COMPACT HELICAL SYSTEM PHYSICS AND ENGINEERING DESIGN

被引:91
作者
NISHIMURA, K
MATSUOKA, K
FUJIWARA, M
YAMAZAKI, K
TODOROKI, J
KAMIMURA, T
AMANO, T
SANUKI, H
OKAMURA, S
HOSOKAWA, M
YAMADA, H
TANAHASHI, S
KUBO, S
TAKITA, Y
SHOJI, T
KANEKO, O
IGUCHI, H
TAKAHASHI, C
机构
来源
FUSION TECHNOLOGY | 1990年 / 17卷 / 01期
关键词
D O I
10.13182/FST90-A29173
中图分类号
TL [原子能技术]; O571 [原子核物理学];
学科分类号
0827 ; 082701 ;
摘要
The Compact Helical System was designed for research on transport in a low-aspect-ratio helical system. The machine parameters were chosen on the basis of a physics optimization study. Considerable effort was devoted to reducing error fields from current feeds and crossovers. The final machine parameters are as follows: major radius of 1 m; minor radius of the helical field coil of 0.313 m; plasma aspect ratio Ap = 5; pole number and toroidal period number of the helical field coil of l = 2 and m = 8, respectively; and helical pitch modulation of α* = 0.3.
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收藏
页码:86 / 100
页数:15
相关论文
共 20 条
[1]   MONTE-CARLO EVALUATION OF TRANSPORT-COEFFICIENTS [J].
BOOZER, AH ;
KUOPETRAVIC, G .
PHYSICS OF FLUIDS, 1981, 24 (05) :851-859
[2]   REDUCTION OF NEOCLASSICAL TRANSPORT IN THE 1/V REGIME IN TORSATRONS [J].
BYKOV, VE ;
GEORGIEVSKIJ, AV ;
PELETMINSKAYA, VG ;
KHODYACHIKH, AV ;
SHISHKIN, AA .
NUCLEAR FUSION, 1984, 24 (09) :1195-1203
[3]  
CHEN TS, 1987, IPPJ850 I PLASM PHYS
[4]   MONTE-CARLO STUDIES OF TRANSPORT IN STELLARATORS [J].
FOWLER, RH ;
ROME, JA ;
LYON, JF .
PHYSICS OF FLUIDS, 1985, 28 (01) :338-344
[5]  
FUJIWARA M, 1987, 14TH P EUR C MAD D I, V11, P404
[6]  
HANATANI K, 1986, NOV P INT STELL HEL, V2, P444
[7]  
HANATANI K, 1987, 14TH P EUR C CONTR F, V11, P396
[8]  
HAYASHI T, 1987, EQUILIBRIUM STABILIT
[9]  
IMAGAWA S, 1988, 15TH P S FUS TECHN U, V1, P412
[10]   THE ENERGY CONFINEMENT TIME IN STELLARATORS [J].
KOVRIZHNYKH, LM .
NUCLEAR FUSION, 1984, 24 (04) :435-443