Polyvinyl alcohol (PVA) is an emerging pollutant commonly found in industrial wastewater, owing to its extensive usage as an additive in the manufacturing industry. PVA’s popularity has made wastewater treatment technologies for PVA degradation a popular research topic in industrial wastewater treatment. Although many PVA degradation technologies are studied in bench‐scale processes, recent advancements in process optimization and control of wastewater treatment technologies such as advanced oxidation processes (AOPs) show the feasibility of these processes by monitoring and controlling processes to meet desired regulatory standards. These wastewater treatment technologies exhibit complex reaction mechanisms leading to nonlinear and nonstationary behavior related to variability in operational conditions. Thus, black‐box dynamic modeling is a promising tool for designing control schemes since dynamic modeling is more complicated in terms of first principles and reaction mechanisms. This study seeks to provide a survey of process control methods via a comprehensive review focusing on PVA degradation methods, including biological and advanced oxidation processes, along with their reaction mechanisms, control‐oriented dynamic modeling (i.e., state‐space, transfer function, and artificial neural network modeling), and control strategies (i.e., proportional‐integral‐derivative control and predictive control) associated with wastewater treatment technologies utilized for PVA degradation.
CITATION STYLE
Lin, Y. P., Dhib, R., & Mehrvar, M. (2021, November 1). Recent advances in dynamic modeling and process control of pva degradation by biological and advanced oxidation processes: A review on trends and advances. Environments - MDPI. MDPI. https://doi.org/10.3390/environments8110116
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