Finite Volume Method for Simulation of Viscoelastic Flow Through a Expansion Channel

被引:0
|
作者
Chun-quan Fu
Hai-mei Jiang
Hong-jun Yin
Yu-chi Su
Ye-ming Zeng
机构
[1] Daqing Petroleum Institute,Key Laboratory of Enhanced Oil and Gas Recovery of Ministry of Education
[2] China National Offshore Oil Company Research Center,Oil Recovery Plant No.1
[3] China National Offshore Oil Corporation Limited,undefined
[4] Daqing Oilfield Corp. Ltd.,undefined
来源
Journal of Hydrodynamics | 2009年 / 21卷
关键词
Upper-Convected Maxwell (UCM) model; finite volume method; viscoelasticity; sweep efficiency;
D O I
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中图分类号
学科分类号
摘要
A finite volume method for the numerical solution of viscoelastic flows is given. The flow of a differential Upper-Convected Maxwell (UCM) fluid through an abrupt expansion has been chosen as a prototype example. The conservation and constitutive equations are solved using the Finite Volume Method (FVM) in a staggered grid with an upwind scheme for the viscoelastic stresses and a hybrid scheme for the velocities. An enhanced-in-speed pressure-correction algorithm is used and a method for handling the source term in the momentum equations is employed. Improved accuracy is achieved by a special discretization of the boundary conditions. Stable solutions are obtained for higher Weissenberg number (We), further extending the range of simulations with the FVM. Numerical results show the viscoelasticity of polymer solutions is the main factor influencing the sweep efficiency.
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页码:360 / 365
页数:5
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