2010
DOI: 10.1109/tasc.2010.2042435
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The Role of Quench-Back in the Passive Quench Protection of Long Solenoids With Coil Sub-Division

Abstract: Abstract-This paper describes how a passive quench protection system can be applied to long superconducting solenoid magnets. When a solenoid coil is long compared to its thickness, the magnet quench process will be dominated by the time needed for quench propagation along the magnet length. Quench-back will permit a long magnet to quench more rapidly in a passive way. Quenchback from a conductive (low resistivity) mandrel is essential for spreading the quench along the length of a magnet. The mandrel must be … Show more

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Cited by 21 publications
(15 citation statements)
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“…Mandrels of 6061-T6-Al and 304-stainless steel were used to explore the role mandrel material on quench-back [2]. The focusing magnet was run in the flip mode at 250 A.…”
Section: B the Role Of Quench-back In One Focusing Magnetmentioning
confidence: 99%
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“…Mandrels of 6061-T6-Al and 304-stainless steel were used to explore the role mandrel material on quench-back [2]. The focusing magnet was run in the flip mode at 250 A.…”
Section: B the Role Of Quench-back In One Focusing Magnetmentioning
confidence: 99%
“…Quench back can cause a small increase in the voltage to ground in the coil, because the coil section resistance grows more rapidly. If the resistivity of the mandrel is lower (say 1100-O aluminum) the peak voltage will be lower, because the mandrel absorbs more magnetic energy [2]. …”
Section: B the Role Of Quench-back In One Focusing Magnetmentioning
confidence: 99%
See 1 more Smart Citation
“…Thus the three-coil spectrometer section has a total of four sub-divisions. The four sub-divisions reduce the voltage to ground and protect the three-coil tracker section of the magnet in the event of a lead failure [7]. The hot spot temperature (particularly in the long center coil) is reduced by magnet quench back from the aluminum mandrel.…”
Section: Basic Design Of the Spectrometer Magnetsmentioning
confidence: 99%
“…The propagation velocities in all directions will be increased about six percent [7]. The hot spot temperature will increase, but the conductor will probably decrease the quench-back time for the coils, once the normal region has been formed [8], [9]. Table I shows the basic design parameters for focusing magnet as the magnet vendor design dictates.…”
Section: The Focusing Magnet Design Parametersmentioning
confidence: 99%