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TECHNICAL PAPERS: Heat and Mass Transfer

Simultaneous Heat and Mass Transfer in Film Absorption With the Presence of Non-Absorbable Gases

[+] Author and Article Information
Hamza M. Habib

College of Engineering, El-Menoufia University, Shebin El-Kom, Egypt

Byard D. Wood

Department of Mechanical Engineering, University of Nevada, Reno Reno, Nevada, USA

J. Heat Transfer 123(5), 984-989 (Dec 04, 2000) (6 pages) doi:10.1115/1.1370523 History: Received September 13, 1999; Revised December 04, 2000
Copyright © 2001 by ASME
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References

Nakoryakov,  V. E., and Grigor’eva,  N. I., 1977, “Combined Heat and Mass Transfer During Absorption in Drops and Films,” Inzh.fiz.zh., 32, pp. 399–405.
Nakoryakov,  V. E., and Grigor’eva,  N. I., 1977, “Exact Solution of Combined Heat and Mass Transfer Problem during Film Absorption,” Inzh.fiz.zh., 33, pp. 893–898.
Nakoryakov,  V. E., and Griger’eva,  N. I., 1980, “Combined Heat and Mass Transfer in Film Absorption,” Heat Transfer-Sov. Res., 72, pp. 108–117.
Yih,  S. M., and Seagrave  R. C., 1980, “Mass Transfer in Laminar Falling Liquid Films with Accompanying heat transfer and Interfacial Shear,” Int. J. Heat Mass Transf., 23, pp. 749–758.
Andberg, J. W., 1982, “Non-Isothermal Absorption of Gases into Falling Liquid Films,” M.S. thesis, University of Texas at Austin, Austin, TX.
Grossman,  G., 1983, “Simultaneous Heat and Mass Transfer in Absorption Under Laminar Flow,” Int. J. Heat Mass Transf., 26, pp. 357–371.
Nakoryakov,  V. E., and Griger’eva,  N. I., 1980, “Calculation of Heat and Mass Transfer in Non-Isothermal Absorption in the Entrance Region of Falling Film,” Teor. Osn. Khim. Tekhnol., 14, pp. 483–488.
Burdukov,  A. P., Bufetov,  N. S., Deriy,  N. P., Dorokhov,  A., and Kazakov,  V. I., 1980, “Experimental Study of the Absorption of Water Vapor by Thin Films of Aqueous Lithium Bromide,” Heat Transfer-Sov. Res., 12, pp. 118–123.
Yang, R., 1987, “Heat and Mass Transfer in Laminar Wavy Film Absorption with the Presence of Non-Absorbable Gases,” Ph.D. dissertation, Arizona State Univ., Tempe, AZ.
Ameel, T., 1992, “Heat and Mass Transfer in Laminar Wavy Film Absorption with the Presence of Low Concentration of Non-absorbable Gases,” Ph.D. dissertation, Arizona State Univ., Tempe, AZ.
Kwang, J. K., 1992, “Heat and Mass Transfer Enhancement in Absorption Cooling,” Ph.D. dissertation, Arizona State Univ., Tempe, AZ.
Jiang, Y., 1995, “Enhancement of Heat and Mass Transfer in Film Absorption and Desorption,” Ph.D. dissertation, University of Illinois at Chicago, Chicago, IL.
Nusselt,  W., 1916, “Die Oberflachen-Kondensation,” Zeitshrift Vereins Deutscher Ingenieur, 60, pp. 541–546.
Siebe, D. A., 1986, “Evaluation of Air-Conditioning Systems Utilizing Liquid Absorbents Regenerated by Solar Energy,” Ph.D. dissertation, Arizona State University, Tempe, AZ.
Lower, H., 1960, “Thermodynamische and Physikalische Eigenschaften der Wassrigen Lithiumbromid-Losung,” Ph.D. dissertation, Karlsuhe.
Uemura, T., 1967, “Studies on the Lithium Chloride-Water Absorption Refrigeration Machines,” Technology Reports of the Kansai Uni., 9 , pp. 71–88.
Patankar, S. V., 1980, Numerical Heat Transfer and Fluid Flow, Hemisphere Publishing Corporation, New York.
Habib, H., and Wood B., “Simultaneous Heat and Mass Transfer for a Falling Film Absorber; The two-Phase Flow Problem,” Proceedings of the 1990 ASME International Solar Energy Conference, Miami, Florida, USA.

Figures

Grahic Jump Location
Schematic of the physical situation
Grahic Jump Location
Comparison of the mass transfer rate at the interface as a function of the non-absorbable gas with previously reported data
Grahic Jump Location
Local distribution of the non-absorbable gas along the interface
Grahic Jump Location
Local distribution of the non-absorbable gas across the gas phase for various locations
Grahic Jump Location
Effect of the non-absorbable gas on the concentration profiles across the film
Grahic Jump Location
Effect of the non-absorbable gas on the temperature profiles across the film
Grahic Jump Location
Local distribution of the mass flux at the interface as function of the concentration of the non-absorbable gas
Grahic Jump Location
Average mass flux absorbed at the interface as function of the concentration of the non-absorbable gas
Grahic Jump Location
Comparison of the axial contact length on mass transfer rate

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