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Electrical and thermal performance enhancement of a photovoltaic thermal hybrid system with a novel inner plate-finned collective cooling with different nanofluids

Ahmet Aydın, İ̇smail Kayri, Hüseyin Aydın

2023International Journal of Green Energy32 citationsDOI

Abstract

In the present study, an experimental and mathematical analysis was performed in a novel nanofluid-based collective cooling consisting of inner-plate heat fins in order to explore a photovoltaic-thermal (PV/T) system efficiency for Al2O3, TiO2, and CuO-based nanofluids. The electrical efficiency increase, temperature decrease in the panel surface, thermal efficiency increase, and heat transfer performance of Al2O3-water, TiO2-water and CuO-water nanofluids which were prepared in three different ratios (0.2%, 0.4%, and 0.6%, in mass) and constant fluid flow rates were investigated. The highest electrical efficiency increase was observed in the 0.2% nanofluid Al2O3-water, at amount of 1.467% that correspond to 5.49% increase rate. The highest panel temperature drops were observed at the rate of 0.2% nanoparticles of Al2O3-water, TiO2-water, and CuO-water. The highest thermal efficiency was observed in the Al2O3-water nanofluid with 0.2% nanoparticles as the amount of 49.59% in average. For 0.2% nanofluid cooling, the averages of panel temperature drops were 13.28 ºC, 11.64 ºC, 11.06 ºC, and 9.14 ºC for TiO2-water, Al2O3-water, CuO-water nanofluid cooled panels, and water-cooled panel, respectively. Finally, appropriate amount of nanofluid cooling not exceeded 0.4% can be recommended in practical application for its benefits on improving the efficiency of system.

Topics & Concepts

NanofluidMaterials scienceNanofluids in solar collectorsWater coolingThermalThermal efficiencyPhotovoltaic systemHeat transferWorking fluidThermodynamicsComposite materialNanoparticleNanotechnologyChemistryPhotovoltaic thermal hybrid solar collectorElectrical engineeringPhysicsOrganic chemistryCombustionEngineeringSolar Thermal and Photovoltaic SystemsNanofluid Flow and Heat TransferHeat Transfer Mechanisms
Electrical and thermal performance enhancement of a photovoltaic thermal hybrid system with a novel inner plate-finned collective cooling with different nanofluids | Litcius