Numerical simulation for entropy generation in peristaltic flow with single and multi-wall carbon nanotubes

Purpose The novel mechanical, chemical and thermodynamics characteristics of both single- and multi-wall carbon nanotubes (CNTs) make them a subject of much attention for the scientists and engineers from all domains. Fluid flows subject to CNTs are significant in biomedical engineering, energy stor...

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Published inInternational journal of numerical methods for heat & fluid flow Vol. 29; no. 12; pp. 4684 - 4705
Main Authors Ijaz Khan, Muhammad, Farooq, Shahid, Hayat, Tasawar, Shah, Faisal, Alsaedi, Ahmed
Format Journal Article
LanguageEnglish
Published Bradford Emerald Publishing Limited 21.11.2019
Emerald Group Publishing Limited
Subjects
Asymmetry
Automobile industry
Biomedical engineering
Carbon
Computational fluid dynamics
Computer simulation
Cooling effects
Domains
Electrons
Energy storage
Entropy
Fluid flow
Fluid mechanics
Heat conductivity
Heat flux
Heat transfer
Industry
Laboratories
Lubrication
Magnetic fields
Multi wall carbon nanotubes
Nanomaterials
Nanoparticles
Nanotechnology
Organic chemistry
Radiation
Residential energy
Reynolds number
Single wall carbon nanotubes
Solar energy
Storage systems
Temperature
Thermodynamics
Variables
Velocity
Viscosity
Viscous fluids
Single and multiple walls carbon nanotubes
SWCNTs and MWCNTs
Heat source/sink
Entropy generation
Peristaltic flow
Nonlinear radiation
Viscous dissipation
Temperature-dependent viscosity
Online AccessGet full text
ISSN0961-5539
0961-5539
1758-6585
DOI10.1108/HFF-02-2019-0148

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Abstract Purpose The novel mechanical, chemical and thermodynamics characteristics of both single- and multi-wall carbon nanotubes (CNTs) make them a subject of much attention for the scientists and engineers from all domains. Fluid flows subject to CNTs are significant in biomedical engineering, energy storage systems, domestic and industrial cooling, automobile industries and solar energy collectors, etc. Keeping such effectiveness of CNTs in mind, this paper aims to examine peristaltic flow subject to CNTs in an asymmetric tapered channel. Both single and multiple walls CNTs are considered. The viscosity of nanomaterial depends on nanoparticles volume fraction and temperature. Total entropy rate through second law of thermodynamics is calculated. Heat source/sink and nonlinear heat flux are accounted. Design/methodology/approach The complicated flow expressions are simplified through lubrication approach. The velocity, temperature and entropy expressions are numerically solved by the built-in-shooting method. Findings The solutions for entropy generation, temperature and velocity are plotted, and the influences of pertinent variables are examined. The authors noticed that entropy generation is an increasing function of the Brinkman number. Originality/value The originality of this work is to communicate peristaltic CNTs-based nanomaterial peristaltic flow of viscous fluid in an asymmetric channel. No such consideration is yet published in the literature.
AbstractList PurposeThe novel mechanical, chemical and thermodynamics characteristics of both single- and multi-wall carbon nanotubes (CNTs) make them a subject of much attention for the scientists and engineers from all domains. Fluid flows subject to CNTs are significant in biomedical engineering, energy storage systems, domestic and industrial cooling, automobile industries and solar energy collectors, etc. Keeping such effectiveness of CNTs in mind, this paper aims to examine peristaltic flow subject to CNTs in an asymmetric tapered channel. Both single and multiple walls CNTs are considered. The viscosity of nanomaterial depends on nanoparticles volume fraction and temperature. Total entropy rate through second law of thermodynamics is calculated. Heat source/sink and nonlinear heat flux are accounted.Design/methodology/approachThe complicated flow expressions are simplified through lubrication approach. The velocity, temperature and entropy expressions are numerically solved by the built-in-shooting method.FindingsThe solutions for entropy generation, temperature and velocity are plotted, and the influences of pertinent variables are examined. The authors noticed that entropy generation is an increasing function of the Brinkman number.Originality/valueThe originality of this work is to communicate peristaltic CNTs-based nanomaterial peristaltic flow of viscous fluid in an asymmetric channel. No such consideration is yet published in the literature.
Purpose The novel mechanical, chemical and thermodynamics characteristics of both single- and multi-wall carbon nanotubes (CNTs) make them a subject of much attention for the scientists and engineers from all domains. Fluid flows subject to CNTs are significant in biomedical engineering, energy storage systems, domestic and industrial cooling, automobile industries and solar energy collectors, etc. Keeping such effectiveness of CNTs in mind, this paper aims to examine peristaltic flow subject to CNTs in an asymmetric tapered channel. Both single and multiple walls CNTs are considered. The viscosity of nanomaterial depends on nanoparticles volume fraction and temperature. Total entropy rate through second law of thermodynamics is calculated. Heat source/sink and nonlinear heat flux are accounted. Design/methodology/approach The complicated flow expressions are simplified through lubrication approach. The velocity, temperature and entropy expressions are numerically solved by the built-in-shooting method. Findings The solutions for entropy generation, temperature and velocity are plotted, and the influences of pertinent variables are examined. The authors noticed that entropy generation is an increasing function of the Brinkman number. Originality/value The originality of this work is to communicate peristaltic CNTs-based nanomaterial peristaltic flow of viscous fluid in an asymmetric channel. No such consideration is yet published in the literature.
Author Shah, Faisal
Farooq, Shahid
Hayat, Tasawar
Alsaedi, Ahmed
Ijaz Khan, Muhammad
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Keywords Single and multiple walls carbon nanotubes
SWCNTs and MWCNTs
Heat source/sink
Entropy generation
Peristaltic flow
Nonlinear radiation
Viscous dissipation
Temperature-dependent viscosity
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Snippet Purpose The novel mechanical, chemical and thermodynamics characteristics of both single- and multi-wall carbon nanotubes (CNTs) make them a subject of much...
PurposeThe novel mechanical, chemical and thermodynamics characteristics of both single- and multi-wall carbon nanotubes (CNTs) make them a subject of much...
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SubjectTerms Asymmetry
Automobile industry
Biomedical engineering
Carbon
Computational fluid dynamics
Computer simulation
Cooling effects
Domains
Electrons
Energy storage
Entropy
Fluid flow
Fluid mechanics
Heat conductivity
Heat flux
Heat transfer
Industry
Laboratories
Lubrication
Magnetic fields
Multi wall carbon nanotubes
Nanomaterials
Nanoparticles
Nanotechnology
Organic chemistry
Radiation
Residential energy
Reynolds number
Single wall carbon nanotubes
Solar energy
Storage systems
Temperature
Thermodynamics
Variables
Velocity
Viscosity
Viscous fluids
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Title Numerical simulation for entropy generation in peristaltic flow with single and multi-wall carbon nanotubes
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