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Matsui, Kunihiro; Takahashi, Yoshikazu; Koizumi, Norikiyo; Isono, Takaaki; Hamada, Kazuya; Nunoya, Yoshihiko; CS Model Coil Test Group
Teion Kogaku, 38(8), p.410 - 416, 2003/08
The test of the ITER Central Solenoid (CS) model coil, CS and Nb
Al inserts was carried. The AC loss measurement is one of the most important tests to determine coil performance. The coupling losses of CS and NbAl inserts were measured by calorimetric and magnetization methods, respectively. Both coils had coupling losses with many coupling time constant, and induced circulation currents were observed by voltage taps and hall sensors. Coupling losses decreased with exponential decay constants since the electromagnetic force broke weak sinter among the strands. The gap, created between the cable and the conduit by electromagnetic force, is dependent on the pressure drop of the coolant that flows in the conductor. Our analysis shows that the exponential decay constant of coupling losses is dependent on the gap size. If we can evaluate this exponential decay constant and apply the electromagnetic force that corresponds for the exponential decay constant to the conductor before the regular operation, we can use coils of the condition that coupling losses decrease on the operation.
Al cable-in-conduit conductor under electromagnetic force; Relation between pressure drop characteristics and cable stiffnessHamada, Kazuya; Matsui, Kunihiro; Takahashi, Yoshikazu; Nakajima, Hideo; Kato, Takashi; CS Model Coil Test Group
Teion Kogaku, 38(8), p.417 - 424, 2003/08
As one of the R&D of ITER. a hydraulic performance of NbAl insert coil was measured and compared with other NbSn conductors. It seems that a longer twist pitch will promote a triangle helium flow space among 4th twist stage cables, jacket and center channel and contribute reduction of pressure drop. Under 500 kN/m of the electromagnetic force, the pressure drop of the NbAl insert decreased by approximately 5%. NbAl conductor indicated quit rigid characteristic under the electromagnetic force and suitable for future magnet with higher magnetic field and current.
Araki, Masanori; Sato, Kazuyoshi; ; Akiba, Masato
Fusion Technology, 30(3), p.674 - 679, 1996/12
no abstracts in English
; ; Shimada, M.*; Wachi, Y.*; Fujioka, T.*; Isono, Takaaki; Okuno, Kiyoshi; Takahashi, Yoshikazu; Sugimoto, Makoto; Hiue, Hisaaki*; et al.
Cryogenics, 33(6), p.586 - 591, 1993/00
Times Cited Count:5 Percentile:34.95(Thermodynamics)no abstracts in English
; ; Seki, Yasushi; Fujisawa, Noboru; ;
JAERI-M 89-084, 69 Pages, 1989/07
no abstracts in English
; Okubo, Minoru; ; ; ; ;
Journal of Nuclear Science and Technology, 24(9), p.730 - 741, 1987/09
Times Cited Count:3 Percentile:37.67(Nuclear Science & Technology)no abstracts in English
; Yamamoto, Masahiro; Okubo, Minoru; ; ; ; ; ; ; ; et al.
JAERI-M 85-136, 103 Pages, 1985/09
no abstracts in English
; ; ; ; ; Kondo, I.; ; ; ; Tsunematsu, Toshihide; et al.
JAERI-M 85-077, 203 Pages, 1985/07
no abstracts in English
; ; ; ; ;
Nucl.Eng.Des., 74(3), p.325 - 337, 1982/00
Times Cited Count:0 Percentile:0.00(Nuclear Science & Technology)no abstracts in English
; ; ; ; ;
Nucl.Eng.Des., 71, p.161 - 172, 1982/00
Times Cited Count:5 Percentile:52.74(Nuclear Science & Technology)no abstracts in English
