Difference between revisions of "OpenFOAM/C3/Introduction-to-SnappyHexMesh/English-timed"
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− | | The parameters that are listed below are well explained in '''snappyHexMeshDict''' file. '''nCellsBetweenLevels''' defines number of cells for each refinement level. | + | | The parameters that are listed below are well explained in '''snappyHexMeshDict''' file. '''nCellsBetweenLevels''' defines the number of cells for each refinement level. |
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− | |Otherwise the external part (i.e. inside the blockMesh) is meshed. | + | |Otherwise, the external part (i.e. inside the blockMesh) is meshed. |
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− | | The next step involves moving cell vertex points onto the surface geometry. | + | | The next step involves moving '''cell''' vertex points onto the surface geometry. |
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− | |These parameters control the number of iterations and tolerance between '''mesh''' and '''STL''' surface. | + | |These parameters control the number of '''iterations''' and '''tolerance''' between '''mesh''' and '''STL''' surface. |
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− | |'''nSmoothPatch '''option specifies the number of times the exterior ( that is the boundary wall) should be iterated. The '''mesh''' will become smoother if the number of iterations are more. | + | |'''nSmoothPatch '''option specifies the number of times the exterior (that is the boundary wall) should be iterated. The '''mesh''' will become smoother if the number of iterations are more. |
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− | | The process of '''mesh''' | + | | The process of '''mesh layer''' addition involves shrinking the existing '''mesh''' from the boundary and inserting layers of '''cell'''s. |
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− | | '''RelativeSizes '''option ( that is true or false) changes the way to read the parameters given next. | + | | '''RelativeSizes '''option (that is '''true''' or '''false''') changes the way to read the parameters given next. |
'''true''': next parameters define the layers' dimensions as parameters. | '''true''': next parameters define the layers' dimensions as parameters. | ||
'''false''': next parameters define directly the layers' dimensions. | '''false''': next parameters define directly the layers' dimensions. | ||
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− | | In '''layers''' option, you can define the number of '''layers''' and the '''patch''' on which to attach the '''layers'''. It must be an STL (Bold text) patch in '''geomery''' sub-menu, and not a user defined region. | + | | In '''layers''' option, you can define the number of '''layers''' and the '''patch''' on which to attach the '''layers'''. It must be an '''STL''' (Bold text) patch in '''geomery''' sub-menu, and not a user defined region. |
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− | | '''maxFaceThicknessRatio''' option | + | | '''maxFaceThicknessRatio''' option specifies the maximum allowable value of '''aspect ratio'''. |
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| 07:10 | | 07:10 | ||
− | | meshQualityControls parameter sets the minimum thresholds to generate '''mesh''' in '''snap''' and '''add-layers''' parts. | + | | '''meshQualityControls''' parameter sets the minimum thresholds to generate '''mesh''' in '''snap''' and '''add-layers''' parts. |
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| 07:18 | | 07:18 | ||
− | |In 99% of the cases, it is better to leave the default values. But sometimes, you can '''deactivate''' one or more controls to force mesh generation. | + | |In 99% of the cases, it is better to leave the '''default''' values. But sometimes, you can '''deactivate''' one or more controls to force mesh generation. |
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Revision as of 17:36, 4 July 2016
Time | Narration |
00:00 | Hello and welcome to the spoken tutorial on Introduction to snappyHexMesh in OpenFOAM. |
00:07 | In this tutorial, we will learn about
the parameters in snappyHexMesh to generate Mesh in OpenFOAM. |
00:14 | As a pre-requisite, the user requires:
|
00:35 | To record this tutorial, I am using:
|
00:50 | Let us learn to create a Mesh with the snappyHexMesh utility. |
00:55 | The steps are as follows-
Step 1 : Create a base mesh by using blockMesh utility Step 2 : Refine base mesh Step 3 : Remove unused cells Step 4 : Snap mesh to surface Step 5 : Add layers. |
01:18 | We will open the terminal and enter the path for flange as shown.
Type: cd space OpenFOAM-2.2.2/tutorials/mesh/snappyHexMesh/flange and press Enter. |
01:40 | Now type "ls" and press Enter. There are two folders constant and system. |
01:50 | Type cd space system and press Enter. |
01:55 | Now type ls and press Enter. You can see snappyHexMeshDict file. |
02:04 | To view the contents of the file, type: -gedit space snappyHexMeshDict and press Enter.
(Note that H, M and D here are in capital letters.) |
02:19 | This will open up the snappyHexMeshDict file. |
02:23 | snappyHexMeshDict file contains all the instructions and the entire process revolves around this file. |
02:32 | With the first rows of snappyHexMeshDict, you can activate or skip sections of the process. |
02:40 | In the geometry section, all active regions that take part in snappy process can be defined. |
02:50 | The parameters that govern the process of cell splitting are described in castellatedMeshControls section. |
02:58 | The parameters that are listed below are well explained in snappyHexMeshDict file. nCellsBetweenLevels defines the number of cells for each refinement level. |
03:12 | The higher it is, the more gradual the mesh will be. |
03:17 | In the Explicit feature edge refinement section, you can set specific refinement level for geometry’s feature edges. The ".eMesh" file can be obtained with the surfaceFeatureExtract utility. |
03:34 | In the surface-based refinement section, you can set the refinement levels of all surfaces defined in geometry file. |
03:45 | Mesh selection is a very important parameter. If the chosen point is inside the surface described in geometry file, then snappyHexMesh will create the internal mesh. |
03:59 | Otherwise, the external part (i.e. inside the blockMesh) is meshed. |
04:04 | The next step involves moving cell vertex points onto the surface geometry. |
04:12 | The snapping process is carried out by four parameters:
|
04:23 | These parameters control the number of iterations and tolerance between mesh and STL surface. |
04:32 | nSmoothPatch option specifies the number of times the exterior (that is the boundary wall) should be iterated. The mesh will become smoother if the number of iterations are more. |
04:46 | Tolerance option specifies the distance the program should look for a point to snap. The distance will be the number that is in tolerance. |
04:58 | nSolveIter option specifies the number of times the snapping part of snappyHexMesh should be run. |
05:07 | nRelaxIter option specifies the number of times the mesh should run a relaxing script, that removes bad mesh points. |
05:19 | The process of mesh layer addition involves shrinking the existing mesh from the boundary and inserting layers of cells. |
05:27 | The first group of parameters define the dimensions for layers and surface, on which they will be attached. |
05:36 | RelativeSizes option (that is true or false) changes the way to read the parameters given next.
true: next parameters define the layers' dimensions as parameters. false: next parameters define directly the layers' dimensions. |
05:55 | In layers option, you can define the number of layers and the patch on which to attach the layers. It must be an STL (Bold text) patch in geomery sub-menu, and not a user defined region. |
06:10 | ExpansionRatio parameters set the growth factor of the layers (that is ratio between two subsequent layers). |
06:19 | finalLayerThickness parameter sets the thickness of the last layer. minThickness parameter sets the minimum allowable thickness of layer. |
06:34 | Advanced settings is the second group of parameters. It contains more specific controls that can help in layer creation. |
06:45 | FeatureAngle is the angle above which the surface will not be extruded. |
06:52 | nRelaxIter option specifies the number of times the mesh will run a relaxing script. |
07:00 | maxFaceThicknessRatio option specifies the maximum allowable value of aspect ratio. |
07:10 | meshQualityControls parameter sets the minimum thresholds to generate mesh in snap and add-layers parts. |
07:18 | In 99% of the cases, it is better to leave the default values. But sometimes, you can deactivate one or more controls to force mesh generation. |
07:30 | These are the different parameters in snappyHexMeshDict. These parameters are important to generate mesh using snappyHexMesh utility. |
07:40 | Let us summarize. |
07:42 | In this tutorial, we learnt different parameters in snappyHexMesh to generate mesh in OpenFoam. |
07:50 | Watch the video available at this URL:
http://spoken-tutorial.org/What_is_a_Spoken_Tutorial It summarizes the Spoken Tutorial project. If you do not have good bandwidth, you can download and watch it. |
08:03 | The Spoken Tutorial Project team:
For more details, please write to: contact@spoken-tutorial.org |
08:21 | Spoken Tutorials are part of Talk to a Teacher project. It is supported by the National Mission on Education through ICT, MHRD, Government of India.
More information on the same is available at following URL: http://spoken-tutorial.org/NMEICT-Intro |
08:37 | This is Chaitrali Ghodke from IIT Bombay, signing off. Thanks for joining. |