Equilibrium of Plasma constrained by Myxines in a Galathea Magnetic Confinement System

The structure and magnetic field configuration of a non-Tokamak magnetic controlled fusion device-Galathea--is introduced. The force balance of plasma confined by myxines in a toroidal topology is semiquantitively analyzed and the computing formula of vertical magnetic field used to compensate the toroidal force is given, on a Galathea device "Trimyx", which has three myxines; A magnetohydrodynamic model is built for describing plasma confined by only one straight myxine, to solve the steady distribution of plasma pressure and explain the unavoidability phenomenon that plasma energy loss caused by contacting with myxines; Stationary and time-varying model are built and simulated by software COMSOL, to solve the separation of plasma and myxines, an effective separation method is given.