This study is confined to the numerical evaluation of variable density and
magnetohydrodynamics influence on Williamson Sakiadis flow in a porous space. In this …

Nanotechnology is well-known for its versatile and general thermal transport disciplines,
which are used in semiconductors, spacecraft, bioengineering, functional electronics, and …

The purpose of the current development is to investigate solar thermal radiations using
advanced tetra-hybrid nano-structures in advanced industrial applications. The inclusion of …

In this work, a novel enhanced model of the thermophysical characteristics of hybrid
nanofluid is introduced. An innovative kind of fluid called hybrid nanofluid has been …

The main aim of the current study is to analyze the impacts of fossil fuel thermophoretic
convective heat transfer on climate change with variable viscosity and thermal conductivity …

The purpose of this paper is to analyze the heat transfer behavior of the electromagnetic 3D
micropolar tri-hybrid nanofluid flow of a solar radiative slendering sheet with non-Fourier …

Due to excessive heating, various physical mechanisms are less effective in engineering
and modern technologies. The aligned electromagnetic field performs as insulation that …

The present model intends to study the electroosmotically augmented peristaltic flow of
blood-based nanofluid through an asymmetrical channel. The Buongiorno's model is used …

A computational analysis of the impacts of thermophoretic convective heat transfer on
climate change within a saturated porous atmosphere is predicted. A mathematical model is …

Flexibility enhancement of coal-fired combined heat and power units is an essential
approach for improving the wind power accommodation and a significant low-carbon way to …