Mathematical Modeling of an Oscillatory MHD Blood Flow through a Lipid Saturated Porous Channel with Metabolic Heat and Magnetic Field

Communication in Physical Sciences

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Title Mathematical Modeling of an Oscillatory MHD Blood Flow through a Lipid Saturated Porous Channel with Metabolic Heat and Magnetic Field
 
Creator Kubugha Wilcox Bunonyo
Innocent C. Eli
 
Subject Blood
Lipid
Magnetic Field
Cardiovascular system
Heat transfer
ODE and PDE.
 
Description Communication In Physical Sciences, 2020, 6(1): 783-792
Authors: K.W. Bunonyo* and I.C. Eli
Received 12 November 2020/Accepted 27 November 2020
This research investigates an oscillatory blood flow through a lipid saturated porous channel with metabolic heat and magnetic field. The study involves formulating mathematical model for blood momentum equation, the energy equation and the lipid concentration equation, and the coupled PDE were reduced to set of nonlinear ODE using the perturbation method. The set of ODEs are solved and the blood velocity, temperature and lipid concentration profiles were obtained, with some governing parameters. Numerical computation was carried out using Mathematica software to by varying the governing parameters within some specific range in order to the study the effects of the parameters on the flow profiles. The results revealed that the flow profiles were influenced with the varying pertinent parameters such as Prandtl number, radiation parameter, metabolic heat parameter, Hartmann number, Grashof number, solutal Grashof number, Schmidt number and the oscillatory frequency parameters respectively.
 
Publisher University Of Nigeria Nsukka
 
Date 2020-11-28
 
Type info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
 
Format application/pdf
 
Identifier https://journalcps.com/index.php/volumes/article/view/161
 
Source Communication in Physical Sciences; Vol. 6 No. 1 (2020): VOLUME 6(ISSUE 1)
2705-2397
2645-2448
 
Language eng
 
Relation https://journalcps.com/index.php/volumes/article/view/161/142
 
Rights Copyright (c) 2010 The Journal and the author
https://creativecommons.org/licenses/by-nc/4.0
 

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