Heat Transfer and Flow of Nanofluids in a Y-Type Intersection Channel with Multiple Pulsations: A Numerical Study

Abstract: Abstract:In this paper, we study pulsed flow and heat transfer in water-Al 2 O 3 nanofluids in a Y-type intersection channel with two inlets and one outlet. At the two inlets, two sinusoidal velocities with a phase difference of π are applied. We assume that the shear viscosity and the thermal conductivity of the nanofluids depend on the nanoparticles concentration. The motion of the nanoparticles is modeled by a convention-diffusion equation, where the effects of the Brownian motion, thermophoretic diffusion,… Show more

“…In current work, the non-homogenous single phase model will be used; this approach retains several important features of the two-fluid (two-phase) approach, with lower computational cost [36]. If the effects of electro-magnetism and chemical reactions are ignored, the governing equations, for a single component suspension, are the conservation equations for mass, linear and angular momentum, particle concentration, and energy [11,33,36,37].…”

“…/∂t + [grad(.)]v. The conservation of angular momentum indicates that in the absence of couple stresses the stress tensor is symmetric, that is, T = T T [36].…”

“…where µ m is the viscosity of the suspension, I is the identity tensor, D is the symmetric part of the velocity gradient, and p is the pressure [36]. In general, the shear viscosity can depend on,…”

“…where k is the thermal conductivity of the material [36]. For complex materials, k can depend on various parameters/fields, such as concentration, temperature, shear rate, etc.…”

Heat Transfer in a Drilling Fluid with Geothermal Applications

“…In current work, the non-homogenous single phase model will be used; this approach retains several important features of the two-fluid (two-phase) approach, with lower computational cost [36]. If the effects of electro-magnetism and chemical reactions are ignored, the governing equations, for a single component suspension, are the conservation equations for mass, linear and angular momentum, particle concentration, and energy [11,33,36,37].…”

“…/∂t + [grad(.)]v. The conservation of angular momentum indicates that in the absence of couple stresses the stress tensor is symmetric, that is, T = T T [36].…”

“…where µ m is the viscosity of the suspension, I is the identity tensor, D is the symmetric part of the velocity gradient, and p is the pressure [36]. In general, the shear viscosity can depend on,…”

“…where k is the thermal conductivity of the material [36]. For complex materials, k can depend on various parameters/fields, such as concentration, temperature, shear rate, etc.…”

Heat Transfer in a Drilling Fluid with Geothermal Applications

“…They demonstrated that there is an ideal incentive for nanofluid volume fraction to control heat exchange, temperature appropriation, and stream field. Wu et al [46] studied the heat transfer and pulsed flow in a Y-type crossing point channel with two inlets and one outlet utilizing water-Al 2 O 3 nanofluids. They demonstrated that the utilization of the pulsed flow enhances the Nusselt number, particularly for a huge Reynolds number and a high pulse frequency.…”

Influence of the Periodicity of Sinusoidal Boundary Condition on the Unsteady Mixed Convection within a Square Enclosure Using an Ag–Water Nanofluid

MHD natural convection of Fe3O4- MWCNT/Water hybrid nanofluid filled in a porous annulus between a circular cylinder and Koch snowflake