Source reduction and end treatment of acid mine drainage in closed coal mines of the Yudong River Basin

Quanjia Wu, Xiangdong Li, Qiyan Feng, Xibin Li
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Abstract

After the closure of the Yudong coal mine, the pH value was approximately 3.0, and the Fe and Mn concentrations reached 380 and 69 mg/L, respectively, in the acid mine drainage (AMD), causing serious pollution to the water bodies in the nearby watershed. Combined with the formation conditions of AMD, the comprehensive treatment technology of source reduction–end treatment is adopted to treat the AMD. The treatment area of the goaf is 0.3 km3, the filling and grouting volume is about 6.7 m3, and the curtain grouting volume is 4,000 m3. Through the grouting and sealing treatment in the goaf, the water volume is reduced to less than 85% of the initial volume (100 m3/h). After the end treatment, the pH value of the effluent is around 7.0, the content of Fe and Mn is less than 0.1 mg/L, and the removal rate is above 99%. The project was subsequently operated at RMB 0.85 yuan/t. This project is aimed at the treatment of AMD from small coal mines in complex terrain conditions. It has the characteristics of low cost and high efficiency and can provide an effective treatment technology for AMD in southwestern China and areas with the same geological conditions.
玉洞河流域封闭煤矿酸性矿井排水的源头削减和末端治理
玉洞煤矿关闭后,酸性矿井排水(AMD)pH 值约为 3.0,铁、锰浓度分别达到 380 mg/L 和 69 mg/L,对附近流域水体造成严重污染。结合酸性矿井排水的形成条件,采用源头削减-末端治理的综合治理技术对酸性矿井排水进行治理。治理面积 0.3 km3,充填灌浆量约 6.7 m3,帷幕灌浆量 4 000 m3。经过灌浆和密封处理,水量减少到初始水量的 85% 以下(100 m3/h)。处理结束后,出水的 pH 值在 7.0 左右,铁和锰的含量小于 0.1 mg/L,去除率在 99% 以上。该项目随后以 0.85 元/吨的价格运行。该项目主要针对地形条件复杂的小型煤矿的 AMD 处理。它具有低成本、高效率的特点,可为中国西南部及相同地质条件地区的 AMD 治理提供一种有效的处理技术。
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