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Problem: Oil Droplets Seem To Dissolve In Water (Two-Phase Flow, Level Set)
Posted 2011年12月15日 GMT-5 14:29 Fluid & Heat, Computational Fluid Dynamics (CFD), Microfluidics, Mesh, Modeling Tools & Definitions, Parameters, Variables, & Functions Version 4.2, Version 4.3, Version 4.3a, Version 5.1 17 Replies
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The attached .gif shows nice droplet formation generated by model. It looks similar to what is seen experimentally, except the oil droplets seem to dissolve in the water phase! I have not been able to figure out which parameter must be missing to make the two phases immiscible (I actually thought Two-Phase Flow was immiscible per standard).
Can anyone give a quick suggestion as to how I can keep the oil droplets from dissolving in the water phase?
Thanks in advance!
Best regards
Kristian Sørensen
Denmark
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The Two-Phase Flow Level Set solver has two forms: conservative and non-conservative (default). In non-conservative formulation there is a mass loss during simulation caused by numerical errors.
See: CFD Module. User's Guide and Rising Bubble in the Model Library.
BR
Andrzej
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Thank you very much Andrzej!
Best regards
Kristian
Denmark
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However, I ran in conservative form, the droplet still shrinks. I have also played with the scales for dependent variables but not useful.
Did you do anything else besides turn the solver into conservative? please let me know.
Thanks.
Shawn
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Others are correct that the convective terms must be solved in conservative form. However, if the time is large, or if both phases density are not in a close range (e.g. air and water), turning equations in conservative is not enough.Therefore, I defined a pressure point constraint on the droplet. I made these and that worked perfectly.
Other issue is of course the convergence. To fix that one, instead of Level set, simply use Phase-field.
Good luck.
Shawn
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remains for me is it physical to place a pressure point on the droplet ?
I would rather have it on some "fixed" position, as in presence of gravity the pressure is increasing with the fall towards -y (generally)
One thing is to make a nice simulation with beautiful colours, the other is to model correctly the true physics (or as close as possible.
Remains, that in the phase method, in contrary to the level set, the droplet dissociates, hence we need to add something
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Good luck
Ivar
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The droplet still shrinks as I reduce its size to less than 100 microns for 2D-axisymmetric models. I think COMSOL needs to think seriously and do something to resolve this issue.
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Shawn
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I do believe COMSOL's developpers have though seriously about it ;)
but it's rather our use of level set and phase set that is not correct: my first test the other day also showed that level set fallong droplet worked out nicely, while my first attempt with the phase set had the droplet to dissolve before it had gone far ;)
So I need to go back to the theory and library examples to take a new "learning session", I'm not often in these physics, as I'm mixing many physics, I tend to forget the specialities, of one and the other, if I do ont use them over a month or two
Now I do not agree that the pressure is constant all around, in all generality, as the fluid velocity changes around a falling droplet, hence the local forces too and the normal force = pressure wil then change all around the droplet circumference
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Good luck
Ivar
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Ivar,
I agree with your statement regarding the pressure-change around moving objects in "general".
But as I mentioned, I believe that it is reasonable to consider it constant around micron size droplet when it has practically no speed. Again, this is physics dependent, and with my case it is totally justified!
Good luck
Shawn
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I am using the conservative form, however the time required to solve the simulation increased very much. is there any way to decrease the solution time?
Thanks
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Regards,
A K Jana
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My model is similar to what we are discussing here, but I have problem that when I use phase field method, it seems the drop(it is an organic) dissolve in the water. I cannot figure out what's wrong. Actually, I also meet another problem. In my model, I use three fluids: air, water and organic drop. The organic drop first stay in the air, and then it fall downward in to the water. I tried both level set and phase field. It seems there have some problem with the initial interface. I am not sure if comsol can solve this kind of simulation. Do you have any ideas? Or others who know this, can you help me? Thank you so much.
Best,
Esther
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Many thanks for your clarifying. Indeed, I am trying to simulate a droplet on a flat surface and I followed all instructions bout still I faced a problem with the convergence and lot of errors. can you please guide me how to solve my problem.
Thanks.
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Did you find out what was wrong in your model? I am currently stuck with the exact same problem, I am investigating droplet formation in T-shape devices, and within 1 mm, oil droplets seem to dissolve in water. I tried both phase-field and level set methods and while phase-field did not want to converge from the very beginning (the initialization of the interface seem to be problematic), the level set method first starts but there are some convergence issues once the dispersed phase enters the junction.
Could you give me an insight on how you manage to solve these issues in the past four months?
Best,
Axel
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i have same problem
did you find a solution for that?
thanks in advanced
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I have a three phase flow problem. These three materials are immiscible (water, oil, air) but two of them getting mixed. I red another discussion: ''Problem: Oil Droplets Seem To Dissolve In Water (Two-Phase Flow, Level Set)''
In there, they overcome that problem with changing of non-conservative form to conservative form in advanced physic setting of two phase flow.
but in three phase flow, this option doesn't exist.
and I think the default equation is non-conservative.
is there any way to change it to conservative form?
best regards
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