Characterization of biofilm and corrosion of cast iron pipes in drinking water distribution system with UV/Cl2 disinfection

Zhu, Ying; Wang, Haibo; Li, Xiaoxiao; Hu, Chun; Yang, Min; Qu, Jiuhui

doi:10.1016/j.watres.2014.04.035

Cited by 109 publications

(68 citation statements)

References 41 publications

(42 reference statements)

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“…Previous studies have verified that the redox cycling of iron induced by IRB and NRB enhanced the precipitation of iron oxides and formation of Fe 3 O 4 [27,28]. IOB Sediminibacterium could convert ferrous iron to ferric forms, which could be deposited on their cell walls to create voluminous sheaths of iron metabolites [29].…”

Section: Discussionmentioning

confidence: 93%

“…Bacillus species belonging to NRB also could affect iron corrosion and modify the corrosion products [29]. Some studies found that the oxidation and reduction of iron occurred simultaneously by the respiration of Azospira and Dechloromonas at nitrate-N concentrations less than 7 mg/L, resulting in Fe 3 O 4 formation [10,27,31]. In SW and GW, the nitrate-N concentrations were 5.1-7.9 and 0.87-2.2 mg/L, respectively.…”

Section: Discussionmentioning

confidence: 99%

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Characteristics of corrosion sales and biofilm in aged pipe distribution systems with switching water source

Wang

et al. 2016

Engineering Failure Analysis

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Red water has occasionally been observed in the water distribution system of Beijing following a change in the city's water source. Aged cast iron pipes from both affected and unaffected areas were used to establish experimental drinking water distribution systems under different disinfection conditions. The scale deposits formed under different conditions were characterized by X-ray diffraction and scanning electron microscopy, and the bacterial characteristics of the corrosion scales were determined using several molecular methods. The water quality changed less in pipe samples from the unaffected areas than pipes from the affected areas. The pipe samples from the unaffected area included predominantly α-FeOOH, Fe 3 O 4 , and γ-FeOOH, and 24.2% nitrate-reducing bacteria (NRB) were predominant with fewer ironoxidizing bacteria (IOB) being observed. The composition of corrosion products did not exhibit large variation over time although their crystallinity exhibited a slight decrease throughout the duration of the experiment. In contrast, in the pipe samples from the affected, α-FeOOH was the main compound with less γ-FeOOH and Fe 3 O 4 , and 3.3% IOB and 12% NRB with few IRB were observed. However, after transporting surface water containing disinfectants, the Fe 3 O 4 and dense corrosion layer formed, inhibiting the release of iron. Moreover, IRB and NRB became dominant. 22.6% and 34.3% NRB appeared in the pipes after chlorination and chloramination, respectively. The synergistic interaction of IRB and NRB with the corrosion layer played a large role in the release of iron from a cast iron pipe following changes in water quality.

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Section: Discussionmentioning

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Characteristics of corrosion sales and biofilm in aged pipe distribution systems with switching water source

Wang

et al. 2016

Engineering Failure Analysis

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“…Recently, Xu et al [23] found that a nitrate reducer was more corrosive than typical SRB by pitting data under strict anaerobic conditions. On the other hand, the nitrate-dependent Fe(II) oxidation from nitrate-reducing bacteria (NRB) metabolism has the potential to contribute to a dynamic iron redox cycle in freshwater sediments [16], which has been proven inhibiting iron corrosion [24]. Additionally, more and more studies have begun to show protective effects against corrosion by some bacterial biofilms on metal.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of biofilms and iron corrosion scales with ground and surface waters in drinking water distribution systems

Wang

et al. 2015

Corrosion Science

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a b s t r a c tThe composition of biofilm bacterial communities and iron corrosion scales were studied in two drinking water distribution systems transporting groundwater (DWDS-GW) and surface water (DWDS-SW). Loose corrosion products were formed containing a-FeOOH in DWDS-GW, while dense crystallized particles were formed in DWDS-SW, including a-FeOOH, Fe 3 O 4 and CaCO 3 . The biofilms in the two systems had the same bacterial diversity, denitrifying functional genes and 16S rRNA gene copies, but the bacterial communities were very different. It was found that nitrate-reducing bacteria in biofilms that are associated with iron cycling played a large role in the formation of Fe 3 O 4 and corrosion layers.

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“…The ability of pipe materials to support drinking water biofilm varies dramatically from plastic to metal pipes as they exhibit different degrees of surface roughness and chemical activity [21]. Three main groups of materials have been specified.…”

Section: Physical Characteristics Of the Systemmentioning

confidence: 99%

“…Most of biofilm research in DWDSs is based on studying the influence of the hydraulic conditions, the physical characteristics of the distribution system and the physico-chemical characteristics of the circulating water, among others, on biofilm development, besides from the interactions among microorganisms [19]. Although numerous studies have been carried out in relation to the influence that a number of characteristics of the DWDSs have on biofilm development [10,[20][21][22], in most cases, these characteristics are studied individually or in pairs, at most. Distribution systems are the major components of water utilities.…”

Section: Introductionmentioning

confidence: 99%

Assessing biofilm development in drinking water distribution systems by Machine Learning methods

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Characterization of biofilm and corrosion of cast iron pipes in drinking water distribution system with UV/Cl2 disinfection

Cited by 109 publications

References 41 publications

Characteristics of corrosion sales and biofilm in aged pipe distribution systems with switching water source

Characteristics of corrosion sales and biofilm in aged pipe distribution systems with switching water source

Characteristics of biofilms and iron corrosion scales with ground and surface waters in drinking water distribution systems

Assessing biofilm development in drinking water distribution systems by Machine Learning methods

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