Numerical treatment of melting heat transfer and entropy generation in stagnation point flow of hybrid nanomaterials (SWCNT-MWCNT/engine oil)

Ikram Ullah; Tasawar Hayat; Ahmed Alsaedi; Habib M. Fardoun

doi:10.1142/S0217984921501025

Numerical treatment of melting heat transfer and entropy generation in stagnation point flow of hybrid nanomaterials (SWCNT-MWCNT/engine oil)

Ikram Ullah
, Tasawar Hayat
, Ahmed Alsaedi
, Habib M. Fardoun

Quaid-I-Azam University
National University of Computer and Emerging Science
Faculty of Sciences, King Abdulaziz University
King Abdulaziz University

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

23 Scopus citations

Abstract

Present attempt inspects the entropy analysis and melting effect in flow of hybrid nanomaterials consisting of CNTs nanoparticles and engine oil Flow is by a stretching cylinder. Formulation is accountable to the viscous dissipation, velocity slip and thermal radiation impacts. In order to estimate the disorder within the thermo-physical frame, second-order analysis has been used. The governing system with the imposed boundary condition is dimensionless via proper variables. Numerical outcomes are expressed graphically and analyzed. Comparison of hybrid nanomaterial, nanomaterials and regular liquid is expressed graphically. Outcomes indicate that the hybrid nanomaterials have great impact throughout the inspection than the ordinary nanomaterials.

Original language	English
Article number	2150102
Journal	Modern Physics Letters B
Volume	35
Issue number	6
DOIs	https://doi.org/10.1142/S0217984921501025
State	Published - 28 Feb 2021
Externally published	Yes

Keywords

CNTs hybrid nanomaterials
Entropy generation
melting heat transfer
slip effect
thermal radiation

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10.1142/S0217984921501025

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title = "Numerical treatment of melting heat transfer and entropy generation in stagnation point flow of hybrid nanomaterials (SWCNT-MWCNT/engine oil)",

abstract = "Present attempt inspects the entropy analysis and melting effect in flow of hybrid nanomaterials consisting of CNTs nanoparticles and engine oil Flow is by a stretching cylinder. Formulation is accountable to the viscous dissipation, velocity slip and thermal radiation impacts. In order to estimate the disorder within the thermo-physical frame, second-order analysis has been used. The governing system with the imposed boundary condition is dimensionless via proper variables. Numerical outcomes are expressed graphically and analyzed. Comparison of hybrid nanomaterial, nanomaterials and regular liquid is expressed graphically. Outcomes indicate that the hybrid nanomaterials have great impact throughout the inspection than the ordinary nanomaterials.",

keywords = "CNTs hybrid nanomaterials, Entropy generation, melting heat transfer, slip effect, thermal radiation",

author = "Ikram Ullah and Tasawar Hayat and Ahmed Alsaedi and Fardoun, \{Habib M.\}",

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AU - Ullah, Ikram

AU - Hayat, Tasawar

AU - Alsaedi, Ahmed

AU - Fardoun, Habib M.

PY - 2021/2/28

Y1 - 2021/2/28

N2 - Present attempt inspects the entropy analysis and melting effect in flow of hybrid nanomaterials consisting of CNTs nanoparticles and engine oil Flow is by a stretching cylinder. Formulation is accountable to the viscous dissipation, velocity slip and thermal radiation impacts. In order to estimate the disorder within the thermo-physical frame, second-order analysis has been used. The governing system with the imposed boundary condition is dimensionless via proper variables. Numerical outcomes are expressed graphically and analyzed. Comparison of hybrid nanomaterial, nanomaterials and regular liquid is expressed graphically. Outcomes indicate that the hybrid nanomaterials have great impact throughout the inspection than the ordinary nanomaterials.

AB - Present attempt inspects the entropy analysis and melting effect in flow of hybrid nanomaterials consisting of CNTs nanoparticles and engine oil Flow is by a stretching cylinder. Formulation is accountable to the viscous dissipation, velocity slip and thermal radiation impacts. In order to estimate the disorder within the thermo-physical frame, second-order analysis has been used. The governing system with the imposed boundary condition is dimensionless via proper variables. Numerical outcomes are expressed graphically and analyzed. Comparison of hybrid nanomaterial, nanomaterials and regular liquid is expressed graphically. Outcomes indicate that the hybrid nanomaterials have great impact throughout the inspection than the ordinary nanomaterials.

KW - CNTs hybrid nanomaterials

KW - Entropy generation

KW - melting heat transfer

KW - slip effect

KW - thermal radiation

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DO - 10.1142/S0217984921501025

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JO - Modern Physics Letters B

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IS - 6

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ER -

Numerical treatment of melting heat transfer and entropy generation in stagnation point flow of hybrid nanomaterials (SWCNT-MWCNT/engine oil)

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Keywords

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