期刊
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T
卷 19, 期 -, 页码 4371-4380出版社
ELSEVIER
DOI: 10.1016/j.jmrt.2022.06.161
关键词
Wettability; Hydroxylation; Alkylation; Silicon dioxide; Molecular dynamics
资金
- National Natural Science Foundation of China [52074236, 51836003]
- Sichuan Province Science and Technology Support Program [2021YFQ0044, 2020YFQ0034]
- Graduate Innovation Fund of Southwest Pe- troleum University [2019cxzd022]
This study investigates the impact of surface modification on the wetting behavior of silica through molecular dynamics simulation. The results show that the wetting angle of silica can be changed by modifying its surface with different hydroxylation, methylation, and variations in hydrophobic chain length. A quantitative relationship between the degree of modification and wetting angle is established.
Surfactant controlling the wettability of reservoir rocks is one of the important ways to enhance oil recovery in low-permeability tight reservoirs. A large number of scholars have developed a series of excellent wettability control reagents through macro physical simulation experiments, but macro experiments are difficult to analyze the micro mechanism of liquid/liquid and liquid/solid interface action of reagents controlling rock wettability. In this paper, the wetting behavior of water molecules on silica surfaces modified with different hydroxylation, methylation and hydrophobic chain length was studied by molecular dynamics simulation, and the quantitative relationship between different modification degrees and wetting angle was established. The results show that the original wetting angle of silica is 58.5 degrees, and the surface wettability can be changed from hydrophilic to hydrophobic through surface modification, with a wetting angle of 27.25 degrees similar to 115.78 degrees. With the increase of the coverage of hydrophobic methyl or hydrophilic hydroxyl modified groups, the wetting angle increases or decreases respectively. The quantitative relationship between modification degree and wetting angle was established by simulated data. With the increasing of the chain length of methyl group, the distance between water molecule and silica surface increases and the interaction decreases, which can improve the regulation effect of methyl group hydrophobicity. This paper provides a reference basis for the synthesis of rock wettability control reagent and the quantitative characterization of modification degree.
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