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MESOSCOP

swMATH ID: 9084
Software Authors: Schumann, Ulrich; Volkert, Hans
Description: An atmospheric mesoscale model: treatment of hydrostatic flows and application to flows with hydraulic jumps. For numerical simulation of three-dimensional atmospheric flows at micro- and mesoscales a finite-difference method has been developed (program MESOSCOP). In its non-hydrostatic variant it requires the inversion of an elliptic (Poisson) equation. Here we describe an alternative which applies the hydrostatic approximation and thus avoids the elliptic equation. It has been found, however, that the hydrostatic version requires smaller time steps for stability. The method is applied to investigate the formation of hydraulic jumps in shallow nonlinear fluid flow over a mountain ridge on a rotating plane. By scale analysis and numerical experiments it is shown that the effect of rotation is negligible essentially if \(Fsp 2/Rsb 0\) is small, where \(F\) is the Froude number and \(Rsb 0\) the Rossby number.
Homepage: http://elib.dlr.de/82384/1/atospheric_mesoscale.pdf
Keywords: three-dimensional atmospheric flows; micro- and mesoscales; finite-difference method; hydrostatic approximation; hydraulic jumps; shallow nonlinear fluid flow; mountain ridge; rotating plane
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