Statistics – Computation
Scientific paper
Apr 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983dmhd.work....1t&link_type=abstract
In Nagoya Univ. Proc. of the US-Japan Workshop on 3-D MHD Simulation p 1-17 (SEE N83-35836 23-75)
Statistics
Computation
Coding, Magnetohydrodynamic Stability, Mathematical Models, Three Dimensional Flow, Tokamak Devices, Aspect Ratio, Data Bases, Linear Systems, Plasma Control, Reaction Kinetics, Spline Functions, Toroidal Plasmas
Scientific paper
With the steady progress of the Tokamak experiments and theoretical studies detailed comparison becomes possible between the experimental data and computational results. It is rather difficult to numerically analyze the Tokamak plasma with generality in the three dimensional space. The full set of the ideal/resistive MHD equations incorporated with various non-MHD effects cannot be solved owing to lack of computer power. Simplified models are used to simulate each realistic physics phenomenon. Accordingly, it is necessary to draw up the overall program of the analyses of the MHD phenomena for the comprehensive understandng of the Tokamak plasma. Combinations of linear/nonlinear and ideal/resistive models are, for example, required to understand even a single MHD phenomenon. In order to cope with the comprehensive theoretical understanding of the Tokamak plasma project TRITON which consists of development of a numerical code system TRITON and the analyses of the Tokamak plasma by using the code was executed.
Azumi M.
Kumagai Motohiro
Kurita G. I.
Naraoka K. I.
Takeda Takaaki
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