Unsteady incompressible boundary layer equation in full two and two-once localized parametric approximation.

Ivanović, D. J.

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On bounded channel flows of viscoelastic fluids

Marshall J. Leitman, Epifanio G. Virga (1988)

Atti della Accademia Nazionale dei Lincei. Classe di Scienze Fisiche, Matematiche e Naturali. Rendiconti Lincei. Matematica e Applicazioni

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We show that the smooth bounded channel flows of a viscoelastic fluid exhibit the following qualitative feature: Whenever the channel is sufficiently wide, any bounded velocity field satisfying the homogeneous equation of motion is such that if the flow stops at some time, then the flow is never unidirectional throughout the channel. We first demonstrate the qualitative property of the bounded channel flows. Then we show explicitly how a piecewise linear approximation of a relaxation...

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O. K. Matar, G. M. Sisoev, C. J. Lawrence (2008)

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We study pressure-driven, two-layer flow in inclined channels with high density and viscosity contrasts. We use a combination of asymptotic reduction, boundary-layer theory and the Karman-Polhausen approximation to derive evolution equations that describe the interfacial dynamics. Two distinguished limits are considered: where the viscosity ratio is small with density ratios of order unity, and where both density and viscosity ratios are small. The evolution equations account for the...

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Erdoğan, M.Emin, Ịmrak, C.Erdem (2007)

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Stagnation-point flow of the Walters' $B^{'}$ fluid with slip.

Labropulu, F., Husain, I., Chinichian, M. (2004)

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Eigenvalues of the time-dependent fluid flow problem. I.

Zayed, El-Sayed M., Elshehawey, El-Sayed F. (1990)

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Steady flow of a second-grade fluid in an annulus with porous walls.

Erdoğan, M.Emin, İmrak, C.Erdem (2008)

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A contribution to similar solutions in the case of unsteady boundary layers

M. Đurić (1965)

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Flow of a dusty fluid due to wavy motion of a wall for moderately large Reynolds numbers.

Ramamurthy, V., Rao, U.S. (1989)

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Modified boundary integral method for pressure driven MHD duct flow.

Aggarwala, B.D., Ariel, P.D. (1989)

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Numerical approximation of aeroacoustics induced by flow over a square cylinder

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This study investigates the generation of aeroacoustic sound resulting from the interaction of flow with a square cylinder at a Reynolds number of 150 and a Mach number of 0.2. The analysis combines the Finite Volume Method (FVM) for fluid dynamics using the OpenFOAM framework with the Finite Element Method (FEM) for acoustics implemented via the FEniCS Python library.