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Hypersonic Stability and Breakdown Measurements on the AFRL/AFOSR BOLT II Flight Geometry

Heather E. Kostak-Teplicek, Rodney Bowersox

2024Journal of Spacecraft and Rockets10 citationsDOI

Abstract

The Air Force Research Laboratory/Air Force Office of Scientific Research (AFRL/AFOSR) introduced the Boundary Layer Turbulence (BOLT II) flight experiment to further the understanding and modeling of a hypersonic turbulent boundary layer on a geometry that features concave surfaces with swept leading edges. In support of the flight experiment, this paper identifies and documents the transition instabilities and quantifies the breakdown to turbulence on a 25%-scale BOLT II model in hypersonic flow. Experiments were conducted in the conventional Actively Controlled Expansion wind tunnel facility and the Mach 6 Quiet Tunnel located at the Texas A&M University National Aerothermochemistry and Hypersonics Laboratory. Global surface heating was viewed using infrared thermography with on-surface measurements made using high-frequency Kulite and PCB Piezotronics surface pressure transducers. Modal growth was observed among the sensors both upstream and downstream of the model. Off-surface measurements were made in the mixed-mode region utilizing constant-temperature hot-film anemometry in the Mach 6 Quiet Tunnel. Comparisons were made to the Direct Numerical Simulation (DNS) results from the University of Minnesota. Amplified content was observed between [Formula: see text] and 75 kHz in the root-mean-square voltage fluctuations of the hot-film measurements.

Topics & Concepts

Aerospace engineeringHypersonic flightHypersonic speedStability (learning theory)GeometryMaterials scienceAngle of attackEngineeringComputer scienceAerodynamicsMathematicsMachine learningComputational Fluid Dynamics and AerodynamicsGas Dynamics and Kinetic TheoryFluid Dynamics and Turbulent Flows
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