Purification of heavy metal chromium in saturated sand by artificial freezing: Mechanism and method optimization

Pub Date : 2022-12-01 DOI:10.1016/j.rcar.2023.02.006
JianZhou Wang , HaiHang Wang , Sen Yang , GuoQing Zhou , YanHu Mu
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引用次数: 0

Abstract

Heavy metal pollution of soil has become one of the most common hazards in human development. The artificial freezing method, especially the progressive freezing method, can reduce heavy metal pollutants in the soil and promises to be an effective in-situ treatment of contaminated sites. This study analyzes the freezing purification mechanism of heavy metal contaminants in saturated sand and identifies three main factors that impact the effects of purification: freezing rate, initial concentration, and diffusion coefficient. Moreover, one-dimensional freezing tests are carried out by different freezing modes. The experimental results show that the heavy metal chromium could only be removed effectively with a slow freezing rate. By optimizing the freezing mode and freezing rate, a long section of soil was frozen and purified, with the maximum purification rate reaching 65.8%. This study shows that it is feasible to treat contaminated saturated sand by a gradual-cooling freezing method.

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饱和砂中重金属铬的人工冻结净化:机理与方法优化
土壤重金属污染已成为人类发展中最常见的危害之一。人工冻结法特别是渐进冻结法可以减少土壤中的重金属污染物,有望成为污染场地原位治理的一种有效方法。分析了饱和砂土中重金属污染物的冻结净化机理,确定了影响净化效果的三个主要因素:冻结速率、初始浓度和扩散系数。并进行了不同冻结方式下的一维冻结试验。实验结果表明,只有在较慢的冻结速率下才能有效去除重金属铬。通过优化冻结方式和冻结速率,对一长段土壤进行了冻结净化,最大净化率达到65.8%。研究表明,采用渐冷冻结法处理污染饱和砂是可行的。
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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