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Homotopy simulation of non-Newtonian Spriggs fluid flow over a flat plate with oscillating motion

Ray A. K., Vasu B., Gorla R. S. R.

International Journal of Applied Mechanics and Engineering

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2019

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Vol. 24, no. 2

359--385

EN

An incompressible flow of a non-Newtonian Spriggs fluid over an unsteady oscillating plate is investigated using the Homotopy Analysis Method (HAM). An analytic solution of sine and cosine oscillations of the plate has been obtained. The similarity transformation is introduced to reduce the governing partial differentia equations into a single non-linear dimensionless partial differential equation. The effects of the power index of Spriggs fluid and convergence control parameter of HAM for the flow are studied extensively. The range of the convergence control parameter for convergence of series solution for different values of the power index of Spriggs fluid is obtained. The solution for a Spriggs fluid is noticeably different from the solution obtained for a Newtonian fluid. The influences of the shear thinning and shear thickening fluid on the velocity profile are shown graphically. The transient flow effect is higher for non-Newtonian Spriggs fluid than that of a Newtonian fluid. It is also observed that the interval to reach the steady state for the cosine case is less than the sine case. The applications of Stokes’ second problem have been widely found in the variety of fields of biomedical, medical, chemical, micro and nanotechnology.

2

Fourth order nonlinear evolution equation for interfacial gravity waves in the presence of air flowing over water and a basic current shear

Majumder D. P., Dhar A. K.

International Journal of Applied Mechanics and Engineering

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2015

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Vol. 20, no. 3

517--530

EN

A fourth order nonlinear evolution equation, which is a good starting point for the study of nonlinear water waves as first pointed out by Dysthe (1979) is derived for gravity waves propagating at the interface of two superposed fluids of infinite depth in the presence of air flowing over water and a basic current shear. A stability analysis is then made for a uniform Stokes gravity wave train. Graphs are plotted for the maximum growth rate of instability and for wave number at marginal stability against wave steepness for different values of air flow velocity and basic current shears. Significant deviations are noticed from the results obtained from the third order evolution equation, which is the nonlinear Schrödinger equation.

3

Symulacja linii prądu w przepływach Stokes'a metodą brzegowych równań całkowych

Teleszewski T. J., Rynkowski P.

Symulacja w Badaniach i Rozwoju

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2011

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Vol. 2, nr 1

47-54

PL

Opracowanie zawiera zaproponowany algorytm wyznaczania linii prądu w przepływach Stokes’a metodą brzegowych równań całkowych. W celu walidacji metody elementów brzegowych porównano rozwiązania metodą brzegowych równań całkowych ze znanym eksperymentem. Przedstawiony algorytm może być wykorzystany do wyznaczania linii prądu w płaskich przepływach Stokes’a w różnych dziedzinach techniki. W prezentowanej pracy przedstawiono przykładowe graficzne rezultaty obliczeń dla wybranych przykładów, dla których nie są znane rozwiązania analityczne. Algorytm został zaimplementowany w autorskim programie obliczeniowym napisanym w języku Fortran.

EN

In this article it has been introduced the way to calculate streamlines of Stokes flow using Boundary Integral Equation Method. The algorithm was verified using a known experiment S. Taneda. The computer program was written in Fortran programming language. The algorithm BEM enables very effective solving of test and practical problems in engineering and can be alternative to mesh methods like Finite Difference Method, Finite Volume Method or Finite Element Method. A numerical examples were presented.