BACKGROUND: Mass transfer inside the plain polyvinyl alcohol (PVA)-sodium alginate (SA) carriers was determined to correlate with nitrogen removal by anaerobic ammonium-oxidation (anammox) bacteria in this study. The anammox bacteria immobilized by the PVA-SA material for nitrogen removal were inoculated into a sequencing batch reactor (SBR) operated at a hydraulic retention time of 4 days and a temperature of 35 ± 1°C while another identical reactor inoculated with the un-immobilized biomass was run for comparison. RESULTS: Results show that the total nitrogen removals were 81 and 92% for the immobilized and un-immobilized biomass, respectively, when the ammonium-and nitrite-nitrogen, both at 200 mg N L −1 , were fed into the SBRs. The poorer performance observed from the immobilized biomass was due to the lower mass transfer efficiency. The obtained diffusion coefficient of the ammonium-nitrogen and specific surface area were 15.2 × 10 −6 cm 2 s −1 and 29.35 m 2 g −1 gel beads, respectively. In addition, the mass transfer efficiency influenced the kinetics of the immobilized anammox bacteria. Results indicate that the ammoniumnitrogen removal rate of the un-immobilized biomass was 28 to 34% greater than that of the immobilized biomass, while the nitrite-nitrogen removal rate was greater by 9 to 24% for the un-immobilized biomass. This influence was more significant at high levels of ammonium-and nitrite-nitrogen concentrations. CONCLUSION: Increasing the mass transfer efficiency inside the plain PVA-SA carriers was needed before using the PVA-SA carriers to immobilize anammox bacteria.
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