Unglazed Fiberglass Reinforced Polyester Solar Water Heater with Integrated Storage System
Publication: Journal of Energy Engineering
Volume 133, Issue 1
Abstract
Theoretical and experimental investigations on an unglazed solar hot water heater with integrated storage system were conducted. The system was comprised of a collector and storage tank which was integrated into one unit. All parts of the system have been fabricated from fiberglass reinforced polyester (GFRP). The absorber plate has water tubes of semielliptical shape. The width and length of the absorber plate were 1.4 and , respectively. The absorber plate was fabricated from GFPR using a special resin composition that provides good thermal conductivity and absorptivity. The storage tank has a capacity of . The storage tank is of sandwich construction with a core material made of polyurethane foam that combines stiffness and lightness of the structure with very good thermal insulation properties. An average tank temperature of was achieved at an average solar radiation level of and ambient temperature of . The thermal efficiencies of the system were evaluated at 48 and 57% for cloudy and clear days, respectively. Transient performance of the system was predicted by solving the mathematical models consisting of energy balance equations of the system that have been converted to finite difference form and solved by a personal computer. The experimental results were in close agreement as has been found with the theoretical predictions.
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References
American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE). (1980). “Methods of testing to determine the thermal performance of unglazed flat-plate liquid-type solar collectors.” Standard 96-1980, Atlanta.
Bar-Cohen, A., and Rohsenow, W. M. (1984). “Thermally optimum spacing of vertical, natural convection cooled, parallel plate.” J. Heat Transfer, 106, 116–123.
Chauhan, R. S., and Kadambi, V. (1976). “Performance of a collector-cum-storage type of solar water heater.” Sol. Energy, 18, 327.
Duffie, J. A., and Beckman, W. A. (1991). Solar engineering of thermal processes, 2nd Ed., Wiley, New York, 358–361.
Garg, H. P., and Rani, U. (1982). “Theoretical and experimental studies on collector/storage type solar water heater.” Sol. Energy, 29, 141–143.
Hamdan, M. A., and Jubran, B. A. (1992). “Some theoretical and experimental aspects of built-in solar storage.” Sol. Energy, 2(3), 299–303.
Kaptan, I. N., and Kilic, A. (1996). “A theoretical and experimental investigation of a novel built-in-storage solar water heater.” Sol. Energy, 57, 393–400.
Mohamad, A. (1997). “Integrated solar collector storage tank system with thermal diode.” Sol. Energy, 61, 211–218.
Mohsen, M. S. (2000). “Experimental optimization study on compact solar water heater.” Proc., World Renewable Energy Congress VI (WREC2000), Brighton, U.K., 1019–1022.
Sodha, M. S., Shukla, S. N., and Tiwari, G. N. (1984). “Thermal performance of built in storage water heaters in series.” Sol. Energy, 32, 291–297.
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© 2007 ASCE.
History
Received: Sep 7, 2005
Accepted: Sep 7, 2005
Published online: Mar 1, 2007
Published in print: Mar 2007
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