Combined Convective Energy Transmission Performance of Williamson Hybrid Nanofluid over a Cylindrical Shape with Magnetic and Radiation Impressions

This analysis focuses on extending and developing some previous studies of energy transport through nanofluids to include the states combined convection flow a Williamson hybrid nanofluid that flows around cylinder. Mathematical models simulate behavior these upgraded are constructed by expanding Tiwari Das model, which then solved numerically via Keller box approaches. The accuracy results is emphasized comparing them with published outcomes. Nanosolid volume fraction 0???0.1, ?1???5, radiation factor 0.1?R?6, Weissenberg number 0.2?We? 0.9, magnetic 0.1?M?1 factors have been taken into consideration examine transfer performance nanofluid. Numerical graphical outcomes obtained using MATLAB, analyzed, discussed in depth. According outcomes, reduces friction forces. Both convective coefficient improved rate increased velocity host fluid. fluid can be reduced increasing factor. nanoparticle combination silver aluminum oxide (Ag-Al2O3) has demonstrated superiority enhancing