Difference between revisions of "Getting Started with Simmodeler"
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− | A nice description of each of the common BCs used in both the Compressible and Incompressible builds of PHASTA is provided [https://fluid.colorado.edu/wiki/index.php/SimModeler here]. The [https://fluid.colorado.edu/tutorials/BC_tutorial.mp4 video] linked in this section shows how the BCs are applied for an incompressible case. Note that the case needs to be called ''geom'' as is done in the tutorial video. Once the BCs and ICs are successfully implemented, | + | A nice description of each of the common BCs used in both the Compressible and Incompressible builds of PHASTA is provided [https://fluid.colorado.edu/wiki/index.php/SimModeler here]. The [https://fluid.colorado.edu/tutorials/BC_tutorial.mp4 video] linked in this section shows how the BCs are applied for an incompressible case. Note that the case needs to be called ''geom'' as is done in the tutorial video. Once the BCs and ICs are successfully implemented, your are ready to prepare the grid for Chef. To get started on this step, click [ here] |
Revision as of 10:53, 10 September 2020
Contents
Launching the Software
Once your environment is properly set, as shown in the convert step video, run: vglrun /projects/tools/SimmetrixTest/SimModeler7.0-190626/simmodeler
in your terminal to launch simmodeler. Note that 7.0-190626 specifies the version of simmodeler you are launching.
Accessing the User Manual
When launching simmodeler, there is a blue question mark at the top right of the GUI. Click it and then click "launch manual" to open the user manual associated with the version of simmodeler you are using. This gives detailed descriptions of the various attributes and how they are defined to generate the desired mesh.
Applying Mesh Attributes
Volume Meshing
3D Boundary Layers
One of the most important aspects of volume mesh development is generating proper 3D boundary layers. This process is well outlined here from around 8:30 to 16:00. Note that all mesh attributes are set up under the "Meshing" tab.
Mesh Refinement Zones
Surface Meshing
2D and 1D Boundary Layers
To generate a proper surface mesh, it is important that both 2D and 1D boundary layers are implemented. Note that a 2D Boundary layer is defined on a surface and a 1D Boundary layer is defined on a line. The linked video shows both 2D and 1D boundary layers being applied to an airfoil and the mesh that results from these applied attributes.
Mesh Size and Face Extrusions
Two more useful attributes when generating proper surface meshes are defining Mesh Sizes and Face Extrusions on your desired surfaces. Face Extrusions are useful when adding refinement over curved surfaces. This process is well covered in this video.
Saving Out the Mesh
Once you are satisfied with your mesh refinement, you are ready to generate and save out the mesh. In the meshing tab, you will want to click Generate Mesh. The default settings will suffice for proper mesh generation.
Applying Boundary and Initial Conditions
A nice description of each of the common BCs used in both the Compressible and Incompressible builds of PHASTA is provided here. The video linked in this section shows how the BCs are applied for an incompressible case. Note that the case needs to be called geom as is done in the tutorial video. Once the BCs and ICs are successfully implemented, your are ready to prepare the grid for Chef. To get started on this step, click [ here]