Hypersonic International Flight Research Experimentation 5 (HIFiRE-5) is a hypersonic flight-test experiment designed to investigate the aerothermodynamics of a 3-D geometry. The vehicle is an elliptic cone with a 2:1 aspect ratio and 2.5 mm nose radius. The HIFiRE-5b achieved a Mach number of 7.7–7.9 and freestream unit Reynolds number of 5 10 6 / m to 50 10 6 / m during descent. Heat flux was calculated from thermocouple pairs and boundary-layer transition locations were identified from these heating rates. A multilobed transition front was observed; it is suspected that a different mechanism is responsible for each of these lobes. The vehicle’s attitude oscillated, which has been exploited to assess the sensitivity of heat flux to yaw angle along the leading edges and ascertain the appropriateness of the filtering applied to the thermocouple signals. Spatial heat-flux profiles have been constructed for constant freestream unit Reynolds numbers. The heat-flux rate at the end of transition is examined; turbulent overshoot was present along some azimuths, but not others. This flight-test result indicates the phenomenon is not specific to ground test, freestream noise level, or wall-to-stagnation-temperature ratio. Finally, transition length (its end location normalized by its onset location) is reported and connected to turbulent spot generation rates.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    HIFiRE-5b Boundary-Layer Transition Length and Turbulent Overshoot


    Contributors:

    Published in:

    Publication date :

    2021-03-01




    Type of media :

    Conference paper , Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




    HIFiRE-5b Boundary-Layer Transition Length and Turbulent Overshoot

    Juliano, Thomas J. / Jewell, Joseph S. / Kimmel, Roger L. | AIAA | 2019


    AIAA-2019-2970: HIFiRE-5b Boundary-Layer Transition Length and Turbulent Overshoot

    Juliano, Thomas J. / Jewell, Joseph S. / Kimmel, Roger L. | British Library Conference Proceedings | 2019


    HYPERSONIC TRANSITION: HIFIRE AND BOLT HIGH-FIDELITY SIMULATION OF HIFIRE-5 BOUNDARY-LAYER TRANSITION

    Tufts, Matthew W. / Borg, Matthew P. / Bisek, Nicholas J. et al. | TIBKAT | 2020


    HIFiRE-1 Ascent-Phase Boundary-Layer Transition

    Kimmel, Roger L | Online Contents | 2015


    HIFiRE-5b Boundary-Layer Transition --- With Attitude

    Juliano, Thomas J. / Jewell, Joseph S. / Kimmel, Roger L. | AIAA | 2018