Impact of activation energy and temperature‐dependent heat source/sink on Maxwell–Sutterby fluid
The present article aims to investigate the behaviour of Maxwell–Sutterby fluid past an
inclined stretching sheet accompanied with variable thermal conductivity, exponential heat …
inclined stretching sheet accompanied with variable thermal conductivity, exponential heat …
Thermal slip and variable viscosity analysis on heat rate and magnetic flux through accelerating non-conducting wedge in the presence of induced magnetic field
The focus of present study is to incorporate the variable viscosity and temperature slip
impact on heating rate and induced magnetic gradient along the moving non-conducting …
impact on heating rate and induced magnetic gradient along the moving non-conducting …
Numerical modeling and analysis of bioconvection on MHD flow due to an upper paraboloid surface of revolution
This article gives brief summary about the boundary layer flow characteristics of magnetic
generalized Newtonian fluid due to a paraboloid revolution under bioconvection and …
generalized Newtonian fluid due to a paraboloid revolution under bioconvection and …
[HTML][HTML] Thermal conductivity impact on MHD convective heat transfer over moving wedge with surface heat flux and high magnetic Prandtl number
The present evaluation focused on heat transfer and magnetic flux along the moving non-
conducting wedge shape with thermal conductivity and surface heat flux effects. A suitable …
conducting wedge shape with thermal conductivity and surface heat flux effects. A suitable …
Variable thermal conductivity and viscosity effects on non-Newtonian fluids flow through a vertical porous plate under Soret-Dufour influence
The purpose of this paper is to consider heat and mass transfer processes on two non-
Newtonian fluids (Walters-B viscoelastic and Casson fluid) situated in a hot environment …
Newtonian fluids (Walters-B viscoelastic and Casson fluid) situated in a hot environment …
[HTML][HTML] Arrhenius energy on asymmetric flow and heat transfer of micropolar fluids with variable properties: A sensitivity approach
Micropolar fluid flow in a channel with variable viscosity, variable thermal conductivity and
activation energy is examined numerically using the Runge–Kutta Fehlberg method in this …
activation energy is examined numerically using the Runge–Kutta Fehlberg method in this …
Application of biomagnetic fluid dynamics modeling for simulation of flow with magnetic particles and variable fluid properties over a stretching cylinder
An incompressible, electrically conducting Biomagnetic Fluid Dynamics (BFD) flow—namely
the flow of blood with magnetic particles through a two-dimensional stretching cylinder …
the flow of blood with magnetic particles through a two-dimensional stretching cylinder …
Heat transfer in boundary layer magneto‐micropolar fluids with temperature‐dependent material properties over a stretching sheet
The process of heat transfer in boundary layer magneto‐micropolar fluid with temperature‐
dependent material properties past a flat stretching sheet in a porous medium is investigated …
dependent material properties past a flat stretching sheet in a porous medium is investigated …
Unsteady magnetohydrodynamic free convection flow of nanofluid through an exponentially accelerated inclined plate embedded in a porous medium with variable …
MHD (Magnetohydrodynamic) unsteady free convection flow of viscous nanofluid through
an exponentially accelerated inclined porous plate with variable viscosity and thermal …
an exponentially accelerated inclined porous plate with variable viscosity and thermal …
Numerical solution of magnetized Williamson nanofluid flow over an exponentially stretching permeable surface with temperature dependent viscosity and thermal …
This research work describes and investigates Williamson nanofluid flow over an
exponentially stretching permeable vertical plate with temperature-dependent thermal …
exponentially stretching permeable vertical plate with temperature-dependent thermal …