Micellar-enhanced ultrafiltration with a novel modified membrane for removal of arsenate and emerging contaminants from water

Abstract

Toxic metals and Antibiotics appear in water sources have potential threat or adverse effect on health of human being and other living species. The present paper reports a novel micellar-enhanced ultrafiltration process could efficiently remove the toxic metals like arsenate and antibiotics like Levofloxacin and Sulfamethazine from water. Contaminants removal by conventional ultrafiltration membrane is very low. Removal up to 92.8 %, 84.1 % and 95.3 % of Arsenate (AsO43-), Levofloxacin (LF) and Sulfamethazine (SMT) respectively was achieved by micellar-enhanced ultrafiltration with cationic surfactant Benzalkonium chloride as compared to conventional ultrafiltration, which rejected 91.4 %, 8.2 % and 7.9 % of Arsenate, LF, and SMT respectively. Hydrodynamic size of the molecule trapped by micelle enhances significantly helping the separation. The ultrafiltration membrane was modified with copper-chitosan supramolecular assembly and found that molecular weight cut-off decreased because of supramolecular assembly formation. Mechanical properties such as tensile stress and elongation at break were evaluate and it was found that the membrane had significantly higher tensile strength viz. up to 60.9 MPa as compared to virgin Polysulfone membrane 12.7 MPa. Thus, the present work paves the way for future work in the area for removal different contaminants. by micellar-enhanced ultrafiltration.