GMS:Building a SEAWAT Model: Difference between revisions

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===Grid Approach===
===Grid Approach===


Although it is not always the most efficient approach, a SEAWAT simulation can be completely defined using only the tools in the 3D Grid module.  To build a SEAWAT model with this approach you must first create a MODFLOW model using the [[GMS:MODFLOW Grid Approach|grid approach]].  If using transport, an MT3D model is then created, and then a [[GMS:SEAWAT|SEAWAT]] model is created.  For each of the 3 models the properties and concentrations at sources/sinks [[GMS:Cell Properties|assigned directly to the cells]].  Any SEAWAT [[GMS:SEAWAT Global Options Dialog|MODFLOW AUX Variables]] are assigned using the MODFLOW package dialogs.  SEAWAT specific packages can be set using the [[GMS:SEAWAT Packages|VDF or VSC package]] dialogs.
Although it is not always the most efficient approach, a SEAWAT simulation can be completely defined using only the tools in the 3D Grid module.  To build a SEAWAT model with this approach, first create a MODFLOW model using the [[GMS:MODFLOW Grid Approach|grid approach]].  If using transport, an MT3DMS model is then created, and then a [[GMS:SEAWAT|SEAWAT]] model is created.  For each of the three models the properties and concentrations at sources/sinks are [[GMS:Cell Properties|assigned directly to the cells]].  Any SEAWAT [[GMS:SEAWAT Global Options Dialog|MODFLOW AUX variables]] are assigned using the MODFLOW package dialogs.  SEAWAT specific packages can be set using the [[GMS:SEAWAT Packages|VDF or VSC package]] dialogs.


===Conceptual Model Approach===
===Conceptual Model Approach===
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# If the simulation includes transport, return to the [[GMS:Map Module|Map module]]. Edit the properties of the conceptual model to include transport. Assign concentrations to the sources/sinks in the conceptual model where necessary. Also define [[GMS:Coverages|polygonal zones]] describing layer data including porosity, longitudinal dispersivity, sorption constants, rate constants, and bulk density.
# If the simulation includes transport, return to the [[GMS:Map Module|Map module]]. Edit the properties of the conceptual model to include transport. Assign concentrations to the sources/sinks in the conceptual model where necessary. Also define [[GMS:Coverages|polygonal zones]] describing layer data including porosity, longitudinal dispersivity, sorption constants, rate constants, and bulk density.
# Select the ''Feature Objects'' | '''Map → MT3DMS''' command to automatically assign the MT3DMS data to the appropriate cells in the grid.
# Select the ''Feature Objects'' | '''Map → MT3DMS''' command to automatically assign the MT3DMS data to the appropriate cells in the grid.
# Enable SEAWAT in the MODEL interfaces dialog and [[GMS:SEAWAT Global Options Dialog|create a SEAWAT simulation]].
# Enable SEAWAT in the [[GMS:Edit Menu#Model Interface|''Model Interfaces'']] dialog and [[GMS:SEAWAT Global Options Dialog|create a SEAWAT simulation]].
# Edit the MODFLOW AUX variables, VDF, and VSC packages if necessary.
# Edit the MODFLOW AUX variables, VDF, and VSC packages if necessary.
# Use the SEAWAT model checker to check the simulation for any errors or warnings.
# Use the SEAWAT model checker to check the simulation for any errors or warnings.

Latest revision as of 15:59, 19 October 2017

SEAWAT
Model Info
Model type 3D Flow and Transport Model
Developer USGS
Documentation SEAWAT Manual
Tutorials SEAWAT Tutorials

Grid Approach

Although it is not always the most efficient approach, a SEAWAT simulation can be completely defined using only the tools in the 3D Grid module. To build a SEAWAT model with this approach, first create a MODFLOW model using the grid approach. If using transport, an MT3DMS model is then created, and then a SEAWAT model is created. For each of the three models the properties and concentrations at sources/sinks are assigned directly to the cells. Any SEAWAT MODFLOW AUX variables are assigned using the MODFLOW package dialogs. SEAWAT specific packages can be set using the VDF or VSC package dialogs.

Conceptual Model Approach

To create a SEAWAT using a conceptual model:

  1. Construct a MODFLOW conceptual model, create a grid, and convert the conceptual model data to the MODFLOW data defined at the grid cells.
  2. Run the MODFLOW simulation to make sure it is working properly.
  3. If the simulation includes transport, return to the Map module. Edit the properties of the conceptual model to include transport. Assign concentrations to the sources/sinks in the conceptual model where necessary. Also define polygonal zones describing layer data including porosity, longitudinal dispersivity, sorption constants, rate constants, and bulk density.
  4. Select the Feature Objects | Map → MT3DMS command to automatically assign the MT3DMS data to the appropriate cells in the grid.
  5. Enable SEAWAT in the Model Interfaces dialog and create a SEAWAT simulation.
  6. Edit the MODFLOW AUX variables, VDF, and VSC packages if necessary.
  7. Use the SEAWAT model checker to check the simulation for any errors or warnings.

See also