Difference between revisions of "Sig Turbomachinery / Single Channel Pump"
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== Published computational results == | == Published computational results == | ||
− | Auvinen et al. has done a detailed analysis of this case, which forms the base of the case-study. Some of those results can be reproduced with these files. | + | Auvinen et al. [1] has done a detailed analysis of this case, which forms the base of the case-study. Some of those results can be reproduced with these files. |
== References == | == References == |
Revision as of 12:35, 21 May 2010
This page is under construction
Contents
1 Testcase description
Mikko Auvinen,
Håkan Nilsson, Chalmers University of Technology, Gothenburg, Sweden
Movie showing unsteady results: Media:magU-w1-CoarseSST.gif
2 Published computational results
Auvinen et al. [1] has done a detailed analysis of this case, which forms the base of the case-study. Some of those results can be reproduced with these files.
3 References
[1] Auvinen, M., Ala-Juusela, J., Pedersen, N., Siikonen, T. "Time-Accurate Turbomachinery Simulations with Open-Source CFD; Flow Analysis of a Single-Channel Pump with OpenFOAM", V European Conference on Computational Fluid Dynamics, ECCOMAS CFD 2010, Lisbon, Portugal, June, 2010
4 How to get the files
Get all the current case files by doing:
cd $FOAM_RUN svn checkout http://openfoam-extend.svn.sourceforge.net/svnroot/openfoam-extend/trunk/Breeder_1.5/OSIG/TurboMachinery/singleChannelPump
In the descriptions below, we thus assume that the singleChannelPump directory is located in the $FOAM_RUN directory
Update your files every now and then by doing:
cd $FOAM_RUN/singleChannelPump svn update
See further info at OpenFOAM-extend webpage
You will also need the transientSimpleDyMFoam:
cd $FOAM_RUN svn checkout http://openfoam-extend.svn.sourceforge.net/svnroot/openfoam-extend/trunk/Breeder_1.5/OSIG/TurboMachinery/applications/solvers/incompressible/transientSimpleDyMFoam cd transientSimpleDyMFoam wmake
The turboPerformance functionObject is used to determine the shaft moment. To install and use it, see Sig Turbomachinery Library turboPerformance