3D fluid simulations of tokamak edge turbulence

机译：托卡马克边缘湍流的三维流体模拟

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3D simulations of drift resistive ballooning turbulence are presented. The turbulence is basically controlled by a parameter (alpha), the ratio of the drift wave frequency to the ideal ballooning growth rate. If this parameters is small ((alpha)(<=)1, corresponding to Ohmic or L-mode plasmas), the system is dominated by ballooning turbulence, which is strongly peaked at the outside of the torus. If it is large ((alpha)(>=)1, corresponding to H-mode plasmas) field line curvature plays a minor role. The turbulence is nonlinearly sustained even if curvature is removed and all modes are linearly stable due to magnetic shear. In the nonlinear regime without curvature the system obeys a different scaling law compared to the low (alpha) regime. The transport scaling is discussed in both regimes and the implications for OH-, L-mode and H-mode transport are discussed. (orig.)

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作者
Zeiler, A. ; Biskamp, D. ; Drake, J. F. ; Guzdar, P. N.;
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年度 1995
页码 1-28
总页数 28
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Tokamak Devices; Ballooning Instability; Drift Instability; Nonlinear Problems; Plasma Simulation; Turbulence;

机译：托卡马克装置;气球不稳定性;漂移不稳定性;非线性问题;等离子体模拟;湍流;

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1. Global 3D two-fluid simulations of the tokamak edge region: Turbulence, transport, profile evolution, and spontaneous E x B rotation (vol 24, 055903, 2017) [J] . Zhu Ben, Francisquez Manaure, Rogers Barrett N. Physics of plasmas . 2018,第6aPta2期

机译：Tokamak边缘区域的全球3D两种流体模拟：湍流，运输，轮廓演化和自发e x B旋转（第24卷，055903,2017）
2. Global 3D two-fluid simulations of the tokamak edge region: Turbulence, transport, profile evolution, and spontaneous E×B rotation [J] . Ben Zhu, Manaure Francisquez, Barrett N. Rogers Physics of plasmas . 2017,第5aPta2期

机译：Tokamak边缘区域的全球3D两种流体模拟：湍流，运输，轮廓演化和自发E×B旋转
3. TOKAM-3D: A 3D fluid code for transport and turbulence in the edge plasma of Tokamaks [J] . P. Tamain, Ph. Ghendrih, E. Tsitrone, Journal of Computational Physics . 2010,第2期

机译：TOKAM-3D：3D流体代码，用于在托卡马克的边缘等离子体中进行传输和湍流
4. Magnetic geometry and flow shear effects on tokamak edge turbulence simulations [C] . S.Konzett, D.Reiser, A.Kendl Conference on Plasma Physics . 2010

机译：磁性几何和流量剪切效果对Tokamak边缘湍流模拟
5. 3D two-fluid simulations of turbulence in LAPD. [D] . Fisher, Dustin M. 2016

机译：LAPD中湍流的3D两流体模拟。
6. Quantitative and Qualitative Comparison of 4D-DSA with 3D-DSA Using Computational Fluid Dynamics Simulations in Cerebral Aneurysms [O] . S. Lang, P. Hoelter, A.I. Birkhold, 2019

机译：使用计算流体动力学模拟在脑动脉瘤中的3D-DSA与3D-DSA的定量和定性比较
7. Global 3D two-fluid simulations of the tokamak edge region: Turbulence, transport, profile evolution, and spontaneous E × B rotation [O] . Ben Zhu, Manaure Francisquez, Barrett N. Rogers 2017

机译：Tokamak边缘区域的全球3D两种流体模拟：湍流，运输，轮廓演化和自发E×B旋转

3D fluid simulations of tokamak edge turbulence

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