A Chemical Analysis of Acid Mine Drainage using Pervious Concrete as a Filtering Medium

2019 Open Innovations (OI) Pub Date : 2019-10-01 DOI:10.1109/OI.2019.8908247

A. L. Mafanya, B. D. Kallon, C. P. Simelane

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Abstract

The present report discussed the chemical analysis of acid mine drainage, when pervious concrete is used as a treatment medium of AMD. Acid mine drainage (AMD) is an acidic water that outflows from the abandoned mines, AMD is made up of Iron, Manganese, Calcium, Sulphur, Aluminium and Neon. The shortage of water in South Africa has drawn many interests to publishers to find ways to treat AMD. It was found that pervious concrete has the potential to reduce metal concentration in AMD. A number of concrete cubes were cast to investigate the impact of thickness, stone size and water to cement ratio in the treatment of AMD. These variables were investigated using constant head permeability test. The purpose of the test was to test the various combinations of properties of the pervious concrete on the response, which is the relative metal concentrate removal from the AMD samples. The pervious concrete cubes were constructed using dolomite stone. the results show that granite aggregate have better AMD treatment qualities compared to dolomite, and the results shows that the flow distance have an influence on PH of AMD as it flows through the pervious concrete.

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透水混凝土作为过滤介质对酸性矿井水的化学分析

本文讨论了以透水混凝土为处理介质的酸性矿井水的化学分析。酸性矿井水(AMD)是从废弃矿山流出的酸性水，AMD由铁、锰、钙、硫、铝和氖组成。南非的水资源短缺吸引了许多出版商的兴趣，他们希望找到治疗AMD的方法。发现透水混凝土具有降低AMD中金属浓度的潜力。通过浇筑大量混凝土立方体，研究厚度、石材尺寸和水灰比对AMD处理的影响。采用恒水头渗透性试验对这些变量进行了研究。试验的目的是测试透水混凝土的各种性能组合对反应的影响，即从AMD样品中相对去除金属精矿。透水混凝土立方体由白云石建造。结果表明，花岗岩骨料比白云石具有更好的AMD处理质量，且流动距离对AMD在透水混凝土中的PH值有影响。

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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2019 Open Innovations (OI)

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