Title :
Plasma-fluid interaction and arc resistance in electrothermal launchers
Author :
Darée, K. ; Hensel, D. ; Zimmermann, K.
Author_Institution :
French-German Res. Inst., Saint-Louis, France
fDate :
1/1/1997 12:00:00 AM
Abstract :
The comparison of numerical simulations with real electrothermal shots has provided new insight into the plasma-fluid and plasma-wall interaction processes. Strong indications are given for the following effects: in addition to wall ablation by radiation, there is a nearly time-independent ablation rate, which may be attributed to direct heat transfer. In the presence of liquid inside the discharge tube, an enhanced mass flow into the plasma is hypothesized and attributed to a deformation and hence an enlargement of the area of interface between vapour and plasma. No indications are found for a significant turbulent mixing of plasma and vapour; vapour accumulating near the breech has no beneficial effect on projectile acceleration
Keywords :
arcs (electric); ballistics; electrothermal launchers; heat transfer; kinematics; plasma applications; plasma boundary layers; plasma collision processes; plasma simulation; plasma-wall interactions; arc resistance; deformation; direct heat transfer; discharge tube; electrothermal launchers; mass flow; numerical simulations; plasma-fluid interaction; plasma-wall interaction; projectile acceleration; time-independent ablation rate; wall ablation; Electrical resistance measurement; Electron tubes; Electrothermal launching; Plasma accelerators; Plasma devices; Plasma measurements; Plasma simulation; Plasma temperature; Projectiles; Propulsion;
Journal_Title :
Magnetics, IEEE Transactions on
