Exact analytical solutions for axial flow of a fractional second grade fluid between two coaxial cylinders |
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Authors: | M. Imran M. Kamran M. Athar |
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Affiliation: | Abdus Salam School of Mathematical Sciences, GC University, Lahore, Pakistan |
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Abstract: | The velocity field and the adequate shear stress corresponding to the longitudinal flow of a fractional second grade fluid, between two infinite coaxial circular cylinders, are determined by applying the Laplace and finite Hankel transforms. Initially the fluid is at rest, and at time t = 0+, the inner cylinder suddenly begins to translate along the common axis with constant acceleration. The solutions that have been obtained are presented in terms of generalized G functions. Moreover, these solutions satisfy both the governing differential equations and all imposed initial and boundary conditions. The corresponding solutions for ordinary second grade and Newtonian fluids are obtained as limiting cases of the general solutions. Finally, some characteristics of the motion, as well as the influences of the material and fractional parameters on the fluid motion and a comparison between models, are underlined by graphical illustrations. |
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Keywords: | second grade fluid fractional derivative longitudinal flow velocity field shear stress Laplace and finite Hankel transforms |
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