Roles of Granular Sludge Size Restricting and Organic Degradation in an Extended Filamentous AGS System Using Agnail Aeration Device

This work investigated the role of an agnail device (manually made from a comb) on sludge size restriction and organic degradation in extended filamentous aerobic granular sludge-sequencing batch reactors (AGS-SBRs) with artificial wastewater. Two identical SBRs (R1 and R2) were employed in this experiment. Extended filamentous AGS with a large size was achieved in both SBRs by seeding the dewatering the sludge on day 40. R1 (the control) did not use the agnail aeration device, and the extended filamentous AGS system was finally disintegrated. However, R2 promptly employed the agnail device on days 56-59, the extended filamentous AGS size obviously decreased from 4.8 mm to 2.5 mm, and the dominant filamentous species, including Proteobacteria, Acidobacteria, and Choroflexi, gradually shrank at a low level, acting as a framework for AGS recovery. This was because enough nutrients diffused into the inside of small sludge for the filamentous living. Simultaneously, the sludge volume indexes (SVI5 and SVI30) sharply decreased from 155.8-103.9 to 51.7-46.6 mL/g, and the mixed liquid suspended solids (MLSSs) and extracellular polymeric substances (EPSs) in R-2 both increased and were kept at 5816 mg/L and 69.1 mg/g center dot MLVSS, respectively. These contributed to enhancing the sludge's structural stability to avoid AGS failure. COD and NH4+-N in R-2 were both degraded by simultaneous nitrification and denitrification (SND) processes throughout the experiment, which was not significantly influenced before or after the agnail aeration device was employed. These results indicate that the agnail device can effectively restrict AGS size and limit the extended filamentous overgrowth with nutrient diffusion into the sludge's interior, which can prevent AGS disintegration. In addition, this device had no significant influence on organic degradation.

Automated summary

This study investigated the effect of an agnail device on sludge size restriction and organic degradation in extended filamentous aerobic granular sludge-sequencing batch reactors. The results showed that the use of the agnail device effectively restricted the size of the sludge particles and prevented disintegration of the sludge. Additionally, the device had no significant influence on organic degradation.