Impact of pellet injection on extension of the operational region in LHD
Citations Over TimeTop 10% of 2001 papers
Abstract
Pellet injection has been used as a primary fuelling scheme in the Large Helical Device. With pellet injection, the operational region of NBI plasmas has been extended to higher densities while maintaining a favourable dependence of energy confinement on density, and several important values, such as plasma stored energy of 0.88 MJ, energy confinement time of 0.3 s, β of 2.4% at 1.3 T and density of 1.1 × 1020 m -3, have been achieved. These parameters cannot be attained by gas puffing. Ablation and the subsequent behaviour of the plasma have been investigated. The measured pellet penetration depth estimated on the basis of the duration of the Hα emission is shallower than the depth predicted from the simple neutral gas shielding (NGS) model. It can be explained by the NGS model with inclusion of the effect of fast ions on the ablation. Just after ablation, the redistribution of the ablated pellet mass was observed on a short timescale (∼400 ms). The redistribution causes shallow deposition and low fuelling efficiency.
Related Papers
- → Comment on “Arbitrary amplitude ion-acoustic supersolitons in negative ion plasmas with two-temperature superthermal electrons” [Phys. Plasmas 29, 092101 (2022)](2023)1 cited
- → Populations of excited levels of non-hydrogenic ions in non-thermal plasmas(1975)2 cited
- → Ion trapping in dusty plasmas(1993)
- RESEARCH ON SOLID PELLET ABLATION IN HIGH-TEMPRETURE PLASMA(1986)
- Ion trapping in dusty plasmas(1992)