Insight into the dynamics of fluid conveying tiny particles over a rotating surface subject to Cattaneo–Christov heat transfer, Coriolis force, and Arrhenius activation energy

•Unsteady rotating flow of nanofluid persuaded by Cattaneo–Christov diffusion is modeled.•Buongiorno model for nanoparticles is taken into account for modeling.•Variational finite element technique is implemented to solve the non-linear systems of partial differential equations.•Chemical reaction wi...

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Published inComputers & mathematics with applications (1987) Vol. 93; pp. 130 - 143
Main Authors Ali, Bagh, Nie, Yufeng, Hussain, Sajjad, Habib, Danial, Abdal, Sohaib
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.07.2021
Elsevier BV
Subjects
Brownian motion
Cattaneo–Christov heat flux model
Conveying
Coriolis force
Finite element method
Fluid flow
Heat
Heat exchangers
Magnetic fields
Nanofluid
Nanofluids
Nanotechnology
Parameters
Rotating frame
Thermal conductivity
Thermal relaxation
Thermophoresis
Unsteady flow
Variable viscosity
Viscosity
Vortices
Finite element method
Variable viscosity
Unsteady flow
Cattaneo–Christov heat flux model
Nanofluid
Rotating frame
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Abstract •Unsteady rotating flow of nanofluid persuaded by Cattaneo–Christov diffusion is modeled.•Buongiorno model for nanoparticles is taken into account for modeling.•Variational finite element technique is implemented to solve the non-linear systems of partial differential equations.•Chemical reaction with novel aspect of activation energy is accounted.•Skin friction attains higher values for variable viscosity flow than that for constant viscosity flow. This article addressees the dynamics of fluid conveying tinny particles and Coriolis force effects on transient rotational flow toward a continuously stretching sheet. Tiny particles are considered due to their unusual characteristics like extraordinary thermal conductivity, which are significant in advanced nanotechnology, heat exchangers, material sciences, and electronics. The main objective of this comprehensive study is the enhancement of heat transportation. The governing equations in three dimensional form are transmuted in to dimensionless two-dimensional form with implementation of suitable scaling transformations. The variational finite element procedure is harnessed and coded in Matlab script to obtain numerical solution of the coupled non-linear partial differential problem. It is observed that higher inputs of the parameters for magnetic force and rotational fluid cause to slow the primary as well as secondary velocities, but the thermophoresis and Brownian motion raise the temperature. However, thermal relaxation parameter reduces the nanofluid temperature. The velocities for viscosity constant case are faster than that for the variable viscosity, but temperature and species concentration depict opposite behavior.
AbstractList This article addressees the dynamics of fluid conveying tinny particles and Coriolis force effects on transient rotational flow toward a continuously stretching sheet. Tiny particles are considered due to their unusual characteristics like extraordinary thermal conductivity, which are significant in advanced nanotechnology, heat exchangers, material sciences, and electronics. The main objective of this comprehensive study is the enhancement of heat transportation. The governing equations in three dimensional form are transmuted in to dimensionless two-dimensional form with implementation of suitable scaling transformations. The variational finite element procedure is harnessed and coded in Matlab script to obtain numerical solution of the coupled non-linear partial differential problem. It is observed that higher inputs of the parameters for magnetic force and rotational fluid cause to slow the primary as well as secondary velocities, but the thermophoresis and Brownian motion raise the temperature. However, thermal relaxation parameter reduces the nanofluid temperature. The velocities for viscosity constant case are faster than that for the variable viscosity, but temperature and species concentration depict opposite behavior.
•Unsteady rotating flow of nanofluid persuaded by Cattaneo–Christov diffusion is modeled.•Buongiorno model for nanoparticles is taken into account for modeling.•Variational finite element technique is implemented to solve the non-linear systems of partial differential equations.•Chemical reaction with novel aspect of activation energy is accounted.•Skin friction attains higher values for variable viscosity flow than that for constant viscosity flow. This article addressees the dynamics of fluid conveying tinny particles and Coriolis force effects on transient rotational flow toward a continuously stretching sheet. Tiny particles are considered due to their unusual characteristics like extraordinary thermal conductivity, which are significant in advanced nanotechnology, heat exchangers, material sciences, and electronics. The main objective of this comprehensive study is the enhancement of heat transportation. The governing equations in three dimensional form are transmuted in to dimensionless two-dimensional form with implementation of suitable scaling transformations. The variational finite element procedure is harnessed and coded in Matlab script to obtain numerical solution of the coupled non-linear partial differential problem. It is observed that higher inputs of the parameters for magnetic force and rotational fluid cause to slow the primary as well as secondary velocities, but the thermophoresis and Brownian motion raise the temperature. However, thermal relaxation parameter reduces the nanofluid temperature. The velocities for viscosity constant case are faster than that for the variable viscosity, but temperature and species concentration depict opposite behavior.
Author Abdal, Sohaib
Nie, Yufeng
Ali, Bagh
Hussain, Sajjad
Habib, Danial
Author_xml – sequence: 1
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  fullname: Ali, Bagh
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– sequence: 2
  givenname: Yufeng
  surname: Nie
  fullname: Nie, Yufeng
  email: yfnie@nwpu.edu.cn
  organization: Department of Applied Mathematics, School of Science, Northwestern Polytechnical University, 127 West Youyi Road, Xian, 710072, China
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  givenname: Sajjad
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  givenname: Danial
  surname: Habib
  fullname: Habib, Danial
  organization: Department of Mathematics, Government College University, Fasilabad Layyah Campus, Pakistan
– sequence: 5
  givenname: Sohaib
  surname: Abdal
  fullname: Abdal, Sohaib
  organization: School of Mathematics, Northwest University, No. 229 North Taibai Avenue, Xi'an 7100069, China
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Keywords Finite element method
Variable viscosity
Unsteady flow
Cattaneo–Christov heat flux model
Nanofluid
Rotating frame
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Snippet •Unsteady rotating flow of nanofluid persuaded by Cattaneo–Christov diffusion is modeled.•Buongiorno model for nanoparticles is taken into account for...
This article addressees the dynamics of fluid conveying tinny particles and Coriolis force effects on transient rotational flow toward a continuously...
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SubjectTerms Brownian motion
Cattaneo–Christov heat flux model
Conveying
Coriolis force
Finite element method
Fluid flow
Heat
Heat exchangers
Magnetic fields
Nanofluid
Nanofluids
Nanotechnology
Parameters
Rotating frame
Thermal conductivity
Thermal relaxation
Thermophoresis
Unsteady flow
Variable viscosity
Viscosity
Vortices
Title Insight into the dynamics of fluid conveying tiny particles over a rotating surface subject to Cattaneo–Christov heat transfer, Coriolis force, and Arrhenius activation energy
URI https://dx.doi.org/10.1016/j.camwa.2021.04.006
https://www.proquest.com/docview/2544913957
Volume 93
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