Interaction energy evaluation of the role of solution chemistry and organic foulant composition on polysaccharide fouling of microfiltration membrane bioreactors

摘要

Microfiltration membrane bioreactors (MF MBRs) have been extensively applied in wastewater treatment. Polysaccharide has been known to contribute significantly to organic fouling of MF membranes. In this study, the influences of ionic strength, divalent cations (Ca~(2 +) and Mg~(2 +)) and organic foulant composition on polysaccharide fouling of MF membranes were investigated. Interfacial interaction parameters analysis showed that the cohesion and adhesion energies of polysaccharide increased with higher ionic strength, presence of divalent cations, and higher mass ratio of polysaccharide to protein. Fouling experiments indicated that MF membrane fouling by polysaccharide was also enhanced with increasing ionic strength, divalent cations addition, and higher polysaccharide concentration. Measured interaction energies confirmed the trends of the fouling profiles. Since the MF membrane surfaces were not completely coated with polysaccharide and some of the clean membrane remained exposed after fouling, it was consistently shown that feed solutions that induced higher fouling rates were associated with greater attractive and lower repulsive interaction energies among the polysaccharide molecules and between polysaccharide molecules and clean MF membrane.