Magnetohydrodynamic Ferro-Nano fluid flow in a semi-porous curved tube under the effect of hall current and nonlinear thermal radiative
Journal of Magnetism and Magnetic Materials • 2019
Publication Information
Authors
Mohamed S. Abdel-wahed
Keywords
Not Available
Journal
Journal of Magnetism and Magnetic Materials
Publisher
ELsevier
Volume
474
Issue
Not Available
Pages
347–354
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Investigation of hall current as well as joule heating effects on the flow and heat transfer characteristics of Ferronanofluid
flow through a curved tube studied in this work. This work meets a lot of engineering applications
such as heat exchangers at low velocity conditions, collectors of solar energy, cooling devices of electronic and
micro-electronic equipments and geophysical transport in electrically conducting. The modeling based on the
momentum equations by incorporating the hall current effect as well as the energy equation by incorporating the
joule heating and thermal radiative effects. Similarity transformation technique has been used to obtain nonlinear
ordinary differential system which solved analytically as a series solution using Differential
Transformation Method (DTM) with associated of Padé approximation technique. The validation of the obtained
results has been examined against a previous published works. The results confirm that the hall current has a
direct and strong effect on the flow behavior, such that the presence of hall current reduces the flow pressure
within the tube as well as increase the heat flux from the inner surface of the tube. Moreover a third component
of velocity generates as well as a normal force called Lorentz force due to the presence of the hall current.
flow through a curved tube studied in this work. This work meets a lot of engineering applications
such as heat exchangers at low velocity conditions, collectors of solar energy, cooling devices of electronic and
micro-electronic equipments and geophysical transport in electrically conducting. The modeling based on the
momentum equations by incorporating the hall current effect as well as the energy equation by incorporating the
joule heating and thermal radiative effects. Similarity transformation technique has been used to obtain nonlinear
ordinary differential system which solved analytically as a series solution using Differential
Transformation Method (DTM) with associated of Padé approximation technique. The validation of the obtained
results has been examined against a previous published works. The results confirm that the hall current has a
direct and strong effect on the flow behavior, such that the presence of hall current reduces the flow pressure
within the tube as well as increase the heat flux from the inner surface of the tube. Moreover a third component
of velocity generates as well as a normal force called Lorentz force due to the presence of the hall current.
Staff Members - Benha University