1 | em_quarter_ss test case: |
---|
2 | |
---|
3 | This test case produces a simulation of a supercell |
---|
4 | thunderstorm. The environmental wind makes a |
---|
5 | "quarter circle" when plotted on a hodograph, and |
---|
6 | is commonly referred to as "quarter circle shear". |
---|
7 | "ss" refers to "super-cell". |
---|
8 | |
---|
9 | The default version of this test case uses a constant |
---|
10 | eddy viscosity for turbulent mixing -> |
---|
11 | diff_opt=1 and km_opt = 1 in namelist.input. |
---|
12 | The Coriolis terms in the model are off (f = 0) |
---|
13 | |
---|
14 | The prognostic TKE can be activated by setting |
---|
15 | diff_opt=2 and km_opt = 2 (see README.namelist). |
---|
16 | |
---|
17 | In idealized cloud model simulations, it is common practice |
---|
18 | to use Coriolis forcing calculated from wind fields defined |
---|
19 | as perturbations from the initial sounding. This option |
---|
20 | can be activated by setting the "dynamics" namelist option |
---|
21 | "pert_coriolis = .true." (the default is false). |
---|
22 | Additionally, the value of the Coriolis parameter "f" |
---|
23 | will need to be reset (from zero to the desired value) |
---|
24 | in WRFV1/dyn_em/module_initialize_quarter_ss.F, and |
---|
25 | the initial state recomputed. |
---|
26 | |
---|
27 | Also, a constant surface drag and heat flux can be specified |
---|
28 | in the TKE formulation by setting the "dynamics" namelist option |
---|
29 | "tke_drag_coefficient = Cd", |
---|
30 | "tke_heat_flux = S". |
---|
31 | The default values are zero. Please note that these are |
---|
32 | specified constants; the formulations do not make use of |
---|
33 | similarity theory. These momentum and heat fluxes will |
---|
34 | not be active if surface and boundary layer formulations are |
---|
35 | activated in the model physics. |
---|
36 | |
---|