多孔介质中毛细管主导的非混相驱替过程中的局部不稳定性

Q1 Physics and Astronomy

Capillarity Pub Date : 2019-02-05 DOI:10.26804/CAPI.2019.01.01

Yang Liu, S. Iglauer, Jianchao Cai, M. A. Amooie, C. Qin

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引用次数: 23

摘要

充分了解毛细管力主导的孔隙尺度非混相驱替机理，特别是局部不稳定性及其对流动模式的影响，对于提高采收率、二氧化碳地质封存和污染含水层修复等各种工业和环境应用至关重要。众所周知，这种非混相驱移对流体性质和孔隙结构极为敏感，尤其是多孔介质的润湿特性，不仅在微观尺度上影响局部界面的不稳定性，而且在宏观尺度上影响位移模式。本文综述了三种典型润湿条件下的局部界面不稳定性，即弱润湿排水过程中的Haines跳跃事件、强润湿吸胀过程中的断裂事件以及中湿条件下凹凸界面共存，以帮助理解自然多孔介质的微观物理和宏观后果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Local instabilities during capillary-dominated immiscible displacement in porous media

Fully understanding the mechanism of pore-scale immiscible displacement dominated by capillary forces, especially local instabilities and their influence on flow patterns, is essential for various industrial and environmental applications such as enhanced oil recovery, CO2 geo-sequestration and remediation of contaminated aquifers. It is well known that such immiscible displacement is extremely sensitive to the fluid properties and pore structure, especially the wetting properties of the porous medium which affect not only local interfacial instabilities at the micro-scale, but also displacement patterns at the macro-scale. In this review, local interfacial instabilities under three typical wetting conditions, namely Haines jump events during weakly-wetting drainage, snap-off events during strongly-wetting imbibition, and the co-existence of concave and convex interfaces under intermediate-wet condition, are reviewed to help understand the microscale physics and macroscopic consequences resulting in natural porous media.

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来源期刊

Capillarity Physics and Astronomy-Surfaces and Interfaces

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

2~3 weeks

期刊介绍： Capillarity publishes high-quality original research articles and current reviews on fundamental scientific principles and innovations of capillarity in physics, chemistry, biology, environmental science and related emerging fields. All advances in theoretical, numerical and experimental approaches to capillarity in capillary tube and interface dominated structure and system area are welcome. The following topics are within (but not limited to) the scope of capillarity: i) Capillary-driven phenomenon in natural/artificial tubes, porous and nanoporous materials ii) Fundamental mechanisms of capillarity aided by theory and experiments iii) Spontaneous imbibition, adsorption, wicking and related applications of capillarity in hydrocarbon production, chemical process and biological sciences iv) Static and dynamic interfacial processes, surfactants, wettability, film and colloids v) New approaches and technologies on capillarity Capillarity is a quarterly open access journal and free to read for all. The journal provides a communicate platform for researchers who are interested in all fields of capillary phenomenon.