Molecular modeling on Gulong shale oil and wettability of reservoir matrix

Q1 Physics and Astronomy Capillarity Pub Date : 2022-06-23 DOI:10.46690/capi.2022.04.01

FengLu Cui, Xu Jin, He Liu, Hengan Wu, Fengchao Wang

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引用次数: 7

Abstract

: Understanding molecular interactions between oil and reservoir matrix is crucial to develop a productive strategy for enhanced oil recovery. Molecular dynamics simulation has become an important method for analyzing microscopic mechanisms of some static properties and dynamic processes. However, molecular modeling of shale oil and reservoir matrix is still challenging, due to their complex features. Wettability, which is the measurement of oil-matrix interactions, requires in-depth understanding from the microscopic perspective. In this study, the density, interfacial tension and viscosity of eleven common components in shale oil are calculated using molecular dynamics simulations. Then a molecular model of Gulong shale oil is built, based on the reported experimental results and simulations. Compared with the variation in hydrocarbon content, the change in polar component content leads to more signiﬁcant variations in the physical properties of shale oil. This molecular model is also employed to investigate the wettability of shale-oil nanodroplets on minerals and organic matter, with or without the surrounding aqueous phase. This work suggests fresh ideas for studying the oil-matrix interactions on the nanoscale and provides theoretical guidance for shale oil exploitation

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古龙页岩油分子模拟与储层基质润湿性

了解油与储层基质之间的分子相互作用对于制定提高原油采收率的生产策略至关重要。分子动力学模拟已成为分析某些静态性质和动态过程微观机理的重要方法。然而，由于页岩油和储层基质的复杂特性，其分子建模仍然具有挑战性。润湿性是衡量油-基质相互作用的指标，需要从微观角度深入理解。本文采用分子动力学模拟方法计算了页岩油中11种常见组分的密度、界面张力和粘度。根据已有的实验结果和模拟结果，建立了古龙页岩油的分子模型。相对于烃含量的变化，极性组分含量的变化导致页岩油物性的变化更为显著。该分子模型也被用于研究页岩油纳米液滴在矿物和有机物上的润湿性，无论是否存在周围的水相。该研究为纳米尺度下油基质相互作用的研究提供了新的思路，为页岩油开发提供了理论指导

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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.