The nanofluid flow under the consequences of Brownian motion, thermophoresis, and
nonlinear radiation has been numerically studied over a heated rotating disc. Arrhenius …

This study explores the impact of thermal radiation and viscous dissipation on the stagnation
point flow of a copper–water nanofluid across a convective stretching/shrinking cylinder. The …

The present study examines the effect of radiation and inclined magnetic field on the
biviscosity Bingham hybrid nanofluid flow on the permeable stretching/shrinking surface …

The entropy generation analysis for the nanofluid flowing over a stretching/shrinking curved
region is performed in the existence of the cross-diffusion effect. The surface is also …

The suspension of tiny solid particles inside the energy transport liquids could enhance their
thermal conductivity as well as provide an efficient and inventive approach to significantly …

This study emphasizes the aspects of heat transfer and transient thermal distribution through
a rectangular fin profile when a stretching or shrinking mechanism is mounted on the surface …

A novel analysis in terms of unsteady flow of viscoelastic fluid with combination of nanofluid
particles is reported in this particular work. Additional physical influences are introduced by …

The primary goal of this article is to explore the radiative stagnation point flow of nanofluid
with cross-diffusion and entropy generation across a permeable curved surface. Moreover …

Abstract Effects of magnetic field, convective heating and thermal radiation on the dual
solutions and boundary layer separations of nanofluid flow over a nonlinearly shrinking …

The thermal reliability of hybrid nanoparticles is quite impressive which presents many
dynamic applications in solar systems, extrusion processes, thermal devices, cooling …