Cation interception and permeability characteristics of bentonite barriers exposed to NaCl and NH4Cl solutions

Wen-jing Sun, Qian-tong Tang, Ri-dong Fan, Ai-wu Yang, Yun-zi Tan, Anthony Kwan Leung
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Abstract

High concentrations of Na+ and NH4+ in landfill leachate lead to deterioration of bentonite barrier and pose a threat to the environment. This study focused on the pollution interception and permeability characteristics of the bentonite barrier exposed to NaCl and NH4Cl solutions. Based on previous findings, salt solution concentrations were established at 74.80, 37.40, 18.70, and 9.4 mmol/L. The bentonite contents in the mixture were set at 0, 5, 10, and 15%. The results indicate that the samples exhibit better interception of NH4+ compared to Na+. This difference arises from the cation exchange sequence, the size of the hydration radius, and the hydrogen bonding of the two cations. Additionally, the difference in hydration enthalpy between the two cations leads to variations in the swelling of bentonite, resulting in a higher permeability coefficient in NH4Cl solution. This study shows that although bentonite barriers have better interception for NH4+, they exhibit greater permeability in NH4Cl solution, increasing the risk of leachate carrying other contaminants.
暴露于 NaCl 和 NH4Cl 溶液中的膨润土屏障的阳离子拦截和渗透特性
垃圾填埋场渗滤液中高浓度的 Na+ 和 NH4+ 会导致膨润土屏障恶化,对环境造成威胁。本研究的重点是暴露在 NaCl 和 NH4Cl 溶液中的膨润土隔离层的污染拦截和渗透特性。根据以往的研究结果,盐溶液浓度分别定为 74.80、37.40、18.70 和 9.4 mmol/L。混合物中的膨润土含量分别定为 0、5、10 和 15%。结果表明,与 Na+ 相比,样品对 NH4+ 的拦截效果更好。这种差异来自阳离子交换顺序、水合半径的大小以及两种阳离子的氢键。此外,两种阳离子水化焓的差异导致膨润土膨胀率的变化,从而使其在 NH4Cl 溶液中具有更高的渗透系数。这项研究表明,虽然膨润土屏障对 NH4+ 有更好的拦截能力,但在 NH4Cl 溶液中却表现出更高的渗透性,从而增加了沥滤液携带其他污染物的风险。
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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