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Posted:
1 decade ago
11 ott 2012, 09:40 GMT-4
What do you want to get from the model? Which properties are you interested in? If it is just the temperature of the gold wire at a given power level, with all the simplifications you make, this can be done with a hand calculation, no need for COMSOL.
Cheers
Edgar
What do you want to get from the model? Which properties are you interested in? If it is just the temperature of the gold wire at a given power level, with all the simplifications you make, this can be done with a hand calculation, no need for COMSOL.
Cheers
Edgar
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Posted:
1 decade ago
11 ott 2012, 09:50 GMT-4
I'm interested in the temporal behavior, which is, at least I think, not that easy to determine even though the system is simple indeed.
But please don't hesitate, enlighten me and share your knowledge!
Let's say I'm interested in a stationary value for the wire-temperature for a given power. what would you suggest?
I'm interested in the temporal behavior, which is, at least I think, not that easy to determine even though the system is simple indeed.
But please don't hesitate, enlighten me and share your knowledge!
Let's say I'm interested in a stationary value for the wire-temperature for a given power. what would you suggest?
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
11 ott 2012, 10:28 GMT-4
Hi
for me it looks easier to model as a small 2D case, as sketched, then to derived the main parameters and find a simple equation to reproduce these values, and plug that into your larger model. Or even easier, have 2 coupled models, on small 2D as sketched, and a bigger one for the surrounding, and you link in the relevant items.
What about considering some radiation loss on top and perhaps convection cooling too ? (all depends on the final temperature.
Notice "T" is NOT conservative, energy fluxes yes, when expressed corectly
--
Good luck
Ivar
Hi
for me it looks easier to model as a small 2D case, as sketched, then to derived the main parameters and find a simple equation to reproduce these values, and plug that into your larger model. Or even easier, have 2 coupled models, on small 2D as sketched, and a bigger one for the surrounding, and you link in the relevant items.
What about considering some radiation loss on top and perhaps convection cooling too ? (all depends on the final temperature.
Notice "T" is NOT conservative, energy fluxes yes, when expressed corectly
--
Good luck
Ivar
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Posted:
1 decade ago
11 ott 2012, 11:02 GMT-4
---- for me it looks easier to model as a small 2D case, as sketched,
ok, so far
---- then to derived the main parameters and find a simple equation to reproduce these values,
I'm not really sure what you mean, sorry.
what analytically is going on in the system is smth I already know about.
1d vertical diffusion
2d half-spaced spread
1d horizontal
all with different timescales.
but I would have no idea what i could use this information for in comsol?!
---- and plug that into your larger model
I guess you're referring to the surrounding. but the surrounding is not really apparent, I implement it with really simple boundary conditions:
isolated at the hole top and the sides and a sink at the bottom.
I already know that radiation plays a tiny-minor role for the powers of interest and the hole thing is in vacuum (UHV), so no need for conductive effects either.
The only thing I would like to do is to replace the copper-block in the sketch by a heat-sink and at the same time add a resistive layer at the bottom, sort of; before the heat gets to the sink it has to diffuse through the layer.
---- for me it looks easier to model as a small 2D case, as sketched,
ok, so far
---- then to derived the main parameters and find a simple equation to reproduce these values,
I'm not really sure what you mean, sorry.
what analytically is going on in the system is smth I already know about.
1d vertical diffusion
2d half-spaced spread
1d horizontal
all with different timescales.
but I would have no idea what i could use this information for in comsol?!
---- and plug that into your larger model
I guess you're referring to the surrounding. but the surrounding is not really apparent, I implement it with really simple boundary conditions:
isolated at the hole top and the sides and a sink at the bottom.
I already know that radiation plays a tiny-minor role for the powers of interest and the hole thing is in vacuum (UHV), so no need for conductive effects either.
The only thing I would like to do is to replace the copper-block in the sketch by a heat-sink and at the same time add a resistive layer at the bottom, sort of; before the heat gets to the sink it has to diffuse through the layer.
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
11 ott 2012, 11:31 GMT-4
Hi
Well Edgar is right asking what you are afte? as I misunderstood a few items, if you are not interested in a larger model (as I assumed you wanted to simplify your model to plug it into something bigger).
Well where do you want to know the temperatures ? on which domains ?
If you are not interested in the details of the gold wire, use a perfect conductor layer, the sink ideally the same, but you must ensure your simplification remain valid. As your model is not really complex you could model both and compare the two.
Take a particlular close look to the differences of Tx Ty and not only T (asuming x-y the in plane vector ir is it x-z for you ?) and I asume the figure is staing your model is 2D and infinite in Y (and not x)
--
Good luck
Ivar
Hi
Well Edgar is right asking what you are afte? as I misunderstood a few items, if you are not interested in a larger model (as I assumed you wanted to simplify your model to plug it into something bigger).
Well where do you want to know the temperatures ? on which domains ?
If you are not interested in the details of the gold wire, use a perfect conductor layer, the sink ideally the same, but you must ensure your simplification remain valid. As your model is not really complex you could model both and compare the two.
Take a particlular close look to the differences of Tx Ty and not only T (asuming x-y the in plane vector ir is it x-z for you ?) and I asume the figure is staing your model is 2D and infinite in Y (and not x)
--
Good luck
Ivar
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Posted:
1 decade ago
12 ott 2012, 04:02 GMT-4
If you are just interested in a stationary situation and do not want to consider losses or geometrical distributions you can do it analytically. Basically it is:
Pin = Pout
Let Pin be the power in your gold wire, Tgold and Tcopper the temperatures, Ct the thermal conductivity of the resistive layer.
Pin = (Tgold - Tcopper)*Ct
Now solve for Tgold and you are done.
Cheers
Edgar
If you are just interested in a stationary situation and do not want to consider losses or geometrical distributions you can do it analytically. Basically it is:
Pin = Pout
Let Pin be the power in your gold wire, Tgold and Tcopper the temperatures, Ct the thermal conductivity of the resistive layer.
Pin = (Tgold - Tcopper)*Ct
Now solve for Tgold and you are done.
Cheers
Edgar