Difference between revisions of "Nesting models"
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UNITS : m/s | UNITS : m/s | ||
DIMENSION : 2D | DIMENSION : 2D | ||
| − | + | ||
OUTPUT_HDF : 1 | OUTPUT_HDF : 1 | ||
| − | + | ||
<<begin_field>> | <<begin_field>> | ||
DEFAULTVALUE : 0 ! will not be read! | DEFAULTVALUE : 0 ! will not be read! | ||
TYPE_ZUV : z | TYPE_ZUV : z | ||
<<end_field>> | <<end_field>> | ||
| − | + | ||
<<begin_coef>> | <<begin_coef>> | ||
DEFAULTVALUE : 1e9 | DEFAULTVALUE : 1e9 | ||
| Line 117: | Line 117: | ||
<<end_coef>> | <<end_coef>> | ||
<endproperty> | <endproperty> | ||
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| − | |||
<beginproperty> | <beginproperty> | ||
NAME : barotropic velocity V | NAME : barotropic velocity V | ||
| Line 125: | Line 124: | ||
OUTPUT_HDF : 1 | OUTPUT_HDF : 1 | ||
| − | + | ||
<<begin_field>> | <<begin_field>> | ||
DEFAULTVALUE : 0! will not be read! | DEFAULTVALUE : 0! will not be read! | ||
TYPE_ZUV : z | TYPE_ZUV : z | ||
<<end_field>> | <<end_field>> | ||
| − | + | ||
<<begin_coef>> | <<begin_coef>> | ||
DEFAULTVALUE : 1e9 | DEFAULTVALUE : 1e9 | ||
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<<end_coef>> | <<end_coef>> | ||
<endproperty> | <endproperty> | ||
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| − | |||
<beginproperty> | <beginproperty> | ||
NAME : water level | NAME : water level | ||
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TYPE_ZUV : z | TYPE_ZUV : z | ||
<<end_field>> | <<end_field>> | ||
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<<begin_coef>> | <<begin_coef>> | ||
DEFAULTVALUE : 1e9 | DEFAULTVALUE : 1e9 | ||
| Line 160: | Line 158: | ||
<<end_coef>> | <<end_coef>> | ||
<endproperty> | <endproperty> | ||
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<beginproperty> | <beginproperty> | ||
NAME : velocity U | NAME : velocity U | ||
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DIMENSION : 3D | DIMENSION : 3D | ||
OUTPUT_HDF : 1 | OUTPUT_HDF : 1 | ||
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!COLD_RELAX_PERIOD : 43200. | !COLD_RELAX_PERIOD : 43200. | ||
!COLD_ORDER : 5 | !COLD_ORDER : 5 | ||
| Line 183: | Line 181: | ||
<<end_coef>> | <<end_coef>> | ||
<endproperty> | <endproperty> | ||
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<beginproperty> | <beginproperty> | ||
NAME : velocity V | NAME : velocity V | ||
Latest revision as of 11:44, 23 October 2017
Here is a guide on configuring MOHID Water with nested models.
Contents
In MOHID GUI
- Create a new project in MOHID GUI,
- Create a Model by inserting a new Simulation,
- Setup your model
- Create a Submodel by inserting a new Simulation from the current Simulation. The new simulation should fold into the previous one.
- Setup the model
Setting up the files
The whole issue is how to define the open-boundary conditions for the submodel and the relaxation condition. Basically we suggest to use a Flather radiation condition at the open boundaries that will radiate the water level and the barotropic flux in conjunction with a flow relaxation scheme spanning a few cells from the open-boundaries to the interior for the velocities (u and v).
Keywords in Hydrodynamic.dat
In the submodel hydrodynamic file
SUBMODEL : 1 !Flather radiation scheme using the father model as a reference solution. RADIATION : 2 LOCAL_SOLUTION : 5 ! Submodel + assimilation(relaxes the solution to the father(courser grid) domain Other options for LOCAL_SOLUTION include: 1 - NoLocalSolution_, 2 - Submodel_, 3 - AssimilationField_, 4 - Gauge_, 5 - AssimilaPlusSubModel_, 6 - GaugePlusSubModel_, 7 -AssimilaGaugeSubModel_ !Activate the Flow relaxation scheme: DATA_ASSIMILATION : 1 BRFORCE : 1 ! relaxation of the baroclinic force Only if these keywords are activated will the assimilation be read!.
Keywords in Assimilation.dat
In the submodel assimilation file (assimilation.dat):
If the Keywords SUBMODEL, BRFORCE and DATA_ASSIMILATION are active and LOCAL_SOLUTION is 2 then the block <<begin_field>> will not be read because the assimilation will be done using the father model results.
Example with LOCAL_SOLUTION = 5
<beginproperty> NAME : velocity U UNITS : m/s DIMENSION : 3D OUTPUT_HDF : 1 COLD_RELAX_PERIOD : 432000 COLD_ORDER : 5 <<begin_field>> DEFAULTVALUE : 0 INITIALIZATION_METHOD : HDF FILE_IN_TIME : HDF FILENAME : ../../GeneralData/Reference_vel_U.hdf5 TYPE_ZUV : z <<end_field>> <<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : u FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : ASCII_FILE FILENAME : ../../GeneralData/RelaxationCoefs_U.dat <<end_coef>> <endproperty> <beginproperty> NAME : velocity V UNITS : m/s DIMENSION : 3D OUTPUT_HDF : 1 COLD_RELAX_PERIOD : 432000 COLD_ORDER : 5 <<begin_field>> DEFAULTVALUE : 0 INITIALIZATION_METHOD : HDF FILE_IN_TIME : HDF FILENAME : ../../GeneralData/Reference_vel_V.hdf5 TYPE_ZUV : z <<end_field>> <<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : v FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : ASCII_FILE FILENAME : ../../GeneralData/RelaxationCoefs_V.dat <<end_coef>> <endproperty>
Example 2: LOCAL_SOLUTION = 2 (only relaxes to father domain)
<beginproperty> NAME : barotropic velocity U UNITS : m/s DIMENSION : 2D
OUTPUT_HDF : 1
<<begin_field>> DEFAULTVALUE : 0 ! will not be read! TYPE_ZUV : z <<end_field>>
<<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : u FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : SPONGE <<end_coef>> <endproperty>
<beginproperty> NAME : barotropic velocity V UNITS : m/s DIMENSION : 2D OUTPUT_HDF : 1
<<begin_field>> DEFAULTVALUE : 0! will not be read! TYPE_ZUV : z <<end_field>>
<<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : u FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : SPONGE <<end_coef>> <endproperty>
<beginproperty> NAME : water level UNITS : m DIMENSION : 2D OUTPUT_HDF : 1 <<begin_field>> DEFAULTVALUE : 0! will not be read! TYPE_ZUV : z <<end_field>>
<<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : u FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : SPONGE <<end_coef>> <endproperty>
<beginproperty> NAME : velocity U UNITS : m/s DIMENSION : 3D OUTPUT_HDF : 1
!COLD_RELAX_PERIOD : 43200. !COLD_ORDER : 5
<<begin_field>> DEFAULTVALUE : 0! will not be read! TYPE_ZUV : z <<end_field>>
<<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : u FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : SPONGE <<end_coef>> <endproperty>
<beginproperty> NAME : velocity V UNITS : m/s DIMENSION : 3D OUTPUT_HDF : 1
!COLD_RELAX_PERIOD : 43200. !COLD_ORDER : 5
<<begin_field>> DEFAULTVALUE : 0! will not be read! TYPE_ZUV : z <<end_field>>
<<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : v FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : SPONGE <<end_coef>> <endproperty>
<beginproperty> NAME : vertical z UNITS : m DIMENSION : 3D OUTPUT_HDF : 1
!COLD_RELAX_PERIOD : 43200. !COLD_ORDER : 5
<<begin_field>> DEFAULTVALUE : 0! will not be read! TYPE_ZUV : z <<end_field>>
<<begin_coef>> DEFAULTVALUE : 1e9 TYPE_ZUV : z FILE_IN_TIME : NONE REMAIN_CONSTANT : 1 INITIALIZATION_METHOD : SPONGE <<end_coef>> <endproperty>
