Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
May 22, 2012, 1:17 a.m. EDT
Hi
there can be several things, such as BC too far from resulting conditions, or too steep changes (no ramp up ...). This can also be linked to the mesh not respecting the sampling criteria linking the heat diffusivity, the time stepping n and the mesh size. Check the forum on HT and time response and heat diffusivity (unfortunately COMSOl does not propose alpha as a standard mesn to check the mesh for HT, while it uses similar coefficents in other diffusion models.
Obviously their HT team havnt discovered yet that they are solving the same PDE equations as the chemistry team ;)
--
Good luck
Ivar
Hi
there can be several things, such as BC too far from resulting conditions, or too steep changes (no ramp up ...). This can also be linked to the mesh not respecting the sampling criteria linking the heat diffusivity, the time stepping n and the mesh size. Check the forum on HT and time response and heat diffusivity (unfortunately COMSOl does not propose alpha as a standard mesn to check the mesh for HT, while it uses similar coefficents in other diffusion models.
Obviously their HT team havnt discovered yet that they are solving the same PDE equations as the chemistry team ;)
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
May 22, 2012, 4:51 a.m. EDT
Hello Ivar,
Thank you for your immediate response! I read your propositions but I'm not sure how I can detect the specific problem and how I can correct it, since I am a COMSOL newbie. Would it be to much if I asked you to take a look at the model?
Thank you in advance,
Odysseas
Hello Ivar,
Thank you for your immediate response! I read your propositions but I'm not sure how I can detect the specific problem and how I can correct it, since I am a COMSOL newbie. Would it be to much if I asked you to take a look at the model?
Thank you in advance,
Odysseas
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
May 22, 2012, 5:50 a.m. EDT
Hi
a few comments:
Note with the Joule heating strain reference temperature 0[K] is rather cold, I assume you ment "Tref0"
As your AlN is not conducting You can exclude it from the Joule heating source
I'm not sure the h=10W/m/K usual for air exchange is valid at 80[K] as air tend to flow or even freeze at those temperatures, so obviously you have something else He or H2 I assume
You do get a reasonable result in stationary, if you double the mesh you get the same shape and it goes from 8.5[K] to 9.4 temperature increase. your sharp corners make some singulatities thast could explain the change in value, you could also fillet slightly these corners, to allow a better current and heat flow (w.r.t. FEM resolution) since your results is mainly singularity driven
The temporal case is probably not runnign as you mesh size, material alpha (heat diffusivity) and time stepping are not lined up, check the forum. also you should ramp up the voltage to avoid the turn on dirac function you are creating
Change your V0 to V0*step1(t[1/s]) and define step1() in the Definitions. Do not then forget to add a Parameter t= 1[s] so that your steady state simulation will run OK, and allow the time dependent solver to overwrite the parameter t value nicely. then you need to increase the mesh, and perhaps play with the time stepping settings of the solver, but it should work
Advice: turn on the plot while solving for aall solver steps for the time dependent case to see haw it goes
To simplify your model, you could consider the Pt layer as a bulk thin film and not a 3D volume, as you do not resolve anything with 1 mesh element in thicknes, then you would need >= 3 and for your time scales you will not see any gradients therein, in my opinion
--
Good luck
Ivar
Hi
a few comments:
Note with the Joule heating strain reference temperature 0[K] is rather cold, I assume you ment "Tref0"
As your AlN is not conducting You can exclude it from the Joule heating source
I'm not sure the h=10W/m/K usual for air exchange is valid at 80[K] as air tend to flow or even freeze at those temperatures, so obviously you have something else He or H2 I assume
You do get a reasonable result in stationary, if you double the mesh you get the same shape and it goes from 8.5[K] to 9.4 temperature increase. your sharp corners make some singulatities thast could explain the change in value, you could also fillet slightly these corners, to allow a better current and heat flow (w.r.t. FEM resolution) since your results is mainly singularity driven
The temporal case is probably not runnign as you mesh size, material alpha (heat diffusivity) and time stepping are not lined up, check the forum. also you should ramp up the voltage to avoid the turn on dirac function you are creating
Change your V0 to V0*step1(t[1/s]) and define step1() in the Definitions. Do not then forget to add a Parameter t= 1[s] so that your steady state simulation will run OK, and allow the time dependent solver to overwrite the parameter t value nicely. then you need to increase the mesh, and perhaps play with the time stepping settings of the solver, but it should work
Advice: turn on the plot while solving for aall solver steps for the time dependent case to see haw it goes
To simplify your model, you could consider the Pt layer as a bulk thin film and not a 3D volume, as you do not resolve anything with 1 mesh element in thicknes, then you would need >= 3 and for your time scales you will not see any gradients therein, in my opinion
--
Good luck
Ivar