Turbulent separation in channel flow containing a curved wall is studied using a generalised form of Kolmogorov equation. The equation successfully accounts for inhomogeneous effects in both the physical and separation spaces. We investigate the scale-by-scale energy dynamics in turbulent separated flow induced by a curved wall. The scale and spatial fluxes are highly dependent on the shear layer dynamics and the recirculation bubble forming behind the lower curved wall. The intense energy produced in the shear layer is transferred to the recirculation region, sustaining the turbulent velocity fluctuations. The energy dynamics radically changes depending on the physical position inside the domain, resembling planar turbulent channel dynamics downstream.
Energy fluxes in turbulent separated flows / Mollicone, JEAN-PAUL; Battista, Francesco; Gualtieri, Paolo; Casciola, Carlo Massimo. - 759:1(2016). (Intervento presentato al convegno 27th IUPAP Conference on Computational Physics (CCP) tenutosi a Guwahati, INDIA).
Energy fluxes in turbulent separated flows
MOLLICONE, JEAN-PAUL;BATTISTA, FRANCESCO;GUALTIERI, Paolo;CASCIOLA, Carlo Massimo
2016
Abstract
Turbulent separation in channel flow containing a curved wall is studied using a generalised form of Kolmogorov equation. The equation successfully accounts for inhomogeneous effects in both the physical and separation spaces. We investigate the scale-by-scale energy dynamics in turbulent separated flow induced by a curved wall. The scale and spatial fluxes are highly dependent on the shear layer dynamics and the recirculation bubble forming behind the lower curved wall. The intense energy produced in the shear layer is transferred to the recirculation region, sustaining the turbulent velocity fluctuations. The energy dynamics radically changes depending on the physical position inside the domain, resembling planar turbulent channel dynamics downstream.| File | Dimensione | Formato | |
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Mollicone_energy-fluxes_2016.pdf
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Note: https://journals.aps.org/pre/abstract/10.1103/PhysRevE.93.032142
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