Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM
Investigation of thermal transport in nanofluid flow squeezed inside a channel formed by two sheets with zero slope is common in industrial and engineering applications. The heat transmission could be affected by various physical constraints which reduce the machine efficiency for desired products....
Main Authors: | , , , , |
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Format: | Article |
Language: | English |
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SAGE Publishing
2023-10-01
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Series: | Advances in Mechanical Engineering |
Online Access: | https://doi.org/10.1177/16878132231206906 |
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author | Adnan Aneesa Nadeem Haitham A Mahmoud Aatif Ali Sayed M Eldin |
author_facet | Adnan Aneesa Nadeem Haitham A Mahmoud Aatif Ali Sayed M Eldin |
author_sort | Adnan |
collection | DOAJ |
description | Investigation of thermal transport in nanofluid flow squeezed inside a channel formed by two sheets with zero slope is common in industrial and engineering applications. The heat transmission could be affected by various physical constraints which reduce the machine efficiency for desired products. Therefore, this attempt clearly focus on the development of new nanofluid thermal transport model using the significance effects of Koo-Kleinstreuer-Li correlation which used for the estimation of nanofluid thermal conductivity, impacts of magnetic field, internal heating species, and thermal radiations. Then, the LSM (Least Square Method) is magnificently implemented and obtained the physical results for multiple ranges of parameters. It is noticed that when the squeezed parameter varied in the ranges of − 0 . 1 to − 2 . 6 and 0 . 1 to 2 . 6 , the fluid loss their velocity and more reduction is occurred about η = 0 . 0 . However, outward movement of the plate lead to quick declines in the velocity. Further, when the Hartmann number increased for 1 . 0 – 6 . 0 then the fluid moves slowly and stronger magnetic field resists its motion. Moreover, the Eckert and Radiation numbers boosted the fluid temperature by keeping the feasible nanoparticles concentration in the range of ϕ = 0 . 02 – ϕ = 0 . 12 . |
first_indexed | 2024-03-11T16:46:15Z |
format | Article |
id | doaj.art-6373017627894c47a88edec69a6cf636 |
institution | Directory Open Access Journal |
issn | 1687-8140 |
language | English |
last_indexed | 2024-03-11T16:46:15Z |
publishDate | 2023-10-01 |
publisher | SAGE Publishing |
record_format | Article |
series | Advances in Mechanical Engineering |
spelling | doaj.art-6373017627894c47a88edec69a6cf6362023-10-22T14:33:19ZengSAGE PublishingAdvances in Mechanical Engineering1687-81402023-10-011510.1177/16878132231206906Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM Adnan0Aneesa Nadeem1Haitham A Mahmoud2Aatif Ali3Sayed M Eldin4Department of Mathematics, Mohi-ud-Din Islamic University, Nerian Sharif, Trarkhal, PakistanDepartment of Mathematics, Mohi-ud-Din Islamic University, Nerian Sharif, Trarkhal, PakistanIndustrial Engineering Department, College of Engineering, King Saud University, Riyadh, Saudi ArabiaSchool of Mathematical Sciences, Jiangsu University, Zhenjiang, Jiangsu Province, ChinaCenter of Research, Faculty of Engineering, Future University in Egypt, New Cairo, Cairo, EgyptInvestigation of thermal transport in nanofluid flow squeezed inside a channel formed by two sheets with zero slope is common in industrial and engineering applications. The heat transmission could be affected by various physical constraints which reduce the machine efficiency for desired products. Therefore, this attempt clearly focus on the development of new nanofluid thermal transport model using the significance effects of Koo-Kleinstreuer-Li correlation which used for the estimation of nanofluid thermal conductivity, impacts of magnetic field, internal heating species, and thermal radiations. Then, the LSM (Least Square Method) is magnificently implemented and obtained the physical results for multiple ranges of parameters. It is noticed that when the squeezed parameter varied in the ranges of − 0 . 1 to − 2 . 6 and 0 . 1 to 2 . 6 , the fluid loss their velocity and more reduction is occurred about η = 0 . 0 . However, outward movement of the plate lead to quick declines in the velocity. Further, when the Hartmann number increased for 1 . 0 – 6 . 0 then the fluid moves slowly and stronger magnetic field resists its motion. Moreover, the Eckert and Radiation numbers boosted the fluid temperature by keeping the feasible nanoparticles concentration in the range of ϕ = 0 . 02 – ϕ = 0 . 12 .https://doi.org/10.1177/16878132231206906 |
spellingShingle | Adnan Aneesa Nadeem Haitham A Mahmoud Aatif Ali Sayed M Eldin Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM Advances in Mechanical Engineering |
title | Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM |
title_full | Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM |
title_fullStr | Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM |
title_full_unstemmed | Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM |
title_short | Significance of Koo-Kleinstreuer-Li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using LSM |
title_sort | significance of koo kleinstreuer li model for thermal enhancement in nanofluid under magnetic field and thermal radiation factors using lsm |
url | https://doi.org/10.1177/16878132231206906 |
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