银和其他重金属在酸性矿山排水流相关沉积物中的分布和分配

K.C. Jones
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引用次数: 25

摘要

本研究报告了对威尔士阿伯里斯特威斯附近Cwm Rheidol Zn铅矿河流污染的调查。该矿最后一次开采是在上世纪末,尽管20多年前在矿井下面安装了一个静态处理厂,但酸性排水仍然是莱茵河水污染的主要来源。主排放流的酸度通常接近pH 3,导致水合氧化铁的沉淀和随后沿其长度的金属吸附。报道了处理前后银和其他金属(Cd、Cu、Pb、Zn)的浓度和运动情况。通过对沉积物进行顺序提取,还研究了这些金属在排放到Rheidol河后的命运。排出的大部分镉仍然“容易或自由地浸出和交换”(巴德里& &;Aston, 1983),银和铜的非岩成形式(即不结合在矿物晶格中)通过氧化从沉积物中释放出来,而Cd和Zn主要通过酸还原萃取溶解。对该矿及其附近沉积物中金属的分布和分配的研究表明,锌、镉和银、铜、铅的行为具有相似性。然而,数据表明,在解释被所谓的“选择性”萃取剂溶解的元素的化学分配时,应谨慎行事。
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The distribution and partitioning of silver and other heavy metals in sediments associated with an acid mine drainage stream

This study reports an investigation into fluvial contamination by the Cwm Rheidol ZnPb mine near Aberystwyth, Wales. This mine was last worked at the end of the last century, but acidic drainage waters are still a major source of water-borne contamination to the River Rheidol, despite the installation of a static treatment plant below the mine over twenty years ago.

Acidity in the main discharge stream often approaches pH 3, causing the precipitation of hydrated ferric oxides and subsequent sorption of metals along its length. The concentrations and movement of Ag and other metals (Cd, Cu, Pb and Zn) before and after treatment are reported.

The fate of these metals after discharge into the River Rheidol was also studied, using a sequential extraction procedure performed on the sediments. Much of the discharged Cd remained ‘easily or freely leachable and exchangeable’ (Badri & Aston, 1983), non-lithogenic forms (i.e. not bound in the mineral lattice) of Ag and Cu were released from sediments by oxidation, while Cd and Zn were solubilised predominantly by an acid-reduction extraction. Studies of the distribution and partitioning of metals in sediments at and near the mine suggest similarities in the behaviour of Zn and Cd and of Ag, Cu and Pb. However, the data indicate that caution should be exercised when interpreting the chemical partitioning of elements solubilised by so-called ‘selective’ extractants.

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