Shingo Tomiyama, Tsubasa Hagino, T. Igarashi, M. Sakoda, Y. Masaki
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引用次数: 0
摘要
本文描述了日本北海道西南部枣矿周围酸性矿井水(AMD)和河水的地球化学特征。该矿位于硫化物矿床中,含有黄铁矿并产生AMD,目前正在中和;然而,正在考虑引进被动治疗系统(PTS)。为了准备引入PTS,本研究旨在评估未经处理的AMD流入河流的环境影响。河流的流量取决于降水,AMD与河流的比值在0.0014-0.018之间。在实测结果的基础上,进行了AMD与河水的混合实验,观察到随着pH值的增加,铁和铜沉淀的形成,表明河水中重金属存在自净化现象的可能性。计算得到的Fe(II)氧化速率随ph的增加而增加。PHREEQC中的表面络合模型再现了Cu浓度因与氢氧化铁共沉淀而降低。假设未经处理的AMD与河水混合,河水中fe2 +浓度从0.19 mg L -1下降到0.003 mg L -1。
Effects of Acid Mine Drainage from the Date Mine on Nearby Rivers
This paper describes the geochemistry of acid mine drainage (AMD) and river water around the Date Mine in southwest Hokkaido, Japan. The mine is located in a sulfide deposit that contains pyrite and generates AMD, which is currently being neutralized; however, the introduction of a passive treatment system (PTS) is being considered. In preparation for the introduction of the PTS, this study aims to evaluate the environmental impact of untreated AMD flowing into rivers. The flow rate of the river depends on precipitation, and the ratio of AMD to that of the river was in the range 0.0014–0.018. In mixing experiments of AMD and river water based on measured results, the formation of iron and copper precipitates with increasing pH was observed, which suggests the possibility of self-purification phe- nomena of heavy metals in the river. The calculated oxidation rate of Fe(II) increased with pH. The surface complexa-tion model in PHREEQC reproduced Cu concentration decrease due to coprecipitation with iron hydroxide. Assuming that untreated AMD is mixed with the river water, the Fe 2+ concentration decreased from 0.19 mg L –1 to 0.003 mg L –1 in the river.
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