4.7 Article

Study on the helicoidal flow through cylindrical annuli with prescribed shear stresses

Journal

RESULTS IN PHYSICS
Volume 23, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.rinp.2021.103993

Keywords

Helical flows; Maxwell fluid; Time-dependent shear stresses; Finite Hankel and Laplace transforms

Funding

  1. Taif University, Taif, Saudi Arabia [TURSP2020/48]

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This article analyzes helical flow and evaluates the incompressible Maxwell fluid between infinitely long concentric circular cylinders. Shear stresses are applied to set the fluid in motion, with the outer cylinder remaining inert. Exact solutions are obtained through integral transforms, showcasing the impact of parameters on shear stresses and velocity components through graphs. Comparisons between Newtonian and Maxwell fluids are also presented to analyze the significance of parameters on shear stresses, velocities, and motion.
In this article, we presented an analysis of the helical flow, for evaluating the incompressible Maxwell fluid indwelling between the two circular regions created by infinitely long concentric circular cylinders. Timedepended longitudinal and torsional shear stresses are implemented around the periphery of the inner circular cylinder to set the fluid in motion, while keeping the outer one inert. Exact analytic solution of the mathematical model in form of partial differential equations(PDE) is obained by performing the integral transform. We also retrieved the analogous solution of fluid, encompassing same properties as of Newtonian fluid in form of our general solutions. To end up with, we presented different graphs, showing the sway of appropriate parameters affecting the shear stresses and velocity components. In addition, we also presented graphs for comparison of Newtonian and Maxwell fluids. To end up with, the significance of appropriate parameters on the components of shear stresses and velocities, as well as motion for Newtonian and Maxwell fluids are analyzed and discussed via graphs.

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