Numerical analysis of viscous dissipative unsteady darcy forchhemier hybrid nanofluid flow subject to magnetic effect across a stretching cylinder

The current analysis presents the numerical simulation of hybrid nanofluid (HNF) flow over an extending cylinder. The water has been mixed with a hybrid combination of aluminum alloys (AA7072-AA7075) nanoparticles (NPs) to make the hybrid nanofluid. For different types of industrial and biological applications, a numerical model is formulated with the intent of raising the volume of energy exchange and strengthening its efficiency. Aluminum alloys (AA7072-AA7075) have been convincingly proven to have a wide range of industrial uses. Due to their lighter weight, aluminum alloys are also frequently used in vehicle engines and aircraft. The model has been designed as a system of PDEs. An appropriate variable is used for the translation of PDEs into an ordinary differential equation (ODEs). The obtained set of differential equations is further calculated by using the numerical approach (ND solver). The impact of numerous factors on velocity and energy curves is graphically presented and analyzed in detail. It has been observed that the fluid velocity curve rises with the effect of unsteadiness factor and mass flux.