Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method
This work examines the non-Newtonian Cassonnanofluid’s three-dimensional flow and heat and mass transmission properties over a Riga plate. The Buongiorno nanofluid model, which is included in the present model, includes thermo-migration and random movement of nanoparticles. It also took into account...
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| Format: | Article |
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MDPI AG
2023-03-01
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| Series: | Symmetry |
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| Online Access: | https://www.mdpi.com/2073-8994/15/3/725 |
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| author | Karuppusamy Loganathan S. Eswaramoorthi P. Chinnasamy Reema Jain Ramkumar Sivasakthivel Rifaqat Ali N. Nithya Devi |
| author_facet | Karuppusamy Loganathan S. Eswaramoorthi P. Chinnasamy Reema Jain Ramkumar Sivasakthivel Rifaqat Ali N. Nithya Devi |
| author_sort | Karuppusamy Loganathan |
| collection | DOAJ |
| description | This work examines the non-Newtonian Cassonnanofluid’s three-dimensional flow and heat and mass transmission properties over a Riga plate. The Buongiorno nanofluid model, which is included in the present model, includes thermo-migration and random movement of nanoparticles. It also took into account the Cattaneo–Christov double flux processes in the mass and heat equations. The non-Newtonian Casson fluid model and the boundary layer approximation are included in the modeling of nonlinear partial differential systems. The homotopy technique was used to analytically solve the system’s governing equations. To examine the impact of dimensionless parameters on velocities, concentrations, temperatures, local Nusselt number, skin friction, and local Sherwood number, a parametric analysis was carried out. The velocity profile is augmented in this study as the size of the modified Hartmann number increases. The greater thermal radiative enhances the heat transport rate. When the mass relaxation parameter is used, the mass flux values start to decrease. |
| first_indexed | 2024-03-11T05:50:19Z |
| format | Article |
| id | doaj.art-83d8e571018b416896d042e1dc16e22a |
| institution | Directory Open Access Journal |
| issn | 2073-8994 |
| language | English |
| last_indexed | 2024-03-11T05:50:19Z |
| publishDate | 2023-03-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Symmetry |
| spelling | doaj.art-83d8e571018b416896d042e1dc16e22a2023-11-17T14:10:06ZengMDPI AGSymmetry2073-89942023-03-0115372510.3390/sym15030725Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical MethodKaruppusamy Loganathan0S. Eswaramoorthi1P. Chinnasamy2Reema Jain3Ramkumar Sivasakthivel4Rifaqat Ali5N. Nithya Devi6Department of Mathematics and Statistics, Manipal University Jaipur, Jaipur 303007, Rajasthan, IndiaDepartment of Mathematics, Dr. N.G.P. Arts and Science College, Coimbatore 641035, Tamil Nadu, IndiaDepartment of Computer Science and Engineering, MLR Institute of Technology, Hyderabad 500043, Telangana, IndiaDepartment of Mathematics and Statistics, Manipal University Jaipur, Jaipur 303007, Rajasthan, IndiaDepartment of Computer Science, School of Sciences, CHRIST (Deemed to be University), Bengaluru 560029, Karnataka, IndiaDepartment of Mathematics, College of Science and Arts, King Khalid University, Muhayil 61413, Saudi ArabiaDepartment of Science and Humanities, Faculty of Engineering, Karpagam Academy of Higher Education, Coimbatore 641021, Tamil Nadu, IndiaThis work examines the non-Newtonian Cassonnanofluid’s three-dimensional flow and heat and mass transmission properties over a Riga plate. The Buongiorno nanofluid model, which is included in the present model, includes thermo-migration and random movement of nanoparticles. It also took into account the Cattaneo–Christov double flux processes in the mass and heat equations. The non-Newtonian Casson fluid model and the boundary layer approximation are included in the modeling of nonlinear partial differential systems. The homotopy technique was used to analytically solve the system’s governing equations. To examine the impact of dimensionless parameters on velocities, concentrations, temperatures, local Nusselt number, skin friction, and local Sherwood number, a parametric analysis was carried out. The velocity profile is augmented in this study as the size of the modified Hartmann number increases. The greater thermal radiative enhances the heat transport rate. When the mass relaxation parameter is used, the mass flux values start to decrease.https://www.mdpi.com/2073-8994/15/3/7253-D flowCasson nanofluidRiga plateCatteneo–Christov modelHAM |
| spellingShingle | Karuppusamy Loganathan S. Eswaramoorthi P. Chinnasamy Reema Jain Ramkumar Sivasakthivel Rifaqat Ali N. Nithya Devi Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method Symmetry 3-D flow Casson nanofluid Riga plate Catteneo–Christov model HAM |
| title | Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method |
| title_full | Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method |
| title_fullStr | Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method |
| title_full_unstemmed | Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method |
| title_short | Heat and Mass Transport in Casson Nanofluid Flow over a 3-D Riga Plate with Cattaneo-Christov Double Flux: A Computational Modeling through Analytical Method |
| title_sort | heat and mass transport in casson nanofluid flow over a 3 d riga plate with cattaneo christov double flux a computational modeling through analytical method |
| topic | 3-D flow Casson nanofluid Riga plate Catteneo–Christov model HAM |
| url | https://www.mdpi.com/2073-8994/15/3/725 |
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