Bio&Hydrometallurgy Laboratory - Universidade Federal de Ouro Preto., Campus Morro do Cruzeiro, Ouro Preto, MG, 35400-000, Brazil.
J Hazard Mater. 2010 Sep 15;181(1-3):514-20. doi: 10.1016/j.jhazmat.2010.05.044. Epub 2010 May 16.
Manganese removal from mining-affected waters is an important challenge for the mining industry. Addressed herein is this issue in both batch and continuous conditions. Batch experiments were carried out with synthetic solutions, at 23+/-2 degrees C, initial pH 5.5 and 8.3 g limestone/L. Similarly, continuous tests were performed with a 16.5 mg/L Mn(2+) mine water, at 23 degrees C, initial pH 8.0 and 20.8 g limestone/L. Calcite limestone gave the best results and its fine grinding proved to the most effective parameter for manganese removal. In either synthetic solutions or industrial effluents, the final manganese concentration was below 1 mg/L. A change in limestone surface zeta potential is observed after manganese removal and manganese carbonate formation was suggested by IR spectroscopy. The conclusion is that limestone can remove manganese from industrial effluents for values that comply with environmental regulations.
从受采矿影响的水中去除锰是采矿行业面临的一个重要挑战。本文在间歇和连续条件下都解决了这个问题。在 23±2°C、初始 pH 值为 5.5 和 8.3 g 石灰石/L 的条件下,用合成溶液进行了间歇实验。同样,在 23°C、初始 pH 值为 8.0 和 20.8 g 石灰石/L 的条件下,用 16.5mg/L 的 Mn(2+)矿山废水进行了连续试验。方解石石灰石的效果最好,其细磨被证明是去除锰的最有效参数。无论是在合成溶液还是工业废水中,最终的锰浓度都低于 1mg/L。在去除锰和形成碳酸锰后,观察到石灰石表面zeta 电位发生变化,红外光谱表明形成了碳酸锰。结论是,石灰石可以去除工业废水中的锰,使其符合环境法规的要求。
Zotero 插件