Nanofluid Flow over a Permeable Surface with Convective Boundary Conditions and Radiative Heat Transfer

Abstract EN

We investigate the effects of thermal radiation and convective boundary conditions on heat and mass transfer in nanofluid flow over a permeable flat plate.

The mathematical model for the nanofluid incorporates variations in the nanoparticle volume fraction of up to 20%.

The performance of two water-based nanofluids, namely, stable suspensions of copper and gold nanoparticles in water was investigated.

The governing partial differential equations were transformed into ordinary ones using a similarity transformation and solved numerically.

The numerical results were validated by comparison with previously published results in the literature.

The main focus of this paper is to study the fluid and surface parameters such as the radiation parameter, and suction/injection parameter, solute concentration profiles, as well as the skin friction coefficient and heat and mass transfer rates were conducted.