Direct numerical simulation of a separated turbulent boundary layer

Direct numerical simulation of two turbulent boundary layer flows has been performed. The boundary layers are both subject to a strong adverse pressure gradient. In one case a separation bubble is created while in the other the boundary layer is everywhere attached. The data from the simulations are...

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Published in	Journal of fluid mechanics Vol. 471; pp. 107 - 136
Main Authors	SKOTE, MARTIN, HENNINGSON, DAN S.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 25.11.2002
Subjects	adverse pressure-gradients asymptotic theory Boundary layer Boundary layer and shear turbulence Boundary layers bubble Exact sciences and technology flows Fluid dynamics Fluid mechanics Fundamental areas of phenomenology (including applications) mean-velocity mild Physics reynolds-number Simulation Turbulence Turbulent flows, convection, and heat transfer vicinity Boundary layer separation Turbulent flow Flow separation Digital simulation Separation bubble Velocity distribution Boundary layers Turbulence structure Pressure gradients
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Abstract	Direct numerical simulation of two turbulent boundary layer flows has been performed. The boundary layers are both subject to a strong adverse pressure gradient. In one case a separation bubble is created while in the other the boundary layer is everywhere attached. The data from the simulations are used to investigate scaling laws near the wall, a crucial concept in turbulence models. Theoretical work concerning the inner region in a boundary layer under an adverse pressure gradient is reviewed and extended to the case of separation. Excellent agreement between theory and data from the direct numerical simulation is found in the viscous sub-layer, while a qualitative agreement is obtained for the overlap region.
AbstractList	Direct numerical simulation of two turbulent boundary layer flows has been performed. The boundary layers are both subject to a strong adverse pressure gradient. In one case a separation bubble is created while in the other the boundary layer is everywhere attached. The data from the simulations are used to investigate scaling laws near the wall, a crucial concept in turbulence models. Theoretical work concerning the inner region in a boundary layer under an adverse pressure gradient is reviewed and extended to the case of separation. Excellent agreement between theory and data from the direct numerical simulation is found in the viscous sub-layer, while a qualitative agreement is obtained for the overlap region. [PUBLICATION ABSTRACT] Direct numerical simulation of two turbulent boundary layer flows has been performed. The boundary layers are both subject to a strong adverse pressure gradient. In one case a separation bubble is created while in the other the boundary layer is everywhere attached. The data from the simulations are used to investigate scaling laws near the wall, a crucial concept in turbulence models. Theoretical work concerning the inner region in a boundary layer under an adverse pressure gradient is reviewed and extended to the case of separation. Excellent agreement between theory and data from the direct numerical simulation is found in the viscous sub-layer, while a qualitative agreement is obtained for the overlap region. Direct numerical simulation of two turbulent boundary layer flows has been performed. The boundary layers are both subject to a strong adverse pressure gradient. In one case a separation bubble is created while in the other the boundary layer is everywhere attached. The data from the simulations are used to investigate scaling laws near the wall, a crucial concept in turbulence models. Theoretical work concerning the inner region in a boundary layer under an adverse pressure gradient is reviewed and extended to the case of separation. Excellent agreement between theory and data from the direct numerical simulation is found in the viscous sub-layer, while a qualitative agreement is obtained for the overlap region.
Author	SKOTE, MARTIN HENNINGSON, DAN S.
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SubjectTerms	adverse pressure-gradients asymptotic theory Boundary layer Boundary layer and shear turbulence Boundary layers bubble Exact sciences and technology flows Fluid dynamics Fluid mechanics Fundamental areas of phenomenology (including applications) mean-velocity mild Physics reynolds-number Simulation Turbulence Turbulent flows, convection, and heat transfer vicinity
Title	Direct numerical simulation of a separated turbulent boundary layer
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