Hello David Roos Launchbury
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Posted:
1 decade ago
2011年2月11日 GMT-5 03:48
Hi!
I am interested about the same problem. Have you solved with the subdomain force for mixture?
Thanks!
Narcis
Hi!
I am interested about the same problem. Have you solved with the subdomain force for mixture?
Thanks!
Narcis
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Posted:
1 decade ago
2011年3月14日 GMT-4 10:24
hi
I have the same problem. I want to simulate water droplet in oil with the gravity force just applied to the water droplet.
how can i do this ??
hi
I have the same problem. I want to simulate water droplet in oil with the gravity force just applied to the water droplet.
how can i do this ??
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Posted:
1 decade ago
2011年3月15日 GMT-4 02:29
There is an example for gravity, for particle sedimentation. Look on Comsol model library. Removing Contaminants in a Secondary Sedimentation Clarifier.
There is an example for gravity, for particle sedimentation. Look on Comsol model library. Removing Contaminants in a Secondary Sedimentation Clarifier.
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
2011年3月15日 GMT-4 04:40
Hi
I'm not sure I fully understand your issue (I do not have any geo-science module) but if you apply a body load you give the formula for a mesh element item of size dx*dy*dz, hence "solid.rho*g_const" in [N/m^3] for a gravity load (density) in structural
Now your "solid.rho" is to be understood as a "solid.rho_i(x,y,z)", where the subscript "_i" stands for the specific geometrical Element index, and the (x,y,z) is the field representation, as the density is not necessarily constant in the model over a given volume.
So if you have two fractions of material you need to add a Boolean or a "ratio" value to the equation to get it to only consider the desired item(s) inside the mesh element
--
Good luck
Ivar
Hi
I'm not sure I fully understand your issue (I do not have any geo-science module) but if you apply a body load you give the formula for a mesh element item of size dx*dy*dz, hence "solid.rho*g_const" in [N/m^3] for a gravity load (density) in structural
Now your "solid.rho" is to be understood as a "solid.rho_i(x,y,z)", where the subscript "_i" stands for the specific geometrical Element index, and the (x,y,z) is the field representation, as the density is not necessarily constant in the model over a given volume.
So if you have two fractions of material you need to add a Boolean or a "ratio" value to the equation to get it to only consider the desired item(s) inside the mesh element
--
Good luck
Ivar
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Posted:
1 decade ago
2011年3月15日 GMT-4 05:19
If you have gravity as the driving force for phase separation, the sedimentation example is the right way to go, as Osahie correctly points out. The COMSOL Mixture Model in the CFD module has built-in functionality for this (through the Hadamard-Rybczynski or Schiller-Naumann slip models).
If you however want another physical force than gravity on one of the phases you have to set "Slip-model: User defined", and type in your own force model.
--
Niklas
If you have gravity as the driving force for phase separation, the sedimentation example is the right way to go, as Osahie correctly points out. The COMSOL Mixture Model in the CFD module has built-in functionality for this (through the Hadamard-Rybczynski or Schiller-Naumann slip models).
If you however want another physical force than gravity on one of the phases you have to set "Slip-model: User defined", and type in your own force model.
--
Niklas
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
2011年3月15日 GMT-4 05:46
Hi Niklas
That is what I expected, in the geo-science you have some nice advanced models set-up in your physics.
There were some similar question raised at the last Paris conference from a Norwegian COMSOL user, hope he is listening too ;)
-
Good luck
Ivar
Hi Niklas
That is what I expected, in the geo-science you have some nice advanced models set-up in your physics.
There were some similar question raised at the last Paris conference from a Norwegian COMSOL user, hope he is listening too ;)
-
Good luck
Ivar
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Posted:
1 decade ago
2013年7月2日 GMT-4 17:20
Thanks so very much for this insight. I'd gotten quite far down a model development path carrying the implicit assumption that I could apply a variety of forces in the mm module similarly to the fpt module. Nearly had a heart attack when I saw that I couldn't, but this resolves the issue.
Most valuable post I've found so far on the COMSOL forums. If there isn't already, there should be an "FAQ" or "Expert Knowledge Base" area of the site for such valuable posts.
+1
HC
Thanks so very much for this insight. I'd gotten quite far down a model development path carrying the implicit assumption that I could apply a variety of forces in the mm module similarly to the fpt module. Nearly had a heart attack when I saw that I couldn't, but this resolves the issue.
Most valuable post I've found so far on the COMSOL forums. If there isn't already, there should be an "FAQ" or "Expert Knowledge Base" area of the site for such valuable posts.
+1
HC