Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach

Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach

Exact solutions for velocity field and tangential stress for rotational flow of a generalized Burgers’ fluid within an infinite circular pipe are derived by using the methods of Laplace and finite Hankel transformations. Firstly we take the position of fluid at rest and then the fluid flow due to th...

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Main Authors: Rabia Safdar, M. Imran, Chaudry Masood Khalique
Format: Article
Language:English
Published: Elsevier 2018-06-01
Series:Results in Physics
Online Access:http://www.sciencedirect.com/science/article/pii/S2211379718302316
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spelling doaj-74fcb0c6db3b4335a720c209e47c5a1e2020-11-24T21:54:52ZengElsevierResults in Physics2211-37972018-06-019237245Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approachRabia Safdar0M. Imran1Chaudry Masood Khalique2Department of Mathematics, Government College University, Faisalabad, PakistanDepartment of Mathematics, Government College University, Faisalabad, PakistanInternational Institute for Symmetry Analysis and Mathematical Modeling, Department of Mathematical Sciences, North-West University, Mafikeng Campus, Mmabatho 2735, South Africa; Corresponding author.Exact solutions for velocity field and tangential stress for rotational flow of a generalized Burgers’ fluid within an infinite circular pipe are derived by using the methods of Laplace and finite Hankel transformations. Firstly we take the position of fluid at rest and then the fluid flow due to the rotation of the pipe around the axis of flow having time dependant angular velocity. The exact solutions are presented in terms of the generalized Ga,b,c(.,t)-functions. The corresponding results can be freely specified for the same results of Burgers’, Oldroyd B, Maxwell, second grade and Newtonian fluids (performing the same motion) as particular cases of the results obtained earlier. The impact of the different parameters, individually and in comparison, are represented by graphical demonstrations. Secondly the numerical solutions for velocity and stress are also obtained with the help of Laplace transformation, Gaver Stehfest’s algorithm and MATHCAD. Finally a comparison of both methods for the same problem is done and shows the consistency of results. Keywords: Generalized Burgers’ fluid, Velocity, Shear stress, Integral transform, Stehfest’s algorithm, MATHCADhttp://www.sciencedirect.com/science/article/pii/S2211379718302316
collection DOAJ
language English
format Article
sources DOAJ
author Rabia Safdar
M. Imran
Chaudry Masood Khalique
spellingShingle Rabia Safdar
M. Imran
Chaudry Masood Khalique
Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach
Results in Physics
author_facet Rabia Safdar
M. Imran
Chaudry Masood Khalique
author_sort Rabia Safdar
title Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach
title_short Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach
title_full Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach
title_fullStr Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach
title_full_unstemmed Time-dependent flow model of a generalized Burgers’ fluid with fractional derivatives through a cylindrical domain: An exact and numerical approach
title_sort time-dependent flow model of a generalized burgers’ fluid with fractional derivatives through a cylindrical domain: an exact and numerical approach
publisher Elsevier
series Results in Physics
issn 2211-3797
publishDate 2018-06-01
description Exact solutions for velocity field and tangential stress for rotational flow of a generalized Burgers’ fluid within an infinite circular pipe are derived by using the methods of Laplace and finite Hankel transformations. Firstly we take the position of fluid at rest and then the fluid flow due to the rotation of the pipe around the axis of flow having time dependant angular velocity. The exact solutions are presented in terms of the generalized Ga,b,c(.,t)-functions. The corresponding results can be freely specified for the same results of Burgers’, Oldroyd B, Maxwell, second grade and Newtonian fluids (performing the same motion) as particular cases of the results obtained earlier. The impact of the different parameters, individually and in comparison, are represented by graphical demonstrations. Secondly the numerical solutions for velocity and stress are also obtained with the help of Laplace transformation, Gaver Stehfest’s algorithm and MATHCAD. Finally a comparison of both methods for the same problem is done and shows the consistency of results. Keywords: Generalized Burgers’ fluid, Velocity, Shear stress, Integral transform, Stehfest’s algorithm, MATHCAD
url http://www.sciencedirect.com/science/article/pii/S2211379718302316
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AT mimran timedependentflowmodelofageneralizedburgersfluidwithfractionalderivativesthroughacylindricaldomainanexactandnumericalapproach
AT chaudrymasoodkhalique timedependentflowmodelofageneralizedburgersfluidwithfractionalderivativesthroughacylindricaldomainanexactandnumericalapproach
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