FLUENT: Pure Conduction???
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I am doing the pure conduction by Fluent. The calculation domain is as in the picture below. It include: core region (UO2) which is covered by Tank. All material are air.
The border wall outside is convective boundary condition. The material of core is UO2, and the condition for this core is Heat generation Rate 8000w/m3. The wall of Tank is Al. So in Fluent, I specify the the Heat Generation Rate for the core region in the tap: Cell Zone Condition - Source tap. For the wall boundary of the core and Tank, It is the coupled wall condition. The solve is only Energy equation (No flow). But the solution give the temperature of core reach to maximum limit of temperature: 10000K. This results is inaccurate, analysis results is about 3000K. I think the error may be caused by wrong boundary condition. Could you please give the comment about this problem? |
What's your viscous model? Is it inviscid?
I've had problems simulating pure conduction with inviscid model, have to select laminar or turbulent. |
Hi,
If you defined the source term for volume, then no need to specify the source in walls also. By defining like this, you are applying double the time of source in your simulation. Remove the source in the walls and rerun it. It might be the one of the reason for more temperature in the domain. |
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I already selected laminar calculation. |
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Actually, I did not specify the source in walls. The boundary for the wall is coupled wall (which are used when that wall is between two different material). Fluent have one tutorial similar (heat generation on the chip), but the different is that have flow instead of pure conduction. My case is pure conduction. So It may be the problems? |
Then, I don't know the reason for high temperature.
If solution is converged and there is no issues in case setup, there might be other reasons. 1. Double check the volume of zone in Fluent and input source value (8000 W/m3) 2. Check the modeling 3. Incorrect energy value in Watts |
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I upload the full domain of my calculation as in the picture below. Maybe you can understand my situation better. |
What is "Heat source 44 m3". Even if is heat source volume then, 44 m3 is huge. Is your domain really than much big in size. Also check the properties of solids.
other than this, I don't know the reason for high temperature. |
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