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Numerical activities in COSMO; Physics interface; LM-z Zurich 2006 J. Steppeler (DWD)

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Presentation on theme: "Numerical activities in COSMO; Physics interface; LM-z Zurich 2006 J. Steppeler (DWD)"— Presentation transcript:

1 Numerical activities in COSMO; Physics interface; LM-z Zurich 2006 J. Steppeler (DWD)

2 Is there a vision towards 2010? Energy and Mass conservation Approximation order 3 avoiding violation of approximation conditions: Rational physics interface Terrain intersecting grid (cut cell method) Serendipidity grids Grids on the sphere

3 NP=3 NP=4 NP=5 Cube 4-body Isocahedron Rhomboidal divisions of the sphere

4 Third order convergence of shallow water model at day 3

5 Numerical activities in COSMO Semi-Implicit method on distributed memory computers using Green functions Two main projects LM_RK: Runge Kutta time integration, Order 3 LM_Z: Cut cell terrain intersecting discretisation

6 Finite Volumes: 1 Baumgardner Order2: 1 Baumgardner Order3: 1 Great circle grids: RK, SI, SL1 now3 seem possible Tiled grids: 1.5 Serendipidity grids3 Unstructured1/1.3 Conservation 1/2 Saving factors of Discretisations

7 Idealized 1D advection test analytic sol. implicit 2. order implicit 3. order implicit 4. order C=1.5 80 timesteps C=2.5 48 timesteps Verbesserte Vertikaladvektion für dynamische Var. u, v, w, T, p‘

8 case study ‚25.06.2005, 00 UTC‘ total precipitation sum after 18 h with vertical advection 2. order difference total precpitation sum after 18 h ‚vertical advection 3. order – 2. order‘ Improved vertical advektion for dynamic var. u, v, w, T, p‘

9 starting point after 1 h modified version: pressure gradient on z-levels, if |metric term| > |terrain follow. term| cold pool – problem in narrow valleys is essentially induced by pressure gradient term T (°C) J. Förstner, T. Reinhardt

10 Coordinates cut into mountains The finite volume cut cell is used for discretisation / unstructured grid Boundary structures are kept over mountains (vertically unstructured The violation of an approximation error is avoided LM_Z

11 The step-orography i - 1/2 j - 1/2 j + 1/2 j - 1/2 i + 1/2 j + 1/2 i, j Shaved elements The shaved elements are mathematically more correct than step boundaries By shaved elements the z- coordinate is improved such that the criticism of Gallus and Klemp (2000), Mon. Wea. Rev. 128, 1153- 1164 no longer applies New results: MWR, in print

12 Flow around bell shaped mountain Atmosphere at rest

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16 LM_Z: RMS of Winds and temp. against radiosondes Frequ. Bias and threat score

17 Precipitation

18 Conclusions Existing physics interfaces and terrain following grids violate approximation conditions LM_RK: High order approximation LM_Z: Terrain intersecting method taken over from CFD Better flow over obstacles Better vertical velocities and precipitation

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