2015
DOI: 10.1007/s10948-015-2976-y
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Variation of Quench Propagation Velocities in YBCO Cables

Abstract: We show by modelling that the quench propagation velocity is not constant in HTS coils but it changes during the quench. Due to the large temperature margin between the operation and the current sharing temperatures, the normal zone does not propagate with the temperature front. This means that the temperature will rise in a considerably larger volume when compared to the quenched volume. Thus, the evolution of the temperature distribution below current sharing temperature T cs after the quench onset affects t… Show more

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Cited by 17 publications
(9 citation statements)
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References 21 publications
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“…Bi-2212 is investigated at the conductor level, by contributing to the powder improvement [46]. Among other issues, protection is going to be very challenging because of slow voltage raise, as in any HTS coil, and is under careful investigation [47], [48]. The recent CERN innovation for enhanced protection, CLIQ [49] may be very useful in this respect.…”
Section: B Magnets (Task 103): Targets and Resultsmentioning
confidence: 99%
“…Bi-2212 is investigated at the conductor level, by contributing to the powder improvement [46]. Among other issues, protection is going to be very challenging because of slow voltage raise, as in any HTS coil, and is under careful investigation [47], [48]. The recent CERN innovation for enhanced protection, CLIQ [49] may be very useful in this respect.…”
Section: B Magnets (Task 103): Targets and Resultsmentioning
confidence: 99%
“…Finally, it would be interesting to check whether the propagation velocity of a normal zone in YBaCuO cables as reported in [23], in relation to a propagation of the temperature front, both calculated with a finite element method, can be explained by a similar correlation analysis as presented above, and whether inhomogeneities and current percolation have been observed. This will be investigated in a separate paper.…”
Section: Correlation Of Stability With Current Limitingmentioning
confidence: 89%
“…For the normal region the critical current is computed from the cable critical current surface, which takes into account the angular dependency of the magnetic field. However, for the hot spot we assign a critical current which is lower than the operation current, thus, effectively quenching the magnet slowly, as in our previous work [31]- [33]. The hot spot region, which is located in the area with the highest magnetic field density, is shown in Fig.…”
Section: Modelling Domainmentioning
confidence: 99%