Experimental Studies on Water‐Based Al₂O₃ Nanofluid to Enhance the Performance of the Hybrid Collector

Abstract: Many research and significant worldwide efforts have been made to combat climate change. The purpose of this research was to maximize the productivity of a flat-plate hybrid collector with two kinds of cooling medium, namely water and water-based Al2O3 nanofluid. Effects of single-volume concentration (0.1%) of Al2O3 nanoparticles and four types of volume flow rates such as 0.5, 1.0, 1.5, and 2.0 litres/minute (LPM) were also examined which found that the best performance is achieved with 2.0 LPM. The experime… Show more

“…The results show that the unglazed PV/T system delivers higher performance using nanofluid. To maximize the productivity of the flat plate hybrid collector, Srimanickam [17] used two types of coolants (water and nanofluids). The nanofluid was prepared from nano-Al2O3 (0.1% vol.)…”

Effect of Temperature on the Electrical and Thermal Behaviour of a Photovoltaic/Thermal System Cooled Using SiC Nanofluid: An Experimental and Comparison Study

“…The results show that the unglazed PV/T system delivers higher performance using nanofluid. To maximize the productivity of the flat plate hybrid collector, Srimanickam [17] used two types of coolants (water and nanofluids). The nanofluid was prepared from nano-Al2O3 (0.1% vol.)…”

Effect of Temperature on the Electrical and Thermal Behaviour of a Photovoltaic/Thermal System Cooled Using SiC Nanofluid: An Experimental and Comparison Study

Optimizing hybrid solar collector efficiency with MgO/CNT nanofluid: a response surface methodology investigation

Introducing various approaches for cooling of photovoltaic thermal system