Experiments were conducted to determine local heat transfer coefficients on the inside surfaces of a cylindrical cavity that is cooled by a swirling air flow. Temperature-sensitive liquid crystals were used as temperature sensors. Five blowing (cooling) modes were tested: three with swirl numbers of 0.36, 0.84, and 1.73; a fourth with no swirl (axial flow), and a fifth that was similar to the fourth but had the flow direction reversed. Flow visualization and static pressure measurements were performed to improve understanding of the situation. The smoke-wire technique was successfully used to picture the flow patterns. Plots of local Nusselt number along the cavity surfaces were obtained for the five blowing modes and for three different Reynolds numbers. The swirling cases had similar flow fields with higher heat transfer rates near the cavity top and lower rates near the cavity bottom (the opposite of the nonswirling cases). A tornadolike structure on the cavity bottom was observed in the swirling cases. This structure became stronger and more violent as the degree of swirl and the Reynolds number were increased. The Nusselt number curves for the two nonswirling cases were of similar shape, although the flow direction was reversed.
Skip Nav Destination
Article navigation
Research Papers
Investigation of the Effects of Flow Swirl on Heat Transfer Inside a Cylindrical Cavity
A. Salce,
A. Salce
Orval Kent de Linares, Linares, N.L. 67700 Mexico
Search for other works by this author on:
T. W. Simon
T. W. Simon
Mechanical Engineering Department, University of Minnesota, Minneapolis, MN 55455
Search for other works by this author on:
A. Salce
Orval Kent de Linares, Linares, N.L. 67700 Mexico
T. W. Simon
Mechanical Engineering Department, University of Minnesota, Minneapolis, MN 55455
J. Heat Transfer. May 1991, 113(2): 348-354 (7 pages)
Published Online: May 1, 1991
Article history
Received:
November 9, 1989
Revised:
October 19, 1990
Online:
May 23, 2008
Citation
Salce, A., and Simon, T. W. (May 1, 1991). "Investigation of the Effects of Flow Swirl on Heat Transfer Inside a Cylindrical Cavity." ASME. J. Heat Transfer. May 1991; 113(2): 348–354. https://doi.org/10.1115/1.2910568
Download citation file:
Get Email Alerts
Cited By
Entropic Analysis of the Maximum Output Power of Thermoradiative Cells
J. Heat Mass Transfer
Molecular Dynamics Simulations in Nanoscale Heat Transfer: A Mini Review
J. Heat Mass Transfer
Related Articles
Convective Heat Transfer to a Confined Impinging Array of Air Jets With Spent Air Exits
J. Heat Transfer (August,1994)
Local Convective Heat Transfer From a Heated Surface to a Planar Jet of Water With a Nonuniform Velocity Profile
J. Heat Transfer (November,1990)
Experimental Study of the Effect of Transverse Oscillation on Convection Heat Transfer From a Circular Cylinder
J. Heat Transfer (August,1997)
Heat Transfer and Flow Characteristics of an Oblique Turbulent Impinging Jet Within Confined Walls
J. Heat Transfer (May,1995)
Related Proceedings Papers
Related Chapters
Hydraulic Resistance
Heat Transfer & Hydraulic Resistance at Supercritical Pressures in Power Engineering Applications
Heat Transfer Enhancement by Using Nanofluids in Laminar Forced Convection Flows Considering Variable Properties
Proceedings of the 2010 International Conference on Mechanical, Industrial, and Manufacturing Technologies (MIMT 2010)
Hitting the Wall
Hot Air Rises and Heat Sinks: Everything You Know about Cooling Electronics Is Wrong