A system solution for a 100kA class high temperature superconducting line for HL-LHC and for wider energy applications
A system solution for a 100kA class high temperature superconducting line for HL-LHC and for wider energy applications
The powering of the High Luminosity magnets of the Large Hadron Collider relies on Cold Powering Systems incorporating direct current superconducting lines, called Superconducting Links, based on magnesium diboride cables. A Cold Powering System interconnects the magnets in the accelerator existing tunnel to the power converters in newly excavated galleries that are about 8 m higher than the accelerator tunnel and up to about 100 m distant from the magnets. It feeds circuits rated at different currents and is designed to transfer a total current of up to |117| kA with magnesium diboride and Rare-Earth-Barium-Copper-Oxide technologies. After about ten years of development, the first Cold Powering System was successfully constructed and tested at CERN. The Superconducting Link was measured in a geometrical configuration that included a vertical path simulating the final routing in the accelerator underground. The test campaign validated the mechanical, cryogenic and electrical performance of the system both in steady state conditions and under various transient scenarios. This paper reports on the results of the tests and details the performance of the first ever built magnesium diboride and Rare-Earth-Barium-Copper-Oxide 100 kA class superconducting system.
Cold Powering System, HL-LHC, High Luminosity magnets, Large Hadron Collider, Superconducting cables
Ballarino, Amalia
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Bailey, Wendell
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Barth, Christian
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Cruikshank, Paul
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Gahier, Vanessa
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Leclercq, Yann
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Pasdeloup, Florian
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Willering, Gerard
2861b84b-6ff9-4635-a9c5-5efeedcce5bc
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
1 July 2025
Ballarino, Amalia
8fad5237-02dc-45c3-89c7-ce67ce7cae8c
Bailey, Wendell
c356b2e3-a783-4b4c-8c7b-521696d3b37c
Barth, Christian
2d51c1bb-cdd7-4af4-a22f-4f9a6bde5b54
Cruikshank, Paul
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Gahier, Vanessa
bed800b7-79c4-459d-9651-a4b69ecb5ce9
Leclercq, Yann
b4164867-7476-4419-8d18-e90180f3589c
Pasdeloup, Florian
7f48d336-bae2-43da-87bd-3698fbc42a5f
Willering, Gerard
2861b84b-6ff9-4635-a9c5-5efeedcce5bc
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Ballarino, Amalia, Bailey, Wendell, Barth, Christian, Cruikshank, Paul, Gahier, Vanessa, Leclercq, Yann, Pasdeloup, Florian, Willering, Gerard and Yang, Yifeng
(2025)
A system solution for a 100kA class high temperature superconducting line for HL-LHC and for wider energy applications.
Scientific Reports, 15 (1), [20428].
(doi:10.1038/s41598-025-08543-9).
Abstract
The powering of the High Luminosity magnets of the Large Hadron Collider relies on Cold Powering Systems incorporating direct current superconducting lines, called Superconducting Links, based on magnesium diboride cables. A Cold Powering System interconnects the magnets in the accelerator existing tunnel to the power converters in newly excavated galleries that are about 8 m higher than the accelerator tunnel and up to about 100 m distant from the magnets. It feeds circuits rated at different currents and is designed to transfer a total current of up to |117| kA with magnesium diboride and Rare-Earth-Barium-Copper-Oxide technologies. After about ten years of development, the first Cold Powering System was successfully constructed and tested at CERN. The Superconducting Link was measured in a geometrical configuration that included a vertical path simulating the final routing in the accelerator underground. The test campaign validated the mechanical, cryogenic and electrical performance of the system both in steady state conditions and under various transient scenarios. This paper reports on the results of the tests and details the performance of the first ever built magnesium diboride and Rare-Earth-Barium-Copper-Oxide 100 kA class superconducting system.
Text
SREP-10.1038-s41598-025-08543-9
- Version of Record
Text
SREP-10.1038-s41598-025-08543-9
More information
Accepted/In Press date: 23 June 2025
Published date: 1 July 2025
Keywords:
Cold Powering System, HL-LHC, High Luminosity magnets, Large Hadron Collider, Superconducting cables
Identifiers
Local EPrints ID: 502701
URI: http://eprints.soton.ac.uk/id/eprint/502701
ISSN: 2045-2322
PURE UUID: 989f1e1a-13d5-4a59-b683-3a8d029ee364
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Date deposited: 07 Jul 2025 16:31
Last modified: 11 Sep 2025 01:40
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Contributors
Author:
Amalia Ballarino
Author:
Christian Barth
Author:
Paul Cruikshank
Author:
Vanessa Gahier
Author:
Yann Leclercq
Author:
Florian Pasdeloup
Author:
Gerard Willering
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