AC Loss Reduction in Round HTS Cables Achieved by Low-Cost Filamentization of Tape Conductors

AC Loss Reduction in Round HTS Cables Achieved by Low-Cost Filamentization of Tape Conductors

Knowledge of the ac loss generated in a superconducting cable during variation of magnetic field is essential when considering its use in pulsed magnets. In round high-temperature superconducting (HTS) cables made from coated conductor (CC) tapes, the hysteresis loss is proportional to the tape widt...

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Veröffentlicht in:IEEE transactions on applied superconductivity 2024-08, Vol.34 (5), p.1-5
Hauptverfasser: Gomory, F., Solovyov, M., Souc, J., Frolek, L., Kujovic, T., Seiler, E., Ries, R., Mosat, M., Winkler, T., Sugita, K., Dhalle, M., Krooshoop, H. J. G., Hintze, C., Troshyn, A., Prusseit, W., Nedergaard, Lars, Traberg, L., Christensen, J. J., Jorgensen, N. O., Bahl, C. R. H., Wulff, A. C.
Format: Artikel
Sprache:eng
Schlagworte:
AC loss
Cables
coated conductors
Conductors
Core loss
Critical current (superconductivity)
filamentization
Filaments
High temperature
Loss measurement
Loss reduction
Low cost
Magnetic fields
Magnetic hysteresis
Magnets
round HTS cables
Substrates
Superconducting cables
Superconducting magnets
Superconductivity
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container_end_page 5
container_issue 5
container_start_page 1
container_title IEEE transactions on applied superconductivity
container_volume 34
creator Gomory, F.
Solovyov, M.
Souc, J.
Frolek, L.
Kujovic, T.
Seiler, E.
Ries, R.
Mosat, M.
Winkler, T.
Sugita, K.
Dhalle, M.
Krooshoop, H. J. G.
Hintze, C.
Troshyn, A.
Prusseit, W.
Nedergaard, Lars
Traberg, L.
Christensen, J. J.
Jorgensen, N. O.
Bahl, C. R. H.
Wulff, A. C.
description Knowledge of the ac loss generated in a superconducting cable during variation of magnetic field is essential when considering its use in pulsed magnets. In round high-temperature superconducting (HTS) cables made from coated conductor (CC) tapes, the hysteresis loss is proportional to the tape width. Then an effective measure for reducing the loss is the division of the superconducting layer into parallel filaments. We investigated the ac loss in short models of round cables, containing in different arrangements two layers of 10 standard helically laid tapes. At magnetic field amplitudes surpassing 0.1 T the loss did not depend on the cable architecture, in agreement with simple analytical prediction. Substantial reduction of magnetization loss was obtained in the cable models from novel coated conductor (CC) tapes with a low-cost filamentized REBCO layer produced in an industrial process utilizing a special 3D patterned metal substrate. Further research should address the improvement of critical current and optimization of metallic layers, allowing a migration of current between filaments without substantial increase of coupling loss.
doi_str_mv 10.1109/TASC.2024.3364133
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We investigated the ac loss in short models of round cables, containing in different arrangements two layers of 10 standard helically laid tapes. At magnetic field amplitudes surpassing 0.1 T the loss did not depend on the cable architecture, in agreement with simple analytical prediction. Substantial reduction of magnetization loss was obtained in the cable models from novel coated conductor (CC) tapes with a low-cost filamentized REBCO layer produced in an industrial process utilizing a special 3D patterned metal substrate. 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subjects AC loss
Cables
coated conductors
Conductors
Core loss
Critical current (superconductivity)
filamentization
Filaments
High temperature
Loss measurement
Loss reduction
Low cost
Magnetic fields
Magnetic hysteresis
Magnets
round HTS cables
Substrates
Superconducting cables
Superconducting magnets
Superconductivity
title AC Loss Reduction in Round HTS Cables Achieved by Low-Cost Filamentization of Tape Conductors
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