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Solving Time-Dependent Problems - mesh size?
Posted 28 nov. 2012, 08:07 UTC−5 Mesh, Studies & Solvers Version 4.3a 8 Replies
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I have a very quick question.
Does the MESH SIZE have an influence on the time step when solving the time dependent problems?
If so, does COMSOL have some automatic changing of the time step when the mesh size is changed? Or, could you control it manually?
Thank you very much if you share some experience.
Katerina
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Of course you can define the time steps at which the problem shall be solved.
Mesh size is a completely different matter...
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It was just a stupid question if there is some influence between these two parameters. I believe not, but we had a discussion here....
K.
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I am sure other users have more experience on this, Please share your thoughts/ suggestions.
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en.wikipedia.org/wiki/Courant%E2%80%93Friedrichs%E2%80%93Lewy_condition
Usually you can check this by having plot of this criteria, though I couldnt find it yet. Anyway you can try to calculate it if you know all the parameters.
Good luck!
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Is this condition also applicable for these two schemes? or am i missing something here?
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Certainly they are linked, time steps and mesh size/density are often linked via the physics and your dependent variables, in particular for diffusion problems, such as heat transfer if you have a sudden heat step you need a high mesh density around your heat step, particularly on the low heat diffusivity side, to correctly resolve the temperature change per time step, over a few mesh elements. Check the Forum and any good book on HT
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Good luck
Ivar
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Still, I think you are right about explict time stepping. I understand Courant number as parameter describing how precisely code can control div(v) = 0 in each cell not letting fluid to cross cell too fast, therefore having proper information about physical parameters of each small quantity of fluid during transients and obtaining correct solution.
I checked COMSOL multyphisics reference guide, section - advanced solver topics, to which everyone should refer. There is described an interesting method (it was new for me) of controlling Courant number using PID regulator for pseudo time stepping (something new for me again). I didnt quite understand in what cases it is applied, but it seems to me that similar shceme could be used for variable time step, though it says it is for sationary cases.
Please someone correct me if I am wrong.
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certainly the COMSOl developpers are looking into ways to adapt the solvers at best, but yu as "user" should also have some good feeling (if not to start, at least for the second run) how you solution behaves, hence adapt the BCand IC to reasonables values. Sometimes running a steady state before a time stepping, is good to be in a known "true" physical and logical state, and not use only the default "0". This consideration includes also the mesh density erification and "tweaking"
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Good luck
Ivar
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