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Atering turbulence in compressible base flow using axisymmetric sub-boundary-layer disturbances
C. J. Bourdon,
J. C. Dutton
Aerospace Engineering
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Dive into the research topics of 'Atering turbulence in compressible base flow using axisymmetric sub-boundary-layer disturbances'. Together they form a unique fingerprint.
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Keyphrases
Boundary Layer
100%
Turbulence
100%
Baseflow
100%
Sub-boundary
100%
Ends-in-view
100%
Shear Layer
100%
Structure Size
66%
Axisymmetric Disturbances
66%
Unsteady Motion
66%
Centroid-based
66%
Near-wake Region
66%
Base Pressure
66%
Area-based
66%
Structure Visualization
33%
Rayleigh
33%
Lower Order
33%
Visualization Techniques
33%
Viewing Angle
33%
Pressure Rise
33%
Means-end
33%
Mie Scattering
33%
High Compressibility
33%
Large-scale Turbulent Structures
33%
Momentum Thickness
33%
Turbulent Energy
33%
Convective Mach number
33%
Turbulent Structure
33%
Instability Mode
33%
Engineering
Boundary Layer
100%
Axisymmetric
100%
Shear Layer
100%
Base Flow
100%
Structure Size
66%
Axisymmetric Disturbance
66%
Base Pressure
66%
Convective
33%
Pressure Increase
33%
Instability Mode
33%
Momentum Thickness
33%
Mach Number
33%