Add to ORKGThe present paper deals with the unsteady magnetohydrodynamics (MHD) flow and heat transfer of some nanofluids past an accelerating infinite vertical plate in a porous medium. Water as conventional base fluid containing three different types of nanoparticles such as copper (Cu), aluminum oxide (Al2O3) and titanium oxide (TiO2) are considered. By using suitable transformations, the governing partial differential equations corresponding to the momentum and energy are converted into linear ordinary differential equations. Exact solutions of these equations are obtained with the Laplace Transform method. The influence of pertinent parameters on the fluid motion is graphically underlined. It is found that the temperature of Cu-water is higher th...
In this study, the pulsating flow of hydromagnetic nanofluid in a vertical porous channel has been i...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
The purpose of this communication is to examine the collective influence of heat and mass transfer o...
AbstractA mathematical model is developed for the nanofluid flow and heat transfer due to the impuls...
AbstractThe problem of unsteady MHD free convection flow of nanofluids through a porous medium bound...
An investigation of the hydromagnetic boundary layer flow past a moving vertical plate in nanofluids...
AbstractAn investigation of the hydromagnetic boundary layer flow past a moving vertical plate in na...
An exploration of the unsteady MHD boundary layer flow over a moving vertical porous surface with na...
The problem of unsteady MHD free convection flow of nanofluids via a porous medium bounded by a movi...
AbstractIn this paper we investigated an unsteady free convection flow of a nanofluid bounded by a m...
AbstractThe problem of unsteady MHD free convection flow of nanofluids via a porous medium bounded b...
In this study, the aim is to analyze numerically heat transfer through a higher grade Forchheimer po...
Abstract This article investigates the influence of ramped wall velocity and ramped wall temperature...
In this contribution, the MHD pulsatile mechanism with heat transfer of an incompressible non-Newton...
In this present study, finite element method is applied to analyze the magnetohydrodynamic transient...
In this study, the pulsating flow of hydromagnetic nanofluid in a vertical porous channel has been i...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
The purpose of this communication is to examine the collective influence of heat and mass transfer o...
AbstractA mathematical model is developed for the nanofluid flow and heat transfer due to the impuls...
AbstractThe problem of unsteady MHD free convection flow of nanofluids through a porous medium bound...
An investigation of the hydromagnetic boundary layer flow past a moving vertical plate in nanofluids...
AbstractAn investigation of the hydromagnetic boundary layer flow past a moving vertical plate in na...
An exploration of the unsteady MHD boundary layer flow over a moving vertical porous surface with na...
The problem of unsteady MHD free convection flow of nanofluids via a porous medium bounded by a movi...
AbstractIn this paper we investigated an unsteady free convection flow of a nanofluid bounded by a m...
AbstractThe problem of unsteady MHD free convection flow of nanofluids via a porous medium bounded b...
In this study, the aim is to analyze numerically heat transfer through a higher grade Forchheimer po...
Abstract This article investigates the influence of ramped wall velocity and ramped wall temperature...
In this contribution, the MHD pulsatile mechanism with heat transfer of an incompressible non-Newton...
In this present study, finite element method is applied to analyze the magnetohydrodynamic transient...
In this study, the pulsating flow of hydromagnetic nanofluid in a vertical porous channel has been i...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
The purpose of this communication is to examine the collective influence of heat and mass transfer o...