Thermal Performances of Copper and Silver Nanomaterials with Fluctuated Boundary Layers

The development and structure of hybrid nanofluid accounted via rotating disk is explored in this investigation. The hybrid prospective of heat transfer is inspected with uniform suspension of silver nanoparticles and copper nanomaterial. The thermo-hydrodynamic theory of nanomaterials is followed for attaining the governing expres-sions for the hybrid nanofluid model to rotation of disk. The thermo-diffusion aspect for the nanofluids following the hybrid model is listed. The uniform suspension for both nanomaterials is done with water base fluid. The velocity change and enhancement of heat transfer for the hybrid nanofluid model is addressed along the radial direction. The diverse pattern of boundary layer is inspected. The graphical outcomes convey that more thicker thermal boundary layer is results against the increasing nano = articles concentration. The thermal mecha-nism of various base materials IP:can be203.8.109.10effectively On: Fri,improved 09 Decwith 2022proper 11:15:57utilization of hybrid nanoparticles. The improvement in in coefficient indicates the larger distribution in the heatd fluid layer. In the case of Ag/water Copyright: American Scientific Publishers nanofluid, distribution of the heat is not faster as in Ag/water nanoparticles and this deficiency is improved by Delivered by Ingenta using hybrid nonmaterial.