Natural organic matter removal and fouling resistance properties of a boron nitride nanosheet-functionalized thin film nanocomposite membrane and its impact on permeate chlorine demand
Version 2 2024-06-03, 06:34Version 2 2024-06-03, 06:34
Version 1 2020-03-10, 16:40Version 1 2020-03-10, 16:40
Nanofiltration (NF) is an attractive surface water treatment option for the enhanced removal of natural organic matter (NOM) to comply with the regulations of potentially toxic disinfection by-products (DBPs) formation. However, organic fouling has remained an unresolved issue which makes the process less cost-effective. To address this problem, the current study reports on the fabrication of a new thin film nanocomposite (TFN) membrane incorporated with and decorated by amine-functionalized boron nitride BN(NH2) nanosheets. Physicochemical investigations revealed 60 and 40 % enhancement in hydrophilicity and negative charge density of the modified membranes, respectively, which translated into 69 % improvement in flux as well as boosted NOM removal and fouling resistance compared with control counterparts. Additionally, the modified membranes exhibited a better filtration performance under detrimental solution chemistry conditions of low pH and high Ca2+ concentration. Liquid chromatography coupled with organic carbon detection (LC-OCD) profiles and fluorescence excitation emission matrices (FEEM) demonstrated the capability of the modified membranes in removing humics and lower molecular-sized compounds from water as opposed to moderate removals achieved in a conventional water treatment plant. Finally, AQUASIM simulations showed the lower chlorine demand of the NF-treated water which can reflect on its decreased DBPs formation potential.