Pore-scale simulation of the influence of grain material of artificial porous media on the motion and deposition of suspended particle

IF 4 2区 环境科学与生态学 Q1 WATER RESOURCES Advances in Water Resources Pub Date : 2024-05-23 DOI:10.1016/j.advwatres.2024.104733
Taijia Lu , Gengyang Zang , Yong Yang , Shilin Wang , Yanfeng Gong , Liping Chen
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Abstract

In this study, we investigated the effect mechanism of the grain material of artificial porous media coating quartz sand (SiO2), titanium dioxide (n-TiO2), zinc oxide (ZnO) and polystyrene (PS) on the motion and deposition of suspended particles. First, the relationship was deeply analysed between the DLVO potential energy and the physico-chemical properties of grain material, including the Hamaker constant and surface zeta potential. Second, the lattice Boltzmann method-immersed moving boundary-discrete element method (LBM-IMB-DEM) was used to investigate the motion characteristics of suspended particles and their effects, including the penetration rate, deposition rate, porosity reduction and the porosity-permeability relations. Third, the relations were innovatively explained between the energy barrier and the particles bridging and bridge collapse which cause the fluctuation of permeability reduction. The main results are as follows. (1) The descending order of the energy barrier between suspended particle and grain material is SiO2, ZnO, PS and n-TiO2, which is the same as that of the surface zeta potential of grain material. (2) For the suspended particles with the same size, the higher potential energy and Primary energy minimum (PEM) enhance the penetration rate. The particle deposition rate in porous media coating n-TiO2 is higher than others. (3) The highest non-uniformity of the porosity reduction occurs in the porous media coating the material with the lowest energy barrier. (4) For the grain material with lower energy barrier, the fluctuation frequency of permeability reduction is lower owing to the longer bridging time.

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人工多孔介质颗粒材料对悬浮颗粒运动和沉积影响的孔隙尺度模拟
本研究探讨了人工多孔介质涂层石英砂(SiO2)、二氧化钛(n-TiO2)、氧化锌(ZnO)和聚苯乙烯(PS)的颗粒材料对悬浮颗粒运动和沉积的影响机理。首先,深入分析了 DLVO 势能与晶粒材料的物理化学性质(包括 Hamaker 常数和表面 zeta 电位)之间的关系。其次,采用晶格玻尔兹曼法-浸没移动边界-离散元法(LBM-IMB-DEM)研究了悬浮颗粒的运动特性及其影响,包括渗透率、沉积率、孔隙率降低和孔隙率-渗透率关系。第三,创新性地解释了导致渗透率降低波动的能量障碍与颗粒架桥和桥塌之间的关系。主要结果如下(1)悬浮颗粒与晶粒材料之间的能量障碍从大到小依次为 SiO2、ZnO、PS 和 n-TiO2,这与晶粒材料表面 zeta 电位的大小相同。(2) 对于相同尺寸的悬浮颗粒,较高的势能和原始能量最小值(PEM)会提高渗透率。颗粒在多孔介质涂层 n-TiO2 中的沉积率高于其它介质。(3) 能量势垒最低的多孔介质涂层材料的孔隙率降低的不均匀性最高。(4) 对于能量势垒较低的晶粒材料,由于架桥时间较长,渗透率降低的波动频率较低。
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来源期刊
Advances in Water Resources
Advances in Water Resources 环境科学-水资源
CiteScore
9.40
自引率
6.40%
发文量
171
审稿时长
36 days
期刊介绍: Advances in Water Resources provides a forum for the presentation of fundamental scientific advances in the understanding of water resources systems. The scope of Advances in Water Resources includes any combination of theoretical, computational, and experimental approaches used to advance fundamental understanding of surface or subsurface water resources systems or the interaction of these systems with the atmosphere, geosphere, biosphere, and human societies. Manuscripts involving case studies that do not attempt to reach broader conclusions, research on engineering design, applied hydraulics, or water quality and treatment, as well as applications of existing knowledge that do not advance fundamental understanding of hydrological processes, are not appropriate for Advances in Water Resources. Examples of appropriate topical areas that will be considered include the following: • Surface and subsurface hydrology • Hydrometeorology • Environmental fluid dynamics • Ecohydrology and ecohydrodynamics • Multiphase transport phenomena in porous media • Fluid flow and species transport and reaction processes
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