Development of Convective Heat Transfer Near Suddenly Heated, Vertically Aligned Horizontal Wires

[+] Author and Article Information
J. R. Parsons, M. L. Arey

Department of Mechanical and Aerospace Engineering, University of Tennessee, Knoxville, TN 37996-2210

J. Heat Transfer 109(4), 912-918 (Nov 01, 1987) (7 pages) doi:10.1115/1.3248203 History: Received May 03, 1985; Online October 20, 2009


Experiments have been performed which describe the transient development of natural convective flow from both a single and two vertically aligned horizontal cylindrical heat sources. The temperature of the wire heat sources was monitored with a resistance bridge arrangement while the development of the flow field was observed optically with a Mach–Zehnder interferometer. Results for the single wire show that after an initial regime where the wire temperature follows pure conductive response to a motionless fluid, two types of fluid motion will begin. The first is characterized as a local buoyancy, wherein the heated fluid adjacent to the wire begins to rise. The second is the onset of global convective motion, this being governed by the thermal stability of the fluid layer immediately above the cylinder. The interaction of these two motions is dependent on the heating rate and relative heat capacities of the cylinder and fluid, and governs whether the temperature response will exceed the steady value during the transient (overshoot). The two heat source experiments show that the merging of the two developing temperature fields is hydrodynamically stabilizing and thermally insulating. For small spacing-to-diameter ratios, the development of convective motion is delayed and the heat transfer coefficients degraded by the proximity of another heat source. For larger spacings, the transient behavior approaches that of a single isolated cylinder.

Copyright © 1987 by ASME
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