Méndez-Paz D, Omil F, Lema J M
Department of Chemical Engineering, School of Engineering, Campus Sur s/n, University of Santiago de Compostela, 15782 Santiago de Compostela, Spain.
Water Res. 2005 Mar;39(5):771-8. doi: 10.1016/j.watres.2004.11.022. Epub 2005 Jan 25.
Acid Orange 7 (AO7) was treated anaerobically under fed-batch and continuous conditions. Fed-batch assays carried out with and without cosubstrate showed that the removal rate of this dye is highly favourable when glucose is added as cosubstrate. In addition, some intermediates generated after the reductive breakdown of AO7, such as 1-amino-2-naphthol (1A2N), seem to play a significant role as redox mediators, thus increasing the degradation rate of the dye. This effect is evidenced by the fact that, during the first feeding, the maximum AO7 removal rate was achieved after a lag phase, whereas for further AO7 feedings this phase was not observed. This can be explained by the presence of 1-amino-2-naphthol in the medium. During the continuous treatment with UASB reactors, AO7 loading rates of 1.7 mM d(-1) (590 mg l(-1)d(-1)) were achieved, with 92% AO7 removal efficiencies, operating with an influent comprised of AO7 (0.58 mM) and glucose (2 gl(-1)). In addition, when the cosubstrate was limiting (AO7 0.3 mM and glucose 0.25 gl(-1)), AO7 removal was significantly lower (78%).
酸性橙7(AO7)在分批补料和连续条件下进行厌氧处理。在有和没有共底物的情况下进行的分批补料试验表明,当添加葡萄糖作为共底物时,这种染料的去除率非常可观。此外,AO7还原分解后产生的一些中间体,如1-氨基-2-萘酚(1A2N),似乎作为氧化还原介质发挥了重要作用,从而提高了染料的降解率。这一效应可通过以下事实得到证明:在第一次补料期间,AO7的最大去除率在延迟期后实现,而在进一步补料AO7时未观察到该延迟期。这可以通过培养基中存在1-氨基-2-萘酚来解释。在使用UASB反应器进行连续处理期间,AO7的负荷率达到1.7 mM d(-1)(590 mg l(-1)d(-1)),去除效率为92%,进水由AO7(0.58 mM)和葡萄糖(2 gl(-1))组成。此外,当共底物受到限制时(AO7 0.3 mM和葡萄糖0.25 gl(-1)),AO7的去除率显著降低(78%)。
Zotero 插件