Comparison of Phytoremediation and Filtration for Diamond-mine-tailings Water Treatment

M. Noor, Mijani Rahman, Akhmad Gazali, N. Kania, A. Rahma, E. L. Rampun, A. E. Pratiwi, M. Elma
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Abstract

The water pollution caused by diamond mine activities can kill aquatic life. In this work, we used phytoremediation and filtration to treat pond water polluted by the tailings of a diamond mine located in South Kalimantan, Indonesia. Einchhornia crassipes (water hyacinth) was utilized as the biomass for the phytoremediation process. Gravel (10–15 mm) and sand (0.1–1 mm) were used as filter media in the simple filtration setup, using an up-flow system (bottom to top). In the experiment, 16 L of diamond tailing water was poured into five phytoremediation reactors (each 60 L in volume), which were then tested over seven days. A pretreatment analysis of the tailings water showed that its biochemical oxygen demand (BOD) of 8.9 mg L and chemical oxygen demand (COD) of 22 mg L exceeded the national maximum standards of 2 mg L and 10 mg L, respectively. The experimental results demonstrate that both phytoremediation and filtration could increase the dissolved oxygen concentration (4.7 mg.L) and reduce the BOD (3.2 mg.L), COD (6.5 mg.L), Fe (0.6 mg.L), Mn (0.16 mg.L), and ammonia (0.63 mg.L) concentrations from those measured in the raw diamond-mine-tailings water. The phytoremediation performance was better than that of filtration. The COD values were successfully reduced to the permissible limit, although the other parameters still failed to meet the government water quality regulation requirements.
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植物修复与过滤处理金刚石尾矿水的比较研究
钻石矿活动造成的水污染会杀死水生生物。在这项工作中,我们采用植物修复和过滤的方法处理了位于印度尼西亚南加里曼丹的一个钻石矿的尾矿污染的池塘水。利用水葫芦(inchhornia crassipes)作为植物修复的生物量。在简单的过滤装置中,使用砾石(10-15 mm)和沙子(0.1-1 mm)作为过滤介质,使用自下而上的向上流动系统。在实验中,将16 L的钻石尾矿水倒入5个植物修复反应器中(每个反应器的体积为60 L),然后进行为期7天的测试。对尾矿水进行预处理分析,其生化需氧量(BOD)为8.9 mg L,化学需氧量(COD)为22 mg L,分别超过国家最高标准2 mg L和10 mg L。实验结果表明,植物修复和过滤均能提高原钻尾矿水中溶解氧浓度(4.7 mg.L),降低BOD (3.2 mg.L)、COD (6.5 mg.L)、Fe (0.6 mg.L)、Mn (0.16 mg.L)和氨(0.63 mg.L)浓度。植物修复效果优于过滤修复。COD值成功降至允许限值,但其他参数仍未达到政府水质监管要求。
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