1. Initial phase wall conditioning in KSTAR
- Author
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Sang-Joon Park, Yeong-Kook Oh, W.C. Kim, Hyun-Jong Woo, Sun Ho Kim, KunSu Lee, Kyung-Min Kim, S. J. Wang, Jaemin Park, Jong-Ho Sun, H.L. Yang, Sang-Hwa Lee, Jong-Su Kim, Jaeyong Kim, Hoon-Kyun Na, Kwang-Pyo Kim, Jong-Gu Kwak, Sung-Woo Kim, Dong Su Lee, Kaprai Park, Sang-Yong Lee, S.H. Hong, Kyu-Sun Chung, Eun-Kyung Park, and Hak-Kun Kim
- Subjects
Nuclear and High Energy Physics ,Glow discharge ,Outgassing ,Materials science ,Nuclear magnetic resonance ,DIII-D ,Impurity ,KSTAR ,Nuclear engineering ,Deposition (phase transition) ,Plasma ,Fusion power ,Condensed Matter Physics - Abstract
The initial phase wall conditioning in KSTAR is depicted. The KSTAR wall conditioning procedure consists of vessel baking, glow discharge cleaning (GDC), ICRH wall conditioning (ICWC) and boronization (Bz). Vessel baking is performed for the initial vacuum conditioning in order to remove various kinds of impurities including H2O, carbon and oxygen and for the plasma operation. The total outgassing rates after vessel baking in three successive KSTAR campaigns are compared. GDC is regularly performed as a standard wall cleaning procedure. Another cleaning technique is ICWC, which is useful for inter-shot wall conditioning under a strong magnetic field. In order to optimize the operation time and removal efficiency of ICWC, a parameter scan is performed. Bz is a standard technique to remove oxygen impurity from a vacuum vessel. KSTAR has used carborane powder which is a non-toxic boron-containing material. The KSTAR Bz has been successfully performed through two campaigns: water and oxygen levels in the vacuum vessel are reduced significantly. As a result, KSTAR has achieved its first L–H mode transition, although the input power was marginal for the L–H transition threshold. The characteristics of boron-containing thin films deposited for boronization are investigated.
- Published
- 2011
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