2020
DOI: 10.1016/j.fusengdes.2020.111898
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AC loss and contact resistance of different CICC cable patterns: Experiments and numerical modeling

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Cited by 6 publications
(7 citation statements)
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“…∼ 24.6%). In this last case, the peak of the losses was in the very low frequency range, and we have not yet been able to completely explain these inconsistencies, even if it has been shown [40] that cable pattern, sub-cable wraps and void fraction significantly affect the coupling loss and, overall, could be responsible for the AC losses' curves similarities and differences.…”
Section: Ac Lossesmentioning
confidence: 78%
See 1 more Smart Citation
“…∼ 24.6%). In this last case, the peak of the losses was in the very low frequency range, and we have not yet been able to completely explain these inconsistencies, even if it has been shown [40] that cable pattern, sub-cable wraps and void fraction significantly affect the coupling loss and, overall, could be responsible for the AC losses' curves similarities and differences.…”
Section: Ac Lossesmentioning
confidence: 78%
“…Without wrapping (that is our case), the inter-petal transverse resistance is of the same order of magnitude as the intra-petal transverse resistance, so that the last cabling stage dominates the loss behaviour, because coupling currents with large loops flow through neighbouring petals. In particular, the coupling time constants are dominated by the twist pitches of the last cabling stages [39,40], which have similar values for the two legs.…”
Section: Ac Lossesmentioning
confidence: 99%
“…Fisher et al have developed a simple calibrationfree method based on the dipole approximation, which allows for obtaining both the AC loss and orientation of the sample magnetic moment [172]. More recent experimental measurement work based on the magnetic method can be found in [173,174].…”
Section: Magnetic Methodsmentioning
confidence: 99%
“…The homogeneity length along the central axis magnetic field (98.3%) is 400 mm. The AC loss of the subsize MgB 2 CICC is measured at the University of Twente using the test facility [8] shown in figure 5. The assembled cable sample with chamber is inserted into a dipole magnet generating an AC magnetic field up to ±1.5 T. The whole setup is immersed in a liquid helium bath, the evaporated liquid helium in the calorimeter caused by the AC loss heat and the off-set heat-leakage of the cryostat is measured through a precise mass flow meter at room temperature.…”
Section: Measurement Setupsmentioning
confidence: 99%
“…Given the potential use of MgB 2 in superconducting cables and magnet coils at 10 to 25 K, the MgB 2 wire is a promising candidate for lower field coils in fusion reactors like poloidal field (PF), correction coil and lower field sections of graded high-field coils, as well as their feeders. The international collaboration for advancement of magnesium-diboride superconductors (ICAMS) between laboratories, universities and industries is therefore launched for the purpose of researching and developing the magnet fusion technology beyond ITER state-of-the-art [8]. One of the key goals of ICAMS is to demonstrate the feasibility and performance verification of a large size MgB 2 PF conductor based on ITER requirements.…”
Section: Introductionmentioning
confidence: 99%