On the other hand, the microbiology

On the other hand, the microbiology of anaerobic digestion is complicated and each microbial stage has their optimal functioning conditions. They are sensitive to and possibly inhibited by operational parameters such as pH, hydrogen, volatile fatty acids and others. H2, a byproduct during acidifi- cation of organics, is considered as a thermodynamically un- favorable intermediate during anaerobic methanogenesis because it may impede the decomposition of organic acids (Fukuzaki et al., 1990). For example, propionic acid and butyric acid, two main VFA forms in acidification, can be decomposed into acetate only when pH2 is less than 104 for n-butyric acid and 105 atm for propionic acid (Siriwongrungson et al., 2007). However the partial pressure of hydrogen in practice usually exceeds this range especially as the substrates are rich in carbohydrate such as WAS (Hawkes et al., 2002). Until now, very few publications are focused on accelerating the anaer- obic digestion of sludge by reducing the accumulation of hydrogen.
Zero-valent iron (ZVI), a reductive material, has been widely applied in wastewater treatment, groundwater purifi- cation and soil remediation (Jiang et al., 2011). ZVI may decline the oxidation-reduction potential (ORP) when added into anaerobic systems, enabling to create a more favorable envi- ronment for anaerobic biological processes (Liu et al., 2012a). It could significantly improve conversion of complex organics into volatile fatty acids (VFAs) and methanogenesis. It was found that propionate production dropped with addition of ZVI because propionic-type fermentation did not prefer low ORP (Alkaya and Demirer, 2011; Ren et al., 2007). Although the effects of ZVI on anaerobic degradation of sucrose were pri- marily investigated in our previous work, the functions of ZVI in the anaerobic sludge digestion still remain unknown. As mentioned above, the sludge digestion is different with the digestion of simple organics in terms of the limiting step and H2 production rate. In this study, ZVI was added into an anaerobic digestion system for accelerating the sludge diges- tion. To our best knowledge, it is the first time to enhance the anaerobic digestion of sludge through adding ZVI. The effects of ZVI on hydrolysiseacidification and methanogenesis of the sludge were investigated, with the aim to provide a simple and effective method to accelerate the anaerobic digestion of sludge.