We performed two- and three-dimensional pore-scale simulations in (a) hybrid micro-nanochannel and (b) micromodel porous media setups. For the former, we show that it is possible to achieve selective particle separation via diffusiophoresis by imposed steady-state salt concentration gradients. We quantify the separation efficiency as a function of the relevant design parameters and compare with existing experiments in the literature. We also investigate the role of diffusioosmosis that refers to the bulk flow adjacent to the solid surfaces. These results were presented at InterPore2021 online (due to COVID-19), May 31 - June 4, 2021, and published in the journal of Physical Review Applied.
For the latter, we considered a hyperuniform pore structure that is statistically homogeneous and characterized by dead-end pores and transmitting pores. The porous medium is initially saturated with salt at a lower concentration and particles, and then eluted by injecting a sharp front of salt at higher concentration. This also serves as the driving force for diffusiophoresis within the stagnation points created inside the dead-end pores. We show that, depending on the diffusiophoretic mobility, which is a quantitative measure of the strength of the phoretic motion, diffusiophoresis can lead to particle mobilization out of the dead-end pores enhancing the macroscopic particle transport or conversely, it may promote particle trapping or deposition within the dead-end pores effectively deteriorating the macroscopic particle transport. In summary, our results suggest that diffusiophoresis is a powerful tool that can be exploited for achieving controlled particle manipulation and either improve the elution or deposition process, as desired. These results were presented at European Geosciences Union General Assembly, April 3-8, 2022 (EGU22) in Vienna, Austria, and Gordon Research Conference (GRC) on Flow transport and permeable media, July 17-22, 2022, in Les Diablerets, Switzerland where I received the ‘best poster’ award. Additionally, I was invited to present my work at Gordon Research Seminar (GRS) on Flow transport and permeable media, July 16-17, 2022, in Les Diablerets, Switzerland. Several publications are still underway to solidify this work.