Heat transfer inspection of nano-encapsulated phase change materials inside a Γ-shaped enclosure influenced by magnetic field

•Heat transfer inspection of NEPCMs inside a Γ-shaped cavity is carried out.•The Γ-shaped enclosure with the heat flux boundary condition is supposed to be impacted by magnetic field.•The Navier-Stokes equations under the expressed boundary conditions may be solve utilizing finite element method. Na...

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Published inJournal of magnetism and magnetic materials Vol. 561; p. 169682
Main Author Fereidooni, Jalil
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2022
Subjects
Concentration
Fusion temperature
Magnetic nanofluid
Natural convection
NEPCMs
Γ-Shaped enclosure
Magnetic nanofluid
Natural convection
NEPCMs
Concentration
Γ-Shaped enclosure
Fusion temperature
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Abstract •Heat transfer inspection of NEPCMs inside a Γ-shaped cavity is carried out.•The Γ-shaped enclosure with the heat flux boundary condition is supposed to be impacted by magnetic field.•The Navier-Stokes equations under the expressed boundary conditions may be solve utilizing finite element method. Nano-Encapsulated phase change materials (NEPCMs) made of shell and a core are new tools used in modern devices such as batteries and solar systems which enhance the cooling behavior of the flow. The written paper analyzes natural convection of the NEPCMs in a Γ-shaped cavity with magnetic field’s impact. The Navier-Stokes equations under the expressed boundary conditions may be solve utilizing FEM. The effect of Rayleigh number (104–106), Nano particle’s concentration (0.01–0.05), Stefan number (0.1–0.9), Hartmann number (0–20), and non-dimensional fusion temperature (0.05–0.1) on the contours of the temperature, velocity, streamline, Cr, and the average Nusselt number are presented. The results divulge that an escalation in Ha from 0 to 20, will reduce the Nuavg up to 17%; however, increasing the nanoparticle concentration will enhance the Nuavg by 26%. This study is applicable in the cooling process of modern batteries and solar-hydrogen components.
AbstractList •Heat transfer inspection of NEPCMs inside a Γ-shaped cavity is carried out.•The Γ-shaped enclosure with the heat flux boundary condition is supposed to be impacted by magnetic field.•The Navier-Stokes equations under the expressed boundary conditions may be solve utilizing finite element method. Nano-Encapsulated phase change materials (NEPCMs) made of shell and a core are new tools used in modern devices such as batteries and solar systems which enhance the cooling behavior of the flow. The written paper analyzes natural convection of the NEPCMs in a Γ-shaped cavity with magnetic field’s impact. The Navier-Stokes equations under the expressed boundary conditions may be solve utilizing FEM. The effect of Rayleigh number (104–106), Nano particle’s concentration (0.01–0.05), Stefan number (0.1–0.9), Hartmann number (0–20), and non-dimensional fusion temperature (0.05–0.1) on the contours of the temperature, velocity, streamline, Cr, and the average Nusselt number are presented. The results divulge that an escalation in Ha from 0 to 20, will reduce the Nuavg up to 17%; however, increasing the nanoparticle concentration will enhance the Nuavg by 26%. This study is applicable in the cooling process of modern batteries and solar-hydrogen components.
ArticleNumber 169682
Author Fereidooni, Jalil
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Keywords Magnetic nanofluid
Natural convection
NEPCMs
Concentration
Γ-Shaped enclosure
Fusion temperature
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Snippet •Heat transfer inspection of NEPCMs inside a Γ-shaped cavity is carried out.•The Γ-shaped enclosure with the heat flux boundary condition is supposed to be...
SourceID crossref
elsevier
SourceType Enrichment Source
Index Database
Publisher
StartPage 169682
SubjectTerms Concentration
Fusion temperature
Magnetic nanofluid
Natural convection
NEPCMs
Γ-Shaped enclosure
Title Heat transfer inspection of nano-encapsulated phase change materials inside a Γ-shaped enclosure influenced by magnetic field
URI https://dx.doi.org/10.1016/j.jmmm.2022.169682
Volume 561
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