科技报告详细信息
The Dependence of H-mode Energy Confinement and Transport on Collisionality in NSTX
Kaye, S. M. ; Gerhardt, S. ; Guttenfelder, W. ; Maingi, R. ; Bell, R. E. ; Diallo, A. ; LeBlanc, B. P. ; Podesta, M.
关键词: H-mode;    Plasma Confinement;    Confinement;    Tokamaks;    NSTX;    Transport Coefficients;    Transport Phenomena;   
DOI  :  10.2172/1055787
RP-ID  :  PPPL-4833
PID  :  OSTI ID: 1055787
学科分类:原子、分子光学和等离子物理
美国|英语
来源: SciTech Connect
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【 摘 要 】

Understanding the dependence of confi nement on collisionality in tokamaks is important for the design of next-step devices, which will operate at collisionalities at least one order of magnitude lower than in present generation. A wide range of collisionality has been obtained in the National Spherical Torus Experiment (NSTX) by employing two different wall conditioning techniques, one with boronization and between-shot helium glow discharge conditioning (HeGDC+B), and one using lithium evaporation (Li EVAP). Previous studies of HeGDC+B plasmas indicated a strong and favorable dependence of normalized con nement on collisionality. Discharges with lithium conditioning discussed in the present study gen- erally achieved lower collisionality, extending the accessible range of collisionality by almost an order of unity. While the confinement dependences on dimensional, engineering variables of the HeGDC+B and Li EVAP datasets differed, collisionality was found to unify the trends, with the lower collisionality lithium conditioned discharges extending the trend of increasing normalized confi nement time with decreasing collisionality when other dimension less variables were held as fi xed as possible. This increase of confi nement with decreasing collisionality was driven by a large reduction in electron transport in the outer region of the plasma. This result is consistent with gyrokinetic calculations that show microtearing and Electron Temperature Gradient modes to be more stable for the lower collisionality discharges. Ion transport, near neoclassical at high collisionality, became more anomalous at lower collisionality, possibly due to the growth of hybrid TEM/KBM modes in the outer regions of the plasma.

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