Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field

Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field

We studied the laminar fully developed ferrofluid flow and heat transfer phenomena of an otherwise magnetic fluid into a vertical annular duct of circular cross-section and uniform temperatures on walls which were subjected to a transverse external magnetic field. A computational algorithm was used,...

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Main Authors: Panteleimon Α. Bakalis, Polycarpos K. Papadopoulos, Panayiotis Vafeas
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Fluids
Subjects:
ferrofluids
heat transfer
annular duct
magnetization equation
continuity–vorticity–pressure (C.V.P.) numerical method
Online Access:https://www.mdpi.com/2311-5521/6/3/120
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spelling doaj-02efa3ecf27e413aa612974d12a6c6042021-03-16T00:05:13ZengMDPI AGFluids2311-55212021-03-01612012010.3390/fluids6030120Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic FieldPanteleimon Α. Bakalis0Polycarpos K. Papadopoulos1Panayiotis Vafeas2Department of Mechanical Engineering and Aeronautics, University of Patras, 26504 Patras, GreeceDepartment of Mechanical Engineering and Aeronautics, University of Patras, 26504 Patras, GreeceDepartment of Chemical Engineering, University of Patras, 26504 Patras, GreeceWe studied the laminar fully developed ferrofluid flow and heat transfer phenomena of an otherwise magnetic fluid into a vertical annular duct of circular cross-section and uniform temperatures on walls which were subjected to a transverse external magnetic field. A computational algorithm was used, which coupled the continuity, momentum, energy, magnetization and Maxwell’s equations, accompanied by the appropriate conditions, using the continuity–vorticity–pressure (C.V.P.) method and a non-uniform grid. The results were obtained for different values of field strength and particles’ volumetric concentration, wherein the effects of the magnetic field on the ferrofluid flow and the temperature are revealed. It is shown that the axial velocity distribution is highly affected by the field strength and the volumetric concentration, the axial pressure gradient depends almost linearly on the field strength, while the heat transfer significantly increases due to the generated secondary flow.https://www.mdpi.com/2311-5521/6/3/120ferrofluidsheat transferannular ductmagnetization equationcontinuity–vorticity–pressure (C.V.P.) numerical method
collection DOAJ
language English
format Article
sources DOAJ
author Panteleimon Α. Bakalis
Polycarpos K. Papadopoulos
Panayiotis Vafeas
spellingShingle Panteleimon Α. Bakalis
Polycarpos K. Papadopoulos
Panayiotis Vafeas
Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field
Fluids
ferrofluids
heat transfer
annular duct
magnetization equation
continuity–vorticity–pressure (C.V.P.) numerical method
author_facet Panteleimon Α. Bakalis
Polycarpos K. Papadopoulos
Panayiotis Vafeas
author_sort Panteleimon Α. Bakalis
title Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field
title_short Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field
title_full Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field
title_fullStr Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field
title_full_unstemmed Heat Transfer Study of the Ferrofluid Flow in a Vertical Annular Cylindrical Duct under the Influence of a Transverse Magnetic Field
title_sort heat transfer study of the ferrofluid flow in a vertical annular cylindrical duct under the influence of a transverse magnetic field
publisher MDPI AG
series Fluids
issn 2311-5521
publishDate 2021-03-01
description We studied the laminar fully developed ferrofluid flow and heat transfer phenomena of an otherwise magnetic fluid into a vertical annular duct of circular cross-section and uniform temperatures on walls which were subjected to a transverse external magnetic field. A computational algorithm was used, which coupled the continuity, momentum, energy, magnetization and Maxwell’s equations, accompanied by the appropriate conditions, using the continuity–vorticity–pressure (C.V.P.) method and a non-uniform grid. The results were obtained for different values of field strength and particles’ volumetric concentration, wherein the effects of the magnetic field on the ferrofluid flow and the temperature are revealed. It is shown that the axial velocity distribution is highly affected by the field strength and the volumetric concentration, the axial pressure gradient depends almost linearly on the field strength, while the heat transfer significantly increases due to the generated secondary flow.
topic ferrofluids
heat transfer
annular duct
magnetization equation
continuity–vorticity–pressure (C.V.P.) numerical method
url https://www.mdpi.com/2311-5521/6/3/120
work_keys_str_mv AT panteleimonabakalis heattransferstudyoftheferrofluidflowinaverticalannularcylindricalductundertheinfluenceofatransversemagneticfield
AT polycarposkpapadopoulos heattransferstudyoftheferrofluidflowinaverticalannularcylindricalductundertheinfluenceofatransversemagneticfield
AT panayiotisvafeas heattransferstudyoftheferrofluidflowinaverticalannularcylindricalductundertheinfluenceofatransversemagneticfield
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