Current design philosophy for scramjet-powered hypersonic aircraft results in configurations with the entire lower fuselage surface utilized as part of the propulsion system. The lower aft-end of the vehicle acts as a high expansion ratio nozzle. Not only must the external nozzle be designed to extract the maximum possible thrust force from the high energy flow at the combustor exit, but the forces produced by the nozzle must be aligned such that they do not unduly affect aerodynamic balance. The strong coupling between the propulsion system and aerodynamics of the aircraft makes imperative at least a partial simulation of the inlet, exhaust, and external flows of the hydrogen-burning scramjet in conventional facilities for both nozzle formulation and aerodynamic-force data acquisition. Aerodynamic testing methods offer no contemporary approach for such vehicle design requirements. NASA-Langley has pursued an extensive scramjet/airframe integration R&D program for several years and has recently developed a promising technique for simulation of the scramjet exhaust flow for hypersonic aircraft. Current results of the research program to develop a scramjet flow simulation technique through the use of substitute gas blends are described in this paper.


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    Title :

    Scramjet exhaust simulation technique for hypersonic aircraft nozzle design and aerodynamic tests


    Contributors:

    Conference:

    Aerospace Sciences Meeting ; 1977 ; Los Angeles, CA


    Publication date :

    1977-01-01


    Type of media :

    Conference paper


    Type of material :

    No indication


    Language :

    English


    Keywords :



    Simulation of Hypersonic Scramjet Exhaust

    R. A. Oman / K. M. Foreman / J. Leng et al. | NTIS | 1975


    Simulation of hypersonic scramjet exhaust

    Oman, R. A. / Foreman, K. M. / Leng, J. et al. | NTRS | 1975