Incompressible turbulent flow in a permeable- walled duct

EM SPARROW EM; VK JONSSON VK; GS BEAVERS GS; RG OWEN RG

Incompressible turbulent flow in a permeable- walled duct

EM SPARROW EM, VK JONSSON VK, GS BEAVERS GS, RG OWEN RG

Mechanical Engineering

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Abstract

An analysis is made of fully developed turbulent flow in a parallel- plate channel having one porous bounding wall. A velocity slip model is employed to characterize the boundary condition at the porous surface. The turbulent transport processes in the channel are represented via the Prandtl mixing length concept in conjunction with a modified form of the Van Driest damping factor. Numerical results are obtained for Reynolds numbers ranging from 5000 to 200,000 and for a wide range of values of a dimensionless slip grouping.

Original language	English (US)
Title of host publication	ASME Pap 71-WA/FE-1
State	Published - 1971
Event	Unknown conference - Duration: Nov 28 1971 → Dec 2 1971

Other

Other	Unknown conference
Period	11/28/71 → 12/2/71

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title = "Incompressible turbulent flow in a permeable- walled duct",

abstract = "An analysis is made of fully developed turbulent flow in a parallel- plate channel having one porous bounding wall. A velocity slip model is employed to characterize the boundary condition at the porous surface. The turbulent transport processes in the channel are represented via the Prandtl mixing length concept in conjunction with a modified form of the Van Driest damping factor. Numerical results are obtained for Reynolds numbers ranging from 5000 to 200,000 and for a wide range of values of a dimensionless slip grouping.",

author = "{SPARROW EM}, EM and {JONSSON VK}, VK and {BEAVERS GS}, GS and {OWEN RG}, RG",

year = "1971",

language = "English (US)",

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note = "Unknown conference ; Conference date: 28-11-1971 Through 02-12-1971",

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T1 - Incompressible turbulent flow in a permeable- walled duct

AU - SPARROW EM, EM

AU - JONSSON VK, VK

AU - BEAVERS GS, GS

AU - OWEN RG, RG

PY - 1971

Y1 - 1971

N2 - An analysis is made of fully developed turbulent flow in a parallel- plate channel having one porous bounding wall. A velocity slip model is employed to characterize the boundary condition at the porous surface. The turbulent transport processes in the channel are represented via the Prandtl mixing length concept in conjunction with a modified form of the Van Driest damping factor. Numerical results are obtained for Reynolds numbers ranging from 5000 to 200,000 and for a wide range of values of a dimensionless slip grouping.

AB - An analysis is made of fully developed turbulent flow in a parallel- plate channel having one porous bounding wall. A velocity slip model is employed to characterize the boundary condition at the porous surface. The turbulent transport processes in the channel are represented via the Prandtl mixing length concept in conjunction with a modified form of the Van Driest damping factor. Numerical results are obtained for Reynolds numbers ranging from 5000 to 200,000 and for a wide range of values of a dimensionless slip grouping.

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M3 - Chapter

BT - ASME Pap 71-WA/FE-1

T2 - Unknown conference

Y2 - 28 November 1971 through 2 December 1971

ER -

Incompressible turbulent flow in a permeable- walled duct

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