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TECHNICAL PAPERS: Heat and Mass Transfer

An Experimental Study on Heat/Mass Transfer From a Rectangular Cylinder

[+] Author and Article Information
Seong-Yeon Yoo, Jong-Hark Park

Department of Mechanical Design Engineering, Chungnam National University, Gungdong, Yusungku, Daejeon, 305-764, Korea

Chang-Hwan Chung, Moon-Ki Chung

Korea Atomic Energy Research Institute, Dukjindong, Yusungku, Daejeon, 305-353, Korea

J. Heat Transfer 125(6), 1163-1169 (Nov 19, 2003) (7 pages) doi:10.1115/1.1603780 History: Received August 22, 2002; Revised May 16, 2003; Online November 19, 2003
Copyright © 2003 by ASME
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References

Bearman,  P. W., and Trueman,  D. M., 1972, “An Investigation of the Flow Around Rectangular Cylinders,” Aeronaut. Q., 23, pp. 229–237.
Igarashi,  T., 1985, “Characteristics of the Flow Around Rectangular Cylinders (The Case of the Angle of Attack 0 deg),” Bull. JSME, 28, pp. 1690–1696.
Igarashi,  T., 1985, “Heat Transfer from a Square Prism to an Air Stream,” Int. J. Heat Mass Transfer, 28, pp. 175–181.
Igarashi,  T., 1986, “Local Heat Transfer from a Square Prism to an Air Stream,” Int. J. Heat Mass Transfer, 29, pp. 774–784.
Igarashi,  T., 1987, “Fluid Flow and Heat Transfer Around Rectangular Cylinders (The Case of Width/height Ratio of a Section of 0.33–1.5),” Int. J. Heat Mass Transfer, 30, pp. 893–901.
Ota,  T., and Kon,  N., 1979, “Heat Transfer in the Separated and Reattached Flow Over Blunt Flat Plates-Effects of Nose Shape,” Int. J. Heat Mass Transfer, 22, pp. 197–206.
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Yoo,  S. Y., Goldstein,  R. J., and Chung,  M. K., 1993, “Effect of Angle of Attack on Mass Transfer from a Square Cylinder and its Base Plate,” Int. J. Heat Mass Transfer, 36, pp. 371–381.
Ambrose,  D., Lawrenson,  I. J., and Sparke,  C. H., 1975, “The Vapor Pressure of Naphthalene,” J. Chem. Thermodyn., 7, pp. 1173–1176.
Cho, K., 1989, “Measurement of the Diffusion Coefficient of Naphthalene into Air,” Ph.D. thesis, Department of Mechanical Engineering, State University of New York.
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Goldstein,  R. J., and Cho,  H. H., 1995, “A Review of Mass Transfer Measurements Using Naphthalene Sublimation,” Exp. Therm. Fluid Sci., 10, pp. 416–413.
Ota,  T., and Nishiyama,  H., 1987, “A Correlation of Maximum Turbulent Heat Transfer Coefficient in Reattachment Flow Region,” Int. J. Heat Mass Transfer, 30, pp. 1237–1246.
Nakaguchi,  H., Hashimoto,  K., and Muto,  S., 1968, “An Experimental Study on Aerodynamic Drag of Rectangular Cylinder,” J. Japan Soc. Aeronaut. Space Sci., 16, pp. 1–5.
Zukauskas, A., and Ziugzda, J., 1985, Heat Transfer of a Cylinder in Crossflow, Hemisphere Publishing Co.

Figures

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Geometries of rectangular cylinder
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Distribution of local Sherwood numbers on the rectangular cylinders: (a)c/d=0.33; (b)c/d=0.67; (c)c/d=1.0; (d) c/d=1.33; and (e) c/d=1.5
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Sketch of assumed flow structure around a rectangular cylinder
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Variation of average Sherwood number with Reynolds number: (a) front face; (b) side face; and (c) rear face
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Comparison of average Sherwood number on each face at U=16 m/s
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Comparison of local mass transfer data with those of heat transfer: (a) c/d=0.33; (b) c/d=0.67; and (c) c/d=1.33
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Comparison of average mass transfer data with those of heat transfer: (a) front face; (b) side face; and (c) rear face

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