Title :
On the optimum cruise speed of a hypersonic aircraft
Author :
Koelle, Dietrich E.
Author_Institution :
MBB Space Commun. & Propulsion Syst. Div., Munich, West Germany
fDate :
5/1/1989 12:00:00 AM
Abstract :
Some preliminary results that have been obtained in the frame of the SANGER system studies are presented. SANGER is a West German study project and technology reference system for a future advanced space transportation system. The first stage of this vehicle is a hypersonic aircraft from which a passenger version could be derived. The analyses indicate that a speed of Mach 4.4 will lead to maximum seat mileage per day as well as to minimum propellant consumption. The speed-related cruise altitude of 24500 m or 80000 ft is above the most sensitive ozone layer and high enough to produce only one-third of the noise ground pressure which is considered as the acceptable limit (1 lb/ft/sup 2/) over populated areas. The aircraft surface temperatures at these conditions can still be managed by a conventional titanium alloy structure with special provisions only at the leading edge and the engine inlets. The potential route structure and economics of such an aircraft are discussed.<>
Keywords :
acoustic noise; aircraft; economics; 24500 m; Mach 4.4; SANGER system; West German study project; advanced space transportation system; economics; hypersonic aircraft; maximum seat mileage; minimum propellant consumption; optimum cruise speed; route structure; surface temperatures; Aircraft propulsion; Engines; Environmental economics; Environmental factors; Fuel economy; Land surface temperature; Space technology; Temperature distribution; Transportation; Vehicles;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
