Vortex generation due to multiple localized magnetic fields in the hybrid nanofluid flow–A numerical investigation
Vortices capture the attention of every scientist (as soon as they come into existence) while
studying any flow problem because of their significance in comprehending fluid mixing and …
studying any flow problem because of their significance in comprehending fluid mixing and …
Magnetoconvection around an elliptic cylinder placed in a lid‐driven square enclosure subjected to internal heat generation or absorption
The impacts of MHD and heat generation/absorption on lid‐driven convective fluid flow
occasioned by a lid‐driven square enclosure housing an elliptic cylinder have been …
occasioned by a lid‐driven square enclosure housing an elliptic cylinder have been …
Effects of heater positions on magneto-hydrodynamic convection of CuO-water nanofluid flow in a grooved channel
Purpose This study aims to delve into the coupled mixed convective heat transport process
within a grooved channel cavity using CuO-water nanofluid and an inclined magnetic field …
within a grooved channel cavity using CuO-water nanofluid and an inclined magnetic field …
Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method
Natural convection and melting of ice as a phase change material dispersed with copper
nanoparticles are numerically investigated. Square cavity filled with nano‐mixture (Cu− ice) …
nanoparticles are numerically investigated. Square cavity filled with nano‐mixture (Cu− ice) …
Mixed convective heat transfer in a lid-driven concentric trapezoidal enclosure: numerical simulation
This study investigates the implications of the area ratio (AR) and Grashof number (Gr) on
fluid flow properties and heat transfer due to mixed convection around heated trapezoidal …
fluid flow properties and heat transfer due to mixed convection around heated trapezoidal …
Fractional simulations for thermal flow of hybrid nanofluid with aluminum oxide and titanium oxide nanoparticles with water and blood base fluids
The fractional model has been developed for the thermal flow of hybrid nanofluid due to the
inclined surface. The thermal investigation of the hybrid nanomaterial is predicted by …
inclined surface. The thermal investigation of the hybrid nanomaterial is predicted by …
Magnetohydrodynamics combined convection modeling via LBM for shear thinning nanofluids within an inclined enclosure: appraisement of heat transfer and entropy …
Existing simulation via lattice Boltzmann method explores to find the conditions during which
it is possible to control and manage the amount of heat transfer and entropy production via …
it is possible to control and manage the amount of heat transfer and entropy production via …
MHD mixed convection on Cu-water laminar flow through a horizontal channel attached to two open porous enclosure
A numerical study was conducted to determine the impact of MHD on mixed convection of a
Cu-water nanofluid in a horizontal channel attached to two open enclosures filled with a …
Cu-water nanofluid in a horizontal channel attached to two open enclosures filled with a …
Buoyancy-driven flow of magnetohydrodynamic hybrid nanofluids in an open cavity with permeable horizontal walls
The buoyancy-driven flow of hybrid nanofluids in an open cavity is examined in the
presence of a magnetic field with an angle to the horizontal axis. The right end of the cavity …
presence of a magnetic field with an angle to the horizontal axis. The right end of the cavity …
Finite element analysis of Cu-water nanofluid flow and heat transfer in a dynamically bulging enclosure
Purpose The main purpose of this study is to analyze the heat transfer phenomena in a
dynamically bulging enclosure filled with Cu-water nanofluid. This study examines the …
dynamically bulging enclosure filled with Cu-water nanofluid. This study examines the …