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
2 mar 2013, 03:09 GMT-5
Hi
how do you define your volatge V ? by a constant value 90[V] it remains like that, but you could write V0+DV*(T0-T) and define V,DV,DT as parameters this would give yyour V value a slop of DV[V/K] from V0 for values above T=T0
--
Good luck
Ivar
Hi
how do you define your volatge V ? by a constant value 90[V] it remains like that, but you could write V0+DV*(T0-T) and define V,DV,DT as parameters this would give yyour V value a slop of DV[V/K] from V0 for values above T=T0
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
18 mar 2013, 15:22 GMT-4
hi Ivar,
thanks for your response
i want to make the electric potential dependent on temperature, To control the temperature so it does not exceed 90 degC, where
V=V0 if T<90 degC
and V=0 if T>90 degC
and i set the temperature initial value to 37 degC
i tried to set the electric potential to V0*(310<T<363), but that doesn't control the temperature and it reached to 240 degC, i don't know what is the right expression for electric potential to achieve this condition .
thanks
basant
hi Ivar,
thanks for your response
i want to make the electric potential dependent on temperature, To control the temperature so it does not exceed 90 degC, where
V=V0 if T90 degC
and i set the temperature initial value to 37 degC
i tried to set the electric potential to V0*(310
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
18 mar 2013, 15:58 GMT-4
Hi
there used to be a model library example on temperature control, as your case with "if" statements is rather what one calls a "bang-bang" controller and is known for it's instabilities and overshoots. If you define your temperature measure as the average over a small or larger domain, and then use the T-Tref as driver for a global dependent variable Vinput it should work in stationary mode. OIn time mode you need to set some definition or limits on the derivative of V, try to use "smooth ramp or step functions, rather than "if"'s
--
Good luck
Ivar
Hi
there used to be a model library example on temperature control, as your case with "if" statements is rather what one calls a "bang-bang" controller and is known for it's instabilities and overshoots. If you define your temperature measure as the average over a small or larger domain, and then use the T-Tref as driver for a global dependent variable Vinput it should work in stationary mode. OIn time mode you need to set some definition or limits on the derivative of V, try to use "smooth ramp or step functions, rather than "if"'s
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
9 years ago
1 lug 2015, 09:20 GMT-4
Dear colleague,
I desire to implement a temperature control in my 3D MODEL. It consists the physics coupling between heat transfer and electric currents. The electric potential V is controlled such as the maximum temperature is below 100ºC. I tried to use the maxop1 operator with the sintax 14*(maxop1(T2)<100[degC]), where 14 is electrical potencial (14V) and T2 is temperature variable, but it not is working: the temperature grows without control. I use the time-dependent solver relative tolerance equal to 1e-4 (to properly resolve the switching conditions).
I'm using COMSOL MULTIPHYSICS 4.0
I await help.
Best regards
Cleber da Silva Pinheiro
Dear colleague,
I desire to implement a temperature control in my 3D MODEL. It consists the physics coupling between heat transfer and electric currents. The electric potential V is controlled such as the maximum temperature is below 100ºC. I tried to use the maxop1 operator with the sintax 14*(maxop1(T2)