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壁处理技术被广泛应用于托卡马克装置上,以降低装置本底杂质水平,改善器壁的再循环. 自2008年起, EAST面向等离子体的第一壁采用全碳材料,由于特殊的石墨晶体多孔结构, 具有高放气率以及对H2O, H2等杂质气体的高吸附性,从而使等离子体放电前期的 装置真空室壁处理尤为关键.本文介绍了EAST装置真空室壁处理的实验系统, 并研究了装置烘烤与不同工作气体及工作参数下的直流辉光放电清洗对杂质粒子的清除效果. 实验结果表明: EAST装置真空室在经过长时间的前期壁处理后,显著地降低了真空室内壁的出气率 与本底杂质浓度,这对随后进行的等离子体放电实验非常有必要.Wall cleaning has been used popularly on tokamaks to reduce impurities and fuel recycling. Since 2008, the plasma facing components of EAST have been all of graphite. Due to the special crystal structure of graphite, high outgassing rate and strong absorption of hydrogen gas are induced. The wall cleaning is in particular important for the pre-treatment before the plasma operation of the machine. In this article, we introduce the wall conditioning system on EAST, and study the removal efficiency of device baking and glow discharge cleaning in different working gases and at different operating parameters. The long duration baking and GDC cleaning in EAST notably reduce the wall outgassing, and impurity radiation. After the cleanings, plasma is easily obtained, which is beneficial for the plasma physics experiment.
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Keywords:
- wall conditioning /
- glow discharge cleaning /
- baking
[1] Hu J S, Li J G, Wang X M 2006 J. Nucl. Mater. 350 9
[2] Huang Q C, Luo J R, Wang H Z, Li C 2006 Acta Phys. Sin. 55 286 (in Chinese) [黄勤超, 罗家融, 王华忠, 李翀 2006 55 286]
[3] Hu J S, Wang X M, Li J H, Wu J H, Chen Y, Wang H Y, Yang D W, Luo N C, Li S F, Li G Y, Wang L, Yu Y W, Dou R C, Hu Q S, Bao L M, Zhao Y P, Li J G, EAST vacuum and wall conditioning group 2009 Fusion Eng. Design 84 2167
[4] Xu X J, Zhu D C 1995 Gas Discharge Physics (Shanghai: Fudan University Press) p121 (in Chinese) [徐学基, 诸定昌 1995 气体放电物理(上海:复旦大学出版社) 第121页]
[5] Li J H, Hu J S, Wang X M, Wang L, Chen Y, Yu Y Y, Wang H Y, Wu J H, Zuo G Z, Tang M, Zhuang H D 2010 Vacuum 46 11 (in Chinese) [李加宏, 胡建生, 王小明, 王玲, 陈跃, 余耀伟, 王厚银, 吴金华, 左贵忠, 唐明, 庄会东 2010 真空 46 11]
[6] Chen Y, Zhang Y, Yang D W, Wang L, Hu J S, Li J H, Wu J H, Wang X M, EAST vacuum group 2012 Phys. Procedia 32 14
[7] Wang H Y, Hu J S, Wang X M, Chen Q, Cao B, Yu Y W, Wu J H, Chen Y, Li J H, EAST vacuum group 2012 Phys. Procedia 32 235
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[1] Hu J S, Li J G, Wang X M 2006 J. Nucl. Mater. 350 9
[2] Huang Q C, Luo J R, Wang H Z, Li C 2006 Acta Phys. Sin. 55 286 (in Chinese) [黄勤超, 罗家融, 王华忠, 李翀 2006 55 286]
[3] Hu J S, Wang X M, Li J H, Wu J H, Chen Y, Wang H Y, Yang D W, Luo N C, Li S F, Li G Y, Wang L, Yu Y W, Dou R C, Hu Q S, Bao L M, Zhao Y P, Li J G, EAST vacuum and wall conditioning group 2009 Fusion Eng. Design 84 2167
[4] Xu X J, Zhu D C 1995 Gas Discharge Physics (Shanghai: Fudan University Press) p121 (in Chinese) [徐学基, 诸定昌 1995 气体放电物理(上海:复旦大学出版社) 第121页]
[5] Li J H, Hu J S, Wang X M, Wang L, Chen Y, Yu Y Y, Wang H Y, Wu J H, Zuo G Z, Tang M, Zhuang H D 2010 Vacuum 46 11 (in Chinese) [李加宏, 胡建生, 王小明, 王玲, 陈跃, 余耀伟, 王厚银, 吴金华, 左贵忠, 唐明, 庄会东 2010 真空 46 11]
[6] Chen Y, Zhang Y, Yang D W, Wang L, Hu J S, Li J H, Wu J H, Wang X M, EAST vacuum group 2012 Phys. Procedia 32 14
[7] Wang H Y, Hu J S, Wang X M, Chen Q, Cao B, Yu Y W, Wu J H, Chen Y, Li J H, EAST vacuum group 2012 Phys. Procedia 32 235
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