HL-2A装置上超声分子束注入触发L-H转换的实验研究

冯北滨; 姚良骅; 陈程远; 季小全; 钟武律; 石中兵; 余德良; 崔正英; 宋显明; 段旭如

doi:10.7498/aps.62.015203

摘要

利用具有定向速度的超声分子束注入技术, 研究了HL-2A装置在较低加热功率条件下实现L-H转换的等离子体放电特征, 从边缘密度分布的差异比较分析了普通送气和超声分子束注入对L-H转换的影响. 实验结果表明, HL-2A装置上采用超声分子束注入可直接触发L-H转换, 明显降低L-H转换功率. 通过对大量实验数据的分析和整理发现, 利用超声分子束注入实现L-H 转换的最低加热功率, 比同等条件下采用普通送气实现L-H转换的最低加热功率减少约10%.

关键词:

Abstract

Features of L-H transition are investigated using the supersonic molecular beam injection (SMBI) with directional velocity under low heating powers in the present paper. Comparing the edge density profiles, it is analyzed that the conventional gas puffing (GP) and SMBI have effects on L-H transition. Experimental results suggest that the SMBI does directly trigger L-H transition on HL-2A, and it considerably reduces the power threshold of L-H transition. After abundant experimental data are analyzed and processed, it is found that the minimum L-H transition power with SMBI decreases by 10% when it is compared with GP trigged H-mode under same conditions.

Keywords:

作者及机构信息

1.
核工业西南物理研究院聚变科学所, 成都 610041

基金项目: 国家自然科学基金(批准号: 10975049)和国家科技重大专项(批准号: 2009GB104007, 2010GB102003)资助的课题.

Authors and contacts

1.
Southwestern Institute of Physics, Chengdu 610041, China

Funds: Project supported by the National Natural Science Foundation of China (Grant No. 10975049), and the National Science and Technology Major Project of the Ministry of Science and Technology of China (Grant Nos. 2009GB104007, 2010GB102003).

参考文献

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[7]	Wei H L, Cao J Y, Rao J, Lei G J, Jiang S F, Liu H, Yu L M, Xie W M, Li M, Yang X F, Zou G Q, Lu D L, Duan X R 2012 Rev. Sci. Instrum 83 023302
[8]	Feng B B, Yao L H, Li W, Chen C Y, Feng Z 2008 Nuclear Fusion Plasma Phys. 28 97 (in Chinese) [冯北滨, 姚良骅, 李伟, 陈程远, 冯震 2008 核聚变与等离子体物理 28 97]
[9]	Zhu G L, Liu D Q, Xu H B, Vinyar I, Lukin A, Wang M J 2011 Fusion Engineering and Design 86 2286
[10]	Xu G S, Wan B N, Li J G, Gong X Z, Hu J S, Shan J F, Li H, Mansfield D K, Humphreys D A, Naulinfor V, EAST team 2011 Nucl. Fusion 51 072001
[11]	Chen C Y, Yao L H, Feng B B, Zhou Y, Yu D L, Yan L W, Yang Q W, Duan X R 2010 Proceedings of the 7th General Scientific Assembly of the Asia Plasma and Fusion Association Aomori Japan, October 27-30, 2009 p37-42
[12]	Holzhauer E, Dodel G, Endler M, Gernhard J, Gannone L, Manso M, MeCormick K, Mertm V, Niedermeyer H, Rudyj A, Serra F, Siva A, Theimert G, Varela P, Wagner F, Zohm H, ASDEX Team 1994 Plasma Phys. Control Fusion 36 A3-A11
[13]	Yu D L, Chen C Y, Yao L H, Dong J Q, Feng B B, Zhou Y, Shi Z B, Zhou J, Han X Y, Zhong W L, Cui Z Y, Huang Y, Cao Z, Liu Yi, Yan L W, Yang Q W, Duan X R, Liu Yong 2012 Nucl. Fusion 52 082001

施引文献

[1]	Wagner F, Becker G, Behringer K, Campbell D, Eberhagen A, Engelhardt W, Fussmann G, Gehre O, Gernhardt J, Gierke G V, Haas G, Huang M, Karger F, Keilhacker M, Kluber Q, Kornherr M, Lackner K, Lisitano G, Lister G G, Mayer H M, Meisel D, MIiller E R, Murmann H, Niedermeyer H, Poschenrieder W, Rapp H, Bohr H, Schneider F, Siller G, Speth E, Stabler A, Steuer K H, Venus G, Vollmer O, Yu Z 1982 Phys. Rev. Lett. 49 1408
[2]	Gohil P, Baylor L R, Jernigan T C, Burrell K H, Carlstrom T N 2001 Phys. Rev. Lett. 86 644
[3]	Yao L H, Tang N Y, Cui Z Y, Xu D M, Deng Z C, Ding X T, Luo J L, Dong J F, Guo G C, Yang S K, Cui C H, Xiao Z G, Liu D Q, Chen X P, Yan L W, Yan D H, Wang E Y, Deng X W 1998 Nucl. Fusion 38 631
[4]	Duan X R, Dong J Q, Yan L W, Ding X T, Yang Q W, Rao J, Liu D Q, Xuan W M, Chen L Y, Li X D, Lei G J, Cao J Y, Cao Z, Song X M, Huang Y, Liu Y, Mao W C, Wang Q M, Cui Z Y, Ji X Q, Li B, Li G S, Li H J, Luo C W, Wang Y Q, Yao L H, Yao L Y, Zhang J H, Zhou J, Zhou Y, Liu Y, HL-2A team 2010 Nucl. Fusion 50 095011
[5]	Duan X R, Huang Y, Liu D Q, Xuan W M, Chen L Y, Rao J, Song X M, Cao Z, Li B, Cao J Y, Lei G J, Li X D, Liu Y, Yang Q W, Yao L Y, Ding X T, Dong J Q, Yan L W, Pan C H, Liu Y, HL-2A team 2011 24th Symposium on Fusion Engineering Chicago, USA, June 26-30, SO1B-3
[6]	Rao J, Li B, Zhou J, Yao L Y, Kang Z H, Wang M W, Li L, Feng K, Huang M, Lu Z H, Zhang J S, Li Q, Liu Y 2009 Nuclear Fusion Plasma Phys. 29 324 (in Chinese) [饶军, 李波, 周俊, 姚列英, 康自华, 王明伟, 李立, 冯鲲, 黄梅, 陆志鸿, 张劲松, 李青, 刘永 2009 核聚变与等离子体物理 29 324]
[7]	Wei H L, Cao J Y, Rao J, Lei G J, Jiang S F, Liu H, Yu L M, Xie W M, Li M, Yang X F, Zou G Q, Lu D L, Duan X R 2012 Rev. Sci. Instrum 83 023302
[8]	Feng B B, Yao L H, Li W, Chen C Y, Feng Z 2008 Nuclear Fusion Plasma Phys. 28 97 (in Chinese) [冯北滨, 姚良骅, 李伟, 陈程远, 冯震 2008 核聚变与等离子体物理 28 97]
[9]	Zhu G L, Liu D Q, Xu H B, Vinyar I, Lukin A, Wang M J 2011 Fusion Engineering and Design 86 2286
[10]	Xu G S, Wan B N, Li J G, Gong X Z, Hu J S, Shan J F, Li H, Mansfield D K, Humphreys D A, Naulinfor V, EAST team 2011 Nucl. Fusion 51 072001
[11]	Chen C Y, Yao L H, Feng B B, Zhou Y, Yu D L, Yan L W, Yang Q W, Duan X R 2010 Proceedings of the 7th General Scientific Assembly of the Asia Plasma and Fusion Association Aomori Japan, October 27-30, 2009 p37-42
[12]	Holzhauer E, Dodel G, Endler M, Gernhard J, Gannone L, Manso M, MeCormick K, Mertm V, Niedermeyer H, Rudyj A, Serra F, Siva A, Theimert G, Varela P, Wagner F, Zohm H, ASDEX Team 1994 Plasma Phys. Control Fusion 36 A3-A11
[13]	Yu D L, Chen C Y, Yao L H, Dong J Q, Feng B B, Zhou Y, Shi Z B, Zhou J, Han X Y, Zhong W L, Cui Z Y, Huang Y, Cao Z, Liu Yi, Yan L W, Yang Q W, Duan X R, Liu Yong 2012 Nucl. Fusion 52 082001

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