AI Article Synopsis
- - The study investigates how salinity gradients affect the diffusion properties of clayey materials, specifically using through-diffusion experiments with vermiculite samples to compare conditions with and without these gradients.
- - Two diffusion models were utilized: a classical Fickian model and a reactive transport code, CrunchClay, to analyze the multi-porosity diffusion processes in the presence of charged surfaces.
- - The findings revealed that water primarily diffused through interparticle porosity rather than interlayer porosity, and highlighted the necessity for a model with at least three types of porous volumes to accurately represent the diffusion behavior of different species under varying salinity conditions.
Article Abstract
Most of the available data on diffusion in natural clayey rocks consider tracer diffusion in the absence of a salinity gradient despite the fact that such gradients are frequently found in natural and engineered subsurface environments. To assess the role of such gradients on the diffusion properties of clayey materials, through-diffusion experiments were carried out in the presence and absence of a salinity gradient using salt-diffusion and radioisotope tracer techniques. The experiments were carried out with vermiculite samples that contained equal proportions of interparticle and interlayer porosities so as to assess also the role played by the two types of porosities on the diffusion of water and ions. Data were interpreted using both a classical Fickian diffusion model and with a reactive transport code, CrunchClay that can handle multi-porosity diffusion processes in the presence of charged surfaces. By combining experimental and simulated data, we demonstrated that (i) the flux of water diffusing through vermiculite interlayer porosity was minor compared to that diffusing through the interparticle porosity, and (ii) a model considering at least three types of porous volumes (interlayer, interparticle diffuse layer, and bulk interparticle) was necessary to reproduce consistently the variations of neutral and charged species diffusion as a function of salinity gradient conditions.
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| http://dx.doi.org/10.1016/j.jconhyd.2024.104357 | DOI Listing |
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