期刊
REVIEWS IN CHEMICAL ENGINEERING
卷 39, 期 5, 页码 875-910出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/revce-2021-0046
关键词
cake-enhanced concentration polarisation; membrane fouling; solution-diffusion model; trace organic compounds
This work critically reviews the application of various membrane separation processes in treating water polluted with trace organic compounds, paying attention to the mechanisms of rejection and the challenges in fouling and scaling. It also explores the potential of using renewable energy sources to drive energy intensive membrane separation processes.
This work critically reviews the application of various membrane separation processes (MSPs) in treating water polluted with trace organic compounds (TOrCs) paying attention to nanofiltration (NF), reverse osmosis (RO), membrane bioreactor (MBR), forward osmosis (FO), and membrane distillation (MD). Furthermore, the focus is on loopholes that exist when investigating mechanisms through which membranes reject/retain TOrCs, with the emphasis on the characteristics of the model TOrCs which would facilitate the identification of all the potential mechanisms of rejection. An explanation is also given as to why it is important to investigate rejection using real water samples, especially when aiming for industrial application of membranes with novel materials. MSPs such as NF and RO are prone to fouling which often leads to lower permeate flux and solute rejection, presumably due to cake-enhanced concentration polarisation (CECP) effects. This review demonstrates why CECP effects are not always the reason behind the observed decline in the rejection of TOrCs by fouled membranes. To mitigate for fouling, researchers have often modified the membrane surfaces by incorporating nanoparticles. This review also attempts to explain why nano-engineered membranes have not seen a breakthrough at industrial scale. Finally, insight is provided into the possibility of harnessing solar and wind energy to drive energy intensive MSPs. Focus is also paid into how low-grade energy could be stored and applied to recover diluted draw solutions in FO mode.
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