Critical flux aspect of air sparging and backflushing on membrane bioreactors Original Research Article

Membrane bioreactors (MBR) combine biological processes with membrane filtration. The main obstacle to efficient operation remains the deterioration of membrane permeability with time. One possible approach to the fouling issue is sub-critical flux operation. Other options are air sparging and backflushing. This study investigated the impact of air sparging and backflushing on flux enhancement, as well as exploring the relationship between use of these strategies and critical flux. The research was accomplished in pilot plant scale using a 70 L reactor fed with glucose-based synthetic wastewater at temperatures around 20°C and MLSS of approximately 10 g/L. Results showed that air sparging and backflushing each increased the flux in the MBR. Using both strategies at low transmembrane pressures (TMP) yielded the most substantial flux enhancement (factor 2) at sub-critical conditions. Without enhancement, no critical flux could be identified for permeate flow rates of less than 2/3 of the limiting flux, and the flux dropped to 20% of the limiting flux after 8 days in pseudo-steady state. With a combination of air sparging and backflushing at low TMP (38 kPa), it was possible to maintain flux for the same time frame at about 40% of the limiting flux. The fact that no fouling occurred indicates (by definition) sub-critical flux.