Abstract To investigate methanogenesis performance of upflow anaerobic sludge blanket (UASB) reactor started up using acidified granular sludge, we operated two UASBs with different initial organic loading rates (OLR) for… Click to show full abstract
Abstract To investigate methanogenesis performance of upflow anaerobic sludge blanket (UASB) reactor started up using acidified granular sludge, we operated two UASBs with different initial organic loading rates (OLR) for treating supernatant of hydrothermally treated municipal sludge (SHTMS) over a 180-day period. Under a high OLR of 3.7–4.1 g COD/(L d), the Rh reactor obtained a maximum methane conversion efficiency of 61% along with high volatile fatty acid (VFA) accumulation from day 0 to day 105. By contrast, under a low OLR of 1.9–2.1 g COD/(L d), the Rl reactor achieved a higher methane conversion efficiency of 85%–88% along with low VFA accumulation. Both reactors successfully completed start-up from day 60 to day 70. When the OLRs of both reactors were adjusted to 3.1–3.3 g COD/(L d) from day 106 to day 180, the same methane conversion efficiency of 71% and methane yield of 285 mL CH4/g CODinfluent were achieved. Although Methanobacterium, Methanosarcina, Methanosaeta, and Methanomassiliicoccus were predominant in both reactors, they were not significantly correlated with OLR. Firmicutes, Synergistetes, and Bacteroidetes were the most dominant bacterial phyla, and the enriched bacterial microorganisms were deemed likely to survive in the Rl resctor with low OLR start-up. Therefore, the initial OLR has a substantial effect on the degradation performance and the microbial community variations in UASB reactors for SHTMS treatment.
               
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