Title :
Modelling of the quenching process in complex superconducting magnet systems
Author :
Hagedorn, D. ; Rodriguez-Mateos, F.
Author_Institution :
CERN, Geneva, Switzerland
fDate :
1/1/1992 12:00:00 AM
Abstract :
The superconducting twin bore dipole magnet for the proposed Large Hadron Collider (LHC) shows a complex winding structure consisting of eight compact layers, each of them electromagnetically and thermally coupled with the others. In order to study the quenching process in this complex system, design adequate protection schemes, and provide a basis for the dimensioning of protection devices such as heaters, current breakers, and dump resistors, a general simulation tool called QUABER has been developed using the analog system analysis program SABER. A complete set of electro-thermal models has been created for the propagation of normal regions. Any network extension or modification is easy to implement without rewriting the whole set of differential equations. This simulation package is flexible with regard to the definition of the network and that of coil geometry
Keywords :
beam handling equipment; electrical engineering computing; nuclear engineering computing; proton accelerators; quenching (thermal); superconducting magnets; synchrotrons; LHC; Large Hadron Collider; QUABER; SABER; analog system analysis program; current breakers; differential equations; dump resistors; electro-thermal models; heaters; modelling; protection schemes; quenching process; simulation package; simulation tool; superconducting magnet systems; twin bore dipole magnet; winding structure; Analytical models; Boring; Differential equations; Electromagnetic coupling; Large Hadron Collider; Protection; Resistors; Solid modeling; Superconducting epitaxial layers; Superconducting magnets;
Journal_Title :
Magnetics, IEEE Transactions on
