Abstract
A lab-scale ultrasound enhancing Anammox reactor (ABR(U)) was established and irradiated once a week by ultrasound with the optimal parameter (frequency of 25.0 kHz, intensity of 1.00 W cm(-2) and exposure time of 36.0 s) obtained by response surface methodology (RSM). ABR(U) and the controlled Anammox reactor (ABR(C)) without ultrasonic treatment were operated in parallel. The start-up time of Anammox process in ABR(U) (59 d) was shorter than that in ABR(C) (69 d). At the end of the nitrogen load-enhancing period, NLR (0.500 kg N m(-3) d(-1)) and NRR (0.430 kg N m(-3) d(-1)) in ABR(U) were both higher than NLR (0.400 kg N m(-3) d(-1)) and NRR (0.333 kg N m(-3) d(-1)) in ABR(C). The results of RTQ-PCR demonstrated that the specific low-intensity ultrasound irradiation improved the enrichment levels of AnAOB in mature sludge. SEM images and the observation of the macroscopic morphology of mature sludge showed that the ultrasound irradiation strengthened the formation of Anammox granular sludge, thereby improved the interception capacity and impact load resistance of the reactor, and enhanced the nitrogen removal performance in ABR(U). The ultrasonic enhanced Anammox reactor based on an ABR with the optimal parameters can promote the rapid start-up and efficient and stable operation of the Anammox process at normal temperature (around 25.0 °C).