期刊
WATER RESEARCH
卷 216, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2022.118299
关键词
Membrane fouling; artificial intelligence; fouling prediction; membrane-based process
资金
- National Key Research and Development Program of China [2019YFC0408200]
- Science & Technology Commission of Shanghai Municipality [20DZ1207700, 19DZ1204500]
This article presents a review of the application of artificial intelligence algorithms for predicting membrane fouling. By using techniques such as artificial neural networks and fuzzy logic, more accurate predictions and control of membrane fouling can be achieved. Future research should focus on optimizing AI techniques for more precise prediction of membrane fouling and optimization of membrane-based processes.
Membrane fouling is one of major obstacles in the application of membrane technologies. Accurately predicting or simulating membrane fouling behaviours is of great significance to elucidate the fouling mechanisms and develop effective measures to control fouling. Although mechanistic/mathematical models have been widely used for predicting membrane fouling, they still suffer from low accuracy and poor sensitivity. To overcome the limitations of conventional mathematical models, artificial intelligence (AI)-based techniques have been proposed as powerful approaches to predict membrane filtration performance and fouling behaviour. This work aims to present a state-of-the-art review on the advances in AI algorithms (e.g., artificial neural networks, fuzzy logic, genetic programming, support vector machines and search algorithms) for prediction of membrane fouling. The working principles of different AI techniques and their applications for prediction of membrane fouling in different membrane-based processes are discussed in detail. Furthermore, comparisons of the inputs, outputs, and accuracy of different AI approaches for membrane fouling prediction have been conducted based on the literature database. Future research efforts are further highlighted for AI-based techniques aiming for a more accurate prediction of membrane fouling and the optimization of the operation in membrane-based processes.
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