Difference between revisions of "Main ContribExamples/AirConditionedRoom"
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To run this tutorial case, just type: | To run this tutorial case, just type: | ||
| − | + | ./Allrun | |
| − | After the execution it | + | After the execution it will makes figures as listed below. |
*res.eps - Initial residual | *res.eps - Initial residual | ||
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*profileU.eps - Vertical profile of velocity | *profileU.eps - Vertical profile of velocity | ||
*profilek.eps - Vertical profile of turbulent kinetic energy | *profilek.eps - Vertical profile of turbulent kinetic energy | ||
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| + | To clean all files this tutorial makes, just type: | ||
| + | |||
| + | ./Allclean | ||
== Download == | == Download == | ||
Revision as of 13:39, 17 August 2008
Valid versions: 
1 Short description
This turorial case analyzes thermal flow in air-conditioned room. It also compares CFD result with experimental result.
2 Usage
To run this tutorial case, just type:
./Allrun
After the execution it will makes figures as listed below.
- res.eps - Initial residual
- profileT.eps - Vertical profile of temperature
- profileU.eps - Vertical profile of velocity
- profilek.eps - Vertical profile of turbulent kinetic energy
To clean all files this tutorial makes, just type:
./Allclean
3 Download
Incompressible thermal flow solver boussinesqBuoyantSimpleFoam and gnuplot are required to run this tutorial.
4 References
[1] S.Murakami, S.Kato, H.Nakagawa: NUMERICAL PREDICTION OF HORIZONTAL NONISOTHERMAL 3-D JET IN ROOM BASED ON THE K-
MODEL, ASHRAE TRANSACTIONS V.97 Pt.1, pp.38-48, 1991 [PDF]
5 History
Masa 10:54, 15 August 2008 (CEST): Initial version.
