Frank van Gool
COMSOL Employee
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Posted:
9 years ago
2015年12月21日 GMT-5 04:32
Dear Astrid,
You might want to take a look at our blog post on the subject of phase change.
www.comsol.com/blogs/phase-change-cooling-solidification-metal/
In essence you artificially add the latent heat to the heat capacity around the melting temperature. The built in interface does this for you, but you can also built this yourself.
The width of the function needs to be well resolved by time and mesh, and thus you might need some testing for the optimal settings.
There are several example models on this like:
www.comsol.com/model/phase-change-474
If your spheres are relatively big, you might also want to look at our feature "local thermal non-equilibrium" introduced in version 5.1:
www.comsol.com/release/5.1/heat-transfer-module
This allows for a separate temperature field for the spheres and the fluid.
Best regards,
Frank
Dear Astrid,
You might want to take a look at our blog post on the subject of phase change.
https://www.comsol.com/blogs/phase-change-cooling-solidification-metal/
In essence you artificially add the latent heat to the heat capacity around the melting temperature. The built in interface does this for you, but you can also built this yourself.
The width of the function needs to be well resolved by time and mesh, and thus you might need some testing for the optimal settings.
There are several example models on this like:
http://www.comsol.com/model/phase-change-474
If your spheres are relatively big, you might also want to look at our feature "local thermal non-equilibrium" introduced in version 5.1:
http://www.comsol.com/release/5.1/heat-transfer-module
This allows for a separate temperature field for the spheres and the fluid.
Best regards,
Frank
Please login with a confirmed email address before reporting spam
Posted:
9 years ago
2016年1月4日 GMT-5 10:36
I do not think that you understood my question. I know how to add a phase change material to my model. I did that before. I can make a model where water flows around a PCM sphere and where the heat transfer works good.
But know I would like to fill a tank of 1 meter hight with PCM sphere with a ratius of 11mm.
I can not do this in 3D because the model gets to big, it is possible in 2D but i do not think that that is accurate enough.
So I wanted to model it as a porous medium. So I use the 'heat transfer in porous media' feature. Where you can add the heat conduction and thermodynamics of the fluid (water) and the heat conduction and thermodynamics of the porous matrix. And now I want the porous matrix to be PCM. But when I add heat transfer with phase change to the heat transfer in porous media feature the heat transfer in porous media gets inactive.
So how can I combine these two features?
Attached a model without any numbers added.
Astrid
I do not think that you understood my question. I know how to add a phase change material to my model. I did that before. I can make a model where water flows around a PCM sphere and where the heat transfer works good.
But know I would like to fill a tank of 1 meter hight with PCM sphere with a ratius of 11mm.
I can not do this in 3D because the model gets to big, it is possible in 2D but i do not think that that is accurate enough.
So I wanted to model it as a porous medium. So I use the 'heat transfer in porous media' feature. Where you can add the heat conduction and thermodynamics of the fluid (water) and the heat conduction and thermodynamics of the porous matrix. And now I want the porous matrix to be PCM. But when I add heat transfer with phase change to the heat transfer in porous media feature the heat transfer in porous media gets inactive.
So how can I combine these two features?
Attached a model without any numbers added.
Astrid
Frank van Gool
COMSOL Employee
Please login with a confirmed email address before reporting spam
Posted:
9 years ago
2016年1月5日 GMT-5 03:18
Dear Astrid,
I understand what you intend to do, and in your case it is not possible to combine these two built-in interfaces. However, you can implement the phase change phenomenon in the heat transfer in porous media interface. This is done in the same way as described in that blog post:
www.comsol.com/blogs/phase-change-cooling-solidification-metal/
Simply said, you can create a material that has different properties with respect to temperature, as shown in this model:
www.comsol.com/model/phase-change-474
Most important is the heat capacity, on which you add the latent heat of the phase change with a gaussian pulse with a certain width.
If you still have some questions on the implementation part, you can also contact support directly.
Best regards,
Frank
Dear Astrid,
I understand what you intend to do, and in your case it is not possible to combine these two built-in interfaces. However, you can implement the phase change phenomenon in the heat transfer in porous media interface. This is done in the same way as described in that blog post:
https://www.comsol.com/blogs/phase-change-cooling-solidification-metal/
Simply said, you can create a material that has different properties with respect to temperature, as shown in this model:
http://www.comsol.com/model/phase-change-474
Most important is the heat capacity, on which you add the latent heat of the phase change with a gaussian pulse with a certain width.
If you still have some questions on the implementation part, you can also contact support directly.
Best regards,
Frank
Please login with a confirmed email address before reporting spam
Posted:
9 years ago
2016年1月20日 GMT-5 05:45
Thanks for your response, I get what you mean now.
But unfortunately is the temperature distribution over time much different from when I model it with the heat transfer in fluid and in PCM features.
Can I change something in the setting so that it looks more the same?
When I model it for stagnant water than the results for the porous medium feature correspond very well with the 'real' situation.
see attached my file.
Kind regards,
Astrid
Thanks for your response, I get what you mean now.
But unfortunately is the temperature distribution over time much different from when I model it with the heat transfer in fluid and in PCM features.
Can I change something in the setting so that it looks more the same?
When I model it for stagnant water than the results for the porous medium feature correspond very well with the 'real' situation.
see attached my file.
Kind regards,
Astrid