Generalized rapid-distortion theory on transversely sheared mean flows with physically realizable upstream boundary conditions: application to trailing-edge problem
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Publication:4594098
DOI10.1017/jfm.2017.350zbMath1374.76202OpenAlexW2615418154MaRDI QIDQ4594098
Stewart J. Leib, M. Z. Afsar, Marvin E. Goldstein
Publication date: 17 November 2017
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://strathprints.strath.ac.uk/60727/
Shear flows and turbulence (76F10) Hydro- and aero-acoustics (76Q05) Foundations of fluid mechanics (76A02)
Related Items
Analytical models of the wall-pressure spectrum under a turbulent boundary layer with adverse pressure gradient ⋮ Sound generation due to the interaction of turbulence with surfaces embedded in transversely sheared flow ⋮ Rapid distortion theory on transversely sheared mean flows of arbitrary cross-section
Cites Work
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- Non-homogeneous rapid distortion theory on transversely sheared mean flows
- Unsteady separation in vortex-induced boundary layers
- Small scale structure of homogeneous turbulent shear flow
- Turbulence generated by the interaction of entropy fluctuations with non-uniform mean flows
- On the viscous flow about the trailing edge of a rapidly oscillating plate
- The influence of jet flow on jet noise. Part 1. The noise of unheated jets
- Characteristics of the unsteady motion on transversely sheared mean flows
- Sound production in a moving stream
- Unsteady vortical and entropic distortions of potential flows round arbitrary obstacles
- Scattering and distortion of the unsteady motion on transversely sheared mean flows
- On identifying the true sources of aerodynamic sound
- A theory of turbulent flow round two-dimensional bluff bodies
- Small perturbation evolution in compressible Poiseuille flow: pressure–velocity interactions and obliqueness effects
- THE EFFECT OF RAPID DISTORTION OF A FLUID IN TURBULENT MOTION
- Homogeneous Turbulence Dynamics
