A New Method Supports To Cool Solar Panels

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Scientists from Benha University Egypt have projected an active cooling method for PV panels built on the use of water and a blend of aluminum oxide (Al2O3) and phase change material calcium chloride hex hydrate (CaCl2H12O6). Phase change materials (PCMs) – mixtures which can save thermal energy and support stabilize temperature – can engross or release huge amounts of ‘latent’ heat when they undergo a variation in their physical state, such as throughout melting and freezing process.

The Benha research team applied various mixtures of their active coolants to a 50 W polycrystalline PV panel and compared performance during summer months in Cairo with that of an untreated panel.

The system involved the use of cooling unit, DC pump, valves, water flow meter and connecting pipes. Aluminum channels were fabricated for the water and the Al2O3/PCM mixture. The channels were placed under the two panels, which were south adjusted and oriented 30 degrees from horizontal.

Technique

The PCM mixture was heated to melting point to form a liquid and Al2O3 nanoparticles were added to it in the aluminum channels. “The dispersion of particles in the PCM liquid is done using an agitator bath with four different mass concentrations,” the group stated.

The researchers recorded PV current and voltage, front and rear panel surface temperatures, water inlet and outlet temperatures, solar irradiation, ambient air-dry bulb temperature and wind speed.

“Applying the cooling system, whether using water and/or [the] Al2O3/PCM mixture provides a noticeable drop in cell temperature compared with the uncooled [panel],” said the Egyptian team.

The researchers said a mixture of water and the Al2O3/PCM liquid outperformed the use of water alone and the best performance was recorded from 75% water and 25% Al2O3/PCM.

Water use

Although use of the Al2O3/PCM mixture alone did not produce the best results, removing the need for water for coolant purposes might be the optimal solution for solar installations, the researchers suggested.

A similar technique, using CaCl2.6H2O–Fe3Cl2.6H2O eutectic as a phase change material, was recently proposed by scientists from India’s KPR Institute of Engineering and Technology and the National Engineering College.

This copy was amended on 08/05/20 to indicate the panel to which the coolant mixtures were applied had a 50 W power rating, not 50 kW, as previously reportedThe copy was also changed on 08/05 and 11/05 to indicate the cooling method used was an active technique, not a passive one as previously reported.

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