I'm trying to model a Stellarator and the thing gatekeeping me was being able to design a "twisting" loop(s) in order to create the complex magnetic fields. This video is gold dust just for even providing a solution to begin to fashion these geometries. I thank you.
Thanks for the nice videos. Can you wind 2 windings on the air gap toroid and supply one of the windings with AC and the other with DC current. I wondered about the compound magnetic field in the air gap.
Yes the FEM analysis solves the field geometry iteratively so you should be able to throw in whatever coils and signals you want and get a solution, the question is which Study do you use? It may work in the Frequency Domain study but if it doesn't then you'd have to do the Time Dependent study. Keep an eye out for the next video in this series that I'll put out next Wednesday that covers setting up and running the simulation. Thanks for watching!
I'm trying to model a Stellarator and the thing gatekeeping me was being able to design a "twisting" loop(s) in order to create the complex magnetic fields. This video is gold dust just for even providing a solution to begin to fashion these geometries. I thank you.
Stellarator, wow that's super cool, thanks for the feedback!
Thanks for the nice videos. Can you wind 2 windings on the air gap toroid and supply one of the windings with AC and the other with DC current. I wondered about the compound magnetic field in the air gap.
Yes the FEM analysis solves the field geometry iteratively so you should be able to throw in whatever coils and signals you want and get a solution, the question is which Study do you use? It may work in the Frequency Domain study but if it doesn't then you'd have to do the Time Dependent study. Keep an eye out for the next video in this series that I'll put out next Wednesday that covers setting up and running the simulation. Thanks for watching!
Promo-SM 🌈