论文成果
External electric field effects on asphaltene adsorption on Kaolinite-water interface: A molecular dynamics study
摘要:Applying electric fields to promote water/oil recovery efficiency is gaining increasing attention in downstream of heavy oil development. In this work, molecular dynamics simulations were performed to study the motion of N-(1-Hexylheptyl)-N鈥?-(5-carboxylicpentyl) perylene-3,4,9,10-tetracarboxylic bisimide (C5Pe) between kaolinite (Kaol) surfaces mediated by external electric field in water under different pH. Aggregation of C5Pe was mainly mediated by pH and not affected by the electric field, while adsorption responded to both pH and the electric field. In neutral and alkaline solutions, C5Pe was deprotonated, and its distribution between two Kaol surfaces was mainly mediated by the Coulombic force exerted by the electric field. In acidic solutions, C5Pe carried zero charge, and yet its distribution was still affected by the electric field. The external electric fields mediated the wettability of the two Kaol surfaces in different extents, and C5Pe preferred to adsorb on the more hydrated surface. The mediation of the electric fields on the wettability of surfaces was achieved in two stages. In the first stage, when the electric field of a low strength was applied, diffusion of water enhanced. The hydration of both Kaol surfaces became increased as water molecules formed more hydrogen bonds with the surfaces. As the electric field strength became sufficiently high, diffusion showed no further enhancement, and the re-orientation of water dipoles started dominating the hydrogen bonding with the surfaces. Carrying opposite charges, the hydrogen bond donors and acceptors of water were differently regulated by the electric field, and therefore water molecules conformed in a certain manner under the electric field of high strength. As a result, the hydrogen bonding between water and the two Kaol surfaces (placed on two sides of the simulated box under the electric field) varied with their positions. Due to the structural hindrance of the hydroxyl groups on the surface, the surface could provide more hydrogen bonding donors formed more hydrogen bonds with water, and thus became more hydrophilic and had stronger attraction to C5Pe. 漏 2024
ISSN号:0169-1317
卷、期、页:卷258
发表日期:2024-09-15
影响因子:0.000000
期刊分区(SCI为中科院分区):二区
收录情况:SCI(科学引文索引印刷版),地学领域高质量科技期刊分级目录(国外T1),EI(工程索引),SCIE(科学引文索引网络版)
发表期刊名称:Applied Clay Science
通讯作者:高澜恺,周钰珈,欧阳慕冰
第一作者:孙文苑,王玮,宫敬
论文类型:期刊论文
论文概要:孙文苑,高澜恺,王玮,周钰珈,欧阳慕冰,宫敬,External electric field effects on asphaltene adsorption on Kaolinite-water interface: A molecular dynamics study,Applied Clay Science,2024,卷258
论文题目:External electric field effects on asphaltene adsorption on Kaolinite-water interface: A molecular dynamics study