Neoclassical Tearing Mode Analysis in Spherical Tokamak Burning Plasmas
スポンサーリンク
概要
- 論文の詳細を見る
For stabilization of neoclassical tearing mode (NTM), non-resonant helical field (NRHF) is investigated. The time variation of magnetic island is described by modified Rutherford equation. In this work, plasma parameter change due to NTM is analyzed using 1.5-dimensional transport code TOTAL. In ST plasma, magnetic island at 3/2 mode grows by bootstrap current and the central temperature decreases. If NRHF is added, the effect of bootstrap current decreases and NTM is stabilized.
- 電気学会の論文
- 2012-07-01
著者
-
Oishi Tetsutarou
Nagoya University
-
Arimoto Hideki
Nagoya University
-
YAMAZAKI Kozo
Nagoya University
-
SHOJI Tatsuo
Nagoya University
-
KURITA Daiki
Nagoya University
関連論文
- Transport Analysis of High-Z Impurities Including Sawtooth Effects in a Tokamak System
- Time-Dependent NBI-Heating Simulation of LHD Plasmas Using Toroidal Transport Analysis Linkage Code
- Internal Transport Barrier Formation and Pellet Injection Simulation in Helical and Tokamak Reactors
- Assessment of Spherical Tokamak Reactors Comparing with Other Fusion Power Plants
- Life Cycle Assessment for Energy Payback of Spherical Tokamak Reactors
- Integrated Analysis on the Current Profile and the Operational Scenario of D-^3He Spherical Tokamak Reactors
- Confinement Analysis of Spherical Tokamak-Stellarator Hybrid Configurations
- Low Aspect Ratio Plasma in Tokamak-Helical Hybrid Device TOKASTAR-2
- Neoclassical Tearing Mode Analysis in Spherical Tokamak Burning Plasmas
- Internal Transport Barrier Analysis Including Impurities in Tokamak and Helical Reactor Plasmas
- Simulation of the Fuel Isotope Effect on the Confinement Property in DT Fusion Reactors
- Construction and Plasma Initiation of the Tokamak-Helical Hybrid Device TOKASTAR-2
- Analysis of Internal Transport Barrier Formation in Tokamak Reactor Plasmas
- Critical Issues of Burning Plasma, Engineering, Economic and Environmental Assessments on Steady-State Fusion Reactors
- Comparative Study of Cost Models for Tokamak DEMO Fusion Reactors
- Economical and Life-Cycle Energy Assessment of Magnetic Fusion Power Reactors