Abstract:The mechanism of the reactor configuration on the aerobic granular sludge formation was studied in order to culture aerobic granular sludge with high efficiency. Since the configuration of the reactor could affect the hydraulic shearing force and the fluid properties, it would play an important role in the formation of aerobic granular sludge. The anaerobic activated sludge was inoculated in the SBR (Sequencing Batch Reactor), and the mature particles in the cylinder SBR were achieved at 36d while particles in the baffle SBR were cultured successfully at 40d. Compared with the baffle SBR, the MLSS in the cylinder SBR was higher, which increased by 16.2% and reached 5023mg/L. The particles in the cylinder SBR were denser and SVI reached 45mL/g, far better than that of 63mL/gin the baffle SBR. The reason is that the cylinder SBR can provide some advantages such as higher average liquid velocity, more uniform bubble distribution, and stronger hydraulic shear force. The structural characteristics of the reactor can affect the hydraulic characteristics, so the cylinder SBR cultivation of aerobic granular sludge for a short time, and the rate of sludge granulation faster and the granular sludge are more compact.
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