Morphology dependence of thermal and rheological properties of oil-based nanofluids of CuO nanostructures

Abstract

Abstract Engine oil (SAE 20W50)-CuO nanofluids with different CuO nanoparticle's morphologies were prepared and effect of the morphology on thermal conductivity, viscosity and flash point of the nanofluids was investigated. Different CuO nanostructures such as nanoparticles, nanorhombics and nanorods were synthesized by chemical methods. The oil-based nanofluids with 0.2–6 wt.% of various CuO nanostructures were prepared using the two-step method. The measurements showed that the properties of nanofluids were dependent on their morphologies. An enhancement in thermal conductivity was observed for different wt.% of nanoadditives compared to the base fluid. Maximum and minimum increase in thermal conductivity were measured for nanorods and nanoparticles nanofluid at 6 wt.% respectively. Also, the viscosity measurements showed that the nanorhombics nanofluids had lower viscosity compared to the other nanofluids and the base oil. Maximum and minimum viscosities were measured for 0.2 wt.% of nanorods and nanorhombics nanofluids respectively. Also, it was observed that the nanofluids containing 0.1, 0.2 wt.% of nanoparticles and nanorhombics had higher flash point compared to the base oil. The flash point of nanofluid containing the nanorhombics was higher than that of the nanoparticles and nanorhombics nanofluid and showed a 38 °C increase compared to the base oil.