Influence of clay minerals on pH and major cation concentrations in acid-leached sands: Column experiments and reactive-transport modeling

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Marine Bonnet , Valentin Robin , Flora Parrotin , Niya Grozeva , Nicolas Seigneur , Munkh-Erdene Batbaatar , Michael Descostes
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Abstract

A series of laboratory experiments are conducted to simulate the acidification and subsequent recovery of a sand aquifer exploited by in situ recovery (ISR) mining. A sulfuric acid solution (pH 2) is first injected into a column packed with sand from the Zoovch Ovoo uranium roll front deposit (Mongolia). Solutions representative of local groundwater or enriched in cations (Na+, Mg2+) are then circulated through the column to simulate the inflow of aquifer water. pH and major ion concentrations (Na+, Cl, SO42, Ca2+, Mg2+, K+) measured at the column outlet reproduce the overall evolution of porewater chemistry observed in the field. The presence of minor quantities of swelling clay minerals (≈6 wt% smectite) is shown to exert an important influence on the behavior of inorganic cations, particularly H+, via ion-exchange reactions. Numerical models that consider ion-exchange on smectite as the sole solid-solution interaction are able to reproduce variations in pH and cation concentrations in the column experiments. This highlights the importance of clay minerals in controlling H+ mobility and demonstrates that sand from the studied aquifer can be described to a first order as an ion-exchanger. The present study confirms the key role of clay minerals in controlling water chemistry in acidic environments through ion-exchange processes. In a context of managing the long-term environmental footprint of industrial and mining activities (ISR, acid mine drainage…), this work will bring insights for modeling choices and identification of key parameters to help operators to define their production and/or remediation strategies.

粘土矿物对酸浸砂中 pH 值和主要阳离子浓度的影响:柱状实验和反应迁移模型
进行了一系列实验室实验,以模拟原地回采(ISR)采矿所开采的含沙含水层的酸化和随后的恢复。首先将硫酸溶液(pH 值为 2)注入装有来自 Zoovch Ovoo 铀滚动前沿矿床(蒙古)的沙子的柱中。然后将代表当地地下水或富含阳离子(Na+、Mg2+)的溶液在柱中循环,以模拟含水层水的流入。在柱出口处测量的 pH 值和主要离子浓度(Na+、Cl-、SO42-、Ca2+、Mg2+、K+)再现了现场观察到的孔隙水化学的整体演变。研究表明,少量膨胀粘土矿物(≈6 wt%的闪长岩)的存在会通过离子交换反应对无机阳离子(尤其是 H+)的行为产生重要影响。将离子交换作用视为唯一的固溶相互作用的数值模型能够再现柱实验中 pH 值和阳离子浓度的变化。这凸显了粘土矿物在控制 H+ 迁移方面的重要性,并证明所研究含水层中的沙子可以一阶描述为离子交换器。本研究证实了粘土矿物在酸性环境中通过离子交换过程控制水化学的关键作用。在管理工业和采矿活动(ISR、酸性矿井排水......)的长期环境足迹方面,这项工作将为建模选择和关键参数的确定带来启示,帮助运营商确定其生产和/或修复战略。
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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