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Veuillez utiliser cette adresse pour citer ce document : https://hdl.handle.net/20.500.12177/13410
Titre: Ecoulement laminaire sous pression d'un fluide incompressible le long d'un canal semi-poreux à parois horizontales et parallèles
Auteur(s): Gazambeti, Yvon
Directeur(s): Pemha, Elkana
Mots-clés: Laminar flows along semi porous parallel-walled channels
Newton-Raphson optimization algorithm
Vorticity equation
Similarity-solution method
Numerical shooting technique
Wall shear stress
Date de publication: 2024
Editeur: Université de Yaoundé I
Résumé: This paper is devoted to the pressure-exerted steady laminar flow of an incompressible Newtonian fluid along a parallel-walled horizontal channel with a porous upper wall and an impermeable lower wall. The fluid is sucked or blown through the porous wall, at constant and uniform velocity, orthogonally to the wall. At the same time, an external pressure gradient constant in time is applied between the two ends of the channel. The aim of this work is to determine and analyze the effects of the external pressure gradient on the flow, the suction/blowing velocity being kept constant. The two-dimensional configuration of the flow with zero-divergence velocity field allows the existence of the stream function given by a single nonlinear partial differential equation which replaces the Navier-Stokes equations and is called the vorticity equation. This latter equation is demonstrated by applying an unusual approach which uses the vector momentum equation in its general form. From the similarity-solutions assumption, it is shown that the vorticity equation leads to a two-point boundary value problem whose solutions are computed by means of a numerical shooting technique including the Newton-Raphson optimization algorithm. Physical understandings of the flow under consideration are derived from the results obtained: stream function per unit length of the channel, streamlines, transverse and longitudinal components of the velocity field, wall shear stress at the two walls of the channel.
Pagination / Nombre de pages: 180
URI/URL: https://hdl.handle.net/20.500.12177/13410
Collection(s) :Thèses soutenues

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