|
[1] Jackson G L, Loarte A, Maingi R. A long-pulse
high-confinement plasma regime in the Experimental
Advanced Superconducting Tokamak [J]. Nature Physics,
2013, 9(12): 817-821.
[2] Schlosser J, Escourbiac F, Merola M, et al. Thermal
hydraulic testing for ITER high heat flux components [C].
Marseille: Fusion Technology, Proc. of the 20th SOFT,
1998. 137−140.
[3] Tivey R, Akiba M, Driemeyer D, et al. ITER R&D:
vacuum vessel and in-vessel components: divertor
cassette [J]. Fusion Engineering and Design, 2001, 55:
219–229.
[4] Falter H D, Thompson E. Performance of hypervapotron
beam stopping elements in JET [J]. Fusion
Technology, 1996, 29: 584–595.
[5] 冉红, 曹曾, 蔡立君. HL-2M 装置真空室设计与分析
[J]. 核聚变与等离子体物理, 2014, 34(3): 219-223.
[6] Zheng G Y, Cai L Z, Duan X R, et al. Investigations on
the heat flux and impurity for the HL-2M divertor [J].
Nucl. Fusion, 2016, 56(12): 126013.
[7] Cai Lijun, Liu Yuxiang, Lu Yong, et al. Progress of
engineering design and analysis of HL-2M advanced
divertor [J]. Fusion Engineering and Design, 2017, 124:
262–266.
[8] 刘琦, 毛世峰, 王忠伟, 等. 翅片结构对超汽化结构换
热性能影响的研究 [J]. 核聚变与等离子体物理, 2019,
39(1): 48−54.
[9] ITER Structural Design Criteria for In-vessel
Components (SDC-IC), (internal project document
distributed to the ITER Participants) [Z]. 2011.
[10] Schlosser J, Escourbiac F, Merola M, et al. Flat tile
armour cooled by hypervapotron tube: a possible
technology for ITER [J]. Physica Scripta, 2004, T111:
199–202.
|
