Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
Dec 10, 2011, 12:43 p.m. EST
Hi
Sorry but I cannot solve that like that for you, first of all it's not a trivial task, It would also take me a week or more, then I do not have 3.5a working any longer, it's really getting too old for me.
However, there are the propeller example of a rotating air blower. If I remember right it uses an assembly mode of two overlapping circles to define the rotating region
--
Good luck
Ivar
Hi
Sorry but I cannot solve that like that for you, first of all it's not a trivial task, It would also take me a week or more, then I do not have 3.5a working any longer, it's really getting too old for me.
However, there are the propeller example of a rotating air blower. If I remember right it uses an assembly mode of two overlapping circles to define the rotating region
--
Good luck
Ivar
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Posted:
1 decade ago
Dec 10, 2011, 1:00 p.m. EST
Thanking you for reply,
Would you just tell with what model should I proceed just for rotating a body?
Regards,
Thanking you for reply,
Would you just tell with what model should I proceed just for rotating a body?
Regards,
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
Dec 11, 2011, 5:19 a.m. EST
Hi
I remember there was a model (perhaps its also on the forum, a couple of years ago) in the model library of a rotating fan, I believe it belonged to the chemistry module, as most CFD was then included in that library, but as I do not have 3.5 running I cannot search it out any longer.
--
Good luck
Ivar
Hi
I remember there was a model (perhaps its also on the forum, a couple of years ago) in the model library of a rotating fan, I believe it belonged to the chemistry module, as most CFD was then included in that library, but as I do not have 3.5 running I cannot search it out any longer.
--
Good luck
Ivar
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Posted:
1 decade ago
Dec 18, 2011, 11:29 p.m. EST
Hi Ivar,
Extremely thanks for help. I got all things. But I am getting errors.
-Failed to find consistent initial values.
-Last time step is not converged.
How to get rid of these?
Thanking you.
Hi Ivar,
Extremely thanks for help. I got all things. But I am getting errors.
-Failed to find consistent initial values.
-Last time step is not converged.
How to get rid of these?
Thanking you.
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
Dec 19, 2011, 1:40 a.m. EST
Hi
well as already stated, there can be many errors linked, if you are sure about your BC's (enough, independent, ...) then remains the initial conditions (default = 0, often a "worst case" choice) and for CFD the mesh density w.r.t. local effects. (turbulence is the worst, and neither not "my pot of tea", ther you need other to better help).
One way that might work is to ramp a velocity or pressure gently, but this consumes many time steps and might neither not work.
Another way is to set up a steady state case to get a first flow, then release the time dependent study.
Often when such things happen for me in 3D i go back to 2D because it solves so much quicker, and try to debug therein (i.e. use a 2D projected velocity field into the 3D domain as initial conditions.
If you have diffusion effects, the solution is often along an erfc() function, then setting up a preliminary initial condition with this function could help. Astonishly, there are several of these "standard PDE solution" operators missing from the default list of COMSOL predefined operators, the ERFC() is quickly defined in a analytical function, but then the derivative is often needed, this is also known, so I bleieve COMSOL could use it better internally, so as it's not there one have to define this by hand, and sometimes it's better to knpow what one is doing, no ?
--
Good luck
Ivar
Hi
well as already stated, there can be many errors linked, if you are sure about your BC's (enough, independent, ...) then remains the initial conditions (default = 0, often a "worst case" choice) and for CFD the mesh density w.r.t. local effects. (turbulence is the worst, and neither not "my pot of tea", ther you need other to better help).
One way that might work is to ramp a velocity or pressure gently, but this consumes many time steps and might neither not work.
Another way is to set up a steady state case to get a first flow, then release the time dependent study.
Often when such things happen for me in 3D i go back to 2D because it solves so much quicker, and try to debug therein (i.e. use a 2D projected velocity field into the 3D domain as initial conditions.
If you have diffusion effects, the solution is often along an erfc() function, then setting up a preliminary initial condition with this function could help. Astonishly, there are several of these "standard PDE solution" operators missing from the default list of COMSOL predefined operators, the ERFC() is quickly defined in a analytical function, but then the derivative is often needed, this is also known, so I bleieve COMSOL could use it better internally, so as it's not there one have to define this by hand, and sometimes it's better to knpow what one is doing, no ?
--
Good luck
Ivar
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Posted:
9 years ago
Sep 16, 2015, 10:22 a.m. EDT
Hi Ivar,
I am compressing rubber gasket (to find Creep) which has very small sensor inside. Top plates are placed between the gasket, bottom plate is stationary, but I am getting error "Failed to find consistent initial values, Last time step is not converged". With one study either stationary or time dependent simulation is working fine but when I am running it with 2 studies and defining value of dependent variable as stationary study in time dependent, in this case I am getting this error.
I have checked mesh as it seems fine but don't know why getting this error. Could you please help me out in this? Simulation is attached.
Would be really thankful to you
Many Greetings,
Bilal Javed
Hi Ivar,
I am compressing rubber gasket (to find Creep) which has very small sensor inside. Top plates are placed between the gasket, bottom plate is stationary, but I am getting error "Failed to find consistent initial values, Last time step is not converged". With one study either stationary or time dependent simulation is working fine but when I am running it with 2 studies and defining value of dependent variable as stationary study in time dependent, in this case I am getting this error.
I have checked mesh as it seems fine but don't know why getting this error. Could you please help me out in this? Simulation is attached.
Would be really thankful to you
Many Greetings,
Bilal Javed