International Journal of Renewable Energy Research-IJRER

The hybrid (PV/T) solar water systems are commercially unviable because of its low concentration ratio, less combined PV/T efficiency, non-standardization of PV heat exchanger and long payback period. The simplest and cheap technique to increase PV/T efficiency is to boost solar radiation on surface of PV module. This can be done by attaching flat reflectors or concentrators to sides of commercial PV module. This paper provides design and performance analysis of commercial silicon based PV module with reflectors for Mumbai latitude (φ=19.12⁰). The flat reflectors made from anodized Aluminum sheet and attached to shorter sides of PV module at North-South direction. For different tilts of module and reflector orientations over a day, photovoltaic power, efficiency and highest working temperature of modified module are discussed and analyzed. The modified PV module at 25⁰ tilt and 24⁰ reflector orientation with vertical surface of module could able to generate PV power and efficiency of 161 W and 13.8% respectively. This results shows that modified module was produced 15% PV power more than one-sun concentration PV module. The modified module was attended maximum operating temperature of 66 ⁰C.

 

 

Journals

C.S. Sangani, C.S. Solanki, Experimental evaluation of V-trough (2 suns) PV concentrator system using commercial PV modules, Solar Energy Materials & Solar Cells 91 (2007) 453–459.

Lj. Kostic, T. Pavlovic and Z. Pavlovic- Influence of Physical Characteristics of Flat Aluminum Concentrators on Energy Efficiency of PV/Thermal Collector, Proceedings of the Tenth Annual Conference of the Materials Research Society of Serbia, September -2008, 115 (2009), No. 4.

Donald G. Burkhard, George L. Strobel, and Daryl R. Burkhard, Flat-sided rectilinear trough as a solar concentrator: an analytical study, APPLIED OPTICS / Vol. 17, No. 12 / 15 June 1978.

Y. Tripanagnostopoulos, M. Souliotis, R. Battisti and A. Corrado, Application aspects of hybrid PV/T solar systems, Physics Department, University of Patras, Patras 26500, Greece and Department of Mechanics and Aeronautics, University of Rome “La Sapienzaâ€, Rome 00184, Italy.

Y. Tripanagnostopoulos, Aspects for low concentration photovoltaic, Physics Department, University of Patras, Patra 26500, Greece.

Djilali J. Rizk, and M. H. Nagrial, Impact of Reflectors on Solar Energy Systems, International Journal of Electrical and Electronics Engineering 3:9 2009.

Books

C.S. Solanki, Solar Photovoltaic (Fundamentals, Technologies and Applications), Second Edition, PHI Learning Pvt. LTD. New Delhi, 2011.

S.P. Sukhatme and J. K. Nayak (2008), Solar Energy (Principles of Thermal collection and storage), Third Edition, Tata McGrew-Hill Publishing company Limited, New Delhi.

John A. Duffie and William A. Beckman, Solar Engineering of Thermal Processes, A Wiley-Inter science Publication, John Wiley & Sons , New York.