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2-D Extrusion to 3-D, projection from 3-D back to 2-D?
Posted 17.06.2010, 13:08 GMT-4 1 Reply
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Hi everyone:
I have a spiral geometry (i.e. cylindrical battery) on which that I solve for current distribution in 2-D. The current source is dependent on temperature, but the cooling boundary condition is more appropriately modeled in 3-D (i.e. cooling from the radial surface of a cylinder). I have successfully extruded the local heat generation rate from the 2-D spiral to a 3-D cylinder (using an Archimedes's spiral transformation equation). However, i need to map the temperature distribution back onto the 2-D to correctly model the current generation.
I don't think i can remap T from the 3-D subdomain back onto the 2-D subdomain using extrusion coupling variables. I think i might be able to use a projection coupling variable, but this appears to be very complicated on first glance.
Any advice on how to do this?
Thanks,
Todd
I have a spiral geometry (i.e. cylindrical battery) on which that I solve for current distribution in 2-D. The current source is dependent on temperature, but the cooling boundary condition is more appropriately modeled in 3-D (i.e. cooling from the radial surface of a cylinder). I have successfully extruded the local heat generation rate from the 2-D spiral to a 3-D cylinder (using an Archimedes's spiral transformation equation). However, i need to map the temperature distribution back onto the 2-D to correctly model the current generation.
I don't think i can remap T from the 3-D subdomain back onto the 2-D subdomain using extrusion coupling variables. I think i might be able to use a projection coupling variable, but this appears to be very complicated on first glance.
Any advice on how to do this?
Thanks,
Todd
1 Reply Last Post 18.06.2010, 01:40 GMT-4
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Posted:
1 decade ago
Hi
I do not have any straighforward example, but I believe your approach is correct.
The easiest is to try it out on a simple geometry, like a 3D cylinder/box and a 2D circle and rectangle
Good luck
Ivar
I do not have any straighforward example, but I believe your approach is correct.
The easiest is to try it out on a simple geometry, like a 3D cylinder/box and a 2D circle and rectangle
Good luck
Ivar