[HTML][HTML] Theoretical investigation of unsteady MHD flow of Casson hybrid nanofluid in porous medium: Applications of thermal radiations and nanoparticle
In this research, we investigated the unsteady magnetohydrodynamic (MHD) convective flow
of Casson hybrid nanofluids over an oscillating plate, considering the effects of a porous …
of Casson hybrid nanofluids over an oscillating plate, considering the effects of a porous …
Variable chemical species and thermo-diffusion Darcy–Forchheimer squeezed flow of Jeffrey nanofluid in horizontal channel with viscous dissipation effects
S Maatoug, KH Babu, VVL Deepthi, K Ghachem… - Journal of the Indian …, 2023 - Elsevier
This research communicates the applications of thermos-diffusion effect associated to the
squeezing flow of Jeffrey nanofluid due to horizontal channel. The problem presents the …
squeezing flow of Jeffrey nanofluid due to horizontal channel. The problem presents the …
Heat and mass transfer on MHD squeezing flow of Jeffrey nanofluid in horizontal channel through permeable medium
The heat and mass transfer on time dependent hydrodynamic squeeze flow of Jeffrey
nanofluid across two plates over permeable medium in the slip condition with heat …
nanofluid across two plates over permeable medium in the slip condition with heat …
Unsteady MHD squeezing flow of Jeffrey fluid in a porous medium with thermal radiation, heat generation/absorption and chemical reaction
The numerical study is presented for the magnetohydrodynamic (MHD) squeezing flow of
Jeffrey fluid between two parallel plates in a porous medium with the presence of thermal …
Jeffrey fluid between two parallel plates in a porous medium with the presence of thermal …
[HTML][HTML] Slip effects on MHD squeezing flow of Jeffrey nanofluid in horizontal channel with chemical reaction
The heat and mass transfer characteristics on hydromagnetic squeeze flow of Jeffrey
nanofluid between two plates over a permeable medium by slip condition with the influences …
nanofluid between two plates over a permeable medium by slip condition with the influences …
Heat transfer analysis of channel flow of MHD Jeffrey fluid subject to generalized boundary conditions
Free convective, unsteady flow of Jeffrey liquid under the influence of magnetic field
between two hot upright parallel plates fixed in porous medium is investigated in this paper …
between two hot upright parallel plates fixed in porous medium is investigated in this paper …
Numerical simulation of a time-dependent electroviscous and hybrid nanofluid with Darcy-Forchheimer effect between squeezing plates
MS Khan, S Mei, Shabnam, U Fernandez-Gamiz… - Nanomaterials, 2022 - mdpi.com
In this article, the behavior of transient electroviscous fluid flow is investigated through
squeezing plates containing hybrid nanoparticles. A hybrid nanofluid MoS 2+ Au/C 2 H 6 O …
squeezing plates containing hybrid nanoparticles. A hybrid nanofluid MoS 2+ Au/C 2 H 6 O …
Impacts of chemical reaction on squeeze flow of MHD Jeffrey fluid in horizontal porous channel with slip condition
The present study explores the influences of chemical reaction and viscous dissipation on
the hydromagnetic squeeze flow of Jeffrey fluid in channel over porous medium by slip …
the hydromagnetic squeeze flow of Jeffrey fluid in channel over porous medium by slip …
[HTML][HTML] Hartmann boundary layer in peristaltic flow for viscoelastic fluid: Existence
This paper addresses the peristaltic flow phenomenon for non-Newtonian Jeffrey fluid inside
an asymmetric channel subject to large magnetic field. The governing boundary value …
an asymmetric channel subject to large magnetic field. The governing boundary value …
Influence of thermal radiation on unsteady MHD free convection flow of Jeffrey fluid over a vertical plate with ramped wall temperature
Influence of thermal radiation on unsteady magnetohydrodynamic (MHD) free convection
flow of Jeffrey fluid over a vertical plate with ramped wall temperature is studied. The …
flow of Jeffrey fluid over a vertical plate with ramped wall temperature is studied. The …