Coupled influences of particle shape, surface property and flow hydrodynamics on rod-shaped colloid transport in porous media

[Display omitted] Natural or engineered colloidal particles are often non-spherical in shape. In contrast to the widely-used “homogeneous sphere” assumption, the non-spherical particle shape is expected to alter particle–fluid-surface interactions, which in turn affect particle transport and retenti...

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Bibliographic Details
Published in:Journal of colloid and interface science 2020-10, Vol.577, p.471-480
Main Authors: Ma, Huilian, Bolster, Carl, Johnson, William P., Li, Ke, Pazmino, Eddy, Camacho, Kathryn M., Anselmo, Aaron C., Mitragotri, Samir
Format: Article
Language:English
Subjects:
Colloid transport
Particle rotation
Porous media
Rod-shaped particles
Shape effect
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Summary:[Display omitted] Natural or engineered colloidal particles are often non-spherical in shape. In contrast to the widely-used “homogeneous sphere” assumption, the non-spherical particle shape is expected to alter particle–fluid-surface interactions, which in turn affect particle transport and retention. Polystyrene microspheres were stretched to rod-shaped particles of two aspect ratios (2:1, 6:1). The transport and retention behaviors of rods versus spheres were investigated in packed quartz sand columns and impinging jet systems. In parallel, a 3D trajectory model was employed to simulate particle translation and rotation, and to elucidate the role and underlying mechanisms of particle shape impact on transport. Rods were observed to undergo rotating and tumbling motions in response to fluid shear from experiments and simulations. However, no distinct retention trends between rods and spheres were observed from column studies, despite BSA-coating on particles, Fe-coating on sand or velocity change. This was primarily due to the super-hydrophobic nature of colloid surfaces acquired from stretching process, which in hydrophilic sand columns, dominated particle–surface charge interactions. Simulations using colloids with randomly distributed charge patches qualitatively produced the observed insensitivity in retention respecting aspect ratio under low charge coverage (
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2020.05.022