Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination
This research represents a crucial step forward in the design and application of magnetized ternary hybrid nanofluids, paving the way for innovations in thermal management and medical treatment technologies. Optimization analysis of nanoscale heat transport for magnetized ternary hybrid bio nanoflui...
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Elsevier
2024-12-01
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| Series: | Case Studies in Thermal Engineering |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2214157X24014771 |
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| author | Maalee Almheidat Mohammad Alqudah Basma Souayeh Nguyen Minh Tuan Shabbir Ahmad Khadijah M. Abualnaja |
| author_facet | Maalee Almheidat Mohammad Alqudah Basma Souayeh Nguyen Minh Tuan Shabbir Ahmad Khadijah M. Abualnaja |
| author_sort | Maalee Almheidat |
| collection | DOAJ |
| description | This research represents a crucial step forward in the design and application of magnetized ternary hybrid nanofluids, paving the way for innovations in thermal management and medical treatment technologies. Optimization analysis of nanoscale heat transport for magnetized ternary hybrid bio nanofluid containing SiO2, TiO2, and Al2O3 nanoparticles over a three-dimensional wedge geometry is made in this article. Heat transport analysis is studied through thermal and joule heating effects and the ternary hybrid composition is chosen to leverage the combined thermal properties of the nanoparticles. Furthermore, detail streamlines of flow pattern are investigated for different physical parameters. Physical system is formulated with the system of Partial differential equation (PDEs) and it is processed with similarity transformation to convert it into system of ordinary differential equation (ODEs). Furthermore, Keller box scheme is applied to fetch its numerical solution and compared with finite element technique for validation and found smooth agreement.Temperature is increased with pressure gradient, shear strain and thermal radiation parameter. Magnitude of drag force is increasing with increasing Weissenberg number. For We = 0.2, 0.3, 0.4, 0.5, 0.6, skin friction increases in ternary nanofluid with 13 %,17 %, 21 %, 23 % and 26 % respectively. For β = 0.3, 0.4, 0.5, 0.6, 0.7, skin friction decreases in ternary nanofluid with 30 %,25 %, 20 %, 15 % and 10 % respectively. |
| format | Article |
| id | doaj-art-a837390bd409482eb6ac58795bc3c5ca |
| institution | OA Journals |
| issn | 2214-157X |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Case Studies in Thermal Engineering |
| spelling | doaj-art-a837390bd409482eb6ac58795bc3c5ca2025-08-20T02:37:32ZengElsevierCase Studies in Thermal Engineering2214-157X2024-12-016410544610.1016/j.csite.2024.105446Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combinationMaalee Almheidat0Mohammad Alqudah1Basma Souayeh2Nguyen Minh Tuan3Shabbir Ahmad4Khadijah M. Abualnaja5Department of Mathematics, The University of Jordan, Amman, JordanDepartment of Basic Sciences, School of Electrical Engineering & Information Technology, German Jordanian University, Amman, 11180, JordanDepartment of Physics, College of Science, King Faisal University, PO Box 400, Al-Ahsa, 31982, Saudi Arabia; Laboratory of Fluid Mechanics, Physics Department, Faculty of Sciences of Tunis, University of Tunis El Manar, 2092, Tunis, Tunisia; Corresponding author. Department of Physics, College of Science, King Faisal University, PO Box 400, Al-Ahsa, 31982, Saudi Arabia.Department of Mathematics, Falculty of Applied Science, King Mongkut's University of Technology North Bangkok, ThailandGraduate Program of Ocean Engineering, School of Engineering, Universidade Federal do Rio Grande, Rio Grande, Italia Avenue, km 8, 96201-900, Brazil; Department of Mathematics, Muhammad Nawaz Sharif University of Engineering and Technology, Multan 60000, PakistanDepartment of Mathematics and Statistics, Collage of Science, Taif University, P.O. Box 11099, Taif, 21944, Saudi ArabiaThis research represents a crucial step forward in the design and application of magnetized ternary hybrid nanofluids, paving the way for innovations in thermal management and medical treatment technologies. Optimization analysis of nanoscale heat transport for magnetized ternary hybrid bio nanofluid containing SiO2, TiO2, and Al2O3 nanoparticles over a three-dimensional wedge geometry is made in this article. Heat transport analysis is studied through thermal and joule heating effects and the ternary hybrid composition is chosen to leverage the combined thermal properties of the nanoparticles. Furthermore, detail streamlines of flow pattern are investigated for different physical parameters. Physical system is formulated with the system of Partial differential equation (PDEs) and it is processed with similarity transformation to convert it into system of ordinary differential equation (ODEs). Furthermore, Keller box scheme is applied to fetch its numerical solution and compared with finite element technique for validation and found smooth agreement.Temperature is increased with pressure gradient, shear strain and thermal radiation parameter. Magnitude of drag force is increasing with increasing Weissenberg number. For We = 0.2, 0.3, 0.4, 0.5, 0.6, skin friction increases in ternary nanofluid with 13 %,17 %, 21 %, 23 % and 26 % respectively. For β = 0.3, 0.4, 0.5, 0.6, 0.7, skin friction decreases in ternary nanofluid with 30 %,25 %, 20 %, 15 % and 10 % respectively.http://www.sciencedirect.com/science/article/pii/S2214157X24014771Heat transportMHDTernary nanofluidWedge arteryNumerical solutionsNon-Newtonian fluid model |
| spellingShingle | Maalee Almheidat Mohammad Alqudah Basma Souayeh Nguyen Minh Tuan Shabbir Ahmad Khadijah M. Abualnaja Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination Case Studies in Thermal Engineering Heat transport MHD Ternary nanofluid Wedge artery Numerical solutions Non-Newtonian fluid model |
| title | Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination |
| title_full | Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination |
| title_fullStr | Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination |
| title_full_unstemmed | Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination |
| title_short | Nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery: Keller box and finite element scheme combination |
| title_sort | nanoscale heat transport analysis of magnetized trihybrid nanofluid over wedge artery keller box and finite element scheme combination |
| topic | Heat transport MHD Ternary nanofluid Wedge artery Numerical solutions Non-Newtonian fluid model |
| url | http://www.sciencedirect.com/science/article/pii/S2214157X24014771 |
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