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Transient thermoelectrical behavior of MgB2 cables in the superconducting links for the high luminosity upgrade of the LHC

Transient thermoelectrical behavior of MgB2 cables in the superconducting links for the high luminosity upgrade of the LHC
Transient thermoelectrical behavior of MgB2 cables in the superconducting links for the high luminosity upgrade of the LHC
High-current superconducting links (SC-Link) consisting of multiple MgB2 cables are being developed for the cold powering of the high luminosity upgrade of the LHC (HL-LHC). The SC-Links are designed to work over a temperature gradient between 4.2 and 20 K cooled by flowing subcritical helium gas to provide up to 20 kA per cable to the new inner-triplets to gain a higher luminosity. The SC-Links have a compact configuration of six 20-kA cables for three magnet circuits and several lower current cables. Upon the quench of one magnet, the neighboring circuits are exposed to a transient field up to 0.3 T, which may induce significant magnetization and coupling current losses with the potential of quenching the cables in these circuits. In this paper, we present a thermoelectrical analysis of the transient electromagnetics of the cable system, the thermal stability of the cables in temperature gradient, and the effect of lateral cooling by the flowing helium gas on the quench behavior. Furthermore, the analysis was compared with a comprehensive experimental study of direct thermometric and electrical measurements of the transient magnetic losses at different temperatures (4-30 K) and field sweep rates (0.3-30 T/s) as well as quench measurements under different cooling configurations. Cables samples of different stabilization matrices and strand configurations were measured to provide insight for the overall optimization by compromising between loss reduction and cryogenic stabilization.
1051-8223
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Falorio, Iole
65afc7a9-336b-4cce-a034-0c37df06e2c4
Pelegrin Mosquera, Jorge
3a110c1a-ad88-4f90-bffc-7a0b5042f240
Young, Edward
d3a881b0-a564-41f5-9843-34ae86da360f
Ballarino, Amalia
fbb2b272-16ce-4fcc-a2da-5fefa0ef16da
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Falorio, Iole
65afc7a9-336b-4cce-a034-0c37df06e2c4
Pelegrin Mosquera, Jorge
3a110c1a-ad88-4f90-bffc-7a0b5042f240
Young, Edward
d3a881b0-a564-41f5-9843-34ae86da360f
Ballarino, Amalia
fbb2b272-16ce-4fcc-a2da-5fefa0ef16da

Yang, Yifeng, Falorio, Iole, Pelegrin Mosquera, Jorge, Young, Edward and Ballarino, Amalia (2017) Transient thermoelectrical behavior of MgB2 cables in the superconducting links for the high luminosity upgrade of the LHC. IEEE Transactions on Applied Superconductivity, 27 (4). (doi:10.1109/TASC.2017.2651950).

Record type: Article

Abstract

High-current superconducting links (SC-Link) consisting of multiple MgB2 cables are being developed for the cold powering of the high luminosity upgrade of the LHC (HL-LHC). The SC-Links are designed to work over a temperature gradient between 4.2 and 20 K cooled by flowing subcritical helium gas to provide up to 20 kA per cable to the new inner-triplets to gain a higher luminosity. The SC-Links have a compact configuration of six 20-kA cables for three magnet circuits and several lower current cables. Upon the quench of one magnet, the neighboring circuits are exposed to a transient field up to 0.3 T, which may induce significant magnetization and coupling current losses with the potential of quenching the cables in these circuits. In this paper, we present a thermoelectrical analysis of the transient electromagnetics of the cable system, the thermal stability of the cables in temperature gradient, and the effect of lateral cooling by the flowing helium gas on the quench behavior. Furthermore, the analysis was compared with a comprehensive experimental study of direct thermometric and electrical measurements of the transient magnetic losses at different temperatures (4-30 K) and field sweep rates (0.3-30 T/s) as well as quench measurements under different cooling configurations. Cables samples of different stabilization matrices and strand configurations were measured to provide insight for the overall optimization by compromising between loss reduction and cryogenic stabilization.

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Accepted/In Press date: 4 January 2017
e-pub ahead of print date: 11 January 2017
Published date: June 2017

Identifiers

Local EPrints ID: 415992
URI: http://eprints.soton.ac.uk/id/eprint/415992
DOI: doi:10.1109/TASC.2017.2651950
ISSN: 1051-8223
PURE UUID: b4fd13b2-dcdd-4e6b-bb8b-f0e63654bb7c
ORCID for Yifeng Yang: ORCID iD orcid.org/0000-0002-3874-6735

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Date deposited: 29 Nov 2017 17:30
Last modified: 16 Mar 2024 02:44

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Contributors

Author: Yifeng Yang ORCID iD
Author: Iole Falorio
Author: Jorge Pelegrin Mosquera
Author: Edward Young
Author: Amalia Ballarino

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