Petroleum Science >2026, Issue3: 1459-1468 DOI: https://doi.org/10.1016/j.petsci.2025.11.021
Charge-structure synergy in reservoir wettability reversal: Investigating with an integrated optical-multiscale framework Open Access
文章信息
作者:Chao Song, Yi-Qin Yang, Wen-Ya Zhang, Xin Liu, Zhi-Yuan Xu, Ke-Xin Li, Hao Zhang, Chun-Qing Si, Si-Hao Ma, Jia-Ning Zhang, Yan-Yan Wang, Bo-Wen Sun, Sheng-Nan Wu, Mei-Yi Qing, Qi-Chao Lv, Jing Wang, Hong-Lei Zhan
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引用方式:Song, C., Yang, Y.Q., Zhang, W.Y., et al., 2026. Charge-structure synergy in reservoir wettability reversal: Investigating with an integrated optical-multiscale framework. Pet. Sci. 23 (3), 1459–1468. https://doi.org/10.1016/j.petsci.2025.11.021.
文章摘要
Reservoir wettability modification is a key strategy for enhancing oil recovery (EOR), yet the mechanisms driving this reversal remain incompletely understood due to the scarcity of multiscale characterization methods. In this study, we developed an integrated multiscale framework that combines contact angle measurements, rheological analysis, quartz crystal microbalance with dissipation monitoring (QCM-D), and oblique-incidence reflectivity difference (OIRD) to investigate surfactant-mediated wettability reversal. Our findings reveal distinct charge-dependent pathways: anionic sodium dodecyl sulfate (SDS) promotes monotonic hydrophilization through hydrophobic-driven monolayer adsorption. In contrast, cationic cetyltrimethylammonium bromide (CTAB) exhibits a non-monotonic wettability transition—initially increasing hydrophobicity before sharply reversing to a hydrophilic state. This behavior arises from initial electrostatic adsorption forming hydrophobic monolayers, followed by post-critical micelle concentration (post-CMC) micellar co-adsorption, a process involving interfacial integration and reorganization of surfactant micelles that culminates in bilayer formation and hydrophilic reversal. CTAB’s cationic groups enable strong electrostatic anchoring to negatively charged mica substrates, facilitating dense monolayer-to-bilayer transitions. Conversely, SDS anionic headgroups experience electrostatic repulsion, limiting adsorption to disordered monolayers. This multiscale approach offers critical mechanistic insights for optimizing functional coatings and microfluidic systems via precise wettability control.
关键词
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Wettability alteration; Solid–liquid interface; Oblique-incidence reflectivity difference (OIRD); Dielectric constant; Interface thickness; Multiscale characterization