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Flux linkage calculation (V3.5a)
Posted 8 juin 2010, 08:04 UTC−4 Version 3.5a 2 Replies
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Hi there!
I would like to know how do I calculate flux linkage from magnetic vector potential, Az? I came across a paper in user conference 2007 (attached). It gives the equation for flux linkage calculation which can be implemented in COMSOL by subdomain integration. I do not quite understand how to go about it. I would really appreciate if anyone can help me out.
For your information I am modelling a generator.
Your time is greatly appreciated.
Thanks!
I would like to know how do I calculate flux linkage from magnetic vector potential, Az? I came across a paper in user conference 2007 (attached). It gives the equation for flux linkage calculation which can be implemented in COMSOL by subdomain integration. I do not quite understand how to go about it. I would really appreciate if anyone can help me out.
For your information I am modelling a generator.
Your time is greatly appreciated.
Thanks!
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2 Replies Last Post 21 juin 2010, 20:04 UTC−4
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Posted:
1 decade ago
Hi Amissa,
Have you reached any conclusion considering the flux linkage?
I also have the same question!!
Regards!!
Have you reached any conclusion considering the flux linkage?
I also have the same question!!
Regards!!
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
Hi there Joao
I seem to get the shape of the flux linkage versus current curve, but I am not too sure whether it is the correct way.
Based on my readings, the 2D problems have only the z component of magnetic potential vector, A.The line integral is taken as the unit depth in z direction. Hence, the line integral between two paths is A1-A2. The total magnetic flux per unit depth between two points is just the difference in vector potential between those two points.
In my case I take the magnetic potential vector across 2 winding and minus them times the length of my machine.
I hope I am reading the correct data..
Thanks.
I seem to get the shape of the flux linkage versus current curve, but I am not too sure whether it is the correct way.
Based on my readings, the 2D problems have only the z component of magnetic potential vector, A.The line integral is taken as the unit depth in z direction. Hence, the line integral between two paths is A1-A2. The total magnetic flux per unit depth between two points is just the difference in vector potential between those two points.
In my case I take the magnetic potential vector across 2 winding and minus them times the length of my machine.
I hope I am reading the correct data..
Thanks.