In this study, we designed a microbial electrochemical fluidized bed reactor (ME-FBR), with an electroconductive anodic bed made of activated carbon particles for treating a brewery wastewater. Under a batch operating mode, acetate and propionate consumption rates were 13-fold and 2.4-fold higher, respectively, when the fluidized anode was polarized (0.2 V) with respect to open circuit conditions. Operating in a continuous mode, this system could effectively treat the brewery effluent at organic loading rates (OLR) over 1.7 kg m-3NRV d-1 and with removal efficiencies of 95 ± 1.4% (hydraulic retention time of 1 day and an influent of 1.7 g-COD L-1). The coulombic efficiency values highly depended upon the OLR applied, and varied from a 56 ± 15% to 10 ± 1%. Fluorescence in situ hybridization (FISH) analysis revealed a relative high abundance of Geobacter species (ca. 20%), and clearly showed a natural microbial stratification. Interestingly, the Geobacter cluster was highly enriched in the innermost layers of the biofilm (thickness of 10 μm), which were in contact with the electroconductive particles of bed, whereas the rest of bacteria were located in the outermost layers. To our knowledge, this is the first time that such a clear microbial stratification has been observed on an anode-respiring biofilm. Our results revealed the relevant role of Geobacter in switching between the electrode and other microbial communities performing metabolic reactions in the outermost environment of the biofilm.
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机译:在这项研究中,我们设计了一种微生物电化学流化床反应器(ME-FBR),其具有由活性炭颗粒制成的导电阳极床,用于处理啤酒废水。在分批操作模式下,当流化阳极相对于开路条件极化时(0.2 V),乙酸盐和丙酸盐的消耗速率分别高13倍和2.4倍。该系统以连续模式运行,可以有效处理超过1.7 kg m -3 NRV d -1 的有机负荷下的啤酒废水,去除效率为95±1.4%(液压保留时间1天,进水1.7 g-COD L -1 )。库仑效率值高度取决于所应用的OLR,从56±15%到10±1%不等。荧光原位杂交(FISH)分析显示,相对较高的土壤细菌种类(约20%),并且清楚地显示出自然的微生物分层。有趣的是,Geobacter簇高度富集在生物膜的最内层(厚度为10μm),与床的导电颗粒接触,而其余细菌位于最外层。据我们所知,这是首次在可吸入阳极的生物膜上观察到这种清晰的微生物分层。我们的研究结果揭示了地球细菌在电极和其他在生物膜最外层环境中进行代谢反应的微生物群落之间切换的相关作用。
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