UNTRIM HYD.DAT: Difference between revisions

Basic Information

File-Type

untrim_hyd.dat

File-Form

FORMATTED

Version

7.x / July 2003

Description-Date

November 2003

Significance of the File

contains specific input data related to the physical subsystem Hydrodynamics, Salt-, Temperature- and Suspended-Sediment-Transport of program UNTRIM.

File-Contents (in Catchwords)

1. model type for calculation or provison of hydrodynamics as well as salt and or temperature transport the following methods are possible:
   1. No_Hydrodynamic_Model

   ;

   2. Read_Hydrodynamic_Data_From_File

   ;

   3. Untrim_Hydrodynamic_Model

   : the three-dimensional numerical model UNTRIM will be applied.

2. existing files for hydrodynamics, salinity, temperature and suspended load when method Read_Hydrodynamic_Data_From_File was selected.
3. times, if the global default values which have been specified in a file of type untrim_main.dat shall be replaced by the values specified for this physical submodel; the following specifications are possible:
   • control of simulation (period and time step);
   • area-/volume oriented output of results;
   • profile oriented output of results;
   • output for specific locations;
   • output of restart data.
4. name and type of different input files; the following specifications are possible:
   • file with horizontal grid (filetype untrim_grid.dat);
   • file with vertical grid structure, which specifies the boundaries between vertical layers (filetype vertical.dat);
   • (optional) file with profile topography (filetype profil05.bin);
   • (optional) file with a list of specific locations (filetype location.dat);
   • (optional) initial condition for hydrodynamics, salinity, temperature and suspended load (filetype dirz.bin.r, dirz.bin.i and dirz.bin); in addition to the name of the file also date and time for the initial condition must be prescribed.

   Notice: for a three-dimensional simulation the results of a previous two-dimensional simulation can be used too.

   • (optional) alternative initial condition for salinity (filetype dirz.bin.r, dirz.bin.i and dirz.bin); in addition to the name of the file also date and time for the initial condition must be prescribed.

   Notice: for a three-dimensional simulation the results of a previous two-dimensional simulation can be used too.

   • (optional) alternative initial condition for temperature (filetype dirz.bin.r, dirz.bin.i and dirz.bin); in addition to the name of the file also date and time for the initial condition must be prescribed.

   Notice: for a three-dimensional simulation the results of a previous two-dimensional simulation can be used too.

   • (optional) alternative initial condition for suspended load (filetype dirz.bin.r, dirz.bin.i and dirz.bin); in addition to the name of the file also date and time for the initial condition must be prescribed.

   Notice: for a three-dimensional simulation the results of a previous two-dimensional simulation can be used too.

   • (optional) description of soil identification numbers (filetype soil.dat);
5. name and type of different boundary data files;
   • (optional) boundary data hydrodynamics (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • (optional) boundary data for salinity (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • (optional) boundary data for temperature (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • (optional) boundary data for suspended load (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • (optional) boundary data for control of weirs (not implemented at the moment);
   • (optional) discharge and salinity for sources (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • (optional) discharge for sinks (filetype dirz.bin.r, dirz.bin.i and dirz.bin).

   Notice: aforementioned files may be generated using program UTRRND.

6. name and type of different output files; the following specifications are possible:
   • area oriented output of computed results (two-dimensional) in the overall model domain or in a tile (each of the subsequent files can be optionally specified):

   • water level elevation (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • depth averaged current velocity (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • depth averaged salinity (filetype dirz.bin.r, dirz.bin.i and dirz.bin).
   • depth averaged temperature (filetype dirz.bin.r, dirz.bin.i and dirz.bin).
   • depth averaged suspended load (filetype dirz.bin.r, dirz.bin.i and dirz.bin).

   • volume oriented output of computed results (three-dimensional) in the overall model domain or in a tile (each of the subsequent files can be optionally specified):

   • current velocity (filetype dirz.bin.r, dirz.bin.i and dirz.bin);
   • salinity (filetype dirz.bin.r, dirz.bin.i and dirz.bin).
   • temperature (filetype dirz.bin.r, dirz.bin.i and dirz.bin).
   • suspended load (filetype dirz.bin.r, dirz.bin.i and dirz.bin).

   • (optional) output along profiles of computed results (depth-averaged data) along selected predefined profiles:

   • water level elevation,
   • depth averaged current velocity,
   • depth averaged salinity,
   • depth averaged temperature,
   • depth averaged suspended load,
   • depth averaged density,
   • depth averaged hydrodynamic pressure and
   • depth averaged vertical viscosity.
   • bottom shear stress

   (filetype dirz.bin.r, dirz.bin.i and dirz.bin);

   Notice: These files will be initialized with standard values immediately after opening.

   • (optional) output along profiles of computed results (three-dimensional data) along selected predefined profiles:

   • current velocity,
   • salinity,
   • temperature,
   • suspended load,
   • density,
   • hydrodynamic pressure and
   • vertical viscosity.

   (filetype dirz.bin.r, dirz.bin.i and dirz.bin);

   Notice: These files will be initialized with standard values immediately after opening.

   • (optional) output of results for specific locations, i.e. for water level elevation and depth averaged data:

   • water level elevation,
   • depth averaged current velocity,
   • depth averaged salinity,
   • depth averaged temperature,
   • depth averaged suspended load,
   • depth averaged density,
   • depth averaged hydrodynamic pressure and
   • depth averaged vertical viscosity.
   • bottom shear stress

   (filetype dirz.bin.r, dirz.bin.i and dirz.bin).

   Notice: Files contain synoptic data sets. Time series informations for specific locations can be obtained applying the program ZEITR on these data; These files will be initialized with standard values immediately after opening.

   • (optional) output of results for specific locations, i.e. for three-dimensional data:

   • current velocity,
   • salinity,
   • temperature,
   • suspended load,
   • density,
   • hydrodynamic pressure and
   • vertical viscosity.

   (filetype dirz.bin.r, dirz.bin.i and dirz.bin).

   Notice: Files contain synoptic data sets. Time series informations for specific locations can be obtained applying the program ZEITR on these data; These files will be initialized with standard values immediately after opening.

   • (optional) restart-data for hydrodynamics, salinity, temperature and suspended load (filetype dirz.bin.r, dirz.bin.i and dirz.bin). Notice: these files contain consistent synoptic data sets for the staggered computational grid and can therefore be used as initial conditions for a subsequent simulation; because they are defined on a staggered grid they cannot be used in conventional postprocessing programs.
7. specifications for horizontal grid geometry control:

   • minimum distance between centers of elements which are adjacent to one edge.

8. salt transport scheme:

   • no salt transport, and
   • simulate transport of salt.

9. temperature transport scheme:

   • no temperature transport, and
   • simulate transport of temperature.

10. suspended load transport scheme:

    • no suspended load transport, and
    • simulate transport of suspended load.

11. approximation of pressure:

    • non-hydrostatic pressure, and
    • hydrodynamic pressure.

12. approximation for horizontal viscosity/diffusivity

    • no horizontal exchange, and
    • constant (isotropic) horizontal exchange.

13. approximation for vertical viscosity/diffusivity

    • no vertical exchange,
    • constant vertical exchange, and
    • k-eps equlibrium model, Rodi (1984).

14. approximation for Coriolis-acceleration

    • no Coriolis acceleration, and
    • constant Coriolis acceleration (f-plane approximation).

15. approximation for wall friction

    • free slip,
    • partial slip, and
    • no slip.

16. flux limiter for scalar transport:

    • no flux limiter
    • Minmod
    • van Leer
    • Superbee

Notice:

• dictionary-file hyd_untrim_dico.dat, normally present in directory $PROGHOME/dic/, will be automatically read by the application program in addition to the user-specified input file.
• furthermore the following configuration files stored in the directory $PROGHOME/cfg/ are eventually automatically read by the program:

• all_2d_water_level.dat
• all_2d_velocity.dat
• all_2d_salinity.dat
• all_2d_temperature.dat
• all_2d_suspended_load.dat
• all_3d_velocity.dat
• all_3d_salinity.dat
• all_3d_temperature.dat
• all_3d_suspended_load.dat
• all_restart.dat
• locations_2d.dat
• locations_3d.dat
• profiles_2d.dat
• porfiles_3d.dat

Programs using this Type of File

UNTRIM

Example-File

please refer to $PROGHOME/examples/untrim/untrim_hyd.dat

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