Inspection of Lorentz and Coriolis Forces in Hybrid Fluid Flow Between Two Surfaces with Entropy Optimization

M. Ijaz Khan; Sohail A. Khan; T. Hayat; A. Alsaedi

doi:10.1007/s40995-019-00798-y

Inspection of Lorentz and Coriolis Forces in Hybrid Fluid Flow Between Two Surfaces with Entropy Optimization

M. Ijaz Khan
, Sohail A. Khan
, T. Hayat
, A. Alsaedi

Quaid-I-Azam University
Faculty of Sciences, King Abdulaziz University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Entropy optimization of magnetohydrodynamic flow of hybrid nanomaterial in a rotating system is addressed. Fluid between two plates is discussed. Dissipation, Joule heating and radiation in energy expression are studied. The nonlinear partial differential equation is converted into ordinary differential equation with the help of appropriate variables. Newton built-in shooting technique is employed. Novel aspects of entropy optimization, velocity, Bejan number and temperature have been graphically analyzed. Surface drag force and gradient of temperature are examined for various influential parameters. Velocity and temperature have opposite behaviors for magnetic parameter. Entropy optimization and Bejan number for radiation parameter have a similar impact in a qualitative sense.

Original language	English
Pages (from-to)	273-282
Number of pages	10
Journal	Iranian Journal of Science and Technology, Transaction A: Science
Volume	44
Issue number	1
DOIs	https://doi.org/10.1007/s40995-019-00798-y
State	Published - 1 Feb 2020
Externally published	Yes

Keywords

Entropy generation
Hybrid nanofluid
Joule heating
Nanofluid
Thermal radiation
Viscous dissipation

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10.1007/s40995-019-00798-y

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title = "Inspection of Lorentz and Coriolis Forces in Hybrid Fluid Flow Between Two Surfaces with Entropy Optimization",

abstract = "Entropy optimization of magnetohydrodynamic flow of hybrid nanomaterial in a rotating system is addressed. Fluid between two plates is discussed. Dissipation, Joule heating and radiation in energy expression are studied. The nonlinear partial differential equation is converted into ordinary differential equation with the help of appropriate variables. Newton built-in shooting technique is employed. Novel aspects of entropy optimization, velocity, Bejan number and temperature have been graphically analyzed. Surface drag force and gradient of temperature are examined for various influential parameters. Velocity and temperature have opposite behaviors for magnetic parameter. Entropy optimization and Bejan number for radiation parameter have a similar impact in a qualitative sense.",

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AU - Khan, M. Ijaz

AU - Khan, Sohail A.

AU - Hayat, T.

AU - Alsaedi, A.

PY - 2020/2/1

Y1 - 2020/2/1

N2 - Entropy optimization of magnetohydrodynamic flow of hybrid nanomaterial in a rotating system is addressed. Fluid between two plates is discussed. Dissipation, Joule heating and radiation in energy expression are studied. The nonlinear partial differential equation is converted into ordinary differential equation with the help of appropriate variables. Newton built-in shooting technique is employed. Novel aspects of entropy optimization, velocity, Bejan number and temperature have been graphically analyzed. Surface drag force and gradient of temperature are examined for various influential parameters. Velocity and temperature have opposite behaviors for magnetic parameter. Entropy optimization and Bejan number for radiation parameter have a similar impact in a qualitative sense.

AB - Entropy optimization of magnetohydrodynamic flow of hybrid nanomaterial in a rotating system is addressed. Fluid between two plates is discussed. Dissipation, Joule heating and radiation in energy expression are studied. The nonlinear partial differential equation is converted into ordinary differential equation with the help of appropriate variables. Newton built-in shooting technique is employed. Novel aspects of entropy optimization, velocity, Bejan number and temperature have been graphically analyzed. Surface drag force and gradient of temperature are examined for various influential parameters. Velocity and temperature have opposite behaviors for magnetic parameter. Entropy optimization and Bejan number for radiation parameter have a similar impact in a qualitative sense.

KW - Entropy generation

KW - Hybrid nanofluid

KW - Joule heating

KW - Nanofluid

KW - Thermal radiation

KW - Viscous dissipation

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JO - Iranian Journal of Science and Technology, Transaction A: Science

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Inspection of Lorentz and Coriolis Forces in Hybrid Fluid Flow Between Two Surfaces with Entropy Optimization

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Keywords

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