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Hartmann number
About: Hartmann number is a research topic. Over the lifetime, 2593 publications have been published within this topic receiving 61342 citations.
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TL;DR: In this paper, a second-order compact finite difference algorithm, involving a secondorder compact scheme for the streamfunction-velocity (ψ−−u) form of Navier-Stokes equations and a fourth-order finite difference (FDF) algorithm for the energy equation, is employed to solve the steady-state laminar magnetohydrodynamic (MHD) natural convection problems.
95 citations
TL;DR: In this paper, an improved, second approximation for the laminar motion of a conducting liquid at high Hartmann number in nonconducting pipes of arbitrary cross section under uniform transverse magnetic fields is presented.
Abstract: An improved, second approximation for the laminar motion of a conducting liquid at high Hartmann number in nonconducting pipes of arbitrary cross section under uniform transverse magnetic fields is presented. A satisfactory comparison with the author's previously published experimental pressure gradient/flow results is made for the case of a circular pipe.
95 citations
TL;DR: In this article, an incinerator shaped permeable enclosure loaded with Al2O3-H2O nanofluid subjected to the magnetic field with a rectangular wavy heater block positioned on the bottom of the cavity wall was studied.
Abstract: The aim of the current study is natural convection analysis conjugated with entropy generation analysis in an incinerator shaped permeable enclosure loaded with Al2O3–H2O nanofluid subjected to the magnetic field with a rectangular wavy heater block positioned on the bottom of the cavity wall. The bottom and top horizontal walls are adiabatic; the inclined and vertical walls are thought to be cooled. Firstly, the governing expressions and standard k–e turbulence model are rewritten from dimensional form to non-dimensional form using dimensionless parameters such as vorticity and stream function. In the next step, the equation of entropy generation is written in dimensionless form. Then, the system of non-dimensional governing equations is solved by the finite volume method (FVM) conjugated with a non-dimensionalization scheme using ANSYS Fluent. Fine grids (wall y+ < 2) with inflated layers have been used for the higher Rayleigh number. The effects of the Rayleigh number in the laminar region (Ra = 103, 104, and 105) and turbulent region (Ra = 108, 0.5 × 109, and 109), Darcy number (Da = 0.01 and 100), Hartmann number (Ha = 0 and 40), and the nanoparticles (
$$ \phi = 2{{\% }} $$
) on the entropy generation number and natural convection are investigated. The validation results were in good agreement with those of the literature. The results demonstrate that for the laminar region, the Nusselt number and entropy generation number increase as the Rayleigh number and the Darcy number grow, whereas both of them abate as Hartmann number increases. In the turbulent region, the average Nusselt number decreases by ascending the Darcy number. Also, for turbulent region (Ra = 109), convection flow strength decreases 6.28% when Hartmann number increases from 0 to 40, whereas the entropy generation number increases 31.5% at Da = 0.01.
95 citations
TL;DR: In this paper, a finite volume-based numerical analysis is conducted to investigate the effects of the angle of inclination of an external magnetic force on the natural convection inside a cubical cavity filled with a carbon nano-tube (CNT)-water nanofluid.
94 citations
TL;DR: In this paper, a lid-driven cavity with partially filled with a porous medium saturated with a ferrofluid has been analyzed numerically, and the governing partial differential equations formulated on the basis of a single-phase model for nanofluid, Brinkman-extended Darcy model for porous layer and Boussinesq approximation for buoyancy force have been solved by finite difference method of the second-order accuracy.
93 citations