论文信息 - Enhancing the performance of photovoltaic panels by water cooling

Enhancing the performance of photovoltaic panels by water cooling

Abstract The objective of the research is to minimize the amount of water and electrical energy needed for cooling of the solar panels, especially in hot arid regions, e.g., desert areas in Egypt. A cooling system has been developed based on water spraying of PV panels. A mathematical model has been used to determine when to start cooling of the PV panels as the temperature of the panels reaches the maximum allowable temperature (MAT). A cooling model has been developed to determine how long it takes to cool down the PV panels to its normal operating temperature, i.e., 35 °C, based on the proposed cooling system. Both models, the heating rate model and the cooling rate model, are validated experimentally. Based on the heating and cooling rate models, it is found that the PV panels yield the highest output energy if cooling of the panels starts when the temperature of the PV panels reaches a maximum allowable temperature (MAT) of 45 °C. The MAT is a compromise temperature between the output energy from the PV panels and the energy needed for cooling.

[1] Aliakbar Akbarzadeh,et al. Heat pipe-based cooling systems for photovoltaic cells under concentrated solar radiation , 1996 .

[2] Víctor Manuel Fernandes Mendes,et al. Simulation of a Solar Cell considering Single-Diode Equivalent Circuit Model , 2011 .

[3] Yiannis Tripanagnostopoulos,et al. Improved PV/T solar collectors with heat extraction by forced or natural air circulation , 2007 .

[4] J. L. Balenzategui,et al. Estimation of photovoltaic module yearly temperature and performance based on Nominal Operation Cell Temperature calculations , 2004 .

[5] Emmanuel Kymakis,et al. Performance analysis of a grid connected photovoltaic park on the island of Crete , 2009 .

[6] M. E. Ropp,et al. Comparative study of maximum power point tracking algorithms , 2003 .

[7] A. Q. Malik,et al. Outdoor testing of single crystal silicon solar cells , 2003 .

[8] M. S. El-Shobokshy,et al. Effect of dust with different physical properties on the performance of photovoltaic cells , 1993 .

[9] Y. Çengel,et al. Thermodynamics : An Engineering Approach , 1989 .

[10] Yaohua Zhao,et al. Experimental Investigation of Solar Panel Cooling by a Novel Micro Heat Pipe Array , 2010 .

[11] Swapnil Dubey,et al. Thermal modeling of a combined system of photovoltaic thermal (PV/T) solar water heater , 2008 .