Nonlinear evolution of the travelling waves at the surface of a thin viscoelastic falling film |
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Authors: | Magdy A Sirwah Kadry Zakaria |
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Institution: | Department of Mathematics, Faculty of Science, Tanta University, Tanta 31527, Egypt |
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Abstract: | The problem of hydrodynamic instability of a thin condensate viscoelastic liquid film flowing down on the outer surface of an axially moving vertical cylinder is investigated. In order to improve the accuracy of numerical results, the viscoelastic and heat transfer parameters have been included into the governing equations. Also, the analytical solutions are obtained by utilizing the long-wave perturbation method. The influence of some physical parameters is discussed in both linear and nonlinear steps of the problem. It has been revealed that the stability of the film flow is weakened when the radius of cylinder and the temperature difference are reduced. Moreover, it is found that the increment of down-moving motion of the cylinder can enhance the flow stability. Further, the thin film flow can be destabilized by the viscoelastic property. The results show that both supercritical stability and subcritical instability can take place within the film flow system given appropriate conditions. Moreover, the absence of Reynolds number leads to an obvious difference in the behavior of some physical parameters. |
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Keywords: | Thin film Viscoelastic fluid Ginzburg&ndash Landau equation Condensate Long-wave perturbation |
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