A magnetic measurement system consisting of magnetic probes and flux loops for spherical tokamak SUNIST, is uniquely designed due to the strongly shaped plasma cross section and the narrow space near the central solen...A magnetic measurement system consisting of magnetic probes and flux loops for spherical tokamak SUNIST, is uniquely designed due to the strongly shaped plasma cross section and the narrow space near the central solenoid. Plasma equilibrium reconstruction with the current filament method is performed to determine the number and positions of the magnetic probes and flux loops, as well as their design precision required.展开更多
Control of the vertical instability of the plasma in the SUNIST spherical tokamak is studied. A proportional-derivative (PD) position controller is employed in a control system which consists of a massless plasma, a...Control of the vertical instability of the plasma in the SUNIST spherical tokamak is studied. A proportional-derivative (PD) position controller is employed in a control system which consists of a massless plasma, active coils and a passive conducting vessel. Stability conditions axe determined and the feedback control with different combinations of both active and passive coils, available on SUNIST, is emphasized. The simulation results are also discussed.展开更多
基金National Science Foundation of China(No.10535020)the Foundation for the Authors of National Excellent Doctoral Dissertation of China(No.200456)
文摘A magnetic measurement system consisting of magnetic probes and flux loops for spherical tokamak SUNIST, is uniquely designed due to the strongly shaped plasma cross section and the narrow space near the central solenoid. Plasma equilibrium reconstruction with the current filament method is performed to determine the number and positions of the magnetic probes and flux loops, as well as their design precision required.
基金supported by National Natural Science Foundation of China (No.10535020)the Foundation for Authors of National Excellent Doctoral Dissertations of China (No.200456)
文摘Control of the vertical instability of the plasma in the SUNIST spherical tokamak is studied. A proportional-derivative (PD) position controller is employed in a control system which consists of a massless plasma, active coils and a passive conducting vessel. Stability conditions axe determined and the feedback control with different combinations of both active and passive coils, available on SUNIST, is emphasized. The simulation results are also discussed.
