OpenFOAM/C2/Simulating-flow-in-a-Lid-Driven-Cavity/English-timed
From Script | Spoken-Tutorial
Time' | Narration |
00:01 | Hello and welcome to the spoken tutorial on Simulating Flow in a Lid Driven Cavity using openfoam |
00:07 | In this tutorial I will show you
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00:09 | The Lid Driven Cavity file structure
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00:12 | Meshing the Geometry
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00:14 | Solving and post-processing results in Paraview
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00:18 | Plotting & validating results on a spreadsheet. |
00:21 | To record this tutorial
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00:22 | I am using Linux Operating system Ubuntu version 10.04 .
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00:27 | OpenFOAM version 2.1.0 ParaView version 3.12.0 |
00:33 | Lid driven cavity is the most widely used 2D test
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00:36 | case for validation of a CFD code |
00:39 | This is diagram of Lid Driven Cavity |
00:42 | The boundary conditions remain the same
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00:44 | A moving wall and three fixedwalls |
00:47 | We are solving this for Reynolds no (Re) = 100
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00:50 | The moving wall has a velocity of 1 meters per second |
00:54 | The path for the Lid Driven Cavity is the same as discussed in the installation tutorial |
01:00 | Now Open a command terminal |
01:02 | To do this press Ctrl+Alt+t simultaneously on your keyboard |
01:08 | In the command terminal type the path for lid driven cavity |
01:12 | Now type run and press enter |
01:15 | cd (space) tutorials and Press enter |
01:20 | cd (space) incompressible and Press enter |
01:26 | cd (space) icoFoam (Note that F here is capital) and Press enter |
01:33 | cd (space) cavity and Press Enter |
01:38 | Now type ls and press enter |
01:41 | In the file structure of cavity you will see 3 folders : 0 , constant , and system |
01:46 | Now type cd (space) constant and press enter |
01:52 | Now type ls and press enter |
01:55 | The constant folder contains another folder named polymesh and a file describing the physical properties of fluid. |
02:02 | Now type cd (space) polymesh and Press Enter
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02:08 | Polymesh contains a file named blockMeshDict |
02:12 | Now type ls and press enter |
02:15 | You can see the blockMeshDict |
02:17 | To open up the blockMeshDictfile type gedit blockMeshDict
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02:30 | This will Open up the blockMeshDict file
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02:32 | Let me drag this to the capture area |
02:36 | This contains : cordinates for lid driven cavity |
02:41 | blocking and meshing parameters |
02:44 | and boundary patches. |
02:47 | Since there are no arcs as well as no patches to be merged
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02:51 | edges and mergePatchPairs can be kept empty |
02:57 | Now close this |
02:58 | In the command terminal type : cd (space) .. (dot) (dot) and press enter. |
03:04 | Do this twice. you will come back to the cavity folder |
03:09 | Now type cd (space) system and press enter, |
03:16 | Now type ls press enter this contains three files
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03:22 | controlDict, fvSchemes and fvSolutions |
03:26 | controlDict contains control parameters for start/end time.
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03:30 | fvSolution contains discritization schemes used in run time.
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03:35 | AndfvSchemes contains equation for solver,
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03:38 | tolerance etc. |
03:40 | Now again type cd (space) (dot dot) . . and press enter |
03:47 | Now type cd ( space ) 0 (zero) and Press enter |
03:53 | Now type ls and press enter |
03:57 | This contains the initial values for boundary conditions like
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04:00 | Pressure ,Velocity,Temperature etc. |
04:03 | Now Type cd ( space ) (dot dot) . . to return back to the cavity folder |
04:09 | Now we need to mesh the geometry
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04:11 | We are using a course mesh here. |
04:14 | Mesh the geometry by typing blockMesh in the terminal. |
04:18 | Now type blockMesh (Note that M here is capital) and press enter |
04:25 | TheMeshing is done. |
04:27 | If there is some error in the blockMesh file it will be shown in the terminal |
04:31 | To view the geometry
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04:32 | Type paraFoam , Note that F here is capital and press enter |
04:40 | This will open the paraview window |
04:44 | Now on the left hand side of the object inspector menu click on Apply. |
04:49 | You can see the lid driven cavity geometry now close this |
04:58 | Check the mesh by typing checkMesh in the terminal
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05:04 | Note that M here is capital and press enter |
05:08 | you can see the number of cells ,
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05:10 | skewness and other parameters
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05:12 | which are associated with the mesh |
05:15 | Let me switch back to the slides. |
05:18 | The solver we are using here is icoFoam : |
05:20 | icoFoam is a Transient solver for incompressible flow of newtonian fluids |
05:26 | Let me switch back to the terminal |
05:29 | In the terminal type icoFoam
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05:33 | Note that F here is capital and press enter |
05:37 | The Iterations running will be seen in the terminal window. |
05:40 | After the solving is done type paraFoam in the terminal |
05:44 | to view the geometry and the results |
05:54 | On the left hand side of object inspector menu
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05:57 | click on Apply |
05:59 | Now Scroll down the properties on objector inspector menu
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06:02 | you can see mesh part,volume fields etc |
06:07 | Check or uncheck these boxes in the mesh part
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06:11 | to view the different boundary regions of Lid driven cavity |
06:15 | Now after this on top of the left-hand side on active variable control
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06:21 | dropdown menu change this from solid color to p orcapital U
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06:26 | which are the initial conditions such as pressure , velocity
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06:31 | I will select capital U. Now this will show you the initial condition of velocity |
06:37 | on top of the paraview window you can see the VCR control
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06:44 | Click on the play button |
06:47 | Now this is the final result of velocity for lid driven cavity |
06:52 | Toggle on the color legend by clicking on the top left of the active variable control menu |
07:03 | This is the color legend for U velocity |
07:07 | We need to validate the results obtained
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07:09 | To do this let us plot the U and V velocity
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07:12 | To do this Go to Filters scroll down > Data Analysis > Plot Over line |
07:21 | Click on it |
07:23 | You can see X , Y and Z axis |
07:25 | Select the X & Y axis turn by turn.
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07:31 | I will select the X axis and click Apply |
07:37 | You can see Pressure and velocity plots being plotted |
07:42 | Since it is a non dimensional analysis
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07:44 | we need to plot the graph for u/U v/s y/L for Reynolds number =100 |
07:52 | To do this in Plot Data click on the Y-axis
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07:58 | And click APPLY |
08:01 | You can see the plot
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08:03 | Now in menu bar go to File > Save Data |
08:09 | Give appropriate name to your file |
08:11 | I will give this as cavity
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08:15 | The file will be saved as .csv file |
08:19 | Now click ok. Again click ok |
08:23 | Now go to the cavity folder of openfoam directory.
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08:29 | Scroll down you can see the cavity.csv file |
08:34 | Open it in Open office or LibreOffice Spreadsheet |
08:39 | In the libreoffice spreadsheet copy the U0 (u velocity) and to the right point 1(Y-axis) columns
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08:46 | in another spreadsheet |
08:48 | Now divide both these coloumns
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08:52 | that is u zero by capital U and points 1 by capital L |
08:59 | And Plot the results in libreoffice charts option on top in the menu bar. |
09:08 | Now let me switch back to the slides |
09:11 | Results obtained will be similar to this figure |
09:16 | Validate the result on a paper published on Lid Driven Cavity by : Ghia et al. (1982) and
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09:22 | Results obtained from Fluent |
09:24 | In this tutorial we learnt |
09:26 | File structure of Lid Driven cavity |
09:28 | Solved lid driven cavity. |
09:30 | Post-processing of solutions |
09:32 | AndValidation |
09:34 | As as Assignment, |
09:35 | Change some parameters in the lid driven cavity |
09:38 | * Velocity Magnitude in the 0 folder |
09:41 | * Kinematic viscosity in transportPorpoerties in constant folder |
09:45 | And Plot results of u/U and y/L
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10:27 | This is Rahul Joshi from IIT BOMBAY signing off. |
10:30 | Thanks for joining |
Contributors and Content Editors
DeepaVedartham, Gaurav, Nancyvarkey, PoojaMoolya, Sandhya.np14, Sneha