论文信息 - Real time equilibrium reconstruction for tokamak discharge control

Real time equilibrium reconstruction for tokamak discharge control

A practical method for performing a tokamak equilibrium reconstruction in real time for arbitrary time varying discharge shapes and current profiles is described. An approximate solution to the Grad-Shafranov equilibrium relation is found which best fits the diagnostic measurements. Thus, a solution for the spatial distribution of poloidal flux and toroidal current density is available in real time that is consistent with plasma force balance, allowing accurate evaluation of parameters such as discharge shape and safety factor profile. The equilibrium solutions are produced at a rate sufficient for discharge control. This equilibrium reconstruction algorithm has been implemented on the digital plasma control system for the DIII-D tokamak. The first application of real time equilibrium reconstruction to discharge shape control is described.

[1] L. Lao,et al. Reconstruction of current profile parameters and plasma shapes in tokamaks , 1985 .

[3] F. Hofmann,et al. Plasma shape and position control in highly elongated tokamaks , 1990 .

[4] B. Braams,et al. Fast determination of plasma parameters through function parametrization , 1986 .

[5] Makoto Matsukawa,et al. Application of regression analysis to deriving measurement formulas for feedback control of plasma shape in JT-60 , 1992 .

[6] L. Lao,et al. Polarimetry of motional Stark effect and determination of current profiles in DIII-D (invited) , 1992 .

[7] J. L. Luxon,et al. Big Dee - A Flexible Facility Operating Near Breakeven Conditions , 1985 .

[8] J. Lister,et al. Fast non-linear extraction of plasma equilibrium parameters using a neural network mapping , 1991 .

[9] J. Ferron,et al. A high speed data acquisition and processing system for real time data analysis and control , 1992 .

[10] S. Horne,et al. Plasma Shape Control: A General Approach and Its Application to Alcator C-Mod , 1996 .

[11] F. Hofmann,et al. Fast identification of plasma boundary and X-points in elongated tokamaks , 1988 .

[12] J. Lingertat,et al. Local expansion method for fast plasma boundary identification in JET , 1993 .