Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet
The result for enhanced heat transfer to manage increasing heat density of miniature and several other technical processes have urged to analyze thermal transports of hybrid nanofluids. Molybdenum disulfide (MoS2) and Zinc oxide (ZnO) are hybridized as a very dilute homogenous mixture in the bulk en...
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sg-ntu-dr.10356-1608092022-08-03T02:54:22Z Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet Yahya, Asmat Ullah Salamat, Nadeem Huang, Wen-Hua Siddique, Imran Abdal, Sohaib Hussain, Sajjad School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Williamson Fluid Hybrid Nanofluid The result for enhanced heat transfer to manage increasing heat density of miniature and several other technical processes have urged to analyze thermal transports of hybrid nanofluids. Molybdenum disulfide (MoS2) and Zinc oxide (ZnO) are hybridized as a very dilute homogenous mixture in the bulk engine oil. The flow of this colloidal fluid with heat transfer occurs through pours medium over a stretching sheet. Moreover, an invariant magnetic field, thermal dissipation, and the heat source are incorporated. Theoretical formulation resulted as, set non-linear partial differential equations. To obtain a numerical solution, similarity transform is hired to yield corresponding ordinary differential equations. Computational software Matlab is availed to run the code for the Runge-Kutta method with shooting technique. A deep insight into the problem is inspected by varying the inputs of the dependent functions influential parameters. It is perceived that the flow speed is hindered by the growing inputs of parameters of magnetic field and porosity. It also comes to know that the velocity f′(η) becomes slower with augmentation of φ2 but the temperature rises. A suitable range of the emerging parameters is tried to observe the variation of physical quantities such as skin fraction facts, velocity, local Nusselt number, and temperature of the fluid. Published version This work was supported by the Natural Science Foundation of Zhejiang Province (Grant No.: LY19A020001). 2022-08-03T02:54:22Z 2022-08-03T02:54:22Z 2021 Journal Article Yahya, A. U., Salamat, N., Huang, W., Siddique, I., Abdal, S. & Hussain, S. (2021). Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet. Case Studies in Thermal Engineering, 26, 101196-. https://dx.doi.org/10.1016/j.csite.2021.101196 2214-157X https://hdl.handle.net/10356/160809 10.1016/j.csite.2021.101196 2-s2.0-85109430137 26 101196 en Case Studies in Thermal Engineering © 2021 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Mechanical engineering Williamson Fluid Hybrid Nanofluid Yahya, Asmat Ullah Salamat, Nadeem Huang, Wen-Hua Siddique, Imran Abdal, Sohaib Hussain, Sajjad Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet |
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The result for enhanced heat transfer to manage increasing heat density of miniature and several other technical processes have urged to analyze thermal transports of hybrid nanofluids. Molybdenum disulfide (MoS2) and Zinc oxide (ZnO) are hybridized as a very dilute homogenous mixture in the bulk engine oil. The flow of this colloidal fluid with heat transfer occurs through pours medium over a stretching sheet. Moreover, an invariant magnetic field, thermal dissipation, and the heat source are incorporated. Theoretical formulation resulted as, set non-linear partial differential equations. To obtain a numerical solution, similarity transform is hired to yield corresponding ordinary differential equations. Computational software Matlab is availed to run the code for the Runge-Kutta method with shooting technique. A deep insight into the problem is inspected by varying the inputs of the dependent functions influential parameters. It is perceived that the flow speed is hindered by the growing inputs of parameters of magnetic field and porosity. It also comes to know that the velocity f′(η) becomes slower with augmentation of φ2 but the temperature rises. A suitable range of the emerging parameters is tried to observe the variation of physical quantities such as skin fraction facts, velocity, local Nusselt number, and temperature of the fluid. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering Yahya, Asmat Ullah Salamat, Nadeem Huang, Wen-Hua Siddique, Imran Abdal, Sohaib Hussain, Sajjad |
format |
Article |
author |
Yahya, Asmat Ullah Salamat, Nadeem Huang, Wen-Hua Siddique, Imran Abdal, Sohaib Hussain, Sajjad |
author_sort |
Yahya, Asmat Ullah |
title |
Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet |
title_short |
Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet |
title_full |
Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet |
title_fullStr |
Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet |
title_full_unstemmed |
Thermal charactristics for the flow of Williamson hybrid nanofluid (MoS₂ + ZnO) based with engine oil over a streched sheet |
title_sort |
thermal charactristics for the flow of williamson hybrid nanofluid (mos₂ + zno) based with engine oil over a streched sheet |
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2022 |
url |
https://hdl.handle.net/10356/160809 |
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