论文信息 - Radial displacement of pellet ablation material in tokamaks due to the grad-B effect

Radial displacement of pellet ablation material in tokamaks due to the grad-B effect

During pellet injection in tokamaks, a rapid movement of pellet ablation substance towards the low-field or outward major radius R direction is observed, favoring pellet injection from the high-field side in order to promote deeper fuel penetration. The motion has been attributed to a vertical curvature and ∇B drift current induced inside the ionized ablated material by the 1/R toroidal field variation. The uncompensated vertical drift current inside the weakly diamagnetic (β<0.1) ablation cloud will cause charge separation at the boundary. The resulting electrostatic field induces the E×B drift to the large-R side of the torus. The calculated fuel penetration depth is consistent with inside launched pellet experiments on the DIII-D tokamak [J. L. Luxon and L. G. Davis, Fusion Technol. 8, 441 (1985)]. The dependence of the penetration depth with plasma parameters suggests that low velocity inside launched pellets may provide a unique solution to the refueling problem in larger and hotter machines of the f...

[1] M. Rosenbluth,et al. Equilibrium pellet and liquid jet shape under high ablation pressures , 1998 .

[2] J. Baldzuhn,et al. Analysis of luminescence signals observed during pellet injection , 1992 .

[3] P. Parks. Theory of pellet cloud oscillation striations , 1996 .

[4] C. M. Greenfield,et al. Improved core fueling with high field side pellet injection in the DIII-D tokamak , 2000 .

[5] S. D. Drell,et al. Drag and propulsion of large satellites in the ionosphere: An Alfvén propulsion engine in space , 1965 .

[6] P. Parks. Electric field and current distribution near the ablation cloud of a pellet injected into a tokamak , 1992 .

[7] J. S. Leffler,et al. Analysis of low Za impurity pellet ablation for fusion diagnostic studies , 1988 .

[8] R. J. Turnbull,et al. Effect of transonic flow in the ablation cloud on the lifetime of a solid hydrogen pellet in a plasma , 1978 .

[9] J. Borovsky. Limits on the cross‐field propagation of streams of cold plasma , 1987 .

[10] N. Cardozo,et al. Fast backward drift of pellet ablatant in tokamak plasmas , 1999 .

[11] R. Burhenn,et al. On the fluctuation of line radiation emitted during aluminum micro-pellet ablation in magnetized plasmas , 1999 .

[12] H. R. Strauss,et al. Magnetohydrodynamic effects on pellet injection in tokamaks , 1998 .

[13] Peter Lang,et al. High-efficiency plasma refuelling by pellet injection from the magnetic high-field side into ASDEX upgrade , 1997 .