Zero-dimensional analysis of burn control with compression-decompression.
スポンサーリンク
概要
- 論文の詳細を見る
A simple but realistic method of active feedback control of a self-ignited tokamak reactor by major radius compression-decompression is presented, in which the thermal fusion output power and the ion temperature are envisaged as the variables that could be adopted as object of control. Error inherent in the measuring system for the controlled variable is taken into account in the analysis. Numerical calculations based on a point reactor model are performed, which indicate that the proposed method of control is capable of completely suppressing thermal runaway without involving any significant change in the major radius or in the fusion output power. Matching the reactor output to changes in load is shown also to be possible from a numerical example. The thermal stability of an igniting plasma governed by this feedback control is analyzed without prescribing any particular transport scaling. It is revealed that the control is achievable for a suitably chosen gain even with a response time lag longer than the thermal runaway time. Strong dependence of the stability on the scaling law is indicated.
- 一般社団法人 日本原子力学会の論文
著者
-
Ohnishi Masami
Institute Of Atomic Energy Kyoto University
-
Okamoto Masao
Institute Of Plasma Physics Nagoya University
-
OKAMOTO Masao
Institute of Atomic Energy, Kyoto University
関連論文
- Compression-Decompression Control of Burning Fusion Plasma to Suppress Thermal Instability
- Physical Interpretation of Current Start-Up by rf in WT-2 Tokamak
- Transport Code Study of Electron Cyclotron Heating in Tokamaks
- ADVANCED FUELS IN A FIELD-REVERSED CONFIGURATION
- Electron Thermal Diffusivity in JFT-2 Tokamak with NBI Heating
- A Monte-Carlo Simulation for Neutral Beam Probing of Plasma Current Profile
- D-^3He FUELS IN A FIELD-REVERSED CONFIGURATION
- Neoclassical MHD Equilibria with Ohmic Current
- Boosting Up of Neutral Beam Heating Power by Slowly Rising Toroidal Field
- Numerical Simulation of Density Evolution in JIPP T-2 Tokamak
- Numerical Analysis of Sawtooth Oscillation in Low-q DIVA Experiment
- Simulation of Adiabatic Compression Plasma
- Effects of Impurities and Neutrals on Setting-Up Phase of Reversed Field Pinch
- Numerical Simulation of Lower Hybrid Wave Propagation in a Plasma
- Numerical Study of LHRF-Heating in a Tokamak
- Numerical Calculation on a Mechanism of Current Sustainment during LHCD
- Collisional Relaxation of Electron Tail Distribution
- The Oscillatation of the Trapped Flux in the Early Phase of a Reversed Field θ-Pinch
- Bootstrap Currents in Toroidal Systems
- Zero-dimensional analysis of burn control with compression-decompression.
- Effect of particle recycling on burn control by compression-decompression.
- Limitation of burn time due to ash accumulation in a moving ring reactor.