Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge
The current analysis discusses Jeffery nanofluid’s thermally radiative flow with convection over a stretching wedge. It takes into account the Brownian movement and thermophoresis of the Buongiorno nanofluid model. The guiding partial differential equations (PDEs) are modified by introducing the sym...
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MDPI AG
2023-02-01
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author | Yogesh Dadhich Nazek Alessa Reema Jain Abdul Razak Kaladgi Karuppusamy Loganathan V. Radhika Devi |
author_facet | Yogesh Dadhich Nazek Alessa Reema Jain Abdul Razak Kaladgi Karuppusamy Loganathan V. Radhika Devi |
author_sort | Yogesh Dadhich |
collection | DOAJ |
description | The current analysis discusses Jeffery nanofluid’s thermally radiative flow with convection over a stretching wedge. It takes into account the Brownian movement and thermophoresis of the Buongiorno nanofluid model. The guiding partial differential equations (PDEs) are modified by introducing the symmetry variables, leading to non-dimensional ordinary differential equations (ODEs). To solve the generated ODEs, the MATLAB function bvp4c is implemented. Examined are the impacts of different flow variables on the rate of transmission of heat transfer (HT), temperature, mass, velocity, and nanoparticle concentration (NC). It has been noted that the velocity and mass transfer were increased by the pressure gradient factor. Additionally, the thermal boundary layer (TBL) and nanoparticle concentration are reduced by the mixed convection (MC) factor. In order to validate the present research, the derived numerical results were compared to previous findings from the literature while taking into account the specific circumstances. It was found that there was good agreement in both sets of data. |
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language | English |
last_indexed | 2024-03-11T08:04:37Z |
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spelling | doaj.art-29d1f0ba63ea4e80b9468b766f0a36602023-11-16T23:32:37ZengMDPI AGSymmetry2073-89942023-02-0115238510.3390/sym15020385Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a WedgeYogesh Dadhich0Nazek Alessa1Reema Jain2Abdul Razak Kaladgi3Karuppusamy Loganathan4V. Radhika Devi5Department of Mathematics and Statistics, Manipal University Jaipur, Jaipur 303007, Rajasthan, IndiaDepartment of Mathematical Sciences, College of Sciences, Princess Nourah Bint Abdulrahman University, P.O. Box 84428, Riyadh 11671, Saudi ArabiaDepartment of Mathematics and Statistics, Manipal University Jaipur, Jaipur 303007, Rajasthan, IndiaDepartment of Mechanical Engineering, P. A. College of Engineering (Affiliated to Visvesvaraya Technological University, Belagavi), Mangaluru 574153, Karnataka, IndiaDepartment of Mathematics and Statistics, Manipal University Jaipur, Jaipur 303007, Rajasthan, IndiaDepartment of Science and Humanities, MLR Institute of Technology, Hyderabad 500043, Telangana, IndiaThe current analysis discusses Jeffery nanofluid’s thermally radiative flow with convection over a stretching wedge. It takes into account the Brownian movement and thermophoresis of the Buongiorno nanofluid model. The guiding partial differential equations (PDEs) are modified by introducing the symmetry variables, leading to non-dimensional ordinary differential equations (ODEs). To solve the generated ODEs, the MATLAB function bvp4c is implemented. Examined are the impacts of different flow variables on the rate of transmission of heat transfer (HT), temperature, mass, velocity, and nanoparticle concentration (NC). It has been noted that the velocity and mass transfer were increased by the pressure gradient factor. Additionally, the thermal boundary layer (TBL) and nanoparticle concentration are reduced by the mixed convection (MC) factor. In order to validate the present research, the derived numerical results were compared to previous findings from the literature while taking into account the specific circumstances. It was found that there was good agreement in both sets of data.https://www.mdpi.com/2073-8994/15/2/385Jeffery nanofluidsymmetry variableswedgeviscous dissipationradiation effectBrownian motion |
spellingShingle | Yogesh Dadhich Nazek Alessa Reema Jain Abdul Razak Kaladgi Karuppusamy Loganathan V. Radhika Devi Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge Symmetry Jeffery nanofluid symmetry variables wedge viscous dissipation radiation effect Brownian motion |
title | Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge |
title_full | Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge |
title_fullStr | Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge |
title_full_unstemmed | Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge |
title_short | Thermal Onsets of Viscous Dissipation for Radiative Mixed Convective Flow of Jeffery Nanofluid across a Wedge |
title_sort | thermal onsets of viscous dissipation for radiative mixed convective flow of jeffery nanofluid across a wedge |
topic | Jeffery nanofluid symmetry variables wedge viscous dissipation radiation effect Brownian motion |
url | https://www.mdpi.com/2073-8994/15/2/385 |
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