Add to ORKGColloid 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 experimentally under various flow rates, as well as colloid release in response to a rapid change of flow rate. Colloid transport experiments under saturated conditions and with different flow rates were conducted in a physical micromodel. The micromodel was made of polydimethylsiloxane (PDMS), which is a hydrophobic polymer. Colloids were hydrophilic fluorescent carboxylate-modified polystyrene latex microspheres with a mean diameter of 300 nm. We could directly observe the movement of colloids within the pores using a confocal microscope. We also obtained conce...
Pore level laboratory experiments using microscopy permit the in situ visualization of flow and tran...
Transport of solutes and colloids over a large number of pores and for multiple scales were explored...
The flow behavior of colloidal particles, suspended in a fluid, within porous media is of fundamenta...
Colloid attachment is an important retention mechanism. It is influenced by colloid size, pore size,...
Abstract The goal of this research was to investigate the difference in behavior of hydrophilic and ...
In this study the transport of colloids in a two-phase fluid system is investigated. In particular, ...
Release of colloids and their subsequent transport into the subsurface environments takes place duri...
As a representation of a porous medium, a closed micro-fluidic device made of polydimethylsiloxane (...
The work presented here consisted of steady-state and transient two-phase flow experiments on the ro...
Understanding the transport of colloids and colloid-facilitated transport of contaminants is essenti...
Temporal variations in the chemistry of infiltrating water into the subsurface are known to cause re...
A review of current literature shows that considerable uncertainty exists concerning the role of the...
The effect of particle shape on its transport and retention in porous media was evaluated by stretch...
A mathematical model is developed to simulate the transport and deposition of virus-sized colloids i...
Confocal microscopy Fluorescent colloids ades, micro-models have proven to be a valuable tool for th...
Pore level laboratory experiments using microscopy permit the in situ visualization of flow and tran...
Transport of solutes and colloids over a large number of pores and for multiple scales were explored...
The flow behavior of colloidal particles, suspended in a fluid, within porous media is of fundamenta...
Colloid attachment is an important retention mechanism. It is influenced by colloid size, pore size,...
Abstract The goal of this research was to investigate the difference in behavior of hydrophilic and ...
In this study the transport of colloids in a two-phase fluid system is investigated. In particular, ...
Release of colloids and their subsequent transport into the subsurface environments takes place duri...
As a representation of a porous medium, a closed micro-fluidic device made of polydimethylsiloxane (...
The work presented here consisted of steady-state and transient two-phase flow experiments on the ro...
Understanding the transport of colloids and colloid-facilitated transport of contaminants is essenti...
Temporal variations in the chemistry of infiltrating water into the subsurface are known to cause re...
A review of current literature shows that considerable uncertainty exists concerning the role of the...
The effect of particle shape on its transport and retention in porous media was evaluated by stretch...
A mathematical model is developed to simulate the transport and deposition of virus-sized colloids i...
Confocal microscopy Fluorescent colloids ades, micro-models have proven to be a valuable tool for th...
Pore level laboratory experiments using microscopy permit the in situ visualization of flow and tran...
Transport of solutes and colloids over a large number of pores and for multiple scales were explored...
The flow behavior of colloidal particles, suspended in a fluid, within porous media is of fundamenta...