Sergei Yushanov
Certified Consultant
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年3月28日 GMT-4 13:02
John,
Current loop in the coil must be closed. In your model, current is injected from the bottom of cylindrical domain and exits top surface of the same domain – there is no closed loop. It means your setup violets Maxwell equations.
There are several models in Comsol library showing how to model coils. For example:
www.comsol.com/showroom/gallery/13777/
www.comsol.com/showroom/gallery/15/
Regards,
Sergei
John,
Current loop in the coil must be closed. In your model, current is injected from the bottom of cylindrical domain and exits top surface of the same domain – there is no closed loop. It means your setup violets Maxwell equations.
There are several models in Comsol library showing how to model coils. For example:
http://www.comsol.com/showroom/gallery/13777/
http://www.comsol.com/showroom/gallery/15/
Regards,
Sergei
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年3月28日 GMT-4 13:38
Thanks Sergei.
Thanks Sergei.
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年3月28日 GMT-4 16:30
Hi
check your geometry: you have a central overlapping area (double) with some very small edges joining them, as well as some lateral side domains, the are very thin and give you the meshing issue.
Use the View selection list to run through the domains
--
Good luck
Ivar
Hi
check your geometry: you have a central overlapping area (double) with some very small edges joining them, as well as some lateral side domains, the are very thin and give you the meshing issue.
Use the View selection list to run through the domains
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年4月1日 GMT-4 14:05
Hello Sergei,
I closed the loops and I initially made an electromagnetic pole wound with two coils at quadrature.
Then I assigned the Multi-turn Coil Domain to each coil and injected the current according to the procedure for Numeric coil type.
The above procedure is OK for a very low number of coils. I have 16 poles, which implies I have 32 coils to work with. So to ease the process I duplicated a pole with its coils 16 times, but when I plotted the arrow volume to show me the direction of current it looked really weird.
My question is do I need to treat each coil independently?
Regards
John Wanjiku
Hello Sergei,
I closed the loops and I initially made an electromagnetic pole wound with two coils at quadrature.
Then I assigned the Multi-turn Coil Domain to each coil and injected the current according to the procedure for Numeric coil type.
The above procedure is OK for a very low number of coils. I have 16 poles, which implies I have 32 coils to work with. So to ease the process I duplicated a pole with its coils 16 times, but when I plotted the arrow volume to show me the direction of current it looked really weird.
My question is do I need to treat each coil independently?
Regards
John Wanjiku
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年4月1日 GMT-4 14:58
Hi
have you checked the coil group nodes, and the related docs ?
--
Good luck
Ivar
Hi
have you checked the coil group nodes, and the related docs ?
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年4月2日 GMT-4 20:14
Hi Ivar,
I think it is mix up of the current densities directions when I duplicate and rotate the initial geometry that I use to create my model. Note I pre-assign all the conditions before duplicating to ease the work. Does it work that way? Because creating an insulator boundary and defining the input boundary for the currents is tedious for 32 coils, that is why i opted for 2 coils that make the initial geometry.
When I check the nodes everything seems ok including the current input boundary for each of the coils, but the results??
Regards and pls find attached the model
Wanjiku
Hi Ivar,
I think it is mix up of the current densities directions when I duplicate and rotate the initial geometry that I use to create my model. Note I pre-assign all the conditions before duplicating to ease the work. Does it work that way? Because creating an insulator boundary and defining the input boundary for the currents is tedious for 32 coils, that is why i opted for 2 coils that make the initial geometry.
When I check the nodes everything seems ok including the current input boundary for each of the coils, but the results??
Regards and pls find attached the model
Wanjiku
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年4月3日 GMT-4 01:47
Hi
I'm working here with a colleague on 20 coils arranged along a sphere, indeed it's tedious but the only way.
Note that the orientation of the coil will change the direction of the edges hence the direction of the natural + current flow in the coil definitions, so you must turn on the View node: line ID and line arrows, thn set the EDGE view and look at the coil loops and find the direction of the highest edge ID (it seems to be the one giving the current flow direction for single or multiple coils BCs). Or once done get an arrow plot of the current directions and check the loop around in the correct directions.
Probabla if you observe well you can find the patten for the current direction, it would change I believe for the 4 quadrants
--
Good luck
Ivar
Hi
I'm working here with a colleague on 20 coils arranged along a sphere, indeed it's tedious but the only way.
Note that the orientation of the coil will change the direction of the edges hence the direction of the natural + current flow in the coil definitions, so you must turn on the View node: line ID and line arrows, thn set the EDGE view and look at the coil loops and find the direction of the highest edge ID (it seems to be the one giving the current flow direction for single or multiple coils BCs). Or once done get an arrow plot of the current directions and check the loop around in the correct directions.
Probabla if you observe well you can find the patten for the current direction, it would change I believe for the 4 quadrants
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
2013年4月5日 GMT-4 19:47
Hello Ivar,
I had to treat each coil independently, it was the easiest way out and was able to see the flow of current by the arrow plot. Thanks for your advice.
I also resulted to circular instead of numeric since it doesn't require me to specify the input boundary.
I have noticed my model has symmetry, i.e. I can model a quarter or half the geometry. Its will be much more faster in terms of time and PC resources. But from experience with the coils, I shouldn't touch them, lol. I have managed to get a repeating geometric section, that repeats after 180 degs. In the quarter section I have to cut the coils and they will be open loops which will be bad for the physics, hence convergence.
I checked out the documentary, most of it is just definitions.
The examples given have the sources of the fields being at the boundary but am not sure I want to do that with the coils?
So how do I go about assigning BCs to give me a repeating section with a rotation of 180 degs.
Regards.
Wanjiku
Hello Ivar,
I had to treat each coil independently, it was the easiest way out and was able to see the flow of current by the arrow plot. Thanks for your advice.
I also resulted to circular instead of numeric since it doesn't require me to specify the input boundary.
I have noticed my model has symmetry, i.e. I can model a quarter or half the geometry. Its will be much more faster in terms of time and PC resources. But from experience with the coils, I shouldn't touch them, lol. I have managed to get a repeating geometric section, that repeats after 180 degs. In the quarter section I have to cut the coils and they will be open loops which will be bad for the physics, hence convergence.
I checked out the documentary, most of it is just definitions.
The examples given have the sources of the fields being at the boundary but am not sure I want to do that with the coils?
So how do I go about assigning BCs to give me a repeating section with a rotation of 180 degs.
Regards.
Wanjiku