Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model

Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model

The present investigation signifies the Second grade nanofluid stream with porous media, viscous dissipation, joule heating and thermal radiation effects over a moving flat horizontal surface with entropy analysis. This study presents a novel idea regarding the implementation of single phase (Tiwari...

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Main Authors: Wasim Jamshed, S.R. Mishra, P.K. Pattnaik, Kottakkaran Sooppy Nisar, S. Suriya Uma Devi, M. Prakash, Faisal Shahzad, Majid Hussain, V. Vijayakumar
Format: Article
Language:English
Published: Elsevier 2021-10-01
Series:Case Studies in Thermal Engineering
Subjects:
Second grade nanofluid
Viscous dissipation
Joule heating
Radiative heat flux
Entropy generation
Online Access:http://www.sciencedirect.com/science/article/pii/S2214157X21004548
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spelling doaj-0cfc66d0487c4c7387f4ff84ec2bf90b2021-09-03T04:45:29ZengElsevierCase Studies in Thermal Engineering2214-157X2021-10-0127101291Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das modelWasim Jamshed0S.R. Mishra1P.K. Pattnaik2Kottakkaran Sooppy Nisar3S. Suriya Uma Devi4M. Prakash5Faisal Shahzad6Majid Hussain7V. Vijayakumar8Department of Mathematics, Capital University of Science and Technology (CUST), 44000, PakistanDepartment of Mathematics, Siksha O Anusandhan Deemed to be University, Khandagiri, Bhubaneswar, 751030, Odisha, IndiaDepartment of Mathematics, College of Engineering and Technology, Bhubaneswar, Odisha, 751029, IndiaDepartment of Mathematics, College of Arts and Sciences, Prince Sattam bin Abdulaziz University, Wadi Aldawaser, 11991, Saudi Arabia; Corresponding author.Department of Mathematics, KPR Institute of Engineering and Technology, Coimbatore, IndiaDepartment of Mathematics, Dr. N.G.P Institute of Technology, Coimbatore, IndiaDepartment of Mathematics, Capital University of Science and Technology (CUST), 44000, PakistanDepartment of Mathematics, University of Engineering and Technology Lahore, 54890, PakistanDepartment of Mathematics, School of Advanced Sciences, Vellore Institute of Technology, Vellore, IndiaThe present investigation signifies the Second grade nanofluid stream with porous media, viscous dissipation, joule heating and thermal radiation effects over a moving flat horizontal surface with entropy analysis. This study presents a novel idea regarding the implementation of single phase (Tiwari and Das) model on Second grade fluid model by considering Engine Oil (EO) as a base fluid. Single phase model considers nanoparticles volume fraction for heat transfer enhancement instead of the Buongiorno model which heavily relies on thermophoresis and Brownian diffusion effects for heat transfer analysis. The velocity slip and convective slip boundary conditions have been employed at the surface of the sheet. By utilizing the suitable transformations, the modeled PDEs (partial-differential equations) are renewed in ODEs (ordinary-differential equations) and treated these equations analytically with the help of Variation Iteration Method (VIM). Two different classes of nanofluids, Copper-engine oil (Cu−EO) and Titanium oxide-engine oil (TiO2−EO) have been taken into considering for our analysis. The behavior of surface drag coefficient and Nusselt number for the varied values of various sundry parameters is designed via tables. Our findings show that an increase in the Reynolds and Brinkman numbers increased the overall entropy of the system. Moreover, the stricking outcome of the current study is that due to the heavier density of the Cu nanoparticle the inclusion of nanoparticle volume fraction retards the flow profile and though Cu is a good conductor of heat it boosts up the fluid temperature throughout the domain.http://www.sciencedirect.com/science/article/pii/S2214157X21004548Second grade nanofluidViscous dissipationJoule heatingRadiative heat fluxEntropy generation
collection DOAJ
language English
format Article
sources DOAJ
author Wasim Jamshed
S.R. Mishra
P.K. Pattnaik
Kottakkaran Sooppy Nisar
S. Suriya Uma Devi
M. Prakash
Faisal Shahzad
Majid Hussain
V. Vijayakumar
spellingShingle Wasim Jamshed
S.R. Mishra
P.K. Pattnaik
Kottakkaran Sooppy Nisar
S. Suriya Uma Devi
M. Prakash
Faisal Shahzad
Majid Hussain
V. Vijayakumar
Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model
Case Studies in Thermal Engineering
Second grade nanofluid
Viscous dissipation
Joule heating
Radiative heat flux
Entropy generation
author_facet Wasim Jamshed
S.R. Mishra
P.K. Pattnaik
Kottakkaran Sooppy Nisar
S. Suriya Uma Devi
M. Prakash
Faisal Shahzad
Majid Hussain
V. Vijayakumar
author_sort Wasim Jamshed
title Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model
title_short Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model
title_full Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model
title_fullStr Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model
title_full_unstemmed Features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: A Tiwari and Das model
title_sort features of entropy optimization on viscous second grade nanofluid streamed with thermal radiation: a tiwari and das model
publisher Elsevier
series Case Studies in Thermal Engineering
issn 2214-157X
publishDate 2021-10-01
description The present investigation signifies the Second grade nanofluid stream with porous media, viscous dissipation, joule heating and thermal radiation effects over a moving flat horizontal surface with entropy analysis. This study presents a novel idea regarding the implementation of single phase (Tiwari and Das) model on Second grade fluid model by considering Engine Oil (EO) as a base fluid. Single phase model considers nanoparticles volume fraction for heat transfer enhancement instead of the Buongiorno model which heavily relies on thermophoresis and Brownian diffusion effects for heat transfer analysis. The velocity slip and convective slip boundary conditions have been employed at the surface of the sheet. By utilizing the suitable transformations, the modeled PDEs (partial-differential equations) are renewed in ODEs (ordinary-differential equations) and treated these equations analytically with the help of Variation Iteration Method (VIM). Two different classes of nanofluids, Copper-engine oil (Cu−EO) and Titanium oxide-engine oil (TiO2−EO) have been taken into considering for our analysis. The behavior of surface drag coefficient and Nusselt number for the varied values of various sundry parameters is designed via tables. Our findings show that an increase in the Reynolds and Brinkman numbers increased the overall entropy of the system. Moreover, the stricking outcome of the current study is that due to the heavier density of the Cu nanoparticle the inclusion of nanoparticle volume fraction retards the flow profile and though Cu is a good conductor of heat it boosts up the fluid temperature throughout the domain.
topic Second grade nanofluid
Viscous dissipation
Joule heating
Radiative heat flux
Entropy generation
url http://www.sciencedirect.com/science/article/pii/S2214157X21004548
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