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Boost-Glide Vehicles for Long Range Transport

Published online by Cambridge University Press:  04 July 2016

D. M. Ashford*
Affiliation:
Advanced Projects Group, Hawker Siddeley Aviation Ltd

Summary

Boost-gliders offer the possibility of rapid long distance travel (e.g. England-Australia in 75 minutes) and boosters using similar technology offer the possibility of “everyday” travel between the earth and space stations. This paper uses simple parametric methods to assess conditions for boost-gliders to be commercially competitive and to discuss their evolution in relation to other boosters and advanced aircraft. It is concluded that booster-gliders using a similar state of the art to presently-projected aerospace transporters (i.e. winged, two-stage, hydrogen-fuelled vehicles) would be reasonably economical given cheap hydrogen fuel and a market large enough to support about 50 aircraft each making 5 antipodal flights per day. In addition, numerous problems would be involved in developing this type of vehicle to an acceptable level of design and operational familiarity but, at first sight, none of these appears to be insurmountable.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1965

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References

1.Sänger, E. and Bredt, J. A Rocket Drive for Long Range Bombers. Tech. Information Branch, Navy Department trans. CGD-32, 1944.Google Scholar
2.Lane, R. J. Recoverable Air-Breathing Boosters for Space Vehicles. Journal of the Royal Aeronautical Society, June 1962.CrossRefGoogle Scholar
3.Eggers, A. J. Jr, Allen, H. J. and Neice, S. E. A Comparative Analysis of the Performance of Long-Range Hypervelocity Vehicles. NACA TN 4046, October 1957.Google Scholar
4.Robertson, F. H. Note on an Improved Short-Cut Method for Estimating Aircraft Direct Operating Costs. Journal of the Royal Aeronautical Society, August 1957. (See also notes by same author in Journal of the Royal Aeronautical Society, November 1955 and January 1957.)Google Scholar
5.Bono, Philip. The Rombus Concept. Astronautics and Aeronautics, January 1964.Google Scholar
6.Ehricke, K. A. and D'vincent, F. The Nexus Concept. Astronautics and Aeronautics, January 1964.Google Scholar
7.Cornog, Robert. Economics of Rocket-Propelled Airplanes. Aero. Eng. Review, September 1956.Google Scholar
8.Root, M. W. and Fuller, G. M. The Astro Concept. Astronautics and Aeronautics, January 1964.Google Scholar
9.Syvertson, C. A. and Dennis, D. H. Trends in High-Speed Atmospheric Flight, NASA. AIAA Paper No. 64-514, July 1964.Google Scholar