A 2-D Finite-Element Model for Electrothermal Transients in Accelerator Magnets

A 2-D Finite-Element Model for Electrothermal Transients in Accelerator Magnets

Superconducting accelerator magnets require sophisticated monitoring and means of protection due to the large energy stored in the magnetic field. Numerical simulations play a crucial role in understanding transient phenomena occurring within the magnet, and can, therefore, help to prevent disruptiv...

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Veröffentlicht in:IEEE transactions on magnetics 2018-03, Vol.54 (3), p.1-4
Hauptverfasser: Bortot, L., Auchmann, B., Cortes Garcia, I., Fernandez Navarro, A. M., Maciejewski, M., Prioli, M., Schops, S., Verweij, A. P.
Format: Artikel
Sprache:eng
Schlagworte:
Circuits
Computer simulation
Eddy currents
equivalent magnetization
Finite element method
Heat balance
Heat sources
Heating systems
Induction heating
Integrated circuit modeling
Magnetic circuits
Magnetic domains
Magnetism
Magnets
Mathematical model
Mathematical models
quench
superconducting accelerator magnet
Superconducting cables
Superconducting magnets
Superconductivity
Two dimensional models
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Zusammenfassung:Superconducting accelerator magnets require sophisticated monitoring and means of protection due to the large energy stored in the magnetic field. Numerical simulations play a crucial role in understanding transient phenomena occurring within the magnet, and can, therefore, help to prevent disruptive consequences. We present a 2-D FEM model for the simulation of electrothermal transients occurring in superconducting accelerator magnets. The magnetoquasistatic problem is solved with a modified magnetic vector potential formulation, where the cable eddy currents are resolved in terms of their equivalent magnetization. The heat balance equation is then investigated, and the relevant heat sources are discussed. The model implements a two-port component interface and is resolved, as part of an electrical circuit, in a cooperative simulation scheme with a lumped-parameter network.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2017.2748390