Analysis and Optimization of Cooling Channels in ITER Blanket Module

被引:3
|
作者
Kang Weishan [1 ]
Chen Jiming [1 ]
Wu Jihong [1 ]
机构
[1] SW Inst Phys, Chengdu 610041, Peoples R China
来源
PLASMA SCIENCE & TECHNOLOGY | 2010年 / 12卷 / 05期
关键词
ITER; blanket; hydraulic; thermal; RESEARCH-AND-DEVELOPMENT; VACUUM VESSEL; DESIGN; FEAT; FW/BLANKET; PROGRESS;
D O I
10.1088/1009-0630/12/5/22
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
Thermal hydraulic analysis was performed for the 2004 ITER blanket design, which was based on the fabrication methods of forging, drilling and welding. Results show that, in the original design, the flow distribution in radial holes was far from uniform because different flow drivers were used in the radial holes. Improvement of the flow driver is proposed in this study. With the optimization of the flow drivers, it is clearly shown that the total pressure drop decreases and a better velocity distribution in radial holes is obtained. The more uniform heat transfer coefficient among the radial holes is beneficial for reducing thermal stress.
引用
收藏
页码:628 / 631
页数:4
相关论文
共 50 条
  • [41] Integration of the EU HCPB Test Blanket Module system in ITER
    Neuberger, H
    Boccaccini, LV
    Meyder, R
    [J]. FUSION ENGINEERING AND DESIGN, 2006, 81 (1-7) : 499 - 503
  • [42] Test strategy for the European HCPB test blanket module in ITER
    Boccaccini, LV
    Meyder, R
    Fischer, U
    [J]. FUSION SCIENCE AND TECHNOLOGY, 2005, 47 (04) : 1015 - 1022
  • [43] The European test blanket module systems:: Design and integration in ITER
    Boccaccini, LV
    Salavy, JF
    Lässer, R
    Puma, AL
    Meyder, R
    Neuberger, H
    Poitevin, Y
    Rampal, G
    [J]. FUSION ENGINEERING AND DESIGN, 2006, 81 (1-7) : 407 - 414
  • [44] Design of blanket cooling manifold system for ITER-FEAT
    Elio, F
    Ioki, K
    Yamada, M
    Yoshimura, H
    [J]. FUSION ENGINEERING AND DESIGN, 2001, 58-59 : 579 - 583
  • [45] ITER - Methodology and analysis of loss of coolant accidents (LOCA) inside a breeding blanket module.
    Masson, X
    Gulden, W
    Jahn, H
    [J]. ANNUAL MEETING ON NUCLEAR TECHNOLOGY '98, PROCEEDINGS, 1998, : 569 - 572
  • [46] Development of bore tools for blanket cooling pipe connection in ITER
    Itoh, A
    Oka, K
    Kakudate, S
    Obara, K
    Taguchi, K
    Tada, E
    Tesini, A
    Shibanuma, K
    Haange, R
    [J]. 17TH IEEE/NPSS SYMPOSIUM ON FUSION ENGINEERING, VOLS 1 AND 2, 1998, : 921 - 924
  • [47] Improved Geometrical Design of the US DCLL ITER Test Blanket Module
    Marriott, E.
    Sawan, M.
    Dagher, M.
    Wong, C.
    [J]. 2011 IEEE/NPSS 24TH SYMPOSIUM ON FUSION ENGINEERING (SOFE), 2011,
  • [48] Effects of tube drawing on structural material for iter test blanket module
    Hirose, Takanori
    Tanigawa, Hiroyasu
    Enoeda, Mikio
    Akiba, Masato
    [J]. FUSION SCIENCE AND TECHNOLOGY, 2007, 52 (04) : 839 - 843
  • [49] THE KARLSRUHE SOLID BREEDER BLANKET AND THE TEST MODULE TO BE IRRADIATED IN ITER/NET
    DONNE, MD
    BOJARSKY, E
    FISCHER, U
    KUCHLE, M
    NORAJITRA, P
    REIMANN, G
    REISER, H
    BASCHEK, HD
    BOGUSCH, E
    [J]. FUSION ENGINEERING AND DESIGN, 1991, 17 : 87 - 94
  • [50] ITER fast ion confinement in the presence of the European test blanket module
    Akaslompolo, Simppa
    Kurki-Suonio, Taina
    Asunta, Otto
    Cavinato, Mario
    Gagliardi, Mario
    Hirvijoki, Eero
    Saibene, Gabriella
    Sipila, Seppo
    Snicker, Antti
    Sarkimaki, Konsta
    Varje, Jari
    [J]. NUCLEAR FUSION, 2015, 55 (09)
12345