Sheik, Abdul GaffarKrishna, Suresh Babu NaiduPatnaik, ReezaAmbati, Seshagiri RaoBux, FaizalKumari, Sheena K.2024-06-272024-06-272024-05-10Sheik, A.G. et al. 2024. Digitalization of phosphorous removal process in biological wastewater treatment systems: challenges, and way forward. Environmental research, 252: pp. 18. doi:10.1016/j.envres.2024.1191330013-93511096-0953 (Online)pubmed: 38735379https://hdl.handle.net/10321/5322Phosphorus in wastewater poses a significant environmental threat, leading to water pollution and eutrophication. However, it plays a crucial role in the water-energy-resource recovery-environment (WERE) nexus. Recovering Phosphorus from wastewater can close the phosphorus loop, supporting circular economy principles by reusing it as fertilizer or in industrial applications. Despite the recognized importance of phosphorus recovery, there is a lack of analysis of the cyber-physical framework concerning the WERE nexus. Advanced methods like automatic control, optimal process technologies, artificial intelligence (AI), and life cycle assessment (LCA) have emerged to enhance wastewater treatment plants (WWTPs) operations focusing on improving effluent quality, energy efficiency, resource recovery, and reducing greenhouse gas (GHG) emissions. Providing insights into implementing modeling and simulation platforms, control, and optimization systems for Phosphorus recovery in WERE (P-WERE) in WWTPs is extremely important in WWTPs. This review highlights the valuable applications of AI algorithms, such as machine learning, deep learning, and explainable AI, for predicting phosphorus (P) dynamics in WWTPs. It emphasizes the importance of using AI to analyze microbial communities and optimize WWTPs for different various objectives. Additionally, it discusses the benefits of integrating mechanistic and data-driven models into plant-wide frameworks, which can enhance GHG simulation and enable simultaneous nitrogen (N) and Phosphorus (P) removal. The review underscores the significance of prioritizing recovery actions to redirect Phosphorus from effluent to reusable products for future considerations.18 pPrint-ElectronicenArtificial intelligence and process controlEnergy recoveryLife cycle assessmentPhosphorusResource recoveryWastewater treatment process03 Chemical Sciences05 Environmental Sciences06 Biological SciencesToxicologyDigitalization of phosphorous removal process in biological wastewater treatment systems : challenges, and way forwardArticle2024-05-2010.1016/j.envres.2024.119133