Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
6 set 2012, 11:48 GMT-4
Hi
in some of the functions of COMSOL you can add a tick to get it repeat (see bottom of function GUI)
Then you must use a stepping scheme so that COMSOL understands that it must shorten the steps around your sharp transitions, as in "automatic" mode COMSOL assumes an exponential decay behaviour, by default (solver time stepping): intermediate or Strict and manually defined steps (at least 3 per steep slope region
--
Good luck
Ivar
Hi
in some of the functions of COMSOL you can add a tick to get it repeat (see bottom of function GUI)
Then you must use a stepping scheme so that COMSOL understands that it must shorten the steps around your sharp transitions, as in "automatic" mode COMSOL assumes an exponential decay behaviour, by default (solver time stepping): intermediate or Strict and manually defined steps (at least 3 per steep slope region
--
Good luck
Ivar
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Posted:
1 decade ago
7 set 2012, 08:39 GMT-4
Hi Ivar,
Thank you for your reply.After your email I changed my model:
1) I defined a rectangular function, with lower limit=0 and upper limit=3 months, and a transition zone=0.5 months.
2) then I defined an analytic function, with expression= rect1(t), argument=t, and ticked the period box with lower limit=0 and upper limit=12 months. Then in the plot parameters box I ploted t, with lower limit=0 and upper limit=100 years.
The function looks good.
When I run it I get an error "solver may have reached a singularity at t=1 year. Last time step is not converged".
Probably its because the solver does not take many steps in the slope region, as you also suggested.
I have used "steps taken by the solver=free" because I thought that the solver will know when there is a slope and would take more steps... Does the solver assume an exponential decay behaviour in all the steps options (strict, free and intermediate)?.
What other option do I have to define smaller steps in the slope regions? do I have to define them manually in the "time dependent solver-user defined-time" window? so in the time window write: range(0month, 1month, 100 years). In such a way the solver will take steps of 1 months. is there any other way?
thank you so much for your help!
Angelina
Hi Ivar,
Thank you for your reply.After your email I changed my model:
1) I defined a rectangular function, with lower limit=0 and upper limit=3 months, and a transition zone=0.5 months.
2) then I defined an analytic function, with expression= rect1(t), argument=t, and ticked the period box with lower limit=0 and upper limit=12 months. Then in the plot parameters box I ploted t, with lower limit=0 and upper limit=100 years.
The function looks good.
When I run it I get an error "solver may have reached a singularity at t=1 year. Last time step is not converged".
Probably its because the solver does not take many steps in the slope region, as you also suggested.
I have used "steps taken by the solver=free" because I thought that the solver will know when there is a slope and would take more steps... Does the solver assume an exponential decay behaviour in all the steps options (strict, free and intermediate)?.
What other option do I have to define smaller steps in the slope regions? do I have to define them manually in the "time dependent solver-user defined-time" window? so in the time window write: range(0month, 1month, 100 years). In such a way the solver will take steps of 1 months. is there any other way?
thank you so much for your help!
Angelina
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
7 set 2012, 10:25 GMT-4
Hi
My experience is that "free" or "automatic" stepping is based primarly on a diffusion type studies so COMSOL espect some exponentail decays, when you have repeating BC signals you must choose "strict" or "intermediate" stepping, and in the time solver node (time ranges) you must combine several calls to range() such as
{range(1,1,9) range(9.1,0.1,11) range (12,1,19)}
for a signal with a slope change around 10, and rather flat response from 1 to 9 and 11 to 19)
Now use at least 3 points over the slope, 5 or more are better, but it takes time ...
Today there is no "easy" way to tell COMSOl to create such a sequence, you must use your engineering sens, but at least that means we are still in control ;)
Hope you catch my explanations
--
Good luck
Ivar
Hi
My experience is that "free" or "automatic" stepping is based primarly on a diffusion type studies so COMSOL espect some exponentail decays, when you have repeating BC signals you must choose "strict" or "intermediate" stepping, and in the time solver node (time ranges) you must combine several calls to range() such as
{range(1,1,9) range(9.1,0.1,11) range (12,1,19)}
for a signal with a slope change around 10, and rather flat response from 1 to 9 and 11 to 19)
Now use at least 3 points over the slope, 5 or more are better, but it takes time ...
Today there is no "easy" way to tell COMSOl to create such a sequence, you must use your engineering sens, but at least that means we are still in control ;)
Hope you catch my explanations
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
11 set 2012, 03:57 GMT-4
Hi Ivar,
Thank you!! it works now! thank you!
Hi Ivar,
Thank you!! it works now! thank you!