Research Square (Research Square), Journal Year: 2025, Volume and Issue: unknown

Published: May 9, 2025

Hybrid nanofluids have been utilized in an assortment of thermal engineering applications, that include heat exchangers, materials science research, and industrial domains like solar through collectors, food processing, aerospace engineering. The examination the hydrodynamic behavior a Casson hybrid nanofluid porous medium subjected to bilinear stretching surface is ultimate objective this study. effects radiation, chemical reactions, volumetric source/sink, Joule heating viscous dissipation are all included mathematical model. When magnetic field with inclination present, fluid electrically conducting. By means similarity transformations, governing nonlinear coupled partial differential equations (PDEs) which characterize flow phenomena transformed into system ordinary (ODEs). MATLAB bvp4c solver conjunction shooting technique yields numerical solutions. outcomes, show how different dimensionless parameters affect field, temperature distribution, concentration profiles, displayed both graphically tabularly. skin friction coefficient, Sherwood number, Nusselt number at among derived quantities calculated examined. In particular, momentum boundary layer thickness decreases as parameter increases. On other hand, velocity rise when increased. As values source, Dufour effect, parameter, width layer. Through average 99.87% statistical analysis employing adjusted R-squared metrics demonstrates high degree model fitting for coefficient. more sensitive differing effect. implementation response methodology thorough investigation intricate relationships between behavior, porosity two significant improvements.

Language: Английский