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Understanding and Designing a High-Performance Ultrafiltration Membrane Using Machine Learning

Haiping Gao, Shifa Zhong, Raghav Dangayach, Yongsheng Chen

2023Environmental Science & Technology106 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Ultrafiltration (UF) as one of the mainstream membrane-based technologies has been widely used in water and wastewater treatment. Increasing demand for clean and safe water requires the rational design of UF membranes with antifouling potential, while maintaining high water permeability and removal efficiency. This work employed a machine learning (ML) method to establish and understand the correlation of five membrane performance indices as well as three major performance-determining membrane properties with membrane fabrication conditions. The loading of additives, specifically nanomaterials ( A _wt %), at loading amounts of >1.0 wt % was found to be the most significant feature affecting all of the membrane performance indices. The polymer content ( P _wt %), molecular weight of the pore maker ( M _Da), and pore maker content ( M _wt %) also made considerable contributions to predicting membrane performance. Notably, M _Da was more important than M _wt % for predicting membrane performance. The feature analysis of ML models in terms of membrane properties (i.e., mean pore size, overall porosity, and contact angle) provided an unequivocal explanation of the effects of fabrication conditions on membrane performance. Our approach can provide practical aid in guiding the design of fit-for-purpose separation membranes through data-driven virtual experiments.

Topics & Concepts

MembraneUltrafiltration (renal)Chemical engineeringMaterials sciencePorosityFabricationBiofoulingMembrane technologyChromatographyChemistryEngineeringComposite materialAlternative medicineMedicinePathologyBiochemistryMembrane Separation TechnologiesNanopore and Nanochannel Transport StudiesGraphene research and applications
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