Dear Ivar ,
I am currently working on the subject "Liquid metal deformation by means of magnetic pressure". I have done the theoretical approach and experimental validation and to conclude this subject, I am currently trying to simulate the process using COMSOL software. I found your very interesting paper and presentation on "High Frequency Magnetohydrodynamics Calculations in COMSOL Multiphysics" and wanted to see if you will be interested to cooperate on the modeling part of this work. I hope that your guidance and kind cooperation will lead to have joint publications together, as soon as the simulation results will be available.
I am designing a system consisting of a gapped high current coil, with a liquid metal pool located on the edge of its air gap. Magnetic fringing field of the AC coil could induce a magnetic pressure on the liquid metal and deform it (see the model attached).
I Have solved the electromagnetic problem and now want to contribute the liquid deformation in it. I followed the related models on the COMSOL gallery and I suppose that I should consider these two modules: Laminar Flow (spf) and Moving Mesh (ale) to do so. But the system gives lots of errors, needing several considerations in parameters of moving mesh.
The system is just ready to be solved for magnetic part. The resulted Lorentz Force should apply the magnetic pressure and deform the meltpool (Domain 2) then.
So please let me know if you are interested in this kind of cooperation and then we will discuss for the further steps.
Thanks in advance for your help and kind attention.
Kind regards,
Taha Mirhoseini
--
Taha Mirhoseini
K.U.LEUVEN - ESAT/ELECTA (PB-2445)
Kasteelpark Arenberg 10
B-3001 Leuven-Heverlee (Belgium)
Tel:(+)32-(0)16-320398/Fax:(+)32-(0)16-321985
e-mail: seyed.mirhoseini@esat.kuleuven.be
Internet: www.esat.kuleuven.be/electa
I am currently working on the subject "Liquid metal deformation by means of magnetic pressure". I have done the theoretical approach and experimental validation and to conclude this subject, I am currently trying to simulate the process using COMSOL software. I found your very interesting paper and presentation on "High Frequency Magnetohydrodynamics Calculations in COMSOL Multiphysics" and wanted to see if you will be interested to cooperate on the modeling part of this work. I hope that your guidance and kind cooperation will lead to have joint publications together, as soon as the simulation results will be available.
I am designing a system consisting of a gapped high current coil, with a liquid metal pool located on the edge of its air gap. Magnetic fringing field of the AC coil could induce a magnetic pressure on the liquid metal and deform it (see the model attached).
I Have solved the electromagnetic problem and now want to contribute the liquid deformation in it. I followed the related models on the COMSOL gallery and I suppose that I should consider these two modules: Laminar Flow (spf) and Moving Mesh (ale) to do so. But the system gives lots of errors, needing several considerations in parameters of moving mesh.
The system is just ready to be solved for magnetic part. The resulted Lorentz Force should apply the magnetic pressure and deform the meltpool (Domain 2) then.
So please let me know if you are interested in this kind of cooperation and then we will discuss for the further steps.
Thanks in advance for your help and kind attention.
Kind regards,
Taha Mirhoseini
--
Taha Mirhoseini
K.U.LEUVEN - ESAT/ELECTA (PB-2445)
Kasteelpark Arenberg 10
B-3001 Leuven-Heverlee (Belgium)
Tel:(+)32-(0)16-320398/Fax:(+)32-(0)16-321985
e-mail: seyed.mirhoseini@esat.kuleuven.be
Internet: www.esat.kuleuven.be/electa