Non-similar analysis of radially magnetized flow and heat transfer of Reiner–Philippoff based nanofluid over a curved stretching surface with viscous dissipation

The aim of this study is to conduct a non-similar analysis of flow and heat transfer rheology of non-Newtonian fluid over a radially magnetized curved stretching surface in the presence of multiple type of nanoparticles. Reiner–Philippoff viscosity and homogenous models are incorporated in the gover...

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Published inInternational Journal of Thermofluids Vol. 22; p. 100657
Main Authors Jan, Ahmed, Nawaz, Rab, Ahmad, Adeel
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2024
Elsevier
Subjects
Magnetohydrodynamics
Non-similar analysis
Reiner–Philippoff-type fluid
Ternary hybrid nanofluid
Viscous dissipation
Reiner–Philippoff-type fluid
Non-similar analysis
Ternary hybrid nanofluid
Magnetohydrodynamics
Viscous dissipation
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Abstract The aim of this study is to conduct a non-similar analysis of flow and heat transfer rheology of non-Newtonian fluid over a radially magnetized curved stretching surface in the presence of multiple type of nanoparticles. Reiner–Philippoff viscosity and homogenous models are incorporated in the governing equation to study the effects of non-Newtonian fluid and nanoparticles respectively. Reiner–Philippoff viscosity model is a complicated non-Newtonian fluid model presenting an implicit stress-strain relationship. This fluid model has ability to present viscosity behavior in response to varying viscoelastic conditions of shear-thinning, shear-thickening as well as Newtonian fluid. The nanoparticles of nickel, molybdenum disulfide, and tantalum are used to study the enhancement of the thermal conductivity of the fluid with influences of radiative heat flux and viscous dissipation. To attain a more precise and generalized analysis of the heat transfer and flow, the governing boundary layer equations are converted to non-similar form. The local non-similarity method up to second level of truncation is employed to numerically solve the resulting non-similar PDEs via bvp4c in MATLAB tools. To examine the impact of physical factors on flow and heat transfer, numerical data are visually and tabulated displayed. It is worth mentioning that the thermal radiation, curvature parameter, and magnetic number play important role in controlling wall drag and heat flux.
AbstractList The aim of this study is to conduct a non-similar analysis of flow and heat transfer rheology of non-Newtonian fluid over a radially magnetized curved stretching surface in the presence of multiple type of nanoparticles. Reiner–Philippoff viscosity and homogenous models are incorporated in the governing equation to study the effects of non-Newtonian fluid and nanoparticles respectively. Reiner–Philippoff viscosity model is a complicated non-Newtonian fluid model presenting an implicit stress-strain relationship. This fluid model has ability to present viscosity behavior in response to varying viscoelastic conditions of shear-thinning, shear-thickening as well as Newtonian fluid. The nanoparticles of nickel, molybdenum disulfide, and tantalum are used to study the enhancement of the thermal conductivity of the fluid with influences of radiative heat flux and viscous dissipation. To attain a more precise and generalized analysis of the heat transfer and flow, the governing boundary layer equations are converted to non-similar form. The local non-similarity method up to second level of truncation is employed to numerically solve the resulting non-similar PDEs via bvp4c in MATLAB tools. To examine the impact of physical factors on flow and heat transfer, numerical data are visually and tabulated displayed. It is worth mentioning that the thermal radiation, curvature parameter, and magnetic number play important role in controlling wall drag and heat flux.
ArticleNumber 100657
Author Ahmad, Adeel
Jan, Ahmed
Nawaz, Rab
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  givenname: Ahmed
  surname: Jan
  fullname: Jan, Ahmed
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  givenname: Adeel
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  surname: Ahmad
  fullname: Ahmad, Adeel
  email: adeelahmed@comsats.edu.pk
  organization: Department of Mathematics, COMSATS University Islamabad, Park Road Chak Shahzad, Islamabad, 44000, Pakistan
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Keywords Reiner–Philippoff-type fluid
Non-similar analysis
Ternary hybrid nanofluid
Magnetohydrodynamics
Viscous dissipation
Language English
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Snippet The aim of this study is to conduct a non-similar analysis of flow and heat transfer rheology of non-Newtonian fluid over a radially magnetized curved...
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SubjectTerms Magnetohydrodynamics
Non-similar analysis
Reiner–Philippoff-type fluid
Ternary hybrid nanofluid
Viscous dissipation
Title Non-similar analysis of radially magnetized flow and heat transfer of Reiner–Philippoff based nanofluid over a curved stretching surface with viscous dissipation
URI https://dx.doi.org/10.1016/j.ijft.2024.100657
https://doaj.org/article/596c4586c5e944d79ef0155b5c950f7f
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