Kılıç, MustafaAbdulvahitoglu, Asli2025-01-062025-01-0620190354-98362334-716310.2298/TSCI180816294K2-s2.0-85057081967https://doi.org/10.2298/TSCI180816294Khttps://hdl.handle.net/20.500.14669/2046The present study is focused on the numerical investigation of heat transfer from a heated surface by using swirling jets and nanofluids. Consequences of discrete Reynolds number, inlet configuration and types of nanofluids (pure water, Al2O3-H2O, Cu-H2O, and TiO2-H2O) were studied numerically on heat transfer and fluid-flow. As a base coolant Al2O3-H2O nanofluid was chosen for all parameters. So, a numerical analysis was done by using a k-. turbulent model of PHOENICS CFD code. It is determined that increasing Reynolds number from Re = 12000-21000 causes an increment of 51.3% on average Nusselt Number. Using 1-jet causes an increase of 91.6% and 29.8% on average Nusselt number according to the channel flow and 2-jet. Using Cu-H2O nanofluid causes an increase of 3.6%, 7.6%, and 8.5% on the average Nusselt number with respect to TiO2-H2O, Al2O3-H2O and pure water.eninfo:eu-repo/semantics/openAccessCFDheat transfernanofluidswirling jetsArticle36376Q3362723WOS:000503863100029Q3