Green Solvent Cleaning Removes Irrecoverable Foulants from End-of-Life Membranes in Membrane Bioreactors:Efficacy and Mechanisms

摘要

Removal of irrecoverable foulants,which cannot be removed by conventional chemical cleaning,from end-of-life(EOL) membranes remains a substantial challenge due to the strong interaction between the foulants and membrane matrix.Herein,we developed a green solvent cleaning strategy based on Hansen solubility parameters to achieve the removal of irrecoverable foulants from the EOL polyvinylidene fluoride(PVDF) membranes serving for 6 years in a large-scale membrane bioreactor(MBR).We selected methyl-5-(dimethylamino)-2-methyl-5-oxopentanoate(MDMO) as the green solvent due to its strong interaction with the PVDF material,which might enable the substitution of binding sites of irrecoverable foulants.After the MDMO cleaning,the water permeance of the EOL membrane recovered from 47.6 ± 4.7 to 390.9 ± 8.2 L m~(-2)h~(-1) bar~(-1)(with a flux recovery ratio of ~100),with its rejection ability and stability maintained.The main components of irrecoverable fouling were humic acid-like substances revealed by spectroscopic characterization.Molecular dynamic simulation further elucidated the cleaning mechanisms:the strong interaction of MDMO-PVDF enabled substitution of binding sites of irrecoverable foulants by MDMO,followed by desorption of the irrecoverable foulants from PVDF and diffusion of the irrecoverable foulants into the bulk phase of MDMO.Evaluation in a lab-scale MBR treating real municipal wastewater verified the reusability of green solvent cleaned-EOL membranes.This study provides a novel,effective,and green cleaning strategy to remove irrecoverable foulants and prolong the service life of membranes in MBRs,facilitating sustainable wastewater treatment using membrane-based processes.