LAMINAR FLOW IN PLANE CHANNEL AND ANNULUS WITH ONE WALL POROUS.

Abstract

Laminar, steady flows of an incompressible viscous fluid between parallel plane walls one of which is porous, and between concentric circular cylinders with the outer one porous, are studied theoretically for the case of uniform wall flow (both suction and injection) and stationary walls. Similarity solutions of the equations of motion are obtained by numerical integration and also by a perturbation method and by an integral approximation. Deviation of the calculated axial velocity profile and pressure distribution from those corresponding to flow in impermeable ducts was produced more by fluid withdrawal than by injection of fluid through the porous wall. Also, the cross flow required to produce an adverse pressure gradient or an axial velocity profile with an inflection point or a vanishing wall slope, rose sharply as the radius ratio of annulus was increased so as to approximate the flat channel geometry. The numerical solutions for the channel include cases of reverse flow at the impermeable wall. The construction of an annular channel consisting of a stationary shaft and a porous pipe, to be used in the subsequent experimental portion of this work, is also described. (Author)

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1968

Accession Number

AD0682495

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