DocumentCode
2303498
Title
Simulation and Operational Experience with Energy Extraction in the LHC Superconducting Magnet Chains
Author
Dahlerup-Petersen, Knud ; Coelingh, Gert-Jan ; Kazmin, Boris
Author_Institution
AT-Dept., CERN, Geneva
fYear
2008
fDate
27-31 May 2008
Firstpage
469
Lastpage
472
Abstract
The quench protection scheme for the superconducting main magnet chains of the LHC particle accelerator, which is presently being commissioned at CERN, comprises DC current discharges in power circuits with an inductance of up to 15.7 H and currents up to 13 kA. The electrical arc, with emphasis to its extinction, has been modeled for the specially designed electro-mechanical opening switches used for the extraction of the 1.3 GJ of stored energy in each of the eight sectors of the machine. The model allows the analysis of the various phases of the opening process. The paper presents the boundary conditions, the basic parameters and the limitations of the model, then provides the first results from the recent powering and discharging of the dipole and quadrupole chains during the on-going hardware commissioning of the machine. We describe in particular features related to the arc behavior in arrays of series- and parallel connected switches, such as used for extraction in the LHC main magnet chains.
Keywords
particle accelerators; superconducting magnets; CERN; DC current discharges; LHC particle accelerator; LHC superconducting magnet chains; boundary conditions; dipole chain; electrical arc; electro-mechanical opening switches; energy 1.3 GJ; energy extraction; quadrupole chain; quench protection scheme; superconducting main magnet chains; Boundary conditions; Circuit simulation; Hardware; Inductance; Large Hadron Collider; Linear particle accelerator; Magnetic circuits; Protection; Superconducting magnets; Switches;
fLanguage
English
Publisher
ieee
Conference_Titel
IEEE International Power Modulators and High Voltage Conference, Proceedings of the 2008
Conference_Location
Las Vegas, NE
Print_ISBN
978-1-4244-1534-2
Electronic_ISBN
978-1-4244-1535-9
Type
conf
DOI
10.1109/IPMC.2008.4743692
Filename
4743692
Link To Document