Exploiting the impact of Lorentz force and convective heating boundary on second-grade
nanofluid flow alongside a Riga pattern is the main objective of the present work. Modelling …

The proficiency of hybrid nanoparticles in augmenting the heat transfer has fascinated many
researchers to further analysing the working fluid. The present paper is focused on the MHD …

The proficiency of hybrid nanofluid from Cu-Al2O3/water formation as the heat transfer
coolant is numerically analyzed using the powerful and user-friendly interface bvp4c in the …

Fractional calculus characterizes a function at those points, where classical calculus failed.
In the current study, we explored the fractional behavior of the stagnation point flow of hybrid …

This paper aims to analyze the effects of different nanoparticles shape factor, EMHD and
radiation parameters for the Cu–Al 2 O 3/H 2 O nanofluid flow towards a stretching/shrinking …

Heat transfer enhancement is a current concern in a variety of areas. Nanofluid, a novel kind
of heat transfer fluid, may be used as an efficient medium for improving heat transmission. A …

An analysis for magnetic dipole with stagnation point flow of micropolar nanofluids is
modeled for numerical computation subject to thermophoresis, multi buoyancy …

The hybrid nanofluids are more effective and stable to improve the thermal activities of many
base liquids. With eminent thermal consequences, the hybrid nanofluids are preferred as …

Thermal aspects of hybrid nanofluid are more special owing to enhanced thermal
performances. Such improved thermal characteristics makes the hybrid nanomaterials …

This article is an attempt to explore the heat transfer features of the steady three-dimensional
rotating flow of magneto-hydrodynamic hybrid nanofluids under the effect of nonlinear …