A pore‐scale model based on measured particle size distributions has been used to quantify the changes in pore space geometry of packed soil columns resulting from a dilution in …
R Zhang, Z Yang, R Detwiler, D Li, G Ma… - Geophysical …, 2023 - Wiley Online Library
Suspended particle transport is frequently involved in many geophysical processes and subsurface engineering applications. Although common and important, the effect of liquid …
The dynamics of fine particle entrainment, transport, and deposition within pore systems, and in particular, the capacity for mobile fines to impair permeability within porous media is …
G Han, TH Kwon - Water Resources Research, 2023 - Wiley Online Library
Fines migration driven by fluid flows often causes pore clogging in porous media and thus reduces the permeability of the porous media. The clogging can pose serious problems in …
Depressurization of hydrate-bearing sediments (HBS) is inevitably accompanied with sediment transport, not only structural host sediment itself but also fine particles, which can …
Based on direct numerical simulations of the coupled motion of particles and fluid, this study analyzes the collective hydrodynamic and colloidal effects of flowing microparticles during …
MA Hosseini, P Tahmasebi - Journal of Cleaner Production, 2024 - Elsevier
Fine particle motions have significant implications in porous media, manifesting in various natural phenomena and industrial applications. The movement of particles can lead to …
The migration of mobile particles through porous networks is restricted when the size of the migrating particles approaches the size of pore throats. In this case, single particle retention …
Understanding particle transport in porous media is critical in the sustainability of many geotechnical and geoenvironmental infrastructure. To date, the determination of the first …