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- Title
Recent Advances in Sensing and Assessment of Corrosion in Sewage Pipelines.
- Authors
Foorginezhad, Sahar; Mohseni-Dargah, Masoud; Firoozirad, Khadijeh; Aryai, Vahid; Razmjou, Amir; Abbassi, Rouzbeh; Garaniya, Vikram; Beheshti, Amin; Asadnia, Mohsen
- Abstract
Corrosion is known as the gradual destruction of materials, leading to structural integrity loss and deteriorates the surface function. Regarding sewage pipelines, corrosion is vital due to its substantial financial, health, and safety costs for society, and it is considered as one of the biggest problems facing water and wastewater infrastructure. Also, it is the primary cause of chemical property alteration, efficiency loss, life span reduction, etc. To overcome the resulting problems, various researches have been performed to understand not only the effective parameters leading to corrosion in sewer pipes but also monitoring the infrastructure conditions. Studies have depicted that developments in sensing systems to detect effective parameters in pipe corrosion such as temperature, H 2 S, and pH, have significantly reduced damage to the industrial equipment of sewage pipelines caused by corrosion. This paper presents a critical review of the effective factors resulting in sewer pipeline corrosion and discusses advanced sensing systems utilized for relevant monitoring. Also, microbiologically induced corrosion and effective factors are individually discussed. Moreover, various data analysis techniques adopted to evaluate outputs of the sensors for corrosion prediction have been explored. Finally, recommendations and future directions for improving sensing accuracy and robustness are detailed.
- Subjects
PIPELINE corrosion; MICROBIOLOGICALLY influenced corrosion; WATER pipelines; SEWER pipes; STRUCTURAL health monitoring; INDUSTRIAL equipment
- Publication
Process Safety & Environmental Protection: Transactions of the Institution of Chemical Engineers Part B, 2021, Vol 147, p192
- ISSN
0957-5820
- Publication type
Article
- DOI
10.1016/j.psep.2020.09.009