The design, analysis, and optimization of airbreathing hypersonic vehicles requires analyses involving many highly coupled disciplines at levels of accuracy exceeding those traditionally considered in a conceptual or preliminary-level design. Discipline analysis methods including propulsion, structures, thermal management, geometry, aerodynamics, performance, synthesis, sizing, closure, and cost are discussed. Also, the on-going integration of these methods into a working environment, known as HOLIST, is described.
Airbreathing Hypersonic Vehicle Design and Analysis Methods
1996
11 pages
Report
Keine Angabe
Englisch
Rocket Engines & Motors , Aerodynamics , Space Technology , Air breathing boosters , Air breathing engines , Design analysis , Hypersonic vehicles , Propulsion system configurations , Structural analysis , Computational geometry , Costs , Propulsion system performance , Size determination , Temperature control , Thermodynamics
Airbreathing hypersonic vehicle design and analysis methods and interactions
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