Performance Analysis of Four Conceptual Designs for the Air Based Photovoltaic / Thermal Collectors

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Karima Esmail Amori
Mustafa Adil Al-Damook

Abstract

The  thermal  and  electrical  performance  of  different  designs  of  air  based  hybrid photovoltaic/thermal collectors is investigated experimentally and theoretically. The circulating air is used to cool PV panels and to collect the absorbed energy to improve their performance. Four different collectors have been designed, manufactured and instrumented namely; double PV panels without cooling (model I), single duct double pass collector (model II), double duct single pass (model III), and single duct single pass (model IV) . Each collector consists of: channel duct, glass cover, axial fan to circulate air and two PV panel in parallel connection. The temperature of the upper and lower surfaces of PV panels, air temperature, air flow rate, air pressure drop, wind speed, solar radiation and ambient temperature were measured. The power produced by solar cells is measured also. A theoretical model has been developed for the collector model IV based on energy balance principle. The prediction of the thermal and hydraulic performance was obtained for the fourth model of PV/T collector by developing a Matlab computer program to solve the numerical model. The experimental results show that the combined efficiency of model III is higher than that of models II and IV. The pressure drop of model III is less than that of models I and IV, by (43.67% and 49%). The average percentage error between the theoretical and experimental results was 9.67%.

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How to Cite
“Performance Analysis of Four Conceptual Designs for the Air Based Photovoltaic / Thermal Collectors” (2014) Journal of Engineering, 20(06), pp. 28–45. doi:10.31026/j.eng.2014.06.03.
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How to Cite

“Performance Analysis of Four Conceptual Designs for the Air Based Photovoltaic / Thermal Collectors” (2014) Journal of Engineering, 20(06), pp. 28–45. doi:10.31026/j.eng.2014.06.03.

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References

- Alghareeb, A. A.,1992, The effect of thermal radiation and heat transfer area on the performance of a solar air heater, M.Sc. thesis, univ. of Basrah, Chemical Engineering.

- ASHRAE Applications Handbook, 1999. Chapter 32 by American Society of Heating, Solar Energy Use (ASHRAE). Atlanta, GA.

- Baa, Y. and Adam, N. 2008, Performance analysis for flat plate collector with and without porous media, Journal of Energy in Southern Africa, V.19, No 4.

- Chii, D. H., HoMing, Y., Tsung, C. C., 2011, Collector efficiency of upward-type double pass solar air heaters with fins attached, International Communications in Heat and Mass Transfer, V.38, pp. 49–56.

- Chow, T. T., Hand, J. W., Strachan, P. A., 2003, Building-integrated photovoltaic and thermal applications in a subtropical hotel building, Applied Thermal Engineering, V.23(16),pp.2035-2049.

- Duffie, J.A., Beckman, W. A., 1990, Solar Engineering of Thermal Processes , John Wiley & Sons, Inc.

- Francis, W., 2002, Heat transfer loss or gain) coefficients from bare flat plate solar heat collectors, The Zomeworks Program Office of the Double Play System: Summer Cooling and Winter Heating.

- Garg, H. P., Adhikari, R. S., 1997, Conventional hybrid Photovoltaic∕Thermal (PV/T) air heating collectors: steady-state simulation, Renewable Energy, V.11, No.3, PP.363-385.

- Hussam, H. J., 2011, Evaluation of a solar assisted desiccant cooling system for a small meeting hall, M.Sc thesis, university of Baghdad in Mechanical Engineering.

- Jin, L.G., Ibrahim, A., Chean, Y.K., Daghigh, R., Ruslan, H., Mat, S., Othman, M.Y., Sopian, K., 2010, Evaluation of Single-Pass Photovoltaic-Thermal Air Collector with Rectangle Tunnel Absorber, American Journal of Applied Sciences, V.7 (2), pp.277-282.

- Kern Jr. EC, Russell Mc., 1978, Combined Photovoltaic and Thermal Hybrid Collector System, Proceedings of 13th IEEE Photovoltaic Specialist pp.1153–7.

- Ma J., Sun, W., Ji J., Zhang, Y., Zhang, A., Fan, W., 2011, Experimental and theoretical study of the efficiency of a dual-function solar collector, App. Thermal Eng., V.31, pp.1751– 1756.

- Mustafa Adil AlDamook, 2011, Performance analysis of various conceptual design for the air based Photovoltaic/Thermal collectors, M.Sc. thesis, Univ. of Baghdad, Dept. of Mech. Eng.

- Otham, M. H., Yatim, B., Sopian, K., AbuBakar, M. N., 2005, Performance analysis of a double- pass photovoltaic/thermal (PV/T) solar Collector with CPC and Fins, Renewable Energy V.30,pp .2005-2017.

- Othman YM, Yatim B, Sopian K, AbuBakar M.N., 2007, Performance studies on a finned double-pass photovoltaic-thermal (PV/T) solar collector, Desalination V209, pp.43-49.

- Prashant, D., Thakur, N. S., Kumar, A., Singh,S., 2011, An analytical model to predict the thermal performance of a novel parallel flow packed bed solar air heater, Applied Energy,V.88 , pp. 2157- 2167.

- Raghuraman, P., 1981, Analytical predictions of liquid and air photovoltaic/Thermal flat plate collect performance, J. of solar energy eng., V. 103, Nov., PP. 291-298.

- Shahsavar, A., Ameri, M., 2010, Experimental investigation and modeling of a direct coupled PV/T air collector, Solar Energy, V.84, pp.1938-1958.

- Sopian, K., Liu, H. T., Kakac, S., Veziroglu, T. N., 2000, Performance of a double pass photovoltaic thermal solar collector suitable for solar drying systems, Energy Conversion and Management, V.41, pp.353-365.

- Sopian K., Alghoul M. A., Alfegi E. M., Sulaiman M. Y. and Musa E A., 2009, Evaluation of thermal efficiency of double-pass solar collector with porous–non porous media, Renewable Energy, V.34, pp.640–645.

- Sumeet, S., 2010, Mathematical modeling of solar air heater with different geometries, M.Sc.thesis, Thapar University, Patiala Mechanical Eng. Dept.

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