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Inductive Heating 3D/2D Problems: Resistance Losses and Current Flow
Posted 23.03.2011, 13:08 GMT-4 Low-Frequency Electromagnetics, Heat Transfer & Phase Change, Materials, Parameters, Variables, & Functions Version 4.1 2 Replies
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Hi,
I'm trying to simulate ohmic resistance losses caused by induced currents. So I started with a pretty simple geometry:
3 cylinders (Copper, Air, Aluminium).
The problem I am facing in 3D is that there seem to be no resistant losses in the copper caused by the current. Current and Current density seem to be ok in the copper though (Skin-effect).
I tried the same geometry in 2D axialsym. But here I am not sure how to get the current flow the right way. Current density seems to be wrong, because it's constant in the whole copper.
Btw. how do you figure out the alpha (h in comsol) when you choose convective cooling? At the moment I calculate it depending on the kind of fluid and geometry [Nusseltzahl etc.]. But because I don't know the wall temperature, I have to iterate here.
Can anybody help me to resolve this issues?
Thanks in advance.
I'm trying to simulate ohmic resistance losses caused by induced currents. So I started with a pretty simple geometry:
3 cylinders (Copper, Air, Aluminium).
The problem I am facing in 3D is that there seem to be no resistant losses in the copper caused by the current. Current and Current density seem to be ok in the copper though (Skin-effect).
I tried the same geometry in 2D axialsym. But here I am not sure how to get the current flow the right way. Current density seems to be wrong, because it's constant in the whole copper.
Btw. how do you figure out the alpha (h in comsol) when you choose convective cooling? At the moment I calculate it depending on the kind of fluid and geometry [Nusseltzahl etc.]. But because I don't know the wall temperature, I have to iterate here.
Can anybody help me to resolve this issues?
Thanks in advance.
2 Replies Last Post 24.03.2011, 20:16 GMT-4