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Simulation of an hydraulic accumulator for pulsation reducing
Posted 9 avr. 2013, 09:29 UTC−4 Fluid & Heat, Materials, Mesh, Structural Mechanics Version 4.3a 1 Reply
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Hello COMSOL community,
I am trying to do a transient simulation of an accumulator in a hydraulic circuit. For simplification, the accumulator shall be placed as a bubble of a second fluid domain inside the domain of the hydraulic oil circuit. The bubble shall not mix up with the hydraulic oil domain and it shall not move. But of course, it must be deformable and the density of the bubble needs to be dependent on the surrounding pressure. Also, the E-module of the accumulator bubble needs to be considered.
Has anyone done a similar simulation or can give me an idea how to start? I'm not sure wether I have to use an additional structural mechanics physic for the deformation for the bubble and a moving mesh physic, or if I can simply use one fluid flow physic with two fluids.
Thank you for every kind of idea!
Julian
I am trying to do a transient simulation of an accumulator in a hydraulic circuit. For simplification, the accumulator shall be placed as a bubble of a second fluid domain inside the domain of the hydraulic oil circuit. The bubble shall not mix up with the hydraulic oil domain and it shall not move. But of course, it must be deformable and the density of the bubble needs to be dependent on the surrounding pressure. Also, the E-module of the accumulator bubble needs to be considered.
Has anyone done a similar simulation or can give me an idea how to start? I'm not sure wether I have to use an additional structural mechanics physic for the deformation for the bubble and a moving mesh physic, or if I can simply use one fluid flow physic with two fluids.
Thank you for every kind of idea!
Julian
1 Reply Last Post 18 avr. 2013, 10:46 UTC−4
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Posted:
1 decade ago
Hi,
combining two fluids that share a boundary but do not mix is possible by using one of the "two-phase flow interfaces". Like you describe it, the topology of your geometry will not change (the bubble will stay one bubble, only changing in shape/size) and therefore I would recommend the "Two-phase flow, Moving Mesh, laminar" interface (Microfluidics Module). The deformation of the bubble will depend on the surface tension of the fluid. Maybe you would like to add automatic transient remeshing for larger deformations.
--
Hope that helps!
Best regards,
Erik
*********************
Erik Bornhöft
Senior Technical Sales Engineer
COMSOL Multiphysics GmbH
Berliner Str. 4
37073 Göttingen
Germany
Knowledge Base:
www.comsol.de/support/knowledgebase/browse/900/
COMSOL Blog:
www.comsol.de/blogs/
combining two fluids that share a boundary but do not mix is possible by using one of the "two-phase flow interfaces". Like you describe it, the topology of your geometry will not change (the bubble will stay one bubble, only changing in shape/size) and therefore I would recommend the "Two-phase flow, Moving Mesh, laminar" interface (Microfluidics Module). The deformation of the bubble will depend on the surface tension of the fluid. Maybe you would like to add automatic transient remeshing for larger deformations.
--
Hope that helps!
Best regards,
Erik
*********************
Erik Bornhöft
Senior Technical Sales Engineer
COMSOL Multiphysics GmbH
Berliner Str. 4
37073 Göttingen
Germany
Knowledge Base:
www.comsol.de/support/knowledgebase/browse/900/
COMSOL Blog:
www.comsol.de/blogs/