Numerical solution and statistical analysis of the unsteady hybrid ferrofluid flow with heat generation subject to a rotating disk

The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equatio...

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Published inZeitschrift für angewandte Mathematik und Mechanik Vol. 103; no. 6
Main Authors Khashi'ie, Najiyah Safwa, Waini, Iskandar, Hamzah, Khairum Bin, Mukhtar, Mohd Fariduddin, Kasim, Abdul Rahman Mohd, Arifin, Norihan Md, Pop, Ioan
Format Journal Article
LanguageEnglish
Published Weinheim Wiley Subscription Services, Inc 01.06.2023
Subjects
Cobalt ferrites
Coefficient of friction
Computation
Differential equations
Ferrofluids
Fluid flow
Heat generation
Iron oxides
Magnetic properties
Mathematical models
Ordinary differential equations
Parameters
Physical properties
Response functions
Response surface methodology
Rotating disks
Skin friction
Statistical analysis
Suction
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Abstract The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equations (ODEs) by using similarity variables. The computation is done by employing bvp4c method utilizing MATLAB software. The validation of present model and the output is done by direct comparison with the established report in literature and found to be in a very good agreement. It is worth to mention the presence computation produces up to third solutions. The variations of skin friction coefficient for radial and azimuthal directions including Nusselt number for different value of magnetic parameter, suction parameter, and heat generation parameter are plotted graphically. A Response Surface Methodology (RSM) is applied to scrutinize the physical parameters that affect the response functions under a given set of assumptions. It is revealed the values of skin friction coefficients significantly affected by the magnetic and suction parameters whereas the values of thermal rate are influenced by magnetic, suction, and heat generation parameters. The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equations (ODEs) by using similarity variables. The computation is done by employing bvp4c method utilizing MATLAB software. The validation of present model and the output is done by direct comparison with the established report in literature and found to be in a very good agreement.…
AbstractList The goal of this study is to examine the significant parameter of unsteady Fe 3 O 4 ‐CoFe 2 O 4 /H 2 O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equations (ODEs) by using similarity variables. The computation is done by employing bvp4c method utilizing MATLAB software. The validation of present model and the output is done by direct comparison with the established report in literature and found to be in a very good agreement. It is worth to mention the presence computation produces up to third solutions. The variations of skin friction coefficient for radial and azimuthal directions including Nusselt number for different value of magnetic parameter, suction parameter, and heat generation parameter are plotted graphically. A Response Surface Methodology (RSM) is applied to scrutinize the physical parameters that affect the response functions under a given set of assumptions. It is revealed the values of skin friction coefficients significantly affected by the magnetic and suction parameters whereas the values of thermal rate are influenced by magnetic, suction, and heat generation parameters.
The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equations (ODEs) by using similarity variables. The computation is done by employing bvp4c method utilizing MATLAB software. The validation of present model and the output is done by direct comparison with the established report in literature and found to be in a very good agreement. It is worth to mention the presence computation produces up to third solutions. The variations of skin friction coefficient for radial and azimuthal directions including Nusselt number for different value of magnetic parameter, suction parameter, and heat generation parameter are plotted graphically. A Response Surface Methodology (RSM) is applied to scrutinize the physical parameters that affect the response functions under a given set of assumptions. It is revealed the values of skin friction coefficients significantly affected by the magnetic and suction parameters whereas the values of thermal rate are influenced by magnetic, suction, and heat generation parameters. The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equations (ODEs) by using similarity variables. The computation is done by employing bvp4c method utilizing MATLAB software. The validation of present model and the output is done by direct comparison with the established report in literature and found to be in a very good agreement.…
The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical and statistical approaches. The mathematical model respected to time‐dependent is first transformed into a set of ordinary differential equations (ODEs) by using similarity variables. The computation is done by employing bvp4c method utilizing MATLAB software. The validation of present model and the output is done by direct comparison with the established report in literature and found to be in a very good agreement. It is worth to mention the presence computation produces up to third solutions. The variations of skin friction coefficient for radial and azimuthal directions including Nusselt number for different value of magnetic parameter, suction parameter, and heat generation parameter are plotted graphically. A Response Surface Methodology (RSM) is applied to scrutinize the physical parameters that affect the response functions under a given set of assumptions. It is revealed the values of skin friction coefficients significantly affected by the magnetic and suction parameters whereas the values of thermal rate are influenced by magnetic, suction, and heat generation parameters.
Author Khashi'ie, Najiyah Safwa
Pop, Ioan
Arifin, Norihan Md
Hamzah, Khairum Bin
Mukhtar, Mohd Fariduddin
Kasim, Abdul Rahman Mohd
Waini, Iskandar
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  organization: Universiti Teknikal Malaysia Melaka, Hang Tuah Jaya
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  organization: UPM Serdang
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  givenname: Ioan
  surname: Pop
  fullname: Pop, Ioan
  organization: Babeş‐Bolyai University
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Snippet The goal of this study is to examine the significant parameter of unsteady Fe3O4‐CoFe2O4/H2O with heat generation flowing on a rotating disk using numerical...
The goal of this study is to examine the significant parameter of unsteady Fe 3 O 4 ‐CoFe 2 O 4 /H 2 O with heat generation flowing on a rotating disk using...
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SubjectTerms Cobalt ferrites
Coefficient of friction
Computation
Differential equations
Ferrofluids
Fluid flow
Heat generation
Iron oxides
Magnetic properties
Mathematical models
Ordinary differential equations
Parameters
Physical properties
Response functions
Response surface methodology
Rotating disks
Skin friction
Statistical analysis
Suction
Title Numerical solution and statistical analysis of the unsteady hybrid ferrofluid flow with heat generation subject to a rotating disk
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fzamm.202200384
https://www.proquest.com/docview/2823771155
Volume 103
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