Difference between revisions of "OpenFOAM/C3/Exporting-geometry-from-Salome-to-OpenFOAM/English-timed"
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Sandhya.np14 (Talk | contribs) |
Sandhya.np14 (Talk | contribs) |
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− | | Select '''Element Type''' as '''Face ''' and the '''Group Type''' as''' Group on filter.''' | + | | Select the '''Element Type''' as '''Face ''' and the '''Group Type''' as''' Group on filter.''' |
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| 03:00 | | 03:00 | ||
− | | Click on''' Set filter.''' Click on the '''Add''' button. In the drop-down option below ''' | + | | Click on''' Set filter.''' Click on the '''Add''' button. In the drop-down option below '''Criterion''' menu, select '''Free Faces'''. Click on '''Apply and Close.''' |
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| 03:31 | | 03:31 | ||
− | | Now, in the '''mesh''' menu at the top, click on '''Cut groups.''' Select the ''' | + | | Now, in the '''mesh''' menu at the top, click on '''Cut groups.''' Select the '''Main object''' as '''Group_1'''. Select '''Tool object''' as '''inlet.''' |
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| 03:45 | | 03:45 | ||
− | | Hold the''' shift key''' on your keyboard and also select the ''' | + | | Hold the''' shift key''' on your keyboard and also select the '''Tool object '''as '''outlet.''' |
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| 03:54 | | 03:54 | ||
− | |Type the ''' | + | |Type the '''Result name''' as '''walls.''' |
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| 03:58 | | 03:58 | ||
− | | You can select the '''color''' as purple. click on | + | | You can select the '''color''' as purple. click on '''Apply and Close.''' We see '''walls''' group has been created. |
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| 04:10 | | 04:10 | ||
− | | Right click on the | + | | Right-click on the '''Group_1''' and '''delete''' this group as we do not want to see it in '''OpenFOAM.''' |
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| 04:20 | | 04:20 | ||
− | |'''Save '''the work by clicking on | + | |'''Save '''the work by clicking on''' save document''' option. |
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| 04:24 | | 04:24 | ||
− | | Now right click on | + | | Now, right click on '''mesh_1.''' Go to '''Export >> Unv File.''' |
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| 04:33 | | 04:33 | ||
− | | Name the file as | + | | Name the file as '''bentpipe'''. I am saving this file on the Desktop. Close '''Salome'''. We see''' bentpipe.unv''' file on the desktop. |
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| 04:50 | | 04:50 | ||
− | | Create a | + | | Create a folder named "bentpipe" on the desktop. |
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| 04:55 | | 04:55 | ||
− | | Now, | + | | Now, move "bentpipe.unv" file to this folder. |
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Revision as of 12:12, 4 July 2016
Time | Narration |
00:01 | Hello and welcome to the spoken tutorial on Exporting the geometry from Salome to OpenFOAM. |
00:09 | In this tutorial, we will see :
|
00:26 | To record this tutorial, I am using:
|
00:41 | To practice this tutorial, the learner should first perform the tutorial on Creating and meshing a Curved-Pipe Geometry in Salome. |
00:52 | Open Salome as shown in the previous tutorial. Go to file >> Open. Go to Desktop. Click on Curved-geometry.hdf. |
01:04 | Press Open. Go to mesh-module from Modules drop-down option. |
01:12 | Open the 'Mesh' tree from the object Browser. |
01:17 | Right-click on Mesh_1. Click on Show. We see the mesh on the geometry is visible. |
01:28 | Let me close the python console window. |
01:32 | Now, we have to name the meshed geometry parts as we require it in OpenFOAM. |
01:39 | To create Groups on this mesh, right-click on Mesh_1 and click on Create Group. |
01:48 | Select the Element Type as Face. Select the Group type as Group on Geometry. |
01:57 | Click on the button in front of Geometrical Object and select Direct Geometrical Selection. |
02:07 | Open the 'Geometry' tree in the Object Browser. Open the pipe_1 tree and select the inlet group in the geometry tree that we had created in the previous tutorial. |
02:22 | You can select the color as red. |
02:26 | Name the group as inlet. Click on Apply and close. inlet group is seen in the tree. |
02:37 | Similarly, create the outlet group. I have created the outlet group. |
02:44 | Now, to create the group of the whole outer surface, right-click on mesh_1 >> Create group . |
02:53 | Select the Element Type as Face and the Group Type as Group on filter. |
03:00 | Click on Set filter. Click on the Add button. In the drop-down option below Criterion menu, select Free Faces. Click on Apply and Close. |
03:17 | You can change the color to blue. |
03:23 | Again click on Apply and Close. Group_1 has been created. |
03:31 | Now, in the mesh menu at the top, click on Cut groups. Select the Main object as Group_1. Select Tool object as inlet. |
03:45 | Hold the shift key on your keyboard and also select the Tool object as outlet. |
03:54 | Type the Result name as walls. |
03:58 | You can select the color as purple. click on Apply and Close. We see walls group has been created. |
04:10 | Right-click on the Group_1 and delete this group as we do not want to see it in OpenFOAM. |
04:20 | Save the work by clicking on save document option. |
04:24 | Now, right click on mesh_1. Go to Export >> Unv File. |
04:33 | Name the file as bentpipe. I am saving this file on the Desktop. Close Salome. We see bentpipe.unv file on the desktop. |
04:50 | Create a folder named "bentpipe" on the desktop. |
04:55 | Now, move "bentpipe.unv" file to this folder. |
05:01 | To perform simulation on this geometry in OpenFOAM using icoFoam solver, Go to the icoFoam folder in OpenFOAM. |
05:10 | For the location of this folder, go to the tutorial on lid driven cavity. |
05:15 | Copy and Paste bentpipe folder on the desktop in this icoFoam folder. |
05:22 | Also, copy the system folder from cavity folder to this bentpipe folder. |
05:32 | Now, go inside the bentpipe folder throgh command terminal.I am inside the bentpipe folder. |
05:41 | Type ls and press Enter. We can see the system folder and the bentpipe.unv file. |
05:49 | Now, type ideasUnvToFoam bentpipe.(dot)unv, Note that U, T and F are capital. Press Enter. |
06:11 | Now Type ls. We see constant folder has been created. Type cd (space) Constant. |
06:23 | Type cd (space) polyMesh. Type ls. Press Enter. |
06:31 | We seegeometry files have been created.Come out of the polyMesh folder. |
06:38 | Come out of the constant folder. |
06:42 | Now, to convert the geometry scale to centimeters, typetransformPoints (space) -scale'(0.01 0.01 0.01)' and press Enter.The Geometry has been converted to centimeters. |
07:17 | Minimize the terminal.Go inside the bentpipe folder. |
07:23 | Go inside constant folder. We see that the transportProperties file is not there. |
07:30 | Copy the transportProperties file from the cavity folder and save it inside the constant folder. |
07:37 | I have copied the transport property file Now, come out of the constant folder. |
07:44 | We need the 0 (zero) folder having P and U files.Copy the 0 (zero) folder from the cavity folder. |
07:55 | I have copied the 0 (zero) folder. Go inside the 0 (zero) folder. |
08:02 | Open the p file .Make sure that you give boundary patches for inlet, outlet and walls as we had created in Salome. |
08:15 | Erase movingWall and type inlet. Erase fixedWall and type outlet. |
08:25 | Erase frontAndBack and type walls. Save the file and Close the file. |
08:34 | Similarly,Make changes in U file. For appropriate boundary conditions,you can refer to the tutorial on Hagen-Poiseuille flow. |
08:46 | I have made the changes and given the appropriate boundary conditions. |
08:51 | You may also make the changes in transportProperties and ControlDict files by refering to the tutorial on Hagen-Poiseuille flow. |
09:00 | Let's close the Home Folder. |
09:03 | Now, go to terminal.Type paraFoam. This will open ParaView. Click on Apply in the Object Inspector Menu. |
09:16 | In the drop down menu click on Surface with Edges. Lets have a closer look by zooming in. |
09:28 | We see hexahedral mesh. We also see the groups have been created as we had named it in Salome- Inlet outlet and walls. |
09:38 | Volume inside the surface is automatically grouped as internal mesh. In this tutorial we have learned:
How to group the meshed geometry parts in Salome. How to export the geometry to OpenFOAM. How to create a case directory for simulation. And to view the geometry in ParaView. |
10:00 | For Assignment,Run the simulation by making appropriate changes in the files as described.
Export the geometries that you have created on your own.And run the simulations on those geometries. |
10:14 | The video is available at the following 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. |
10:24 | The Spoken Tutorial Project Team Conducts workshops using spoken tutorials Gives certificates to those who pass an online test For more details, contact@spoken-tutorial.org |
10:40 | 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. This project is coordinated by http://spoken-tutorial.More information on this mission is available at, http://spoken-tutorial.org/NMEICT-Intro |
10:58 | I am Saurabh Sawant, from IIT Bombay, Thank you. |