A detailed parametric study of airbreathing engine performance is carried out for the Lightcraft Technology Demonstrator (LTD), a 1.4‐m diameter, 120‐kg (dry mass) launch vehicle designed to become a microsatellite after reaching orbit. The LTD’s pulsed detonation engine employs repetitively ignited, laser‐supported detonation waves to develop thrust by expanding high pressure blast waves over an annular, interior shroud surface. This companion paper presents the analytical LTD airbreathing inlet and vehicle aerodynamics models used to predict basic engine performance and vehicle drag characteristics, including inlet total pressure recovery, captured air mass flow rate, ram drag, etc. — all projected vs. flight Mach number and altitude. The results of this parametric study suggest an optimum inlet air gap of 3‐cm for the 100‐cm diameter centerbody (external compression inlet), and that Mach 5.5 at 30‐km is a reasonable choice for transitioning into the rocket mode.
Analysis of Laser‐Generated Impulse In An Airbreathing Pulsed Detonation Engine: Part 2
BEAMED ENERGY PROPULSION: Third International Symposium on Beamed Energy Propulsion ; 2004 ; Troy, New York (USA)
AIP Conference Proceedings ; 766 , 1 ; 279-291
2005-04-27
13 pages
Conference paper
Electronic Resource
English
Analysis of Laser‐Generated Impulse In An Airbreathing Pulsed Detonation Engine: Part 1
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