Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
2013年2月20日 GMT-5 16:35
Hi
first of all as you do not really need the details of the fluid flow, you would be much better off with the new "pipe flow" module, that does not solve the flow in such detail.
Your issues most probably comes from the fluid meshing set-up, you have no boundary layer, and the mesh is too coarse, then you should add the initial conditions with a parabolic flow velocity all over and a Poiseille type initial pressure drop (check the formula on Wiki) anyhow solving the flud flow in detail is very RAM and CPU consuming
You could even try only the SPF flow alone to get your model to converge, then transfer the settings to your NITF model and add the thermal part
--
Good luck
Ivar
Hi
first of all as you do not really need the details of the fluid flow, you would be much better off with the new "pipe flow" module, that does not solve the flow in such detail.
Your issues most probably comes from the fluid meshing set-up, you have no boundary layer, and the mesh is too coarse, then you should add the initial conditions with a parabolic flow velocity all over and a Poiseille type initial pressure drop (check the formula on Wiki) anyhow solving the flud flow in detail is very RAM and CPU consuming
You could even try only the SPF flow alone to get your model to converge, then transfer the settings to your NITF model and add the thermal part
--
Good luck
Ivar
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Posted:
1 decade ago
2013年2月20日 GMT-5 20:18
Thanks Ivar, for your comments and suggestions.
One thing I would like to point out is I actually tried to use a very fine mesh along the pipes, but that came up with 'very ill conditioned'. I was trying to attach to reflect this situation, but the file size was too big (just over 5MB) for this forum to allow me to attach. Therefore I made the meshing coarser just for me to be able to attach the file.
So do you think the model has already given the correct results (if i just want the temperature distributions in the soil)?
I will try and digest that pipe flow module business along with the other suggestions that you just gave me.
Please feel free to advise further.
Kind regards,
Gary Yu
Hi
first of all as you do not really need the details of the fluid flow, you would be much better off with the new "pipe flow" module, that does not solve the flow in such detail.
Your issues most probably comes from the fluid meshing set-up, you have no boundary layer, and the mesh is too coarse, then you should add the initial conditions with a parabolic flow velocity all over and a Poiseille type initial pressure drop (check the formula on Wiki) anyhow solving the flud flow in detail is very RAM and CPU consuming
You could even try only the SPF flow alone to get your model to converge, then transfer the settings to your NITF model and add the thermal part
--
Good luck
Ivar
Thanks Ivar, for your comments and suggestions.
One thing I would like to point out is I actually tried to use a very fine mesh along the pipes, but that came up with 'very ill conditioned'. I was trying to attach to reflect this situation, but the file size was too big (just over 5MB) for this forum to allow me to attach. Therefore I made the meshing coarser just for me to be able to attach the file.
So do you think the model has already given the correct results (if i just want the temperature distributions in the soil)?
I will try and digest that pipe flow module business along with the other suggestions that you just gave me.
Please feel free to advise further.
Kind regards,
Gary Yu
[QUOTE]
Hi
first of all as you do not really need the details of the fluid flow, you would be much better off with the new "pipe flow" module, that does not solve the flow in such detail.
Your issues most probably comes from the fluid meshing set-up, you have no boundary layer, and the mesh is too coarse, then you should add the initial conditions with a parabolic flow velocity all over and a Poiseille type initial pressure drop (check the formula on Wiki) anyhow solving the flud flow in detail is very RAM and CPU consuming
You could even try only the SPF flow alone to get your model to converge, then transfer the settings to your NITF model and add the thermal part
--
Good luck
Ivar
[/QUOTE]
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年2月21日 GMT-5 02:01
Hi
use a boundary mesh, or better just use the default COMSOL physical induced mesh, then add a parabolic flow for the initial conditions, and add a pressure drop, take the initial value from a simple Poiseuille case.
I agree your model looks quite logical, but that is only a qualitative statement, for quantitative values you must really validate it correctly with some hand calculations (I often use Maple to check my results analytically, for some simple cases)
--
Good luck
Ivar
Hi
use a boundary mesh, or better just use the default COMSOL physical induced mesh, then add a parabolic flow for the initial conditions, and add a pressure drop, take the initial value from a simple Poiseuille case.
I agree your model looks quite logical, but that is only a qualitative statement, for quantitative values you must really validate it correctly with some hand calculations (I often use Maple to check my results analytically, for some simple cases)
--
Good luck
Ivar