Experimental investigation of a passive cooling system for photovoltaic modules efficiency improvement in hot and arid regions

Photovoltaic systems convert only a small amount of incident solar insolation into electrical energy while the rest is dissipated into heat. The increase in the PV cell temperature decreases significantly the electrical efficiency by about 0.5% for each 1 degrees C rise. Hence, it is necessary to keep the module temperature at low values to improve the efficiency and to minimize the thermal degradation effect. In this research paper, a passive cooling system was developed to mitigate the overheating of PV modules in order to enhance their performance. The developed cooling system is based on water evaporation and the capillary action of the burlap cloth that was attached directly to the rear surface of the module. Thermal and electrical characteristics of the modules (with and without cooling) were investigated experimentally under outdoor conditions during summer days of a hot climate region. Experimental results showed that a PV module temperature reduction of 20 degrees C (26%) was achieved with the help of the developed evaporative cooling system leading to an important increase of 14.75% in the electrical efficiency. The results also revealed the high effectiveness of the developed cooling system in the reduction and the maintaining of a uniform temperature distribution over the PV module throughout the day. Furthermore, this cooling system has many advantages such as being environment-friendly, low investment cost and low water consumption 0.39 L/h.

Automated summary

The research paper introduces a passive cooling system that effectively reduces the temperature of PV modules, resulting in a significant increase in electrical efficiency. The system, based on water evaporation and capillary action, demonstrates high effectiveness in maintaining uniform temperature distribution and has the advantages of being environmentally friendly, low-cost, and low water consumption.