3Drelief

Case description

The 3Drelief case simulates the interaction between atmospheric flow and a 3D bell-shaped mountain. This is a classic test case for orographic flow dynamics in 3D and validates the model ability to reproduce three-dimensional mountain waves and flow splitting.

Configuration

Parameter	Value
Category	Idealized cases
Dynamics	Non-hydrostatic
Horizontal grid spacing	2000 m (128x96 grid)
Integration length	10000 s (2.8 hours)
Time step	80 s
Coriolis effect	disabled
Turbulence	NONE
Cloud scheme	NONE
Deep convection	NONE
Radiation	NONE

Steps

Step	Script
001_prep_ideal	run_prep_ideal_case
002_mesonh	run_mesonh

Specificities

Scientific specificities

3D bell-shaped mountain (Gaussian hill) with height 1000m
Horizontal domain: 128x96 points (10km half-width)
72 vertical levels with 250m spacing
Open boundary conditions on all sides
Boussinesq enabled (LHE equations)
10 m/s westerly flow

Technical specificities

Nested grid (9x49 inner points for mountain)
Horizontal relaxation at boundaries (6x3 rim)
Damping layer at model top
No radiation, cloud or turbulence schemes (DNS mode)

Validation

Vertical velocity field
Wave breaking patterns
Flow splitting visualization

Numerical ressources

Single CPU (1 node, 1 core)

References

Gallus, W.A., and R.A. Ahmadov (2021): Sensitivity of simulated 24-h forecasts to horizontal resolution in the US. Atmosphere, 12, 1686.