GMS:FEMWATER Conceptual Model Approach: Difference between revisions

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{{FEMWATER Links}}
#REDIRECT [[GMS:Building a FEMWATER Model]]
The preferred method for setting up a FEMWATER simulation is to use the  feature object tools in the [[GMS:Map Module|Map module]] to define a FEMWATER conceptual model of a site being studied. The conceptual model is a  high-level description of the site including sources/sinks, the boundary of the  domain to be modeled, rainfall and seepage zones, and material zones within each  of the layers. The conceptual model is defined with [[GMS:Feature Objects|feature objects]], including points, arcs, and polygons, and is constructed  independently of a numerical grid. Once the conceptual model is complete, a mesh  is automatically constructed to fit the conceptual model, and the FEMWATER data  are converted from the conceptual model to the nodes, elements, and element  faces. The dialogs and interactive editing tools in the ''FEMWATER'' menu can then be used to edit or review the data if  desired.
 
A FEMWATER model can be created in GMS using one of two methods: assigning and editing values directly to the nodes and elements of a mesh (the direct approach), or by constructing a grid-independent representation of the model using feature objects and allowing GMS to automatically assign the values to the nodes and elements (the conceptual model approach). Except for simple problems, the conceptual model approach is typically the most effective.
 
The conceptual model approach utilizes [[GMS:Feature Objects|feature objects]] in the [[GMS:Map Module|Map module]]. A FEMWATER conceptual model is created in the Map module and feature objects are used to create a high level representation of the site you are modeling. The figure below shows a sample conceptual model.
 
[[Image:samp_map.gif|none|frame|Sample FEMWATER Conceptual Model]]
 
===Two Step Process===
 
A FEMWATER conceptual model is used to build a numerical model using a two step process. In the first step, a 3D mesh is created. This can be done by using the feature objects in conjunction [[#Building the 3D Mesh from the FEMWATER Conceptual Model|with a set of TINs to build a 3D Mesh]] or a solid can be converted to a layered 3D Mesh using the [[GMS:Solids to Layered Mesh|'''''Solids -> Layered Mesh''''']] command. In the second step, the boundary conditions and recharge values assigned to the feature objects are automatically assigned to the appropriate nodes and element faces of the 3D mesh using the '''''Feature Objects | Map -> FEMWATER''''' command.
 
To create a FEMWATER conceptual model right click on the Map Data folder in the [[GMS:The GMS Screen|Project Explorer]] and select the '''''New Conceptual Model''''' command.  In the Conceptual  Model Properties dialog change the model type to FEMWATER in the pull-down list.  In the dialog the simulation options of flow and transport can also be toggled on or off. Next create a [[GMS:Coverages|coverage]] by right clicking on the FEMWATER conceptual model in the data tree and selecting '''New Coverage'''.  The coverage attributes can  then be setup in the ''Coverage Setup'' dialog. 
 
A FEMWATER coverage can contain points, arcs, and polygons. The points are  used to define wells, the arcs are used to define boundary conditions, and the  polygons are used to define recharge zones. In most cases, a single coverage is  sufficient. However, multiple FEMWATER coverages can be used if desired.
 
More on point/arc properties here: [[GMS:FEMWATER Point / Arc Properties|FEMWATER Point / Arc Properties]]
 
===Build a 3D Finite Element Mesh===
 
Once the FEMWATER conceptual model is constructed, the next step is to use the conceptual model to build a 3D finite element mesh. This is accomplished by  first building a 2D mesh, then building the 3D mesh by extruding each of the 2D  elements in 3D elements.
 
=====Map -> 2D Mesh=====
 
[[Image:meshgenc.gif|right|frame|Converting a FEMWATER Conceptual Model (a)  Conceptual Model (b) 2D Mesh Created with '''''Map -> 2D Mesh''''' Command (c) 3D Mesh  Created by Extruding 2D Mesh (d) 3D Mesh after Map -> FEMWATER Command.]]
 
The first step in building the 3D mesh is to select the '''''Feature Objects | Map -> 2D Mesh''''' command. This command  creates a 2D mesh by automatically filling in the interior of the conceptual  model with nodes and elements. The size and spacing of the elements is  controlled by the spacing of the vertices on the arcs and by the refine point  attribute assigned to any wells in the interior of the conceptual model.
 
An example of the '''''Map -> 2D Mesh''''' command is shown  in the following figure. A sample FEMWATER conceptual model is shown in part a.  The 2D mesh resulting from execution of the '''''Map -> 2D  Mesh''''' command is shown in part b.
 
=====Creating the 3D Elements=====
 
Once the 2D mesh is created, the next step is to create the 3D mesh by  extruding each of the 2D elements into a series of 3D elements. The elevations  of the 3D elements can be defined from a set of boreholes, a set of TINs, or a  set of Solids.
 
For sites with relatively simple stratigraphy, the [[GMS:Boreholes#Converting Borehole Data|'''''Regions -> 3D Mesh''''']] command in the Borehole module can be used.
 
For sites with more complex stratigraphy, the [[GMS:TIN Module#Building Solids and 3D Meshes with TINs|'''''TINs -> 3D Mesh''''']] command in the TIN module should be used.
 
A mesh can also be created using the [[GMS:Solids to Layered Mesh|'''''Solids -> Layered Mesh''''']] command in the Solid module.
 
 
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[[Category:FEMWATER]]

Latest revision as of 19:24, 18 October 2013