Quench Analysis of an LTS Quadrupole Triplet Magnet System for the IBS RAON In-Flight Fragment Separator

• dc.contributor.author: Lee, Wooseung
• dc.contributor.author: Park, Dongkeun
• dc.contributor.author: Iwasa, Yukukazu
• dc.contributor.author: Kim, Junseong
• dc.contributor.author: Lee, Jiho
• dc.contributor.author: Kim, Do Gyun
• dc.date.issued: 2020-02
• dc.identifier: 20ja011
• dc.identifier.uri: https://hdl.handle.net/1721.1/158696
• dc.description: Submitted for publication in IEEE Transactions on Applied Superconductivity
• dc.description.abstract: In this paper we present quench analysis results of a Low-Temperature Superconducting (LTS) quadrupole triplet magnet system, a part of the In-flight Fragment (IF) separator of a heavy ion linear accelerator complex, named RAON, currently being constructed by the Institute of Basic Science (IBS). This magnet system is composed of three quadrupole magnets: a triplet, surrounded by iron yokes and embedding hexapole/octupole LTS coils for field correction. The magnet will be operated at 4.2 K in liquid helium. For reliable and safe operation of this complex superconducting system, quench and protection analysis with possible failure scenarios must be performed. In this paper, we first discuss probable quench scenarios and then present results of the quench propagation analysis on: 1) coil currents and voltages by multi-coil model circuit analysis; and 2) simulated temperature distribution inside each coil. Our quench analysis results show that the maximum voltage and temperature in each coil are below safety limits, 2000 V and 150 K, respectively, and confirm that this quadruple triplet magnet system is self-protecting.
• dc.publisher: IEEE
• dc.relation.isversionof: doi.org/10.1109/tasc.2020.2970901
• dc.source: Plasma Science and Fusion Center
• dc.type: Article
• dc.contributor.department: Massachusetts Institute of Technology. Plasma Science and Fusion Center
• dc.relation.journal: IEEE Transactions on Applied Superconductivity