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首页> 外文期刊>Mine water and the environment >Performance of a SAPS-Based Chemo-Bioreactor Treating Acid Mine Drainage Using Low-DOC Spent Mushroom Compost,and Limestone as Substrate
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Performance of a SAPS-Based Chemo-Bioreactor Treating Acid Mine Drainage Using Low-DOC Spent Mushroom Compost,and Limestone as Substrate

机译:基于SAPS的化学生物反应器以低DOC食用蘑菇堆肥和石灰石为基质处理酸性矿井的性能

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摘要

Static and continuous experiments were carried out in a down flow chemo-bioreactor, modeled on successive alkalinity producing systems, for acid mine drainage treatment. Spent mushroom compost (SMC) was used as the immobilizing substrate and nutrient source for sul-fate reducing bacteria (SRB). Operational success was assessed using effluent to influent ratios during continuous flow; these averaged: 0.0175, 0.12, and 0.071 for Fe, Cu, and Mn, respectively, and 0.11 for sulfate. In contrast, Mg was released by the SMC, increasing its concentration in the effluent. Acidity was consistently less than 1 mg/L. The pH of the effluent was higher than 7 for most of the experiment. SMC was shown to release sufficient organic carbon during the experiment to establish and maintain anaerobic conditions and sustain the SRB.
机译:在下流化学生物反应器中进行了静态和连续实验,该实验以连续的碱度产生系统为模型,用于酸性矿山排水处理。用过的蘑菇堆肥(SMC)作为还原硫酸盐细菌(SRB)的固定基质和营养来源。使用连续流动过程中出水与进水的比例来评估操作成功与否;这些平均:Fe,Cu和Mn分别为0.0175、0.12和0.071,硫酸盐为0.11。相反,Mg由SMC释放,从而增加了废水中的浓度。酸度始终低于1 mg / L。在大多数实验中,废水的pH值均高于7。实验显示,SMC释放出足够的有机碳,以建立和维持厌氧条件并维持SRB。

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