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ALE and Laminar Flow

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Hi,

I have been wondering lately whether it is possible to simulate with ALE and Laminar Flow interfaces the motion of an oject in a fluid.

Let us suppose that we have a closed system, i.e. a domain which does not exchange mass with the outside, and there is an object inside such domain. Is it possible to move the object around and see how the fluid redistributes itself?

I have prepared a simple model and I can force the mesh deform with no problem but the velocity of the fluid, water, remains just zero everywhere.

In the ALE interface, I define a free deforming mesh and I impose the proper laws of motion on the boundary of the moving object. By selecting the proper type of smoothing method and order I can even avoid inverted elements.
In the Laminar Flow interface I must define no slip conditions everywhere otherwise if I define moving walls I don't stand a chance to get a solution.

Does any one have an idea which additional boundary conditions /forces / whatever are required?

Cheers


4 Replies Last Post 2014年9月29日 GMT-4 09:07
COMSOL Moderator

Hello Amir Fadel

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Posted: 1 decade ago 2011年10月12日 GMT-4 17:17
Thanks your model help to get a good understanding of ALE. Thanks
Thanks your model help to get a good understanding of ALE. Thanks

Daniel Smith COMSOL Employee

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Posted: 1 decade ago 2011年10月13日 GMT-4 11:45
Hi, Laminar flow with ALE is available as a physics interface in the Microfluidics module which was released with version 4.2:

www.comsol.com/products/microfluidics/

The interface, called Two-phase Flow, Moving Mesh, includes surface tension forces, forces at contact points and lines and also allows for phase change across the liquid/gas interface.
Hi, Laminar flow with ALE is available as a physics interface in the Microfluidics module which was released with version 4.2: http://www.comsol.com/products/microfluidics/ The interface, called Two-phase Flow, Moving Mesh, includes surface tension forces, forces at contact points and lines and also allows for phase change across the liquid/gas interface.

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Posted: 1 decade ago 2011年11月19日 GMT-5 11:55

Hi, Laminar flow with ALE is available as a physics interface in the Microfluidics module which was released with version 4.2:

www.comsol.com/products/microfluidics/

The interface, called Two-phase Flow, Moving Mesh, includes surface tension forces, forces at contact points and lines and also allows for phase change across the liquid/gas interface.


What would be the easiest way to incorporate phase change across a liquid/gas interface in 4.1. Say for example in a simple geometry of a water drop on a hot surface (boundary).
[QUOTE] Hi, Laminar flow with ALE is available as a physics interface in the Microfluidics module which was released with version 4.2: http://www.comsol.com/products/microfluidics/ The interface, called Two-phase Flow, Moving Mesh, includes surface tension forces, forces at contact points and lines and also allows for phase change across the liquid/gas interface. [/QUOTE] What would be the easiest way to incorporate phase change across a liquid/gas interface in 4.1. Say for example in a simple geometry of a water drop on a hot surface (boundary).

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Posted: 1 decade ago 2014年9月29日 GMT-4 09:07
Hello Mr. Ivar

I am also working on this kind of example like Mr. Amir Fadel worked at the top of the page. I need to apply gravity and buoyant forces so that mesh will be disformed. With the moving of the box the fluid phase should deform i guess.

Any idea how should i do that?
Hello Mr. Ivar I am also working on this kind of example like Mr. Amir Fadel worked at the top of the page. I need to apply gravity and buoyant forces so that mesh will be disformed. With the moving of the box the fluid phase should deform i guess. Any idea how should i do that?

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