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How to couple T variables in bluk and thin film
Posted 02.02.2012, 10:36 GMT-5 Heat Transfer & Phase Change Version 4.2 11 Replies
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www.comsol.com/community/forums/general/thread/25804/
What is the correct way to tell COMSOL that T and T2 are the same temperature variable?
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But why do you have a "T2" ?
Normally the thin film boundary physics should be in the same physics as the domain hence only one T and the T of the thin film should be the temperature of the domain when we tend tovards the boundary limit, no ?
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Good luck
Ivar
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Hi
But why do you have a "T2" ?
Normally the thin film boundary physics should be in the same physics as the domain hence only one T and the T of the thin film should be the temperature of the domain when we tend tovards the boundary limit, no ?
--
Good luck
Ivar
Thanks for the reply.
I was using two physics: Heat Transfer in Solids (ht) and Thin Conductive Shell (htsh). Are you saying that I should use only one physics: Heat Transfer in Solids (ht)? How do I implement the thin film in that case? I looked under Heat Transfer in Solids, the only sub-item under it is Thin Thermally Resistive Layer. But it does not have heat capacity in the equations. On the other hand the Thin Conductive Shell physics does have heat capacity in the equations, which should be more accurate. I still don't see a perfect solution yet.
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I have in HT "Thin Conductive layer" for internal or external boundaries, and "Thin thermal layer" for internal boundaries only
No need for shell element hysics in addition, I would typically use a htsh with a structural "shell" model
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Good luck
Ivar
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Following up on your response, I am wondering if the "thin thermal layer" you mentioned is the same as "thin thermally resistive layers" in 4.2? Also, how is it different from "highly conductive layer"? I see from its equation that it has up and down direction which probably explains why it is for internal boundaries only. The doubt I have is whether or not I can make the boundaries (assigned to either "thin thermally resistive layer" or "highly conductive layer") either highly conductive or resistive by changing the value of thermal conductivity?
Thank you
Harn Chyi Lim
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its my typo I do not believe it has changed with the version (I have 4.2a .166)
The thin thermally resistive layer adds a temperature step along the normal of the boundary.
The thin highly conductive layer adds a thin layer that conduct along the boundary
careful not to add both to a common (union) boundary, my version fails with an error
If you are using assembly mode, then note that the pair continuity, pair thin thermally resistive layer, pair highly conductive layer can all be added but they interfer, and from my understanding only one should be enbled at each time
--
Good luck
Ivar
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Another question I have come up with is whether or not I can plot the heat flux for those boundaries assigned to highly conductive layers. I made a surface plots for that, but from the value, I think the results only display the values for the domain.
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I am simulating cooking egg in COMSOL. do you think I could use thin thermal resistive layer to simulate yolk?
Because it seems layer have an upper suface and bottom surface. But for egg. The geometry confuse me. Thank you.
Regards,
Siqi
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www.comsol.com/support/knowledgebase/1031/
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Hi
its my typo I do not believe it has changed with the version (I have 4.2a .166)
The thin thermally resistive layer adds a temperature step along the normal of the boundary.
The thin highly conductive layer adds a thin layer that conduct along the boundary
careful not to add both to a common (union) boundary, my version fails with an error
If you are using assembly mode, then note that the pair continuity, pair thin thermally resistive layer, pair highly conductive layer can all be added but they interfer, and from my understanding only one should be enbled at each time
--
Good luck
Ivar
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