The anomalous (ie, non-Fickian) transport characteristics (eg, early arrival/long tailing and
other non-Gaussian plume properties) make it challenging to apply classical transport …

In this study, a fully coupled pore scale model was developed with the aim of exploring the
effects of ionic strength and zeta potential on colloids transport under favourable and …

Particle deposition in porous media alters hydraulic properties including porosity and
permeability. The extent of these alterations depends on both porous media structure and its …

In this study, we have developed a combined lattice Boltzmann-smoothed profile method to
explore coupled mechanisms governing transport of colloids and their retention in porous …

In this study a novel total flux normalized correlation equation is proposed for predicting
single-collector efficiency under a broad range of parameters. The correlation equation does …

Predicting the solute dispersivity in porous media is complicated by the known scale
dependency of dispersion processes. In this study, we combined three complementary …

Unsaturated column experiments were conducted with an undisturbed loamy sand soil to
investigate the influence of flow interruption (FI) and ionic strength (IS) on the transport and …

Nanoparticle deposition behavior observed at the Darcy scale represents an average of the
processes occurring at the pore scale. Hence, the effect of various pore‐scale parameters …

Abstract The Spatial Markov Model (SMM) is an upscaled model with a strong track record in
predicting upscaled behavior of conservative solute transport across hydrologic systems …

Colloid attachment is an important retention mechanism. It is influenced by colloid size, pore
size, and flow rate, among other factors. In this work, we studied colloid attachment …