Influence of salinity gradients on the diffusion of water and ionic species in dual porosity clay samples

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Emmanuel Tertre , Thomas Dabat , Jingyi Wang , Sébastien Savoye , Fabien Hubert , Baptiste Dazas , Christophe Tournassat , Carl I. Steefel , Eric Ferrage
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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.

盐度梯度对水和离子物种在双孔粘土样品中扩散的影响
大多数关于天然粘土岩扩散的现有数据都是在没有盐度梯度的情况下进行示踪剂扩散的,尽管这种梯度在天然和工程地下环境中经常出现。为了评估这种梯度对粘土材料扩散特性的影响,我们采用盐扩散和放射性同位素示踪技术,在存在和不存在盐度梯度的情况下进行了穿透扩散实验。实验使用的蛭石样品颗粒间和层间孔隙比例相等,以便评估这两种孔隙对水和离子扩散的作用。数据的解释既使用了经典的费克扩散模型,也使用了反应传输代码 CrunchClay,该代码可以处理带电表面存在的多孔扩散过程。通过结合实验和模拟数据,我们证明:(i) 通过蛭石层间孔隙率扩散的水通量与通过颗粒间孔隙率扩散的水通量相比微不足道;(ii) 需要一个至少考虑三种类型孔隙体积(层间、颗粒间扩散层和块体颗粒间)的模型,才能一致地再现中性和带电物种扩散随盐度梯度条件的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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