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surface integration of normal velocity of complex geometry (solid domain)
Posted 24 giu 2012, 14:10 GMT-4 2 Replies
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Dear all,
I am using the acsl toolbox in COMSOL 4.2 and would like to calculate the power that is injected from my solid domain into my fluid domain. In order to do that I use the "surface integration" function in the "derived values section". The formula requires the complex conjugate of the normal velocity. In the "expression section", however, I can only find the x-y-z components of the velocity and the velocity amplitude. As the surface orientations vary strongly from one surface to another, I cannot simply calculate the cross product. Is there an easy way to obtain the normal velocity for my problem (maybe by using a boundary coordinate system). Also, my geometry is somewhat cylindrical and I need all normal velocities to point into the "cylinder".
Thank you very much for your help.
Kind regards,
Martin
I am using the acsl toolbox in COMSOL 4.2 and would like to calculate the power that is injected from my solid domain into my fluid domain. In order to do that I use the "surface integration" function in the "derived values section". The formula requires the complex conjugate of the normal velocity. In the "expression section", however, I can only find the x-y-z components of the velocity and the velocity amplitude. As the surface orientations vary strongly from one surface to another, I cannot simply calculate the cross product. Is there an easy way to obtain the normal velocity for my problem (maybe by using a boundary coordinate system). Also, my geometry is somewhat cylindrical and I need all normal velocities to point into the "cylinder".
Thank you very much for your help.
Kind regards,
Martin
2 Replies Last Post 26 giu 2012, 13:16 GMT-4