The removal of dichloromethane (DCM) from polluted air was studied both in biotrickling filters and in continuous stirred tank bioreactors, using either a single-liquid aqueous phase or a combination of an aqueous–organic liquid phase. The presence of the organic phase, i.e. silicone oil, at a volume ratio of 10% of the liquid phase, increased the maximum EC by about 25% in the BTF, reaching 200 g m3/h, and by as much as 300% in the CSTB, reaching 350 g m3/h. Based on data of chloride release in the aqueous phase and carbon dioxide production in the gas phase, complete dechlorination and mineralization of the pollutant could be confirmed. When applying shock loads, a more stable behaviour was observed in the presence of the organic phase. Generally, the completely mixed reactors were also more stable than the plug-flow biotrickling filters, irrespective of the presence of the organic phase. The use of molecular techniques allowed showing that the originally inoculated DCM-degrading Hyphomicrobium strains remained present, although not dominant, after long-term bioreactor operation. Different new bacterial populations did also appear in the systems, some of which were unable to degrade DCM.
展开▼
机译:在生物滴滤池和连续搅拌釜式生物反应器中,都研究了使用单液体水相或水-有机液相的结合物从污染空气中去除二氯甲烷的方法。有机相(即硅油)的存在(体积比为液相的10%)使BTF中的最大EC值增加了约25%,达到200 g m3 / h,而BTF中的最大EC值增加了300%。 CSTB,达到350 g m3 / h。根据水相中氯化物释放和气相中二氧化碳生成的数据,可以确定污染物完全脱氯和矿化。当施加冲击载荷时,在有机相的存在下观察到更稳定的行为。通常,无论有机相的存在,完全混合的反应器也比活塞流生物滴滤器更稳定。分子技术的使用表明,经过长期生物反应器操作后,最初接种的DCM降解的Hyphomicrobium菌株仍然存在,尽管不是占主导地位。系统中也出现了不同的新细菌种群,其中一些无法降解DCM。
展开▼
