Divertor development for ITER

被引:17
|
作者
Janeschitz, G
Ando, T
Antipenkov, A
Barabash, V
Chiocchio, S
Federici, G
Ibbott, C
Jakeman, R
Matera, R
Martin, E
Pacher, HD
Parker, R
Tivey, R
机构
[1] Max Planck Inst Plasma Phys, D-85748 Garching, Germany
[2] Max Planck Inst Plasma Phys, Net Team, D-85748 Garching, Germany
来源
FUSION ENGINEERING AND DESIGN | 1998年 / 39-40卷
关键词
D O I
10.1016/S0920-3796(97)00134-8
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 requirements for the ITER divertor design, i.e. power and He ash exhaust, neutral leakage control, lifetime, disruption load resistance and exchange by remote handling, are described in this paper. These requirements and the physics requirements for detached and semi-attached operation result in the vertical target configuration. This is realised by a concept incorporating 60 cassettes carrying the high heat flux components. The armour choice for these components is CFC monoblock in the strike zone near the lower part of the vertical target, and a W brush elsewhere. Cooling is by swirl tubes or hypervapotrons depending on the component. The status of the heat sink and joining technology R and D is given. Finally, the resulting design of the high heat flux components is presented. (C) 1998 Elsevier Science S.A. All rights reserved.
引用
收藏
页码:173 / 187
页数:15
相关论文
共 50 条
  • [41] Power balance in the ITER plasma and divertor
    Post, DE
    Braams, B
    Mandrekas, J
    Stacey, W
    Putvinskaya, N
    [J]. CONTRIBUTIONS TO PLASMA PHYSICS, 1996, 36 (2-3) : 240 - 244
  • [42] Radiative divertor modelling for ITER and TPX
    Braams, BJ
    [J]. CONTRIBUTIONS TO PLASMA PHYSICS, 1996, 36 (2-3) : 276 - 281
  • [43] REGIMES WITH RECOMBINING PLASMA IN THE ITER DIVERTOR
    KRASHENINNIKOV, SI
    SIGMAR, D
    SOBOLEVA, TK
    KUKUSHKIN, AB
    BATISCHEV, OV
    SIGOV, YS
    [J]. CONTRIBUTIONS TO PLASMA PHYSICS, 1994, 34 (2-3) : 442 - 447
  • [44] Overview of the engineering design of ITER divertor
    Ibbott, C
    Chiocchio, S
    D'Agata, E
    Federici, G
    Heidl, H
    Janeschitz, G
    Martin, E
    Tivey, R
    [J]. FUSION ENGINEERING AND DESIGN, 2001, 56-57 : 243 - 248
  • [45] VUV divertor impurity monitor for ITER
    Ebisawa, K
    Ando, T
    Costley, A
    Janeschitz, G
    Martin, E
    Sugie, T
    [J]. DIAGNOSTICS FOR EXPERIMENTAL THERMONUCLEAR FUSION REACTORS 2, 1998, : 337 - 343
  • [46] Activation analysis for the ITER divertor cassette
    Khater, HY
    Sawan, ME
    [J]. FUSION TECHNOLOGY, 1998, 34 (03): : 581 - 585
  • [47] Effect of the dome on divertor performance in ITER
    Kukushkin, A. S.
    Pacher, H. D.
    Kotov, V.
    Reiter, D.
    Coster, D. P.
    Pacher, G. W.
    [J]. JOURNAL OF NUCLEAR MATERIALS, 2007, 363 : 308 - 313
  • [48] THE STATUS OF ITER DIVERTOR DESIGN CONCEPTS
    COHEN, SA
    WERLEY, KA
    HARRISON, MFA
    PISTUNOVITCH, V
    KUKUSHKIN, A
    KRASHENNINIKOV, S
    SUGIHARA, M
    PERKINS, LJ
    BULMER, R
    POST, DE
    WESLEY, J
    [J]. JOURNAL OF NUCLEAR MATERIALS, 1992, 196 : 50 - 58
  • [49] Advances in optical thermometry for the ITER divertor
    Lott, F.
    Netchaieff, A.
    Escourbiac, F.
    Jouvelot, J. -L.
    Constans, S.
    Hernandez, D.
    [J]. FUSION ENGINEERING AND DESIGN, 2010, 85 (01) : 146 - 152
  • [50] Analysis of performance of the optimized divertor in ITER
    Kukushkin, A. S.
    Pacher, H. D.
    Loarte, A.
    Komarov, V.
    Kotov, V.
    Merola, M.
    Pacher, G. W.
    Reiter, D.
    [J]. NUCLEAR FUSION, 2009, 49 (07)
12345