Entropy generation analysis for convective flow of aqua Ag-CuO hybrid nanofluid adjacent to a warmed down-pointing rotating vertical cone

Purpose This paper aims to study numerically the flow, heat transfer, and entropy generation of aqueous copper oxide-silver hybrid nanofluid over a down-pointing rotating vertical cone, with linear surface temperature (LST) and linear surface heat flux (LSHF), in the presence of a cross-magnetic fie...

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Published in	International journal of numerical methods for heat & fluid flow Vol. 34; no. 2; pp. 878 - 900
Main Authors	Berrehal, Hamza, Karami, Roshanak, Dinarvand, Saeed, Pop, Ioan, Chamkha, Ali
Format	Journal Article
Language	English
Published	Bradford Emerald Publishing Limited 23.02.2024 Emerald Group Publishing Limited
Subjects	Algorithms Analysis Boundary conditions Boundary layers Convective flow Copper Copper oxides Entropy Fluid flow Friction Heat conductivity Heat flux Heat transfer Hydrodynamics Industrial applications Investigations Land surface temperature Magnetic field Magnetic fields Mass Methodology Methods Nanofluids Nanoparticles Nusselt number Physical properties Reynolds number Rotation Runge-Kutta method Silver Skin friction Steel industry Surface temperature Thermal boundary layer Velocity Viscosity Down-pointing rotating vertical cone Entropy generation analysis Bejan number Mass-based scheme Hybrid nanofluid
Online Access	Get full text
ISSN	0961-5539 0961-5539 1758-6585
DOI	10.1108/HFF-05-2023-0236

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Abstract	Purpose This paper aims to study numerically the flow, heat transfer, and entropy generation of aqueous copper oxide-silver hybrid nanofluid over a down-pointing rotating vertical cone, with linear surface temperature (LST) and linear surface heat flux (LSHF), in the presence of a cross-magnetic field. In industrial applications, such as oil and gas plants, food industries, steel factories and nuclear packages, the real bodies may contain nonorthogonal walls and variable cross-section three-dimensional forms which this issue can clarify the importance of selective geometry in the present research. Design/methodology/approach The mass-based scheme is accomplished for the simulation, and the entropy generation and Bejan number will be analyzed in conjunction with the aforementioned model. It has been hypothesized that two types of boundary conditions (LST and LSHF) as well as five nanoparticle shapes (sphere, brick, cylinder, platelet and disk) present a collection of crucial results. The overseeing PDEs are changed over completely to the dimensionless ODEs, and these are solved by Runge–Kutta–Fehlberg approach combined with a shooting methodology for certain values of physical parameters. Findings Subsequent to the fantastic compromise of the computational outcomes with past reports, the outcomes are introduced to conduct the investigation of the hydrodynamics/thermal boundary layers, the skin friction and the Nusselt number, as well as entropy generation and Bejan number. A state of hybrid nanofluid, which exhibits a remarkable increase in heat transfer in comparison to the states of mono-nanofluid and regular fluid, has been found to have the highest Nusselt number; however, the skin friction values should always be taken into account and managed. The entropy generation improves with the mass of the second nanoparticle (silver), while the opposite pattern is exhibited for the Bejan number. Furthermore, the lowest value of entropy generation number belongs to the cylindrical shape of nanoparticles in the LST case. In final, a significant accomplishment of the current study is the accurate output of the mass-based scheme for an entropy analysis problem. Originality/value To the best of the authors’ knowledge, for the first time, in this study, a new development of natural convective flow of a hybrid nanofluid about the warmed (LST and LSHF) and down-pointing rotating vertical cone by the mass-based algorithm has been presented. The applied methodology considers the masses of base fluid (water) and nanoparticles (Ag and CuO) as an alternative to the first and second nanoparticles volume fraction. Indeed, the combination use of the Tiwari–Das nanofluid model and the mass-based hybridity algorithm for the entropy generation analysis can be the main novelty of this work.
AbstractList	Purpose This paper aims to study numerically the flow, heat transfer, and entropy generation of aqueous copper oxide-silver hybrid nanofluid over a down-pointing rotating vertical cone, with linear surface temperature (LST) and linear surface heat flux (LSHF), in the presence of a cross-magnetic field. In industrial applications, such as oil and gas plants, food industries, steel factories and nuclear packages, the real bodies may contain nonorthogonal walls and variable cross-section three-dimensional forms which this issue can clarify the importance of selective geometry in the present research. Design/methodology/approach The mass-based scheme is accomplished for the simulation, and the entropy generation and Bejan number will be analyzed in conjunction with the aforementioned model. It has been hypothesized that two types of boundary conditions (LST and LSHF) as well as five nanoparticle shapes (sphere, brick, cylinder, platelet and disk) present a collection of crucial results. The overseeing PDEs are changed over completely to the dimensionless ODEs, and these are solved by Runge–Kutta–Fehlberg approach combined with a shooting methodology for certain values of physical parameters. Findings Subsequent to the fantastic compromise of the computational outcomes with past reports, the outcomes are introduced to conduct the investigation of the hydrodynamics/thermal boundary layers, the skin friction and the Nusselt number, as well as entropy generation and Bejan number. A state of hybrid nanofluid, which exhibits a remarkable increase in heat transfer in comparison to the states of mono-nanofluid and regular fluid, has been found to have the highest Nusselt number; however, the skin friction values should always be taken into account and managed. The entropy generation improves with the mass of the second nanoparticle (silver), while the opposite pattern is exhibited for the Bejan number. Furthermore, the lowest value of entropy generation number belongs to the cylindrical shape of nanoparticles in the LST case. In final, a significant accomplishment of the current study is the accurate output of the mass-based scheme for an entropy analysis problem. Originality/value To the best of the authors’ knowledge, for the first time, in this study, a new development of natural convective flow of a hybrid nanofluid about the warmed (LST and LSHF) and down-pointing rotating vertical cone by the mass-based algorithm has been presented. The applied methodology considers the masses of base fluid (water) and nanoparticles (Ag and CuO) as an alternative to the first and second nanoparticles volume fraction. Indeed, the combination use of the Tiwari–Das nanofluid model and the mass-based hybridity algorithm for the entropy generation analysis can be the main novelty of this work. PurposeThis paper aims to study numerically the flow, heat transfer, and entropy generation of aqueous copper oxide-silver hybrid nanofluid over a down-pointing rotating vertical cone, with linear surface temperature (LST) and linear surface heat flux (LSHF), in the presence of a cross-magnetic field. In industrial applications, such as oil and gas plants, food industries, steel factories and nuclear packages, the real bodies may contain nonorthogonal walls and variable cross-section three-dimensional forms which this issue can clarify the importance of selective geometry in the present research.Design/methodology/approachThe mass-based scheme is accomplished for the simulation, and the entropy generation and Bejan number will be analyzed in conjunction with the aforementioned model. It has been hypothesized that two types of boundary conditions (LST and LSHF) as well as five nanoparticle shapes (sphere, brick, cylinder, platelet and disk) present a collection of crucial results. The overseeing PDEs are changed over completely to the dimensionless ODEs, and these are solved by Runge–Kutta–Fehlberg approach combined with a shooting methodology for certain values of physical parameters.FindingsSubsequent to the fantastic compromise of the computational outcomes with past reports, the outcomes are introduced to conduct the investigation of the hydrodynamics/thermal boundary layers, the skin friction and the Nusselt number, as well as entropy generation and Bejan number. A state of hybrid nanofluid, which exhibits a remarkable increase in heat transfer in comparison to the states of mono-nanofluid and regular fluid, has been found to have the highest Nusselt number; however, the skin friction values should always be taken into account and managed. The entropy generation improves with the mass of the second nanoparticle (silver), while the opposite pattern is exhibited for the Bejan number. Furthermore, the lowest value of entropy generation number belongs to the cylindrical shape of nanoparticles in the LST case. In final, a significant accomplishment of the current study is the accurate output of the mass-based scheme for an entropy analysis problem.Originality/valueTo the best of the authors’ knowledge, for the first time, in this study, a new development of natural convective flow of a hybrid nanofluid about the warmed (LST and LSHF) and down-pointing rotating vertical cone by the mass-based algorithm has been presented. The applied methodology considers the masses of base fluid (water) and nanoparticles (Ag and CuO) as an alternative to the first and second nanoparticles volume fraction. Indeed, the combination use of the Tiwari–Das nanofluid model and the mass-based hybridity algorithm for the entropy generation analysis can be the main novelty of this work.
Author	Karami, Roshanak Pop, Ioan Chamkha, Ali Berrehal, Hamza Dinarvand, Saeed
Author_xml	– sequence: 1 givenname: Hamza surname: Berrehal fullname: Berrehal, Hamza email: hamza.berrehal@gmail.com – sequence: 2 givenname: Roshanak surname: Karami fullname: Karami, Roshanak email: roshan.km@yahoo.com – sequence: 3 givenname: Saeed surname: Dinarvand fullname: Dinarvand, Saeed email: saeed_dinarvand@yahoo.com – sequence: 4 givenname: Ioan surname: Pop fullname: Pop, Ioan email: ipop@math.ubbcluj.ro – sequence: 5 givenname: Ali surname: Chamkha fullname: Chamkha, Ali email: achamkha@yahoo.com
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Cites_doi	10.1016/j.physleta.2017.07.028 10.1108/HFF-11-2020-0694 10.1002/er.749 10.1016/j.ijheatmasstransfer.2013.06.010 10.1007/s13369-013-0792-x 10.1093/jcde/qwab076 10.1007/s10973-020-10098-y 10.1115/1.2835429 10.2478/s11534-008-0145-7 10.1016/j.rser.2017.05.221 10.1108/HFF-05-2020-0301 10.1139/tcsme-2002-0008 10.1016/j.jppr.2018.11.004 10.1108/HFF-10-2019-0739 10.1063/1.3155999 10.1108/HFF-05-2018-0212 10.1016/0029-5493(93)90259-C 10.3390/coatings11121490 10.1016/j.energy.2012.06.009 10.1016/j.apt.2016.12.016 10.1016/j.rinp.2017.06.034 10.21203/rs.3.rs-1444567/v1 10.1007/s00231-002-0400-1 10.1115/1.3451063 10.1177/0954408913501505 10.1108/HFF-01-2021-0042 10.1016/S1001-6058(16)60620-0 10.1016/j.amc.2005.11.099 10.1016/j.ijthermalsci.2004.06.005 10.1108/HFF-09-2021-0637 10.1007/s00231-004-0584-7 10.1108/HFF-02-2020-0086 10.1016/j.cjph.2022.04.017 10.1080/01430750.2022.2056916 10.1108/HFF-05-2019-0434 10.1515/ijnsns-2016-0037
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Keywords	Down-pointing rotating vertical cone Entropy generation analysis Bejan number Mass-based scheme Hybrid nanofluid
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Snippet	Purpose This paper aims to study numerically the flow, heat transfer, and entropy generation of aqueous copper oxide-silver hybrid nanofluid over a... PurposeThis paper aims to study numerically the flow, heat transfer, and entropy generation of aqueous copper oxide-silver hybrid nanofluid over a...
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SubjectTerms	Algorithms Analysis Boundary conditions Boundary layers Convective flow Copper Copper oxides Entropy Fluid flow Friction Heat conductivity Heat flux Heat transfer Hydrodynamics Industrial applications Investigations Land surface temperature Magnetic field Magnetic fields Mass Methodology Methods Nanofluids Nanoparticles Nusselt number Physical properties Reynolds number Rotation Runge-Kutta method Silver Skin friction Steel industry Surface temperature Thermal boundary layer Velocity Viscosity
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Title	Entropy generation analysis for convective flow of aqua Ag-CuO hybrid nanofluid adjacent to a warmed down-pointing rotating vertical cone
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