Switching reaction of Nb3Sn persistent current switch with a high current capacity

M. Tomita; K. Nemoto; M. Murakami; K. Sugawara

doi:10.1016/S0921-4534(01)00508-1

Switching reaction of Nb₃Sn persistent current switch with a high current capacity

M. Tomita, K. Nemoto, M. Murakami, K. Sugawara

研究成果: Article › 査読

3 被引用数 (Scopus)

抄録

We designed a persistent current switch (PCS) consisting of Nb₃Sn superconducting wire for superconducting magneto-hydrodynamic propulsion ship. Nb₃Sn has T_c higher than NbTi, which is commonly used for the conventional PCS, and thus Nb₃Sn is expected to show a higher stability against disturbance. We performed numerical simulations for the heat transfer in a 3-kA-class Nb₃Sn PCS by using a finite element method. We then constructed a 3 kA-6 Ω Nb₃Sn PCS and measured its switching performance. The results obtained in 3-kA PCS are utilized for the simulation of 10-kA-class switching performance including numerical simulations for the heat transfer. The results of switching performance will be presented based on the computer simulation for temperature distribution during the heating and cooling cycles. We also present the estimated time for the transition from the superconducting to normal state (off-state) and vice versa (on-state).

本文言語	English
ページ（範囲）	1336-1341
ページ数	6
ジャーナル	Physica C: Superconductivity and its applications
巻	357-360
DOI	https://doi.org/10.1016/S0921-4534(01)00508-1
出版ステータス	Published - 2001 9月
外部発表	はい

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
凝縮系物理学
エネルギー工学および電力技術
電子工学および電気工学

文献へのアクセス

10.1016/S0921-4534(01)00508-1

他のファイルとリンク

引用スタイル

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title = "Switching reaction of Nb3Sn persistent current switch with a high current capacity",

abstract = "We designed a persistent current switch (PCS) consisting of Nb3Sn superconducting wire for superconducting magneto-hydrodynamic propulsion ship. Nb3Sn has Tc higher than NbTi, which is commonly used for the conventional PCS, and thus Nb3Sn is expected to show a higher stability against disturbance. We performed numerical simulations for the heat transfer in a 3-kA-class Nb3Sn PCS by using a finite element method. We then constructed a 3 kA-6 Ω Nb3Sn PCS and measured its switching performance. The results obtained in 3-kA PCS are utilized for the simulation of 10-kA-class switching performance including numerical simulations for the heat transfer. The results of switching performance will be presented based on the computer simulation for temperature distribution during the heating and cooling cycles. We also present the estimated time for the transition from the superconducting to normal state (off-state) and vice versa (on-state).",

keywords = "Finite element method, Heat transfer, NbSn, Persistent current switch, Superconducting magnet",

author = "M. Tomita and K. Nemoto and M. Murakami and K. Sugawara",

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AU - Tomita, M.

AU - Nemoto, K.

AU - Murakami, M.

AU - Sugawara, K.

PY - 2001/9

Y1 - 2001/9

N2 - We designed a persistent current switch (PCS) consisting of Nb3Sn superconducting wire for superconducting magneto-hydrodynamic propulsion ship. Nb3Sn has Tc higher than NbTi, which is commonly used for the conventional PCS, and thus Nb3Sn is expected to show a higher stability against disturbance. We performed numerical simulations for the heat transfer in a 3-kA-class Nb3Sn PCS by using a finite element method. We then constructed a 3 kA-6 Ω Nb3Sn PCS and measured its switching performance. The results obtained in 3-kA PCS are utilized for the simulation of 10-kA-class switching performance including numerical simulations for the heat transfer. The results of switching performance will be presented based on the computer simulation for temperature distribution during the heating and cooling cycles. We also present the estimated time for the transition from the superconducting to normal state (off-state) and vice versa (on-state).

AB - We designed a persistent current switch (PCS) consisting of Nb3Sn superconducting wire for superconducting magneto-hydrodynamic propulsion ship. Nb3Sn has Tc higher than NbTi, which is commonly used for the conventional PCS, and thus Nb3Sn is expected to show a higher stability against disturbance. We performed numerical simulations for the heat transfer in a 3-kA-class Nb3Sn PCS by using a finite element method. We then constructed a 3 kA-6 Ω Nb3Sn PCS and measured its switching performance. The results obtained in 3-kA PCS are utilized for the simulation of 10-kA-class switching performance including numerical simulations for the heat transfer. The results of switching performance will be presented based on the computer simulation for temperature distribution during the heating and cooling cycles. We also present the estimated time for the transition from the superconducting to normal state (off-state) and vice versa (on-state).

KW - Finite element method

KW - Heat transfer

KW - NbSn

KW - Persistent current switch

KW - Superconducting magnet

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