A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis
The current study intends to talk about the unsteady Williamson hybrid nanofluid flow with heat transport across a stretching surface comprising the magnetic hydrodynamic, thermal radiative, suction/injection, and convective boundary condition effects respectively. The study focused on the hybrid Wi...
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Elsevier
2024-04-01
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Series: | Results in Physics |
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author | Humaira Yasmin Laila A. AL-Essa Showkat Ahmad Lone Zehba Raizah Sadia Anwar Anwar Saeed |
author_facet | Humaira Yasmin Laila A. AL-Essa Showkat Ahmad Lone Zehba Raizah Sadia Anwar Anwar Saeed |
author_sort | Humaira Yasmin |
collection | DOAJ |
description | The current study intends to talk about the unsteady Williamson hybrid nanofluid flow with heat transport across a stretching surface comprising the magnetic hydrodynamic, thermal radiative, suction/injection, and convective boundary condition effects respectively. The study focused on the hybrid Williamson nanofluid, comprising of an EG ethylene glycol (C2H6O2) and two types of nano-solid particles, c zinc oxide and molybdenum disulphide ZnO-MOS2. To accomplish this goal, the modelled expressions are transmitted into dimensionless ODE by making use of several highly established transformations. The aim of the numerical result of the current exploration is studied through Keller Box Analysis (KBA). Tabular data and statistical bar plots are used to compare this strategy. The impact of physical variables such as Magnetic field parameter γ, Williamson fluid variable We, Porous media β, Thermal radiation Rd, Biot number Bi and Prandtl number Pr are analyzed through plots and tables. An augmentation in the strength of the magnetic field and Williamson fluid parameter results in a reduction in velocity. However, a temperature rise is observed for higher values of the Williamson fluid parameter and magnetic parameters. The surface friction drag is diminished by the Forchheimer and Weissenberg values. The rate of mass transfer is strongly positively correlated with both the Schmidt number and chemical reaction. The present study has a remarkable agreement with the results that were previously published, which confirms the application and validation of the Keller-Box scheme. |
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institution | Directory Open Access Journal |
issn | 2211-3797 |
language | English |
last_indexed | 2024-04-24T10:57:41Z |
publishDate | 2024-04-01 |
publisher | Elsevier |
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series | Results in Physics |
spelling | doaj.art-a8fc1eb5ee734b0aad8ff3d8d9e2acc82024-04-12T04:45:09ZengElsevierResults in Physics2211-37972024-04-0159107552A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysisHumaira Yasmin0Laila A. AL-Essa1Showkat Ahmad Lone2Zehba Raizah3Sadia Anwar4Anwar Saeed5Department of Basic Sciences, General Administration of the Preparatory Year, King Faisal University, 31982 Al Ahsa, Saudi Arabia; Corresponding authors.Department of Mathematical Sciences, College of Science, Princess Nourah bint Abdulrahman University, P.O.Box 84428, Riyadh 11671, Saudi ArabiaDepartment of Basic Sciences, College of Science and Theoretical Studies, Saudi Electronic University, (Jeddah-M), Riyadh 11673, Saudi ArabiaDepartment of Mathematics, College of Science, Abha, King Khalid University, Saudi ArabiaDepartment of Mathematics, College of Arts and Sciences, Wadi Ad Dawasir (11991), Prince Sattam Bin Abdulaziz University, Al-Kharj, Saudi ArabiaDepartment of Mathematics, Abdul Wali Khan University, 23200 Mardan, Pakistan; Corresponding authors.The current study intends to talk about the unsteady Williamson hybrid nanofluid flow with heat transport across a stretching surface comprising the magnetic hydrodynamic, thermal radiative, suction/injection, and convective boundary condition effects respectively. The study focused on the hybrid Williamson nanofluid, comprising of an EG ethylene glycol (C2H6O2) and two types of nano-solid particles, c zinc oxide and molybdenum disulphide ZnO-MOS2. To accomplish this goal, the modelled expressions are transmitted into dimensionless ODE by making use of several highly established transformations. The aim of the numerical result of the current exploration is studied through Keller Box Analysis (KBA). Tabular data and statistical bar plots are used to compare this strategy. The impact of physical variables such as Magnetic field parameter γ, Williamson fluid variable We, Porous media β, Thermal radiation Rd, Biot number Bi and Prandtl number Pr are analyzed through plots and tables. An augmentation in the strength of the magnetic field and Williamson fluid parameter results in a reduction in velocity. However, a temperature rise is observed for higher values of the Williamson fluid parameter and magnetic parameters. The surface friction drag is diminished by the Forchheimer and Weissenberg values. The rate of mass transfer is strongly positively correlated with both the Schmidt number and chemical reaction. The present study has a remarkable agreement with the results that were previously published, which confirms the application and validation of the Keller-Box scheme.http://www.sciencedirect.com/science/article/pii/S2211379724002353Keller boxUnsteadyWilliamson Hybrid nanofluidHybrid Particles MHDPorous mediaThermal radiation |
spellingShingle | Humaira Yasmin Laila A. AL-Essa Showkat Ahmad Lone Zehba Raizah Sadia Anwar Anwar Saeed A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis Results in Physics Keller box Unsteady Williamson Hybrid nanofluid Hybrid Particles MHD Porous media Thermal radiation |
title | A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis |
title_full | A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis |
title_fullStr | A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis |
title_full_unstemmed | A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis |
title_short | A numerical framework of magneto Williamson hybrid nanofluid over porous sheet; a classical keller box analysis |
title_sort | numerical framework of magneto williamson hybrid nanofluid over porous sheet a classical keller box analysis |
topic | Keller box Unsteady Williamson Hybrid nanofluid Hybrid Particles MHD Porous media Thermal radiation |
url | http://www.sciencedirect.com/science/article/pii/S2211379724002353 |
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