Title :
End-to-end modeling of electrothermal launchers
Author :
Thornhill, L. ; Batteh, Jad ; Scanlon, Jim ; Cook, Dave
Author_Institution :
Science Applications Int. Corp., Marietta, GA, USA
fDate :
1/1/1993 12:00:00 AM
Abstract :
The authors describe the development and illustrate the utility of end-to-end models of electrothermal launcher systems. The end-to-end model is composed of a component that models the power supply, a component that models the plasma injector, and a component that models the interior ballistics processes. Appropriate coupling conditions are applied at the interfaces between the component models in order to make the end-to-end model self-consistent. The component models are made modular so that models with varying degrees of complexity can be interchanged as needed for resolution. The authors illustrate the use of the end-to-end model to analyze experimental results using two different levels of interior ballistics models. First, they use a control volume model of the interior ballistics process to simulate a test firing. Then, they illustrate the resolution that can be achieved with a two-dimensional model of the interior ballistics
Keywords :
ballistics; electromagnetic launchers; plasma guns; plasma heating; control volume model; coupling conditions; electrothermal launchers; end-to-end models; interior ballistics processes; plasma injector; power supply; test firing; two-dimensional model; Analytical models; Circuits; Electrothermal launching; Magnetohydrodynamics; Plasma applications; Plasma measurements; Power supplies; Power system modeling; Pulsed power supplies; Testing;
Journal_Title :
Magnetics, IEEE Transactions on
