润湿
毛细管压力
多孔介质
渗吸
毛细管作用
材料科学
饱和(图论)
润湿转变
多孔性
复合材料
油藏
接触角
多相流
矿物学
岩土工程
石油工程
地质学
热力学
物理
组合数学
发芽
生物
植物
数学
作者
Maja Rücker,W.‐B. Bartels,Gaetano Garfi,Mosayeb Shams,Tom Bultreys,Matthieu Boone,S. G. J. Pieterse,Geoffery Maitland,Samuel Krevor,Veerle Cnudde,Hassan Mahani,Steffen Berg,Apostolos Georgiadis,Paul F. Luckham
标识
DOI:10.1016/j.jcis.2019.11.086
摘要
The wetting behaviour is a key property of a porous medium that controls hydraulic conductivity in multiphase flow. While many porous materials, such as hydrocarbon reservoir rocks, are initially wetted by the aqueous phase, surface active components within the non-wetting phase can alter the wetting state of the solid. Close to the saturation endpoints wetting phase fluid films of nanometre thickness impact the wetting alteration process. The properties of these films depend on the chemical characteristics of the system. Here we demonstrate that surface texture can be equally important and introduce a novel workflow to characterize the wetting state of a porous medium.We investigated the formation of fluid films along a rock surface imaged with atomic force microscopy using ζ-potential measurements and a computational model for drainage. The results were compared to spontaneous imbibition test to link sub-pore-scale and core-scale wetting characteristics of the rock.The results show a dependency between surface coverage by oil, which controls the wetting alteration, and the macroscopic wetting response. The surface-area coverage is dependent on the capillary pressure applied during primary drainage. Close to the saturation endpoint, where the change in saturation was minor, the oil-solid contact changed more than 80%.
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