International Journal of Renewable Energy Research-IJRER

This study involves a performance  analysis between solar photovoltaic (SPV) operated vapour compression and vapour absorption refrigeration systems. For the purpose of comparison, two refrigerators working on different refrigeration cycles (compression and absorption) have been selected. The temperature and energy consumption of both units were recorded by using various parameters. The results show that though the vapour absorption refrigerator takes more time to decrease the temperature of the cabinet in comparison to the vapour compression refrigerator yet it consumes less power. The vapour absorption system is especially useful in rural areas having no or less frequent power supply where we want to preserve drugs and food items because it can maintain a constant low temperature between 6-10°C if delivered on the same temperature . The initial capital cost of the absorption refrigeration system is also less than compression system.

Photovoltaic Panel 1; Absorption refrigerator 2; Compression refrigerator 3; Battery 4; Inverter 5.

Enibe SO. Solar refrigeration for rural applications. J Renew Energy 1997; 12: 157-67.

Klevin SA, Reindl TA. Solar Refrigeration ASHRAE Journal Sep 2005 47.9 Proquest Science Journal pp S26-S30.

Kim DS, Ferreira CAI. Solar refrigeration Options- a state-of-the-review. Int J Refrigeration 2008;31:3-15

Etawil MA, Samuel DVK. Vapour compression cooling system powered by solar array for potato storage. AgrEngInt: CIGR E journal 2007:9.

T. A. Kattakayam, K Srinivasan “Photovoltaic Panel-Generator Based Autonomous Power Source for Small Refrigeration Unitsâ€Solar Energy Vol. 56. No.6 pp. 543-552.1996

T. A.Kattakayam, K Srinivasan “Thermal performance characterization of a photovoltaic driven domestic refrigerator†International Journal of Refrigeration Vol.23 pp 190-196. 2000

Thomachan A. Kattakayam, Srinivasan K “Lead acid batteries in solar refrigeration systems†Renewable Energy vol. 29, pp. 1243–1250.2004.

A. Cherif, A. Dhouib “Dynamic modeling and simulation of a photovoltaic refrigeration plant†Renewable Energy Vol.26 143–153 .2002

S. Kaplanis, N. Papanastasiou “The study and performance of a modified conventional refrigerator to serve as a PV powered one†Renewable Energy Vol. 31 (2006) 771–780

AnishModi,AnirbanChaudhuri,BhaveshVijay,JyotirmayMathur “ Performance Analysis of a Photovoltaic operated domestic refrigerator†Int. J of Applied Energy 86(2009) pp 2583-2591.

http://www.sundanzer.com

Michael K. Ewert et al. “Photovoltaic direct drive, battery free solar refrigerator field test resultsâ€

O.Ekren, A. Yilanci,E.Cetin,H.K.Ozturk 2011 “Experimental performance evaluation of a PV powered refrigeration system.†Electronics and Electrical Engineering No.8 (114) pp 7-10.