High resolution infrared observations made from a mobile ground based optical system captured the laminar-to-turbulent boundary layer transition process as it occurred during Space Shuttle Endeavour's return to earth following its final mission in 2011. The STS-134 imagery was part of a larger effort to demonstrate an emerging and reliable non-intrusive global thermal measurement capability and to complement a series of boundary layer transition flight experiments that were flown on the Shuttle. The STS-134 observations are believed to be the first time that the development and movement of a hypersonic boundary layer transition front has been witnessed in flight over the entire vehicle surface and in particular, at unprecedented spatial resolution. Additionally, benchmark surface temperature maps of the Orbiter lower surface collected over multiple flights and spanning a Mach range of 18 to 6 are now available and represent an opportunity for collaborative comparison with computational techniques focused on hypersonic transition and turbulence modeling. The synergy of the global temperature maps with the companion in-situ thermocouple measurements serve as an example of the effective leveraging of resources to achieve a common goal of advancing our understanding of the complex nature of high Mach number transition. It is shown that quantitative imaging can open the door to a multitude of national and international opportunities for partnership associated with flight-testing and subsequent validation of numerical simulation techniques. The quantitative imaging applications highlighted in this paper offer unique and complementary flight measurement alternatives and suggest collaborative instrumentation opportunities to advance the state of the art in transition prediction and maximize the return on investment in terms of developmental flight tests for future vehicle designs.


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    Title :

    Global Infrared Observations of Roughness Induced Transition on the Space Shuttle Orbiter


    Contributors:
    T. J. Horvath (author) / J. N. Zalameda (author) / W. A. Wood (author) / S. A. Berry (author) / R. J. Schwartz (author)

    Publication date :

    2012


    Size :

    22 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




    Global Infrared Observations of Roughness Induced Transition on the Space Shuttle Orbiter

    Horvath, Thomas J. / Zalameda, Joseph N. / Wood, William A. et al. | NTRS | 2012



    Shuttle Orbiter Experimental Boundary-Layer Transition Results with Isolated Roughness

    Scott A. Berry / Stanley A. Bouslog / Gregory J. Brauckmann et al. | AIAA | 1998



    Isolated Roughness Induced Boundary-Layer Transition: Shuttle Orbiter Ground Tests and Flight Experience

    Bouslog, Stanley A. / Bertin, John J. / Berry, Scott A. et al. | NTRS | 1997