Shape features and thermal inspiration of ferromagnetic hybrid nanofluid (CoFe2O4-Fe3O4)/CH3OH over isothermal sphere with radiative effects

Owing to the innovating thermal applications of ferromagnetic hybrid nanomaterials thermal engineering and medical sciences, scientists have studied different aspects of hybrid nanofluids. The ferromagnetic hybrid nanomaterials are the most fascinating nanoparticles which convey special applications...

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Published inJournal of radiation research and applied sciences Vol. 17; no. 4; p. 101191
Main Authors Farooq, Waseh, Abbasi, Aamar, Khan, Sami Ullah, Gul, Memoona, Becheikh, Nidhal, Alshammari, Badr M., Kolsi, Lioua
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2024
Subjects
Darcy Forchheimer flow
Ferromagnetic hybrid nanofluid
Isothermal sphere
Shape features
Tiwari and Das model
Isothermal sphere
Shape features
Darcy Forchheimer flow
Tiwari and Das model
Ferromagnetic hybrid nanofluid
Online AccessGet full text
ISSN1687-8507
1687-8507
DOI10.1016/j.jrras.2024.101191

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Abstract Owing to the innovating thermal applications of ferromagnetic hybrid nanomaterials thermal engineering and medical sciences, scientists have studied different aspects of hybrid nanofluids. The ferromagnetic hybrid nanomaterials are the most fascinating nanoparticles which convey special applications in the medial sciences like hyperthermia treatment. The ferromagnetic nanomaterials have ability to diagnose the tumor site and destroy the cancer cells heated with magnetic force. The objective of current investigation is to examine the thermal properties of ferromagnetic hybrid nanofluid with assessment of different shape features. The hybrid nanofluid is based on suspension of magnetite cobalt ferrite (CoFe2O4) and iron oxide nanoparticles (Fe3O4) nanoparticles with methanol (CH3OH) base material. The motivations for utilizing Fe3O4 and CoFe2O4 nanoparticles are associated to peak thermal efficiencies. The representation of base fluid properties is justified by using the Casson fluid mode. The source of flow is an isothermal sphere which include applications in the aerospace and bioengineering engineering. The inertial effects are studied with amplification of Darcy Forchheimer model. The applications of four distinct shape features (platelets, bricks, cylinders, blades) associated to (CoFe2O4−Fe3O4)/CH3OH hybrid model have been exclusively studied. The mathematical model is developed by utilizing the famous Tiwari and Das model. The numerical simulations are subject to implementation of Keller Box number scheme. Thermal behavior of hybrid nanofluid model is presented against variation of different flow parameters. It has been observed that change in Darcy number and Forchheimer parameter leads to enhancement of heat transfer. The skin friction coefficient increases for sold volume fraction of magnetite cobalt ferrite and iron oxide nanoparticles. The magnitude of Nusselt number is smaller for bricks shape nanoparticles. Current results present applications in the targeted drug delivery, aerospace cooling systems, heat exchangers, solar thermal systems, bio-heat transfer etc.
AbstractList Owing to the innovating thermal applications of ferromagnetic hybrid nanomaterials thermal engineering and medical sciences, scientists have studied different aspects of hybrid nanofluids. The ferromagnetic hybrid nanomaterials are the most fascinating nanoparticles which convey special applications in the medial sciences like hyperthermia treatment. The ferromagnetic nanomaterials have ability to diagnose the tumor site and destroy the cancer cells heated with magnetic force. The objective of current investigation is to examine the thermal properties of ferromagnetic hybrid nanofluid with assessment of different shape features. The hybrid nanofluid is based on suspension of magnetite cobalt ferrite (CoFe2O4) and iron oxide nanoparticles (Fe3O4) nanoparticles with methanol (CH3OH) base material. The motivations for utilizing Fe3O4 and CoFe2O4 nanoparticles are associated to peak thermal efficiencies. The representation of base fluid properties is justified by using the Casson fluid mode. The source of flow is an isothermal sphere which include applications in the aerospace and bioengineering engineering. The inertial effects are studied with amplification of Darcy Forchheimer model. The applications of four distinct shape features (platelets, bricks, cylinders, blades) associated to (CoFe2O4−Fe3O4)/CH3OH hybrid model have been exclusively studied. The mathematical model is developed by utilizing the famous Tiwari and Das model. The numerical simulations are subject to implementation of Keller Box number scheme. Thermal behavior of hybrid nanofluid model is presented against variation of different flow parameters. It has been observed that change in Darcy number and Forchheimer parameter leads to enhancement of heat transfer. The skin friction coefficient increases for sold volume fraction of magnetite cobalt ferrite and iron oxide nanoparticles. The magnitude of Nusselt number is smaller for bricks shape nanoparticles. Current results present applications in the targeted drug delivery, aerospace cooling systems, heat exchangers, solar thermal systems, bio-heat transfer etc.
ArticleNumber 101191
Author Farooq, Waseh
Alshammari, Badr M.
Abbasi, Aamar
Gul, Memoona
Kolsi, Lioua
Becheikh, Nidhal
Khan, Sami Ullah
Author_xml – sequence: 1
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  surname: Farooq
  fullname: Farooq, Waseh
  email: waseh0007@gmail.com
  organization: Department of Mathematics, University of Azad Kashmir, Muzaffarabad, 13100, Pakistan
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  givenname: Aamar
  surname: Abbasi
  fullname: Abbasi, Aamar
  email: aamar.kamal@ajku.edu.pk
  organization: Department of Mathematics, University of Azad Kashmir, Muzaffarabad, 13100, Pakistan
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  givenname: Sami Ullah
  surname: Khan
  fullname: Khan, Sami Ullah
  email: sk_iiu@yahoo.com
  organization: Department of Mathematics, Namal University, Mianwali, 42250, Pakistan
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  givenname: Memoona
  surname: Gul
  fullname: Gul, Memoona
  email: memoonagul786@gmail.com
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  givenname: Nidhal
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  email: nidhal.becheikh@nbu.edu.sa
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  givenname: Badr M.
  surname: Alshammari
  fullname: Alshammari, Badr M.
  email: bms.alshammari@uoh.edu.sa
  organization: Department of Electrical Engineering, College of Engineering, University of Ha'il, Ha'il City, 81451, Saudi Arabia
– sequence: 7
  givenname: Lioua
  surname: Kolsi
  fullname: Kolsi, Lioua
  email: lioua_enim@yahoo.fr
  organization: Department of Mechanical Engineering, College of Engineering, University of Ha'il, Ha'il City, 81451, Saudi Arabia
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Keywords Isothermal sphere
Shape features
Darcy Forchheimer flow
Tiwari and Das model
Ferromagnetic hybrid nanofluid
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Snippet Owing to the innovating thermal applications of ferromagnetic hybrid nanomaterials thermal engineering and medical sciences, scientists have studied different...
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elsevier
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Publisher
StartPage 101191
SubjectTerms Darcy Forchheimer flow
Ferromagnetic hybrid nanofluid
Isothermal sphere
Shape features
Tiwari and Das model
Title Shape features and thermal inspiration of ferromagnetic hybrid nanofluid (CoFe2O4-Fe3O4)/CH3OH over isothermal sphere with radiative effects
URI https://dx.doi.org/10.1016/j.jrras.2024.101191
Volume 17
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