Design consideration of the ITER-TF coil with a react-and-wind technique using Nb₃Al conductor

Author

Ando, T. ; Sugimoto, M. ; Koizumi, N. ; Nunoya, Y. ; Matsui, K. ; Nishi, M. ; Tsuji, H. ; Shimamoto, S.

Author_Institution

Naka Fusion Res. Establ., JAERI, Ibaraki, Japan

Volume

32

Issue

4

fYear

1996

fDate

7/1/1996 12:00:00 AM

Firstpage

2324

Lastpage

2327

Abstract

The ITER-TF coil requires a generation of 12.5 T in a size of 12 m×18 m. For such a high field-large coil, the applicability of Nb ₃Al conductors was considered with a react-and-wind technique which realizes high reliability and low cost for the coil fabrication. The maximum bending strain on the Nb₃Al conductor in use of this technique is 0.39%. I_c degradation due to the strain is expected to be below 5%. The limiting current is estimated as 65 kA for 60 kA operation current. AC loss in the TF coil with Nb₃Al conductor is almost the same as with Nb₃Sn conductor

Keywords

aluminium alloys; electron device manufacture; fusion reactor materials; fusion reactors; niobium alloys; superconducting cables; superconducting coils; superconducting magnets; superconducting materials; winding (process); 12 m; 12.5 T; 18 m; 60 kA; 65 kA; AC loss; ITER; Nb₃Al; bending strain; coil fabrication; cost; design consideration; operation current; react-and-wind technique; reliability; toroidal field superconducting coils; Artificial intelligence; Capacitive sensors; Conductors; Costs; Degradation; Equations; Fabrication; Magnetic field induced strain; Niobium; Superconducting coils;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.511338

Filename

511338

Design consideration of the ITER-TF coil with a react-and-wind technique using Nb3Al conductor

Ando, T. ; Sugimoto, M. ; Koizumi, N. ; Nunoya, Y. ; Matsui, K. ; Nishi, M. ; Tsuji, H. ; Shimamoto, S.

jour

Design consideration of the ITER-TF coil with a react-and-wind technique using Nb₃Al conductor