期刊文献+

氩气驱动液态锂回路的总体设计及初步运行结果 被引量:2

The overall design and preliminary operational results of the liquid lithium loop driven by argon
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摘要 为了研究等离子体与自由液态锂表面相互作用的物理过程,建立了用氩气驱动的液态锂回路装置。介绍了建立的液态锂回路装置的组成部分、技术参数及运行原理。此回路主要由主回路、等离子体与液态锂相互作用试验段和单阴极高密度等离子体发生装置三部分组成。目前,此回路已取得一些初步的模拟结果和实验结果。 In order to study the physical process of the interaction between plasma and free liquid lithium surface, a liquid lithium loop device driven by argon was built. The structural components, technical parameters and operational principle of the loop are mainly introduced, respectively. The loop is mainly constituted of the primary loop, the test section about the plasma interacting with liquid lithium and one cathode linear plasma device. At present, some preliminary simulation and experimental results were obtained in this loop.
出处 《核聚变与等离子体物理》 CAS CSCD 北大核心 2015年第2期170-174,共5页 Nuclear Fusion and Plasma Physics
基金 国家磁约束核聚变能发展研究专项(2013GB114003) 国家自然科学基金(11275135 11102221)
关键词 液态锂回路 自由液态锂表面 等离子体特性 Liquid loop device Free liquid lithium surface Plasma characteristics
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参考文献17

  • 1Deng B Q, Huang J H, Yan J C, et al. Study of the effects of liquid lithium curtain as first wall on plasma [J]. J. Nucl. Mater., 2003, 313-316: 630-635.
  • 2Doemer R P, Baldwin M J, Krasheninnikov S I, et al.Behavior of high temperature liquid surfaces in contact with plasma [J]. J. Nucl. Mater., 2003, 313-316: 383-387.
  • 3Kaita R, Majeski R, Boaz M, et al. Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U [J]. Fusion Engineering and Design, 2002, 61-62: 217-222.
  • 4Mirnov S. Plasma-wall interactions and plasma behaviour in fusion devices with liquid lithium plasma facing components [J]. J. Nucl. Mater., 390-391: 876-885.
  • 5Kugel H W, Bell M, Berzak L, et al. Physics design requirements for the national spherical torus experiment liquid lithium divertor [J]. Fusion Engineering and Design, 2009, 84(7): 1125-1129.
  • 6康伟山,潘传杰,许增裕.液态金属自由表面在聚变堆中的运用研究[J].科学技术与工程,2006,6(6):731-738. 被引量:6
  • 7Yang Q x, Zhang W L, Wang Y S, et al. Design of flowing liquid lithium device for HT-7 tokamak [J]. Fusion Engineering and Design, 2013, 88: 1646-1649.
  • 8邓柏权,黄锦华,严建成.聚变堆与聚变堆材料/流动液态锂第一壁的物理可行性研究[J].核工业西南物理研究院年报,2001(1):48-50. 被引量:1
  • 9Aiello A, Tincani A, Favuzza P, et al. Lifus (lithium for fusion) 6 loop design and construction [J]. Fusion Engineering and Design, 2013, 88(6-8): 769-773.
  • 10Ying A Y, Abdou M A, Morley N, et al. Exploratory studies of flowing liquid metal divertor options for fusion-relevant magnetic fields in the MTOR facility [J]. Fusion Engineering and Design, 2004, 72: 35-62.

二级参考文献59

  • 1[1]UWMAK-1.A Wisconsin toriodal fusion reactor design.UWFDM68,University of Wisconsin,1974
  • 2[2]Wells W M.A system for handling diverter ion and energy flux based on a lithium droplet cloud.Nuclear Technology/Fusion,1981; 1 (120):120-127
  • 3[3]Abdou M A,et al.Exploring novel high power density concepts for attractive fusion systems.Fusion Engineering and Design,1999;45:145-160
  • 4[4]Mattas R.U S assessment of free surface liquid metal diverterdesign.The 13th Topical Meeting on The Technology of Fusion Energy,Nashville,1998
  • 5[5]Wong C P C,et al.APEX and ALPS,high power density technology programs in the U.S.General Atomics Report,GA-A22986,Feb 1999
  • 6[6]Abdou M et al.Progress and future perspective of FNT.Tokyo,Seventh International Symposium on Fusion Nuclear Technology,May 2005
  • 7[7]Xu Zengyu,Pan Chuanjie,Kang Weishan.Experimental observation and theoretic analysis MHD effects of a liquid metal jet flow in a gradient magnetic field.Fusion Science and Technology,2004;46:577-585
  • 8[12]Luo G N,Shu W M,Nishi M.Influence of blistering on retention in W irradiated by high flux deuterium plasmas of tens of eV.Tokyo,Seventh International Symposium on Fusion Nuclear Technology,May 2005
  • 9[13]Vieider G,Merola M,Anselmi F,et al.European development of prototypes for ITER high heat flux components.Fusion Engineering and Design,2000;49-50:135-143
  • 10[14]Molokov S,Reed C B.Review of free-surface MHD experiments and modeling.ANL/TD/TM99-08,April 2000

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