Hello Utku Göreke
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Posted:
10 years ago
18 févr. 2015, 14:45 UTC−5
Hi Utku,
I am also working on this kind of simulation, 3D particle immigration in pressure-driven flow.
I downloaded your model and studied it carefully. I think the key point is to find the acting force on the turbine. As you said, the "p" represent the pressure in the liquid, can it equals to the pressure acting on the turbine? I don't know. What do you think? If you have make any progress, could you tell me?
Thank you very much.
Mengqi
Hi Utku,
I am also working on this kind of simulation, 3D particle immigration in pressure-driven flow.
I downloaded your model and studied it carefully. I think the key point is to find the acting force on the turbine. As you said, the "p" represent the pressure in the liquid, can it equals to the pressure acting on the turbine? I don't know. What do you think? If you have make any progress, could you tell me?
Thank you very much.
Mengqi
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Posted:
10 years ago
19 févr. 2015, 03:14 UTC−5
Yes pressure difference creates the driving force in this situation and defining it as a boundary load should work in this case. But the problem is as far as I understand sliding mesh works only for small displacements. In my case the displacement of mesh was supposed to be very high wrt step size of the simulation thus it failed.
I could not make any progress on the issue. It is a difficult one. But if you have a case with simpler dynamics, this story can be related to you;
www.comsol.com/story/sea-floor-energy-harvesting-14477
Problem is handled in FSI module by entering the governing equations to the model.
Good luck.
Yes pressure difference creates the driving force in this situation and defining it as a boundary load should work in this case. But the problem is as far as I understand sliding mesh works only for small displacements. In my case the displacement of mesh was supposed to be very high wrt step size of the simulation thus it failed.
I could not make any progress on the issue. It is a difficult one. But if you have a case with simpler dynamics, this story can be related to you;
http://www.comsol.com/story/sea-floor-energy-harvesting-14477
Problem is handled in FSI module by entering the governing equations to the model.
Good luck.
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Posted:
10 years ago
19 févr. 2015, 18:43 UTC−5
Hi Utku,
Thank you for your suggestions. The reason why I choose to use multiphysics rather than FSI is that I have to simulate EOF later. I think using multiphysics is more flexible than a single FSI module.
About the force acting on the rotator, have you read this discussion?
www.comsol.com/community/forums/general/thread/11441/
Integration of "reacf()" or "xx_lm" along the boundary rotator is used to represent the reaction force.
However, about the problem you meet with now, the displacement of mesh can not be very high, I am sorry I do not know how to solve it. Hope you can solve it recently.
Good Luck.
Hi Utku,
Thank you for your suggestions. The reason why I choose to use multiphysics rather than FSI is that I have to simulate EOF later. I think using multiphysics is more flexible than a single FSI module.
About the force acting on the rotator, have you read this discussion?
http://www.comsol.com/community/forums/general/thread/11441/
Integration of "reacf()" or "xx_lm" along the boundary rotator is used to represent the reaction force.
However, about the problem you meet with now, the displacement of mesh can not be very high, I am sorry I do not know how to solve it. Hope you can solve it recently.
Good Luck.