Pore-Morphology-Based Simulation of Drainage in Porous Media Featuring a Locally Variable Contact Angle

Volker P. Schulz; Eric A. Wargo; Emin C. Kumbur

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Pore-Morphology-Based Simulation of Drainage in Porous Media Featuring a Locally Variable Contact Angle

机译：基于孔形态学的多孔介质局部接触角排水模拟

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摘要

Since the first publications by Hazlett (Transp Porous Med, 20:21-35,1995) and Hilpert and Miller (Adv Water Res, 24:243-255,2001), the pore-morphology-based method has been widely applied to determine the capillary pressure-saturation curves of porous media. The main advantage of the method is the simulation of a primary drainage process for large binary images using moderate computational time and memory compared to other two-phase flow simulations. Until now, the pore morphology model was restricted to totally wetting materials or those with a constant contact angle. Here, we introduce a similarly computationally efficient extension of the model that now enables the calculation of capillary pressure-saturation curves for porous media, where the contact angle varies locally within, due to a composite structure.

机译：自Hazlett（Transp Porous Med，20：21-35,1995）和Hilpert and Miller（Adv Water Res，24：243-255,2001）首次发表以来，基于孔形态学的方法已被广泛用于确定多孔介质的毛细管压力-饱和度曲线该方法的主要优点是，与其他两相流模拟相比，使用适度的计算时间和内存对大型二进制图像的主排水过程进行了模拟。到目前为止，孔的形态模型只限于完全润湿的材料或接触角恒定的材料。在这里，我们介绍了该模型的类似计算有效的扩展，该模型现在使计算多孔介质的毛细管压力-饱和度曲线成为可能，该介质的接触角由于复合结构而在内部局部变化。

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来源
《Transport in Porous Media 》 |2015年第1期| 13-25| 共13页
作者
Volker P. Schulz; Eric A. Wargo; Emin C. Kumbur;
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作者单位

Baden-Wuerttemberg Cooperative State University Mannheim, Coblitzallee 1-9, 68163 Mannheim, Germany;

Department of Mechanical Engineering and Mechanics, Drexel University, Philadelphia, PA 19104, USA;

Department of Mechanical Engineering and Mechanics, Drexel University, Philadelphia, PA 19104, USA;

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正文语种 eng
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关键词
Pore morphology; Primary drainage; Capillary pressure-saturation relation; Contact angle; Mixed wettability;

机译：孔形态初级排水;毛细管压力-饱和关系;接触角;混合润湿性;

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1. Pore-morphology-based simulations of drainage and wetting processes in porous media [J] . T. P. Chan, Rao S. Govindaraju Nordic hydrology . 2011 ,第2a3期

机译：基于孔隙形态学的多孔介质排水和润湿过程模拟
2. Pore-morphology-based simulations of drainage and wetting processes in porous media [J] . T. P. Chan and Rao S. Govindaraju Hydrology Research . 2011 ,第2a3期

机译：基于孔隙形态学的多孔介质排水和润湿过程模拟
3. The role of contact angle on unstable flow formation during infiltration and drainage in wettable porous media [J] . Rony Wallach, Michal Margolis, Ellen R. Graber Water resources research . 2013 ,第10期

机译：接触角对可湿性多孔介质渗透排水过程中不稳定流形成的作用
4. MEASUREMENT OF EQUIVALENT PORE RADIUS AND CONTACT ANGLE WITHIN POROUS MEDIA [C] . Saitej Ravi, David Horner, Saeed Moghaddam 2015 Proceedings of the ASME 13th international conference on nanochannels, microchannels, and minichannels . 2015

机译：多孔介质内等效孔隙半径和接触角的测量
5. Contaminant flow and transport simulation in cracked porous media using locally conservative schemes. [D] . Song, Pu. 2010

机译：使用局部保守方案在裂化多孔介质中的污染物流和迁移模拟。
6. Diffusion in linear porous media with periodic entropy barriers: A tube formed by contacting spheres [O] . Marco-Vinicio Vazquez, Alexander M. Berezhkovskii, Leonardo Dagdug -1

机译：具有周期性熵屏障的线性多孔介质中的扩散：通过接触球形成的管
7. Pore-Morphology-Based Simulation of Drainage in Porous Media Featuring a Locally Variable Contact Angle [O] . 2015

机译：基于孔形态学的多孔介质局部接触角排水模拟
8. Capillary effects in drainage in heterogeneous porous media: Continuum modeling, experiments and pore network simulations [R] . Xu, B, Yortsos, Y C 1993

机译：非均质多孔介质中排水的毛细管效应：连续体模拟，实验和孔隙网络模拟

Pore-Morphology-Based Simulation of Drainage in Porous Media Featuring a Locally Variable Contact Angle

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