Experimental Investigation of Al2O3 Nanofluid for Thermal Energy Management of Microchannel Heat Sink

Energy is one of the primary foundations supporting evolutionary changes. Heat transfer improved by increasing surface area density and/or changing base fluid characteristics. Because its small size and heat properties, nanofluid cooled microchannel sinks (MCHS) have lately become a popular choice for electronics thermal applications. The influence employing nanofluids cooling chip was investigated experimentally in this work to evaluate investigations were carried out order confirm concentration wall temperature upon thermal-hydraulic properties sink. In present study, Al2O3 water employed, with 0.1, 0.2, 0.3, 0.4, 0.5% nanoparticle volume fractions, mass flow rate (MFL) 2, 5, 8 m/s at 25, 30 35oC inlet tempreture. resulting experimental findings verified from results obtained other researchers, which showed important correlation. efficacy systems has been enhanced technology configuration rectangular