigma coordinate forms. As shown by Miller, the quasi-non-hydrostatic formulation does not permit vertically propagating acoustic waves. Horizontally propagating acoustic waves (Lamb waves) are in general allowed, but can be removed from the pressure coordinate system by applying suitable boundary conditions. Some aspects of the treatment of the Lamb wave problem are corrected in this study. The quasi-non-hydrostatic sigma coordinate system permits Lamb waves, but it may still be considered suitable for convective and (especially) mesoscale modelling with or without orography. The possible use of the quasi-non-hydrostatic system in large-scale theory and modelling is also discussed.read more
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References
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Journal ArticleDOI
A coordinate system having some special advantages for numerical forecasting
Journal ArticleDOI
Scale Analysis of Deep and Shallow Convection in the Atmosphere
TL;DR: In this article, Batchelor's approximate equations of motion were derived by a formal scale analysis, with the assumption that the percentage range in potential temperature is small and that the time scale is set by the Brunt-Vaisala frequency.
Journal ArticleDOI
On the use of a coordinate transformation for the solution of the Navier-Stokes equations
TL;DR: In this article, the equations of fluid motion have been formulated in a generalized noncartesian, nonorthogonal coordinate system and a particular coordinate transformation which transforms a domain with an irregular lower boundary into a cube has been constructed.
Journal ArticleDOI
The dynamics and simulation of tropical cumulonimbus and squall lines
TL;DR: In this article, the authors combine theoretical analysis and numerical simulation to produce a dynamical model of tropical cumulonimbus convection which features a close cooperation between the updraught and downdraught circulations.
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A small-scale dynamic model using a terrain-following coordinate transformation
TL;DR: In this article, a three-dimensional finite-difference model of air flow over an irregular lower surface is described, and the model is nonhydrostatic and the anelastic approximation has been used to filter sound waves.