Permeability and clogging in an immersed hollow fibre membrane bioreactor

Abstract

A pilot-scale hollow fibre immersed membrane bioreactor (HF iMBR) fed with municipal wastewater was operated under conditions pertaining to those at full-scale to assess the impact of clogging by gross solids on permeability. The study proceeded by operating for ∼22h periods at two different fluxes with regular backflushing, and the accumulation of solids within the fibre bundle determined through their mechanical removal and gravimetric measurement. Permeability recovery, along with the fouling rate during sludging, from this complete “declogging” was compared with that from conventional maintenance cleaning from chemically enhanced backflushing (CEB).Results revealed declogging to contribute significantly to permeability recovery, but the comparable impact of the CEB alone revealed fouling to also be important. However the rate of transmembrane pressure increase, normally termed the “fouling rate”, was found to strongly correlate with the mass of accumulated solids, suggesting that clogging suppression is important in maintaining permeability overall during HF iMBR operation.