International Journal of Environment and Sustainability, 2016, 5(1): 54-60                      59

Figure 5: Isotherms profile of ellipse absorber       Figure 7: Streamlined profile of ellipse
               design with PV module                                absorber design

 Figure 6: Isotherms profile of ellipse absorber      5. Conclusion
                          design
                                                      Solar cells generate large amounts of electricity
References                                            when large amounts of solar irradiance are
                                                      received. However, the efficiency drops when
Al-Shamani, A. N., Mat, S., Ruslan, M., Abed, A. M.   the temperature of solar cells increases. Hybrid
   and Sopian, K. (2015), "Numerical Study on         PV/T collectors can solve this problem. The PV/T
   the Characteristics of a Specially Designed        collector with a new ellipse absorber design
   Rectangular Tube Absorber Photovoltaic             exhibited effective performance in cooling as
   Thermal Collector (PVT)", Wseas Trans-             well as high electrical and thermal efficiency. The
   actions On Environment And Development,Vol.        PV and thermal production of a PV/T hybrid
   11, pp. 23-28                                      system increased with decreasing temperature
                                                      of the environment. At a mass flow rate of
Al-Shamani, A. N., Yazdi, M. H., Alghoul, M., Abed,   0.068 kg/s, electrical PV efficiency of 13.78%
   A. M., Ruslan, M., Mat, S. and Sopian, K. (2014),  and PV/T efficiency of 74.3% was achieved.
   "Nanofluids for improved efficiency in cooling
   solar collectors–A review", Renewable and          Chow, T. (2003), "Performance analysis of pho-
   Sustainable Energy Reviews,Vol. 38, pp. 348-          tovoltaic-thermal collector by explicit dy-
   367                                                   namic model", Solar Energy,Vol. 75 No.2, pp.
                                                         143-152
Bergene, T. and Løvvik, O. M. (1995), "Model
   calculations on a flat-plate solar heat collector  Coventry, J. S. (2005), "Performance of a concen-
   with integrated solar cells", Solar energy,Vol.       trating photovoltaic/thermal solar collector",
   55 No.6, pp. 453-462                                  Solar energy,Vol. 78 No.2, pp. 211-222

                                                      Cox, C. and Raghuraman, P. (1985), "Design con-
                                                         siderations for flat-plate-photovoltaic/ ther-
                                                         mal collectors", Solar energy,Vol. 35 No.3, pp.
                                                         227-241

                                                      Duffie, J. A. and Beckman, W. A. (1991), "Solar
                                                         engineering of thermal processes", Wiley and
                                                         Sons, New York, pg,Vol. 216, pp. 230

                                                      Eiamsa-ard, S. and Promvonge, P. (2008), "Nu-
                                                         merical study on heat transfer of turbulent

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