Effect of Wall Electrical Conductivity on Heat Transfer Enhancement of Swirling Nanofluid-Flow

Abstract: Effects of electrical conductivity of cylindrical walls on both heat transfer enhancement in nanofluid swirling flow and fluid layers produced in a cylindrical container are numerically analyzed. A temperature gradient and external magnetic field are imposed in the axial direction on the rotating flow which is moved by the bottom disk. The governing equations that describe the combined problem (MHD and mixed convection) under the adoptive assumptions are solved numerically by the finite volume technique. Calc… Show more

“…[7][8][9] Also, the magnetic field can be used DOI: 10.1002/crat.202300025 to control the heat transfer in the nanofluid flow. [10][11][12][13][14] To control flow physics, several types of research including the present study, impose a magnetic field on annular geometries or two coaxial cylinders where an electrically conductive fluid flows in the annular space. [15][16][17][18][19][20][21][22][23] The flow of electric conductive silicon melt in the presence of a magnetic field produces an induced current, which interacts with the magnetic field in turn.…”

“…[ 7–9 ] Also, the magnetic field can be used to control the heat transfer in the nanofluid flow. [ 10–14 ] To control flow physics, several types of research including the present study, impose a magnetic field on annular geometries or two coaxial cylinders where an electrically conductive fluid flows in the annular space. [ 15–23 ]…”

MHD Effect on the Thermocapillary Silicon Melt Flow in Various Annular Enclosures

“…[7][8][9] Also, the magnetic field can be used DOI: 10.1002/crat.202300025 to control the heat transfer in the nanofluid flow. [10][11][12][13][14] To control flow physics, several types of research including the present study, impose a magnetic field on annular geometries or two coaxial cylinders where an electrically conductive fluid flows in the annular space. [15][16][17][18][19][20][21][22][23] The flow of electric conductive silicon melt in the presence of a magnetic field produces an induced current, which interacts with the magnetic field in turn.…”

“…[ 7–9 ] Also, the magnetic field can be used to control the heat transfer in the nanofluid flow. [ 10–14 ] To control flow physics, several types of research including the present study, impose a magnetic field on annular geometries or two coaxial cylinders where an electrically conductive fluid flows in the annular space. [ 15–23 ]…”

MHD Effect on the Thermocapillary Silicon Melt Flow in Various Annular Enclosures

Heat and mass transfer analysis of hybrid nanofluid flow over a rotating permeable cylinder: A modified Buongiorno model approach

Computation of combined electrical and magnetic field effects on dissipative immiscible newtonian fluid/nanofluid dynamics