"A Turbulence Model for the Heat Transfer Near Stagnation Point of a Circular Cylinder" by Mounir B. Ibrahim

Selected Works of Mounir B. Ibrahim

Article

A Turbulence Model for the Heat Transfer Near Stagnation Point of a Circular Cylinder

Applied Scientific Research

Mounir B. Ibrahim, Cleveland State University

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Document Type

Article

Publication Date

9-1-1987

Disciplines

Heat Transfer, Combustion

Abstract

A one-equation low-Reynolds number turbulence model has been applied successfully to the flow and heat transfer over a circular cylinder in turbulent cross flow. The turbulence length-scale was found to be equal 3.7y up to a distance 0.05δ and then constant equal to 0.185δ up to the edge of the boundary layer (wherey is the distance from the surface and δ is the boundary layer thickness).

The model predictions for heat transfer coefficient, skin friction factor, velocity and kinetic energy profiles were in good agreement with the data. The model was applied for Re ≤250,000 and Tu∞≤0.07.

DOI

10.1007/BF00751222

Version

Postprint

Publisher's Statement

The final publication is available at Springer via http://dx.doi.org/10.1007/BF00751222

Citation Information

Ibrahim, M., 1987, "A Turbulence Model for the Heat Transfer Near Stagnation Point of a Circular Cylinder," Applied Scientific Research, 44(3) pp. 287-302.