A Semi-implicit Send-Lagrangian Fully Compressible Regional Forecast Model

Monique Tanguay Physics Department, University of Québec at Montréal, Canada

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André Robert Physics Department, University of Québec at Montréal, Canada

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René Laprise Physics Department, University of Québec at Montréal, Canada

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Abstract

The semi-implicit algorithm, originally developed by Robert for an economical integration of the primitive equations in large-scale models of the atmospheric, is here generalized in order to integrate the fully compressible, nonhydrostatic equations. We show that there is little computational overhead associated with the integration of the full, and hence presumably more correct, set of equations that do not invoke the hydrostatic assumption to exclude the high frequency, vertically propagating acoustic modes.

Abstract

The semi-implicit algorithm, originally developed by Robert for an economical integration of the primitive equations in large-scale models of the atmospheric, is here generalized in order to integrate the fully compressible, nonhydrostatic equations. We show that there is little computational overhead associated with the integration of the full, and hence presumably more correct, set of equations that do not invoke the hydrostatic assumption to exclude the high frequency, vertically propagating acoustic modes.

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