Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin

Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin

Non-Newtonian hybrid ferrofluid has become an interesting topic among the researchers due to various application in many sectors such as chemical industry and medical sectors. The purpose of this research is to stagnation point flow of the nonNewtonian Williamson hybrid ferrofluid point over a stret...

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Main Author: Kamarulbahrin, Ahmad Afiqbahrin
Format: Thesis
Language:en
Published: 2023
Subjects:
Differential equations. Runge-Kutta formulas
Online Access:https://ir.uitm.edu.my/id/eprint/96596/1/96596.pdf
https://ir.uitm.edu.my/id/eprint/96596/
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author Kamarulbahrin, Ahmad Afiqbahrin
author_facet Kamarulbahrin, Ahmad Afiqbahrin
author_sort Kamarulbahrin, Ahmad Afiqbahrin
building Tun Abdul Razak Library
collection Institutional Repository
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
continent Asia
country Malaysia
description Non-Newtonian hybrid ferrofluid has become an interesting topic among the researchers due to various application in many sectors such as chemical industry and medical sectors. The purpose of this research is to stagnation point flow of the nonNewtonian Williamson hybrid ferrofluid point over a stretching sheet. In order to reduce the complexity of governing equations, the similarity transformation variable are used to transform the partial differential equation (PDEs) into ordinary differential equation (ODEs). The obtained ODEs are tackled numerically by using Runge-Kutta Fehlberg Fourth Fifth (RKF45) method. The result for the skin friction coefficient against volume fraction are validated by comparing with existing study to see the accurate of this study. The flow characteristic and heat transfer of the non-Newtonian Williamson hybrid nanofluid are investigated over various parameters such as volume fraction, magnetic parameter, non-Newtonian fluid parameter, Prandtl number and stretching parameter. The result reveal that velocity profiles increases when magnetic and stretching parameter are increased and decreases when the Williamson and volume fraction parameter are increased. The temperature profile increases when the stretching and volume fraction parameter are increased and decreases when the magnetic, stretching and Prandtl number parameter are increased. The velocity profile shows no significant changes over increasing Prandtl number due to decouple boundary layer equation.
format Thesis
id my.uitm.ir-96596
institution Universiti Teknologi Mara
language en
publishDate 2023
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spelling my.uitm.ir-965962026-03-26T02:48:23Z https://ir.uitm.edu.my/id/eprint/96596/ Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin Kamarulbahrin, Ahmad Afiqbahrin Differential equations. Runge-Kutta formulas Non-Newtonian hybrid ferrofluid has become an interesting topic among the researchers due to various application in many sectors such as chemical industry and medical sectors. The purpose of this research is to stagnation point flow of the nonNewtonian Williamson hybrid ferrofluid point over a stretching sheet. In order to reduce the complexity of governing equations, the similarity transformation variable are used to transform the partial differential equation (PDEs) into ordinary differential equation (ODEs). The obtained ODEs are tackled numerically by using Runge-Kutta Fehlberg Fourth Fifth (RKF45) method. The result for the skin friction coefficient against volume fraction are validated by comparing with existing study to see the accurate of this study. The flow characteristic and heat transfer of the non-Newtonian Williamson hybrid nanofluid are investigated over various parameters such as volume fraction, magnetic parameter, non-Newtonian fluid parameter, Prandtl number and stretching parameter. The result reveal that velocity profiles increases when magnetic and stretching parameter are increased and decreases when the Williamson and volume fraction parameter are increased. The temperature profile increases when the stretching and volume fraction parameter are increased and decreases when the magnetic, stretching and Prandtl number parameter are increased. The velocity profile shows no significant changes over increasing Prandtl number due to decouple boundary layer equation. 2023 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/96596/1/96596.pdf Kamarulbahrin, Ahmad Afiqbahrin (2023) Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin. (2023) Degree thesis, thesis, Universiti Teknologi MARA, Terengganu. <http://terminalib.uitm.edu.my/96596.pdf>
spellingShingle Differential equations. Runge-Kutta formulas
Kamarulbahrin, Ahmad Afiqbahrin
Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin
title Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin
title_full Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin
title_fullStr Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin
title_full_unstemmed Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin
title_short Blood conveying ferroparticle flow on a stagnation point over a streching sheet: Williamson hybrid ferrofluid / Ahmad Afiqbahrin Kamarulbahrin
title_sort blood conveying ferroparticle flow on a stagnation point over a streching sheet: williamson hybrid ferrofluid / ahmad afiqbahrin kamarulbahrin
topic Differential equations. Runge-Kutta formulas
url https://ir.uitm.edu.my/id/eprint/96596/1/96596.pdf
https://ir.uitm.edu.my/id/eprint/96596/
url_provider http://ir.uitm.edu.my/

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