CFD-DEM study on transport and retention behaviors of nZVI-clay colloids in porous media

堵塞 多孔介质 范德瓦尔斯力 胶体 表面电荷 CFD-DEM公司 化学 流速 多孔性 材料科学 岩土工程 化学物理 计算流体力学 流量(数学) 机械 地质学 物理 历史 物理化学 考古 有机化学 分子
作者
Pengfei Liu,Shaokai Nie,Wenyuan Wang,Shuai Zhang,Bate Bate,Yunmin Chen
出处
期刊:Journal of Hazardous Materials [Elsevier BV]
卷期号:465: 133048-133048 被引量:6
标识
DOI:10.1016/j.jhazmat.2023.133048
摘要

Transportation process of nano scale zero valent iron (nZVI) in clay-rich soils is complicated and crucial for in-situ remediation of contaminated sites. A coupled computational fluid dynamic and discrete element method (CFD-DEM) was used to investigate the interplays of repulsive and attractive forces and the injection velocity of this process. The screened Coulomb's law was used to represent the electrostatic interaction, and surface energy density was introduced to represent the effects of the van der Waals interaction. A phase diagram was constructed to describe the interplay between injection velocity and repulsive force (in terms of charge of colloids). Under the boundary and initial conditions in this study, clogging formed at low repulsive force (colloidal charge = −1 ×10-15 C), where increment of injection velocity (from 0.002 m/s to 0.02 m/s) cannot prevent clogging, as in the case of bare nZVI transportation with limited mobility; On the other hand, excessive repulsive force (charge = −4 ×10-14 C) is detrimental to nZVI-clay transportation due to repulsion from the concentrated colloids in pore throats, a phenomenon as in the overuse of stabilizers and was defined as the "membrane repulsion effect" in this study. At moderate charge (−1 ×10-14 C), injection velocity increment induced clogging due to aggregates formed at the windward of cylinder and accumulated at the pore throats.

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