The primary goal of this research is to examine the thermal variance in a dovetail fin under
fully wet conditions with ternary hybrid nanofluid ZnFe 2 O 4+ MnZnFe 2 O 4+ NiZnFe 2 O 4 …

In this research, the combined convective-radiative heat transfer for magnetohydrodynamics
(MHD) hybrid nanofluid flow inside an open trapezoidal enclosure are numerically …

The current study explores a new direction of research in which the magnetohydrodynamic
(MHD) effects on two-dimensional nanofluid boundary layer flow under the influence of …

It is well known that the inclusion of a certain quantity of nanoparticles boosts the thermal
conductivity of the nanofluid. The reason for this tremendous improvement is yet unknown …

In this work, a numerical and analytical investigation of the heat transfer processes of free
convection and radiation on a porous moving longitudinal fin has been carried out. A ternary …

In the article, transient heat transfer characteristics of a convective–radiative longitudinal fin
fully wetted in a hybrid nanofluid have been analysed. The fin medium is porous, and Darcy …

In the present work, we explored the magnetohydrodynamic boundary layer flow in the
presence of pressure gradient across a flat plate. The effects of the slip velocity conditions …

The transient temperature distribution of a wet semi-spherical porous fin with convection,
internal heat generation, and radiation is researched using a non-Fourier heat conduction …

The transient thermal analysis of a triangular profiled longitudinal porous fin with the
combined effect of magnetic and electric fields is explained in this article. The heat …

The main focus of the study is a fully wet porous fin of radial profile exposed to convective-
radiative heat exchange with the hybrid nanofluid flowing past it with a constant velocity of U …