Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
2012年1月13日 GMT-5 02:29
Hi
it's not my main field (CFD and chemistry) but what I have learned so far: mesh you should use boundary layers for no-slip walls (comsol proposes that by default) but I also use boundary layers on diffusion boundaries (when solving in the time domain) with high concentration steps (this applies also for HT by the way, it's general for any diffusion equation, due to the erfc() solution shape for t around 0).
Then when you mix many physics, it's wise to start stepwise (when possible or at least block some when multiple are there by default NITF ...). This is the general question to for segregation which variables to solve first in which order, how to separate. Even if COMSOL proposed good choices, it's not always optimum, and I often set back to direct mode, as I have quite some RAM and that often solves quiker (less iterations). This requires tsts and tries.
But I would aso start flow, then concentration, in that order. But there must be other than me out here that could come with less "guessed" suggestions ;)
--
Good luck
Ivar
Hi
it's not my main field (CFD and chemistry) but what I have learned so far: mesh you should use boundary layers for no-slip walls (comsol proposes that by default) but I also use boundary layers on diffusion boundaries (when solving in the time domain) with high concentration steps (this applies also for HT by the way, it's general for any diffusion equation, due to the erfc() solution shape for t around 0).
Then when you mix many physics, it's wise to start stepwise (when possible or at least block some when multiple are there by default NITF ...). This is the general question to for segregation which variables to solve first in which order, how to separate. Even if COMSOL proposed good choices, it's not always optimum, and I often set back to direct mode, as I have quite some RAM and that often solves quiker (less iterations). This requires tsts and tries.
But I would aso start flow, then concentration, in that order. But there must be other than me out here that could come with less "guessed" suggestions ;)
--
Good luck
Ivar
Nagi Elabbasi
Facebook Reality Labs
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Posted:
1 decade ago
2012年1月13日 GMT-5 07:52
You don’t need a simultaneous solution since the injected substance does not affect the fluid flow. Solve the fluid flow model first. Then setup a second Transport of Diluted Species (mass transfer) model with the velocity taken from the first solution. You make that connection in Model Inputs section in the “Convection and Diffusion” node. I assumed that the “substance” spreads by both convection (from the fluid flow) and diffusion. If there is no diffusive component you can use particle tracing for the second model.
Nagi Elabbasi
Veryst Engineering
You don’t need a simultaneous solution since the injected substance does not affect the fluid flow. Solve the fluid flow model first. Then setup a second Transport of Diluted Species (mass transfer) model with the velocity taken from the first solution. You make that connection in Model Inputs section in the “Convection and Diffusion” node. I assumed that the “substance” spreads by both convection (from the fluid flow) and diffusion. If there is no diffusive component you can use particle tracing for the second model.
Nagi Elabbasi
Veryst Engineering
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Posted:
1 decade ago
2012年1月20日 GMT-5 09:39
Hi Nagi,
How would using the mass transfer module differ from using the particle tracing module?
Thanks!
Marjorie
Hi Nagi,
How would using the mass transfer module differ from using the particle tracing module?
Thanks!
Marjorie
Nagi Elabbasi
Facebook Reality Labs
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Posted:
1 decade ago
2012年1月20日 GMT-5 12:37
Mass transfer accounts for convection and diffusion (spreading). It cannot be non-diffusive even if you use near zero diffusivity. There is always a small amount of diffusion depending on the settings and the mesh size. Particle tracing uses a different formulation that does not involve diffusion.You should select between the two methods based on the physics of your specific problem.
Nagi Elabbasi
Veryst Engineering
Mass transfer accounts for convection and diffusion (spreading). It cannot be non-diffusive even if you use near zero diffusivity. There is always a small amount of diffusion depending on the settings and the mesh size. Particle tracing uses a different formulation that does not involve diffusion.You should select between the two methods based on the physics of your specific problem.
Nagi Elabbasi
Veryst Engineering
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Posted:
1 decade ago
2012年1月23日 GMT-5 15:45
Hi Nagi,
Can you please expand on the differences?
I am currently working with a simple setup; 3D laminar flow around a regular object. I am trying to incrementally add levels of complexity so that I can fix any convergences issues that arise.
Thanks!
Hi Nagi,
Can you please expand on the differences?
I am currently working with a simple setup; 3D laminar flow around a regular object. I am trying to incrementally add levels of complexity so that I can fix any convergences issues that arise.
Thanks!