Effects of microbial redox cycling of iron on cast iron pipe corrosion in drinking water distribution systems

Bacterial characteristics in corrosion products and their effect on the formation of dense corrosion scales on cast iron coupons were studied in drinking water, with sterile water acting as a reference. The corrosion process and corrosion scales were characterized by electrochemical and physico-chem...

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Bibliographic Details
Published in:Water research (Oxford) 2014-11, Vol.65, p.362-370
Main Authors: Wang, Haibo, Hu, Chun, Zhang, Lili, Li, Xiaoxiao, Zhang, Yu, Yang, Min
Format: Article
Language:English
Subjects:
Acidovorax
Applied sciences
Bacteria
Bacteria - growth & development
Bacteria - metabolism
Bacterial corrosion
Buildings. Public works
Corrosion
Corrosion products
Drinking water
Drinking Water - chemistry
Drinking Water - microbiology
Drinking water and swimming-pool water. Desalination
Exact sciences and technology
Ferrosoferric Oxide - chemistry
Formations
Hydrogenophaga
Iron
Iron - chemistry
Oxidation-Reduction
Piping
Pollution
Principal Component Analysis
Rhizobium
Scale (corrosion)
Water Supply
Water supply. Pipings. Water treatment
Water treatment and pollution
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Summary:Bacterial characteristics in corrosion products and their effect on the formation of dense corrosion scales on cast iron coupons were studied in drinking water, with sterile water acting as a reference. The corrosion process and corrosion scales were characterized by electrochemical and physico-chemical measurements. The results indicated that the corrosion was more rapidly inhibited and iron release was lower due to formation of more dense protective corrosion scales in drinking water than in sterile water. The microbial community and denitrifying functional genes were analyzed by pyrosequencing and quantitative polymerase chain reactions (qPCR), respectively. Principal component analysis (PCA) showed that the bacteria in corrosion products played an important role in the corrosion process in drinking water. Nitrate-reducing bacteria (NRB) Acidovorax and Hydrogenophaga enhanced iron corrosion before 6 days. After 20 days, the dominant bacteria became NRB Dechloromonas (40.08%) with the protective corrosion layer formation. The Dechloromonas exhibited the stronger corrosion inhibition by inducing the redox cycling of iron, to enhance the precipitation of iron oxides and formation of Fe3O4. Subsequently, other minor bacteria appeared in the corrosion scales, including iron-respiring bacteria and Rhizobium which captured iron by the produced siderophores, having a weaker corrosion-inhibition effect. Therefore, the microbially-driven redox cycling of iron with associated microbial capture of iron caused more compact corrosion scales formation and lower iron release.
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2014.07.042