Nagi Elabbasi
Facebook Reality Labs
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Posted:
1 decade ago
6 dic 2011, 09:54 GMT-5
You are integrating the heat flux magnitude. You should instead integrate the normal heat flux. That gives zero over all 6 sides, and 45W over 5 sides as expected.
Nagi Elabbasi
Veryst Engineering
You are integrating the heat flux magnitude. You should instead integrate the normal heat flux. That gives zero over all 6 sides, and 45W over 5 sides as expected.
Nagi Elabbasi
Veryst Engineering
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Posted:
1 decade ago
7 dic 2011, 12:35 GMT-5
Thanks Nagi Elabbasi!
That explains it for this simple geometry.
Would you tell me the significance of total heat-flux then? I mean, what exactly does it denote?
Actually, I tried to perform this kind of calculation for my real heat-transfer problem (would explain in the next post, if I am really stuck with the issue; I want to try to solve it myself first) and I am not able to confirm the conservation of energy/heat.
I believe that heat-flux happening outward (in the direction of normal vector) are considered +ve and inward flux is considered -ve.
Thanks again for the response!
Regards,
Kapil
Thanks Nagi Elabbasi!
That explains it for this simple geometry.
Would you tell me the significance of total heat-flux then? I mean, what exactly does it denote?
Actually, I tried to perform this kind of calculation for my real heat-transfer problem (would explain in the next post, if I am really stuck with the issue; I want to try to solve it myself first) and I am not able to confirm the conservation of energy/heat.
I believe that heat-flux happening outward (in the direction of normal vector) are considered +ve and inward flux is considered -ve.
Thanks again for the response!
Regards,
Kapil
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Posted:
1 decade ago
7 dic 2011, 16:31 GMT-5
Hi again,
Just to explain the problem:
I changed the dimension of Si-block and added another solid block on the top of Si-block. I tried to simulate the heat flux and temperature distribution again. I see that now, the total normal heat flux through all surfaces does not sum to zero.
I am attaching the updated model herewith. Thanks for your help.
Regards,
kapil
Hi again,
Just to explain the problem:
I changed the dimension of Si-block and added another solid block on the top of Si-block. I tried to simulate the heat flux and temperature distribution again. I see that now, the total normal heat flux through all surfaces does not sum to zero.
I am attaching the updated model herewith. Thanks for your help.
Regards,
kapil
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Posted:
1 decade ago
7 dic 2011, 22:57 GMT-5
I am not sure if I am posting too much. But, I found something fishy in the model simulations.
I tried to use thermally-insulating condition on face numbered 9, 10, 13, 16. But, after simulating it, when I calculate the normal heat flux through these surfaces, it is not zero.
Perhaps, this is causing the problem here??
Regards,
Kapil
I am not sure if I am posting too much. But, I found something fishy in the model simulations.
I tried to use thermally-insulating condition on face numbered 9, 10, 13, 16. But, after simulating it, when I calculate the normal heat flux through these surfaces, it is not zero.
Perhaps, this is causing the problem here??
Regards,
Kapil
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Posted:
1 decade ago
8 dic 2011, 04:28 GMT-5
Hi Kapil,
See attached your first model solved, where the total convective flux equals the boundary heat source.
George
Hi Kapil,
See attached your first model solved, where the total convective flux equals the boundary heat source.
George
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Posted:
1 decade ago
8 dic 2011, 19:00 GMT-5
Dear George Rosala,
Thanks for the solving the issue. Nagi Elabbasi also suggested to calculate "total normal heat flux" instead of "total heat flux" and that verifies the conservation of heat/energy/power.
I am now adding more complexities to the model. As expected, I am facing issues at every step:-)
Thanks and Regards,
Kapil
Dear George Rosala,
Thanks for the solving the issue. Nagi Elabbasi also suggested to calculate "total normal heat flux" instead of "total heat flux" and that verifies the conservation of heat/energy/power.
I am now adding more complexities to the model. As expected, I am facing issues at every step:-)
Thanks and Regards,
Kapil
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
9 dic 2011, 00:53 GMT-5
Hi
do not forget to take a look at the KB there are some very pertinent discussion on flux calculation and FEM.
my way to improve things is often to use "boundary mesh" on both sides of critical discussion boundaries (applies to HT and to concentration diffusion same math equations) as the flux is linked to the local derivative that needs to be well resolved
FEM and mesh size is also a sampling issue, you need to resolve the gradients, as you use a Nyquist criteria for digital sampling of a signal
--
Good luck
Ivar
Hi
do not forget to take a look at the KB there are some very pertinent discussion on flux calculation and FEM.
my way to improve things is often to use "boundary mesh" on both sides of critical discussion boundaries (applies to HT and to concentration diffusion same math equations) as the flux is linked to the local derivative that needs to be well resolved
FEM and mesh size is also a sampling issue, you need to resolve the gradients, as you use a Nyquist criteria for digital sampling of a signal
--
Good luck
Ivar
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Posted:
1 decade ago
9 dic 2011, 13:53 GMT-5
Thanks Ivar!
Actually, I also thought of the same and tried to create a controlled mesh instead of simple tetrahedral-mesh. I am trying to find the suitable mesh-size (based on temperature gradients), as you said. I am attaching the model with updated mesh herewith.
The knowledge-base was helpful; I am going through them more seriously now. Thanks.
Regards,
Kapil
Thanks Ivar!
Actually, I also thought of the same and tried to create a controlled mesh instead of simple tetrahedral-mesh. I am trying to find the suitable mesh-size (based on temperature gradients), as you said. I am attaching the model with updated mesh herewith.
The knowledge-base was helpful; I am going through them more seriously now. Thanks.
Regards,
Kapil