In the Task I portion of this NASA research grant, configuration development and experimental investigations have been conducted on a series of pneumatic high-lift and control surface devices applied to a generic High Speed Civil Transport (HSCT) model configuration to determine their potential for improved aerodynamic performance, plus stability and control of higher performance aircraft. These investigations were intended to optimize pneumatic lift and drag performance; provide adequate control and longitudinal stability; reduce separation flowfields at high angle of attack; increase takeoff/climbout lift-to-drag ratios; and reduce system complexity and weight. Experimental aerodynamic evaluations were performed on a semi-span HSCT generic model with improved fuselage fineness ratio and with interchangeable plain flaps, blown flaps, pneumatic Circulation Control Wing (CCW) high-lift configurations, plain and blown canards, a novel Circulation Control (CC) cylinder blown canard, and a clean cruise wing for reference. Conventional tail power was also investigated for longitudinal trim capability. Also evaluated was unsteady pulsed blowing of the wing high-lift system to determine if reduced pulsed mass flow rates and blowing requirements could be made to yield the same lift as that resulting from steady-state blowing. Depending on the pulsing frequency applied, reduced mass flow rates were indeed found able to provide lift augmentation at lesser blowing values than for the steady conditions. Significant improvements in the aerodynamic characteristics leading to improved performance and stability/control were identified, and the various components were compared to evaluate the pneumatic potential of each. Aerodynamic results were provided to the Georgia Tech Aerospace System Design Lab. to conduct the companion system analyses and feasibility study (Task 2) of theses concepts applied to an operational advanced HSCT aircraft. Results and conclusions from these experimental evaluations are presented herein, as are recommendations for further development and follow-on investigations. Also provided as an Appendix for reference are the basic results from the previous pneumatic HSCT investigations.


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    Titel :

    Additional Development and Systems Analyses of Pneumatic Technology for High Speed Civil Transport Aircraft


    Beteiligte:

    Erscheinungsdatum :

    1999-10-03


    Medientyp :

    Report


    Format :

    Keine Angabe


    Sprache :

    Englisch




    System Analyses of Pneumatic Technology for High Speed Civil Transport Aircraft

    Mavris, Dimitri N. / Tai, Jimmy C. / Kirby, Michelle M. et al. | NTRS | 1999


    System Analyses of Pneumatic Technology for High Speed Civil Transport Aircraft

    D. N. Mavris / J. C. Tai / M. M. Kirby et al. | NTIS | 1999


    Technology development for high-speed civil transport

    Wilhite, A.W. | Online Contents | 2000


    Technology development for high-speed civil transport

    Wilhite, A. W. / Shaw, R. J. / Royal Aeronautical Society | British Library Conference Proceedings | 2000


    Pneumatic Lift and Control Surface Technology Applied To High Speed Civil Transport Configurations

    Englar, R. J. / Niebur, C. S. / Gregory, S. D. et al. | British Library Conference Proceedings | 1997