Difference between revisions of "HowTo Add a Coriolis Force And Make a Tornado"

From OpenFOAMWiki
(app name my_tornado causes problems with `getAppilcation`, change to myTornado. Also instruct to edit controlDict)
(Prepare the Run Directory)
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After about 20 seconds of CPU time, the run should finish.  Now you should be apple to view the results with paraFoam.
 
After about 20 seconds of CPU time, the run should finish.  Now you should be apple to view the results with paraFoam.
[[File:myTornado.png|200px|thumb|right|clip though center, show pressure and isosurface]]
+
[[File:my_tornado.png|200px|thumb|right|clip though center, show pressure and isosurface]]
 
Note the log files.
 
Note the log files.
  

Revision as of 20:58, 23 January 2011

1 Copy Some Source Code

if you do not yet have a solver directory in $WM_PROJECT_USER_DIR , create it:

mkdir $WM_PROJECT_USER_DIR/applications/solvers

Copy the original tutorial code for buoyantBoussinesqPimpleFoam into your solver directory, renaming it to myTornado:

cd $FOAM_SOLVERS
cd heatTransfer
cp -r buoyantBoussinesqPimpleFoam  $WM_PROJECT_USER_DIR/applications/solvers/myTornado

With this code in its new location, we need to copy a file that was shared in the the previous location:

cp buoyantBoussinesqSimpleFoam/readTransportProperties.H  $WM_PROJECT_USER_DIR/applications/solvers/myTornado/.

Check that the code compiles in its new location:

cd $WM_PROJECT_USER_DIR/applications/solvers
ls -l
cd myTornado

if you have this file, delete it:

rm buoyantBoussinesqPimpleFoam.dep
cd Make

If you have this directory, then delete it:

rm -rf linux64GccDPOpt

and edit the file named "files" to this:

myTornado.C
   
EXE = $(FOAM_APPBIN)/myTornado
cd ..
wmake

You may get a few warnings. But hopefully you will see a new app myTornado (though without any ability yet to make a tornado) :

ls $FOAM_USER_APPBIN

Next we add the capabiltiy to make the tornado.

2 Add the Coriolis Force

Add a single line UEqn.H, so that the top of the file is:

    // Solve the momentum equation

    fvVectorMatrix UEqn
    (
        fvm::ddt(U)
      + fvm::div(phi, U)
      + turbulence->divDevReff(U)
      + (2*myVector ^ U) // Coriolis force
    );


Add one line to the end of readTransportProperties.H

dimensionedVector myVector(laminarTransport.lookup("myVector"));

Then recompile

wmake

3 Prepare the Run Directory

cd $FOAM_RUN/tutorials/heatTransfer
cp -r buoyantBoussinesqPimpleFoam/hotRoom $FOAM_RUN/myTornado

We consolidate some code that were separate in the original tutorial structure:

cp -r buoyantPimpleFoam/hotRoom/setHotRoom $FOAM_RUN/myTornado/.
cd $FOAM_RUN/myTornado
./Allclean
ls

You should see something like this:

0/  Allclean*  Allrun*  constant/  setHotRoom/  system/

edit system/controlDict so that the application line reads (remove the original line rather than attempting to comment it out) :

application     myTornado;

Edit Allrun so that the compileApplication line is simply:

compileApplication setHotRoom

Now we need to specify myVector, which we will use as the rotation vector in the calculation of the Coriolis force:

cd constant

Edit transportProperties near the end to include this line:

myVector myVector [0 0 -1 0 0 0 0] (0 0.001 0);

Then

cd ..

A quick way to proceed is to do:

./Allrun

After about 20 seconds of CPU time, the run should finish. Now you should be apple to view the results with paraFoam.

clip though center, show pressure and isosurface

Note the log files.

If you want to experience the details that were scripted by Allrun, do this instead:

cd setHotRoom
wmake

This should reveal a new app setHotRoom:

ls $FOAM_USER_APPBIN
cd ..
setHotRoom
blockMesh
myTornado