A novel analysis of heat transfer in the nanofluid composed by nanodimaond and silver nanomaterials: numerical investigation

The investigation of thermal performance in the nanofluids for unsteady boundary layer flow by considering the impacts of suction/injection is a significant research area in the field of fluid dynamics. This flow situation is broadly used in aerodynamics and space sciences as well. The model is formulated for ND-H2O and Ag-H2O nanofluids and then tackled numerically and captured the dynamics of the nanofluids under the multiple flow parameters. From the results, it is investigated that both ND-H2O and Ag-H2O have high thermal performance characteristics. However, higher heat transfer performance is observed for Ag based nanofluid. Further, a graphical and tabular comparison under certain assumptions is provided to authenticate the analysis.

Automated summary

Investigating the thermal performance of nanofluids for unsteady boundary layer flow with the consideration of suction/injection effects is an important research area in the field of fluid dynamics. The numerical analysis of ND-H2O and Ag-H2O nanofluids reveals their high thermal performance characteristics, with the Ag-based nanofluid exhibiting better heat transfer performance. A graphical and tabular comparison is provided to validate the analysis under certain assumptions.