Litcius/Paper detail

Feasibility of hydrophilic polyethylene separator for membrane bioreactor for wastewater treatment: Fouling behaviors and cleaning

Hanbao Li, Yinghui Mo, Liang Wang, Xiangyu Wang

2023Water Cycle17 citationsDOIOpen Access PDF

Abstract

The increasing cost of polyvinylidene fluoride has motivated efforts of researchers to seek a cheap membrane material for membrane bioreactors (MBRs). An inexpensive hydrophilic polyethylene (PE) lithium-ion battery separator was used in this study to construct a flat-sheet membrane module for MBRs treating synthetic municipal wastewater (PE-MBR). The PE separator showed an interconnected and open pore structure with a pore size of 50–60 ​nm. Its hydrophilicity was confirmed by the contact angle (77.65°) and relatively high pure water permeability of 412.17 LMH. The operation of the PE-MBR under 15 LMH below the critical flux last more than 50 ​d before the trans-membrane pressure reached 25 ​kPa and the COD removal was higher than 90%. The revised Hermia model fitting suggested that cake formation was the predominant fouling mechanism on the PE separator with polysaccharides as the main organic pollutant. A cleaning efficiency of 76.26% of the PE separator was achieved using 1 ​g/L of Oxalic acid, 3 ​g/L of NaOH, and 100 ​mg/L of EDTA as the cleaning reagents. This study establishes the feasibility of the PE separator in MBRs and provides a new strategy to lower the operation cost and broaden the real applications of MBR in wastewater treatment.

Topics & Concepts

Separator (oil production)FoulingWastewaterMembraneMembrane foulingChemical engineeringPolyethyleneMembrane bioreactorMaterials scienceChemistryContact angleChromatographyMembrane distillationPulp and paper industryWaste managementComposite materialDesalinationEngineeringPhysicsBiochemistryThermodynamicsMembrane Separation TechnologiesMembrane-based Ion Separation TechniquesMembrane Separation and Gas Transport