Analysis of the Gas Puffing Performance for Improving the Repeatability of Ohmic Discharges in the SUNIST Spherical Tokamak 被引量：1

Analysis of the Gas Puffing Performance for Improving the Repeatability of Ohmic Discharges in the SUNIST Spherical Tokamak

下载PDF

导出

摘要 The gas puffing performance plays a key role in repeatable discharges in the Sino- UNited Spherical Tokamak （SUNIST） experiments. In this paper, temporal evolution of the gas pressure in the vacuum vessel and the dependence of the repeatability of plasma discharges on different timing arrangements between the gas puffing pulse and the Ohmic field have been experimentally investigated. The results show that, after a fast rising phase, the gas pressure becomes quasi-stationary. In the regime of the discharges being started up when the gas pressure has already reached the quasi-stationary state for about 37 ms, an improved repeatability of the plasma discharges is achieved. The gas puffing performance plays a key role in repeatable discharges in the Sino- UNited Spherical Tokamak （SUNIST） experiments. In this paper, temporal evolution of the gas pressure in the vacuum vessel and the dependence of the repeatability of plasma discharges on different timing arrangements between the gas puffing pulse and the Ohmic field have been experimentally investigated. The results show that, after a fast rising phase, the gas pressure becomes quasi-stationary. In the regime of the discharges being started up when the gas pressure has already reached the quasi-stationary state for about 37 ms, an improved repeatability of the plasma discharges is achieved.

作者谢会乔谭熠柯锐王文浩高喆

机构地区 Department of Engineering Physics

出处《Plasma Science and Technology》 SCIE EI CAS CSCD 2014年第8期732-737,共6页 等离子体科学和技术（英文版）

基金 supported by National Natural Science Foundation of China(Nos.10990214,11175103,11261140327 and 11075092) Ministry of Science and Technology(MOST)of China(Nos.2013GB112001 and 2010GB107002) Tsinghua University Initiative Scientific Research Program

关键词 gas puffing performance repeatability of plasma discharges SUNIST gas puffing performance, repeatability of plasma discharges, SUNIST

分类号 TL631.24 [核科学技术—核技术及应用] TN786 [电子电信—电路与系统]

引文网络
相关文献

参考文献13

1Fonseca A M M, da Silva R P, Galvao R M O, et al. 2001, AIP Conf. Proc., 563:179.
2Chattopadhyay P K, Pal R, Ray N R, et al. 1996, Nucl. Fusion, 36:1205.
3Belyakov V A, Lobanov K M, Makarova L P, et al. 2003, Plasma Dev. Oper., 11:193.
4He Y X. 2002, Plasma Sci. Technol., 4:1355.
5He Y X, Zhang L, Xie L F, et al. 2006, Plasma Sci. Technoh, 8:84.
6Tan Y, Gao Z, Wang L, et al. 2011, Nucl. Fusion, 51: 063021.
7Z J-27 hot cathode ion gause. Chengdu Zhenghua Electronic Instrument Co., Ltd [2013-08-08]. http: / /www.zhvacuum.com /ProductShow.asp ?ID=165 (in Chinese).
8PEV Series Piezoelectric Gas Flow Valve. Key High Vacuum Products, Inc. [2013-08-08]. http://www.keyhigh.com/sectionl .pdf.
9Seo S H, Kim H T, Kim K P, et al. 2008, Rev. Sci. Instrum., 79:116103.
10ITER Physics Expert Groups. 1999, Nucl. Fusion, 39: 2577.

同被引文献23

1李建刚.我国超导托卡马克的现状及发展[J].中国科学院院刊,2007,22(5):404-410. 被引量：35
2王龙,钱尚介,郑春开,陆全康.我国磁约束聚变研究的早期历史[J].物理,2008,37(1):38-41. 被引量：3
3郑金星,宋云涛,杨庆喜,徐薇薇,刘旭峰,刘万东,丁卫星,张建成,史善爽.KTX反场箍缩装置纵场线圈结构设计与电磁分析[J].原子能科学技术,2013,47(11):2166-2171. 被引量：1
4李建刚.托卡马克研究的现状及发展[J].物理,2016,45(2):88-97. 被引量：69
5苏罡.中国核能科技“三步走”发展战略的思考[J].科技导报,2016,34(15):33-41. 被引量：14
6罗德隆,宋云涛,段旭如,房同珍,何开辉,黄素贞,傅鹏,武玉,陆坤,卫靖,杨青巍,钟光武,赵君煜,胡立群,谌继明,李鹏远,李波,王英翘,沈光.中国ITER计划采购包进展[J].中国科学：物理学、力学、天文学,2019,49(4):11-21. 被引量：5
7傅培松,曾钢,卢宇,陈俊凌,李建刚.科研项目采购探讨——以聚变堆主机关键系统综合研究设施项目为例[J].科技管理研究,2020,40(8):223-227. 被引量：7
8陈伯伦,杨正华,胡昕,夏立琼,陈忠靖,王鹏,韦敏习,黄天晅,蒋炜,晏骥,王峰,杨家敏.神光系列激光装置内爆烧蚀压缩过程测量[J].强激光与粒子束,2020,32(9):123-128. 被引量：2
9何开辉,罗德隆,王敏,陶强,于芳,庞博.ITER计划国际大科学工程工作进展[J].中国核电,2020,13(6):736-740. 被引量：6
10刘永,李强,HL-M研制团队.中国环流器二号M(HL-2M)托卡马克主机研制进展[J].中国核电,2020,13(6):747-752. 被引量：29

引证文献1

1王志斌,沈炀,余羿,陈坚.我国磁约束核聚变能源的发展路径、国际合作与未来展望[J].南方能源建设,2024,11(3):1-13. 被引量：1

二级引证文献1

1吴琳君,李海燕,雷枭,吴一,刘邵轩.HL-3聚变用大容量Crowbar[J].南方能源建设,2024,11(3):137-145.

1曾龙,高喆,何也熙.Control of the Vertical Instability in the SUNIST Spherical Tokamak[J].Plasma Science and Technology,2009,11(3):265-268.
2刘健,冯春华,杨宣宗,王龙.The Reconstruction of the Plasma Boundary in the Sino-United Spherical Tokamak Experiments[J].Plasma Science and Technology,2010,12(2):161-165.
3冯松林,杨宣宗,冯克成.基于IGBT的SUNIST电极放电电源的研究[J].长春理工大学学报（自然科学版）,2005,28(1):17-19.
4冯松林,杨宣宗,冯春华,王龙,饶军,冯克成.SUNIST Microwave Power System[J].Plasma Science and Technology,2005,7(3):2810-2812.
5何也熙,李晓燕,高喆.Coupling Effect between Equilibrium Field and Heating Field and Modification of the Power Supply System on SUNIST Spherical Tokamak[J].Plasma Science and Technology,2005,7(1):2623-2625. 被引量：2
6Sykes,A,寒冰.START：球形托卡马克的建成[J].国外核聚变与等离子体应用,1993(1):59-62.
7Peng,YKM,土生.核废料的球形托卡马克（ST）嬗变[J].国外核聚变与等离子体应用,1999(5):42-49.
8王莹,曾立,何也熙,SUNIST Team.Initial Plasma Startup Test on SUNIST Spherical Tokamak[J].Plasma Science and Technology,2003,5(6):2017-2022. 被引量：1
9曾龙,高喆,谭熠,王文浩,谢会乔,解丽风,冯春华,刘健,王龙,杨宣宗,吴彦斌,钟方川,高翔.Investigation of Some MHD Events in the SUNIST Spherical Tokamak[J].Plasma Science and Technology,2011,13(4):420-423.
10王文浩,何也熙,高喆,曾立,张国平,解丽凤,冯春华,肖琼,李小燕.Edge Electrostatic Fluctuation Characteristics in the Sino-United Spherical Tokamak[J].Chinese Physics Letters,2004,21(8):1578-1581.

Plasma Science and Technology

2014年第8期

浏览历史

内容加载中请稍等...

Analysis of the Gas Puffing Performance for Improving the Repeatability of Ohmic Discharges in the SUNIST Spherical Tokamak 被引量：1

参考文献13

同被引文献23

引证文献1

二级引证文献1

相关作者

相关机构

相关主题

浏览历史