Article ; Online: Application of artificial intelligence in (waste)water disinfection: Emphasizing the regulation of disinfection by-products formation and residues prediction.
2024 Volume 253, Page(s) 121267
Abstract: Water/wastewater ((waste)water) disinfection, as a critical process during drinking water or wastewater treatment, can simultaneously inactivate pathogens and remove emerging organic contaminants. Due to fluctuations of (waste)water quantity and quality ... ...
Abstract | Water/wastewater ((waste)water) disinfection, as a critical process during drinking water or wastewater treatment, can simultaneously inactivate pathogens and remove emerging organic contaminants. Due to fluctuations of (waste)water quantity and quality during the disinfection process, conventional disinfection models cannot handle intricate nonlinear situations and provide immediate responses. Artificial intelligence (AI) techniques, which can capture complex variations and accurately predict/adjust outputs on time, exhibit excellent performance for (waste)water disinfection. In this review, AI application data within the disinfection domain were searched and analyzed using CiteSpace. Then, the application of AI in the (waste)water disinfection process was comprehensively reviewed, and in addition to conventional disinfection processes, novel disinfection processes were also examined. Then, the application of AI in disinfection by-products (DBPs) formation control and disinfection residues prediction was discussed, and unregulated DBPs were also examined. Current studies have suggested that among AI techniques, fuzzy logic-based neuro systems exhibit superior control performance in (waste)water disinfection, while single AI technology is insufficient to support their applications in full-scale (waste)water treatment plants. Thus, attention should be paid to the development of hybrid AI technologies, which can give full play to the characteristics of different AI technologies and achieve a more refined effectiveness. This review provides comprehensive information for an in-depth understanding of AI application in (waste)water disinfection and reducing undesirable risks caused by disinfection processes. |
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MeSH term(s) | Disinfection/methods ; Wastewater ; Artificial Intelligence ; Water Pollutants, Chemical/analysis ; Water Purification/methods ; Disinfectants/analysis ; Drinking Water ; Halogenation | ||||||||||
Chemical Substances | Wastewater ; Water Pollutants, Chemical ; Disinfectants ; Drinking Water | ||||||||||
Language | English | ||||||||||
Publishing date | 2024-02-05 | ||||||||||
Publishing country | England | ||||||||||
Document type | Journal Article ; Review | ||||||||||
ZDB-ID | 202613-2 | ||||||||||
ISSN | 1879-2448 ; 0043-1354 | ||||||||||
ISSN (online) | 1879-2448 | ||||||||||
ISSN | 0043-1354 | ||||||||||
DOI | 10.1016/j.watres.2024.121267 | ||||||||||
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Database | MEDical Literature Analysis and Retrieval System OnLINE |
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