Temperature and background field dependence of thermal stability in a compact MgB2 solenoid coil
Temperature and background field dependence of thermal stability in a compact MgB2 solenoid coil
A conduction cooled compact react and wind MgB2 solenoid magnet was tested for quench propagation and minimum quench energy MQE in a background field which allows to an extent a decoupling of the peak field in the windings from the conductor field performance. MQE and propagation data was taken in self field at 30, 30.5 and 31.5 K and at fields/temperatures of 1 T/25 K, 3 T/18 K and 5 T/10 K where the power law n-value characteristic was similar at n~30. At all temperatures and at low I/Ic quench propagated first through the insulating layers, in a radial direction, and at high I/Ic within the layer. The MQE values as a function of I/Ic are shown to consistently have non zero values as I? Ic which is characteristic of an analytical quench model that includes the n-value power law dissipation. At 30.5 K a sharp drop in MQE occurs along with the change in propagation direction. The analytical model is then exploited as 1D adiabatic, 3D infinite solenoid, and 3D with heat transfer at the boundary to explore the affect of dimensionality and conduction cooling on the propagation and MQE behavior.
1-4
Young, Edward
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Falorio, Iole
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Pelegrin Mosquera, Jorge
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Jarvis, A.L.L.
13be0adb-078f-44ca-a819-55da65142434
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Young, Edward
d3a881b0-a564-41f5-9843-34ae86da360f
Falorio, Iole
b3a238b0-d263-413e-98ff-e2c61397cf3b
Pelegrin Mosquera, Jorge
3a110c1a-ad88-4f90-bffc-7a0b5042f240
Jarvis, A.L.L.
13be0adb-078f-44ca-a819-55da65142434
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Young, Edward, Falorio, Iole, Pelegrin Mosquera, Jorge, Jarvis, A.L.L. and Yang, Yifeng
(2016)
Temperature and background field dependence of thermal stability in a compact MgB2 solenoid coil.
IEEE Transactions on Applied Superconductivity, .
(doi:10.1109/TASC.2016.2540245).
Abstract
A conduction cooled compact react and wind MgB2 solenoid magnet was tested for quench propagation and minimum quench energy MQE in a background field which allows to an extent a decoupling of the peak field in the windings from the conductor field performance. MQE and propagation data was taken in self field at 30, 30.5 and 31.5 K and at fields/temperatures of 1 T/25 K, 3 T/18 K and 5 T/10 K where the power law n-value characteristic was similar at n~30. At all temperatures and at low I/Ic quench propagated first through the insulating layers, in a radial direction, and at high I/Ic within the layer. The MQE values as a function of I/Ic are shown to consistently have non zero values as I? Ic which is characteristic of an analytical quench model that includes the n-value power law dissipation. At 30.5 K a sharp drop in MQE occurs along with the change in propagation direction. The analytical model is then exploited as 1D adiabatic, 3D infinite solenoid, and 3D with heat transfer at the boundary to explore the affect of dimensionality and conduction cooling on the propagation and MQE behavior.
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Accepted/In Press date: 4 March 2016
e-pub ahead of print date: 9 March 2016
Organisations:
Energy Technology Group
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Local EPrints ID: 394160
URI: http://eprints.soton.ac.uk/id/eprint/394160
ISSN: 1051-8223
PURE UUID: f0a9d3eb-5d71-46bd-af5a-ec8d20f7ff4a
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Date deposited: 12 May 2016 10:21
Last modified: 15 Mar 2024 02:45
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Author:
Iole Falorio
Author:
Jorge Pelegrin Mosquera
Author:
A.L.L. Jarvis
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