Removal of Copper from Acid Mine Drainage (AMD) or Acid Rock Drainage (ARD)

水资源与保护(英文) Pub Date : 2021-07-07 DOI:10.4236/jwarp.2021.137026

Agabu Shane, Xinyang Xu, J. Siame, Alick Nguvulu, Tewodros M. Tena, Musango Lungu, Sydney Chinyanta, Jackson Kawala, Victor Mwango Bowa, Brian Chirambo

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引用次数: 1

Abstract

Acid mine drainage is wastewater from a mine having a low pH and an elevated level of dissolved heavy metals. These metals are harmful to aquatic, animal and human life. This paper looks at the removal of copper from acid mine drainage using ion exchange to less than 1 mg/l. A weak acidic cation resin was used. Spectrophotometric determination of copper with sodium diethyldithiocarbamate was used to determine the copper concentrations in the treated water. Using regression analysis, the experimental results gave a correlation coefficient of 0.977 and a coefficient of determination of 99.5%. Results indicated that the higher the flows rate the shorter the period after which the copper concentration in the treated water reaches 1 mg/l. At pH 3.85 and 5.09, the resin performed better and at pH above 6.62 and between pH 3.0 and below the resin’s does not perform well. The higher the resin height the greater is the resin exchange capacity and the longer it takes for the copper concentration to reach 1 mg/l in the treated water. The higher the wastewater copper concentration the shorter the time it takes the resin to reach 1 mg/l. The results for this experiment indicated that acid mine drainage can be treated well by ion exchange resins, but it is also very important to establish suitable operating conditions.

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从酸性矿山排水（AMD）或酸性岩石排水（ARD）中去除铜

酸性矿山排水是来自矿山的具有低pH值和高溶解重金属水平的废水。这些金属对水生生物、动物和人类生命有害。本文研究了使用离子交换将酸性矿井排水中的铜去除至小于1mg/l。使用弱酸性阳离子树脂。用二乙基二硫代氨基甲酸钠分光光度法测定处理水中的铜浓度。通过回归分析，实验结果的相关系数为0.977，测定系数为99.5%。结果表明，流速越高，处理水中铜浓度达到1mg/l的时间越短。在pH 3.85和5.09下，树脂表现更好，在pH 6.62以上和pH 3.0及以下时，树脂表现不佳。树脂高度越高，树脂交换能力就越大，处理水中铜浓度达到1mg/l所需的时间就越长。废水铜浓度越高，树脂达到1mg/l所需的时间就越短。实验结果表明，离子交换树脂可以很好地处理酸性矿井排水，但建立合适的操作条件也很重要。

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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水资源与保护(英文)

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