GMS:HydroGeoSphere Coverages: Difference between revisions

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There are three coverages that are specific to the HydroGeoSphere model: boundary conditions, observations, and hydrographs. The coverage type is set by right-clicking on a coverage in the Project Explorer and selecting ''Coverage Type''→'''HydroGeoSphere''', and then selecting the desired coverage from the right-click menu.
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There are three coverages types that are specific to a HydroGeoSphere model: boundary conditions, observations, and hydrographs. The coverage type is set by right-clicking on a coverage in the Project Explorer and selecting ''Coverage Type''→'''HydroGeoSphere''', and then selecting the desired coverage from the right-click menu.


After features on the HydroGeoSphere have been defined, the coverages need to be mapped to the HydroGeoSphere. This is done by right-clicking on the coverage and selecting the ''Apply to'' submenu then selecting the desired simulation. Coverages that are not applied to a HydroGeoSphere simulation will not have the properties in the coverage included in the simulation run.
When features on the HydroGeoSphere coverage have been defined, the coverages need to be mapped to the HydroGeoSphere simulation. This is done by right-clicking on the coverage and selecting the ''Apply to'' submenu then selecting the desired simulation. Coverages that are not applied to a HydroGeoSphere simulation will not have the properties in the coverage included in the simulation run.


==Boundary Conditions Coverage==
==Boundary Conditions Coverage==
GMS uses feature objects to define the boundary conditions on a HydroGeoSphere boundary conditions coverage. This includes points, arcs, and polygons. Each of these feature objects type have their own unique properties dialog where the parameters are set. GMS uses this coverage to pin point all the grid components associated with the boundary conditions so they can be included in the HydroGeoSphere simulation run.
GMS uses feature objects to define the boundary conditions on a HydroGeoSphere boundary conditions coverage. This includes points, arcs, and polygons. Each of these feature objects type have their own unique properties dialog where the parameters are set. GMS uses this coverage to pin point all the grid components associated with the boundary conditions so they can be included in the HydroGeoSphere simulation run. “Vertical range” is now an available option and, if it’s set to “Top/bottom elevations”, there are “Top elevation” and “Bottom elevation” options.
* ''Vertical range'' – Vertical range for porous media.
**"Max/min node sheets" – Boundary conditions will be applied between the minimum and maximum node sheets.
*** ''Maximum sheet'' – Value for the maximum node sheets.
*** ''Minimum sheet'' – Value for the minimum node sheets.
**"Top/bottom elevations" – Boundary conditions will be applied between the top and bottom elevations.
***''Top elevation'' – Value for the top elevation.
***''Bottom elevation'' –  Value for the bottom elevation.
 
For boundary condition coverages, the type of feature object and the type of boundary condition determines the type of UGrid component (point, face, or segment) that the boundary condition is mapped to.


==Observations Coverage==
==Observations Coverage==
GMS allows recording of observation data from the HydroGeoSphere model run through observation points on a HydroGeoSphere observations coverage. After an observation point is created, GMS outputs timeseries information specific to the observation point during the simulation run. To create an observation point, select a point to designate as an observation point and set the parameters inside the ''Point Properties'' dialog. The coverage then needs to be added to the simulation.
This coverage type allows for the creation of observation points. HydroGeoSphere will output time series information at each observation point. Points can be anywhere and don’t need to be coincident with UGrid points in XY.


==Hydrographs Coverage==
==Hydrographs Coverage==
GMS allows recording of hydrograph data from the HydroGeoSphere model run. This requires that "Hydrograph" is set as the parameter for an arc or point on a HydroGeoSphere hydrograph coverage, which is done inside the ''Arc Properties'' dialog or the ''Point Properties'' dialog, respectively. The coverage then needs to be added to the simulation. Upon the simulation run, GMS will output detailed flow rate information at each time step for each feature object that has been assigned a hydrograph.
This coverage type allows for arcs to be designated as hydrographs. HydroGeoSphere outputs detailed flow rate information for each grid node coincident with hydrograph arcs. Assigning "hydrograph" to an arc causes HydroGeoSphere to record hydrograph data during the model run. The coverage then needs to be added to the simulation. Upon the completing the simulation run, HGS will output detailed flow rate information at each time step for each arc that has been assigned a hydrograph. Hydrograph arcs need to be coincident with UGrid points and vertical faces in XY.


==Related Topics==
==Related Topics==
* [[GMS:HydroGeoSphere|HydroGeoSphere]]
* [[GMS:HydroGeoSphere|HydroGeoSphere]]
* [[GMS:HGS Arc Properties|Arc Properties]]
* [[GMS:HydroGeoSphere Arc Properties|Arc Properties]]
* [[GMS:HGS Point Properties|Point Properties]]
* [[GMS:HydroGeoSphere Point Properties|Point Properties]]
* [[GMS:HGS Polygon Properties|Polygon Properties]]
* [[GMS:HydroGeoSphere Polygon Properties|Polygon Properties]]




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[[Category:HydroGeoSphere|cov]]
[[Category:HydroGeoSphere|cov]]

Latest revision as of 22:17, 7 July 2024

HydroGeoSphere
Models & Tools
HGS Simulation Control
HGS Materials
HGS Coverages
HGS Arc Properties
HGS Point Properties
HGS Polygon Properties
HGS Renumber UGrid

There are three coverages types that are specific to a HydroGeoSphere model: boundary conditions, observations, and hydrographs. The coverage type is set by right-clicking on a coverage in the Project Explorer and selecting Coverage TypeHydroGeoSphere, and then selecting the desired coverage from the right-click menu.

When features on the HydroGeoSphere coverage have been defined, the coverages need to be mapped to the HydroGeoSphere simulation. This is done by right-clicking on the coverage and selecting the Apply to submenu then selecting the desired simulation. Coverages that are not applied to a HydroGeoSphere simulation will not have the properties in the coverage included in the simulation run.

Boundary Conditions Coverage

GMS uses feature objects to define the boundary conditions on a HydroGeoSphere boundary conditions coverage. This includes points, arcs, and polygons. Each of these feature objects type have their own unique properties dialog where the parameters are set. GMS uses this coverage to pin point all the grid components associated with the boundary conditions so they can be included in the HydroGeoSphere simulation run. “Vertical range” is now an available option and, if it’s set to “Top/bottom elevations”, there are “Top elevation” and “Bottom elevation” options.

  • Vertical range – Vertical range for porous media.
    • "Max/min node sheets" – Boundary conditions will be applied between the minimum and maximum node sheets.
      • Maximum sheet – Value for the maximum node sheets.
      • Minimum sheet – Value for the minimum node sheets.
    • "Top/bottom elevations" – Boundary conditions will be applied between the top and bottom elevations.
      • Top elevation – Value for the top elevation.
      • Bottom elevation – Value for the bottom elevation.

For boundary condition coverages, the type of feature object and the type of boundary condition determines the type of UGrid component (point, face, or segment) that the boundary condition is mapped to.

Observations Coverage

This coverage type allows for the creation of observation points. HydroGeoSphere will output time series information at each observation point. Points can be anywhere and don’t need to be coincident with UGrid points in XY.

Hydrographs Coverage

This coverage type allows for arcs to be designated as hydrographs. HydroGeoSphere outputs detailed flow rate information for each grid node coincident with hydrograph arcs. Assigning "hydrograph" to an arc causes HydroGeoSphere to record hydrograph data during the model run. The coverage then needs to be added to the simulation. Upon the completing the simulation run, HGS will output detailed flow rate information at each time step for each arc that has been assigned a hydrograph. Hydrograph arcs need to be coincident with UGrid points and vertical faces in XY.

Related Topics