Heat Transfer using Electric Current

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I am getting high temperature than in the reference research paper I am following when I give 24 V to the copper electrode. Will anyone help me to understand regarding electric heating in comsol.

I am having almost 20 times more temperature than in my reference paper. It means the copper electrode is heating too much in same input and time duration than in the reference paper.


2 Replies Last Post 2023年10月1日 GMT-4 13:33
Jeff Hiller COMSOL Employee

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Posted: 5 months ago 2023年9月28日 GMT-4 16:36
Updated: 5 months ago 2023年9月28日 GMT-4 16:36

Hello Anup,

Without knowing what you did in your mph file and what the authors of the paper did in their work, it is not possible to determine how one deviates from the other.

However, the fact that the two differ by a factor 20 means that the difference is not a subtle one, such as a small difference in solver settings or the fineness of your mesh relative to theirs, etc. I would look more into such questions as whether your boundary conditions are identical to theirs, whether the size of your geometry matches theirs, etc. Those things can make a huge impact on the solution and are easy to overlook (been there, done that).

Best,

Jeff

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Jeff Hiller
Hello Anup, Without knowing what you did in your mph file and what the authors of the paper did in their work, it is not possible to determine how one deviates from the other. However, the fact that the two differ by a factor 20 means that the difference is not a subtle one, such as a small difference in solver settings or the fineness of your mesh relative to theirs, etc. I would look more into such questions as whether your boundary conditions are identical to theirs, whether the size of your geometry matches theirs, etc. Those things can make a huge impact on the solution and are easy to overlook (been there, done that). Best, Jeff

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Posted: 5 months ago 2023年10月1日 GMT-4 13:33
Updated: 5 months ago 2023年10月1日 GMT-4 13:33

Thank you for your reply, I have checked geometries, material used and boundary conditions. All are same. I am only not able to model the heating part properly.

The paper I am following is this: Numerical and outdoor experimental study on active snow melting of conductive rubber composites in roads https://doi.org/10.1080/14680629.2022.2103020

Here is my COMSOL model, please find the file attached.

Thank you for your reply, I have checked geometries, material used and boundary conditions. All are same. I am only not able to model the heating part properly. The paper I am following is this: Numerical and outdoor experimental study on active snow melting of conductive rubber composites in roads https://doi.org/10.1080/14680629.2022.2103020 Here is my COMSOL model, please find the file attached.

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