期刊名称:International Journal of Computer Science and Network Security
印刷版ISSN:1738-7906
出版年度:2018
卷号:18
期号:11
页码:84-92
出版社:International Journal of Computer Science and Network Security
摘要:Present research work focuses on the two?dimensional axi symmetric incompressible flow of a constant viscosity Newtonian fluid past Pore?Throat circular pipe. Numerical solutions are obtained through time?marching finite element method. A Taylor?Galerkin/Pressure?Correction procedure in semi?implicit form is employed to achieve the steady?state solutions. To investigate the influence of inertia, such as, Reynolds number, impact of various pore?throat ratios on flow structure, pressure differential, and friction factor different parameters are employed. Predicted numerical results demonstrate Pore?Throat ratio have vital impact on the flow field distribution. Flow structure is visualized via streamline distribution, particularly formation of recirculation region in its intensity and size of vortices regarding length and position of vortex centre is analyzed by contour plots and graphs. Whilst, pressure distribution is also presented though contour plots and friction factors through graph. From the predicted numerical result, a good agreement is observed against other numerical as well as experimental solutions
关键词:Pore?Throat Tube; Finite Element Method; Newtonian Fluids; Flow in Porous Media; Low Permeability; Pore Configuration.
