Numerical models and experiments on immiscible displacements in porous media

粘性指进 毛细管作用 多孔介质 毛细管数 机械 润湿 流离失所(心理学) 无量纲量 材料科学 渗透(认知心理学) 粘性液体 多孔性 物理 复合材料 心理学 神经科学 心理治疗师 生物
作者
R. Lenormand,Éric Touboul,C. Zarcone
出处
期刊:Journal of Fluid Mechanics [Cambridge University Press]
卷期号:189: 165-187 被引量:1792
标识
DOI:10.1017/s0022112088000953
摘要

Immiscible displacements in porous media with both capillary and viscous effects can be characterized by two dimensionless numbers, the capillary number C , which is the ratio of viscous forces to capillary forces, and the ratio M of the two viscosities. For certain values of these numbers, either viscous or capillary forces dominate and displacement takes one of the basic forms: (a) viscous fingering, (b) capillary fingering or (c) stable displacement. We present a study in the simple case of injection of a non-wetting fluid into a two-dimensional porous medium made of interconnected capillaries. The first part of this paper presents the results of network simulators (100 × 100 and 25 × 25 pores) based on the physical rules of the displacement at the pore scale. The second part describes a series of experiments performed in transparent etched networks. Both the computer simulations and the experiments cover a range of several decades in C and M . They clearly show the existence of the three basic domains (capillary fingering, viscous fingering and stable displacement) within which the patterns remain unchanged. The domains of validity of the three different basic mechanisms are mapped onto the plane with axes C and M , and this mapping represents the ‘phase-diagram’ for drainage. In the final section we present three statistical models (percolation, diffusion-limited aggregation (DLA) and anti-DLA) which can be used for describing the three ‘basic’ domains of the phase-diagram.
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