On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge

Efficient thermal transportation in compact heat density gadgets is a prevailing issue to be addressed. The flow of a mono nanofluid (SiO2/Kerosene oil) and hybrid nanofluid (TiO2 + SiO2/Kerosene oil) is studied in context of Riga wedge. The basic purpose of this work pertains to improve thermal con...

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Main Authors: Yahya, Asmat Ullah, Siddique, Imran, Jarad, Fahd, Salamat, Nadeem, Abdal, Sohaib, Hamed, Y. S., Abualnaja, Khadijah M., Hussain, Sajjad
Other Authors: School of Mechanical and Aerospace Engineering
Format: Article
Language:English
Published: 2022
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Online Access:https://hdl.handle.net/10356/163193
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1631932022-11-28T07:22:41Z On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge Yahya, Asmat Ullah Siddique, Imran Jarad, Fahd Salamat, Nadeem Abdal, Sohaib Hamed, Y. S. Abualnaja, Khadijah M. Hussain, Sajjad School of Mechanical and Aerospace Engineering Science::Mathematics Maxwell Fluid Heat Source Efficient thermal transportation in compact heat density gadgets is a prevailing issue to be addressed. The flow of a mono nanofluid (SiO2/Kerosene oil) and hybrid nanofluid (TiO2 + SiO2/Kerosene oil) is studied in context of Riga wedge. The basic purpose of this work pertains to improve thermal conductivity of base liquid with inclusions of nano-entities. The hybrid nanofluid flow over Riga wedge is new aspect of this work. The concentration of new species is assumed to constitute the base liquid to be non-Newtonian. The fundamental formulation of the concentration laws of mass, momentum and energy involve partial derivatives. The associated boundary conditions are taken in to account. Similarity variables are utilized to transform the leading set of equations into ordinary differential form. Shooting procedure combined with Runge-Kutta method is harnessed to attain numerical outcomes. The computational process is run in matlab script. It is seen that the velocity component f′(η) goes upward with exceeding inputs of modified Hartmann number Mh and it slows down when non-dimensional material parameter αh takes large values. Also, Nusselt number - θ′(0) is enhanced with developing values of Eckert number Ec and Biot number Bi. Published version This Research was supported by Taif University Researchers Supporting Project Number (TURSP-2020/217), Taif University, Taif, Saudi Arabia. 2022-11-28T07:22:41Z 2022-11-28T07:22:41Z 2022 Journal Article Yahya, A. U., Siddique, I., Jarad, F., Salamat, N., Abdal, S., Hamed, Y. S., Abualnaja, K. M. & Hussain, S. (2022). On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge. Case Studies in Thermal Engineering, 34, 102025-. https://dx.doi.org/10.1016/j.csite.2022.102025 2214-157X https://hdl.handle.net/10356/163193 10.1016/j.csite.2022.102025 2-s2.0-85128723034 34 102025 en Case Studies in Thermal Engineering © 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Mathematics
Maxwell Fluid
Heat Source
spellingShingle Science::Mathematics
Maxwell Fluid
Heat Source
Yahya, Asmat Ullah
Siddique, Imran
Jarad, Fahd
Salamat, Nadeem
Abdal, Sohaib
Hamed, Y. S.
Abualnaja, Khadijah M.
Hussain, Sajjad
On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge
description Efficient thermal transportation in compact heat density gadgets is a prevailing issue to be addressed. The flow of a mono nanofluid (SiO2/Kerosene oil) and hybrid nanofluid (TiO2 + SiO2/Kerosene oil) is studied in context of Riga wedge. The basic purpose of this work pertains to improve thermal conductivity of base liquid with inclusions of nano-entities. The hybrid nanofluid flow over Riga wedge is new aspect of this work. The concentration of new species is assumed to constitute the base liquid to be non-Newtonian. The fundamental formulation of the concentration laws of mass, momentum and energy involve partial derivatives. The associated boundary conditions are taken in to account. Similarity variables are utilized to transform the leading set of equations into ordinary differential form. Shooting procedure combined with Runge-Kutta method is harnessed to attain numerical outcomes. The computational process is run in matlab script. It is seen that the velocity component f′(η) goes upward with exceeding inputs of modified Hartmann number Mh and it slows down when non-dimensional material parameter αh takes large values. Also, Nusselt number - θ′(0) is enhanced with developing values of Eckert number Ec and Biot number Bi.
author2 School of Mechanical and Aerospace Engineering
author_facet School of Mechanical and Aerospace Engineering
Yahya, Asmat Ullah
Siddique, Imran
Jarad, Fahd
Salamat, Nadeem
Abdal, Sohaib
Hamed, Y. S.
Abualnaja, Khadijah M.
Hussain, Sajjad
format Article
author Yahya, Asmat Ullah
Siddique, Imran
Jarad, Fahd
Salamat, Nadeem
Abdal, Sohaib
Hamed, Y. S.
Abualnaja, Khadijah M.
Hussain, Sajjad
author_sort Yahya, Asmat Ullah
title On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge
title_short On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge
title_full On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge
title_fullStr On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge
title_full_unstemmed On the enhancement of thermal transport of Kerosene oil mixed TiO₂and SiO₂ across Riga wedge
title_sort on the enhancement of thermal transport of kerosene oil mixed tio₂and sio₂ across riga wedge
publishDate 2022
url https://hdl.handle.net/10356/163193
_version_ 1751548568108269568