Evaluation of E. coli biofilm as a protective barrier against microbiologically influenced deterioration of concrete (MICD) under mesophilic temperatures

Soleimani S.; Ormeci B.; Isgor O.B.

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Evaluation of E. coli biofilm as a protective barrier against microbiologically influenced deterioration of concrete (MICD) under mesophilic temperatures

机译：评估大肠杆菌生物膜作为中温温度下微生物对混凝土（MICD）劣化的保护性屏障的作用

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In this study, Escherichia coli DH5α biofilm was evaluated for its potential to control and minimize microbiologically influenced concrete deterioration (MICD) under mesophilic temperatures (37 °C). Escherichia coli DH5α biofilm was first grown on Portland cement mortar disks for 8 days. Mortar disks were then exposed to two different types of sulfur oxidizing bacteria (SOB) (Thiobacillus neapolitanus and Thiobacillus thiooxidans), which use sulfur compounds as substrate and oxidize them to sulfate and sulfuric acid. The effectiveness of the biofilm against MICD was evaluated by measuring pH, sulfate, calcium concentrations in the reactors and surface analysis of the mortar samples using X-ray diffraction and visual inspection. Overall, the results indicate that the E. coli DH5a biofilm showed good protection against MICD induced by SOB at 37 °C.

机译：在这项研究中，评估了大肠杆菌DH5α生物膜在中温温度（37°C）下控制和最小化受微生物影响的混凝土劣化（MICD）的潜力。大肠杆菌DH5α生物膜首先在波特兰水泥砂浆盘上生长8天。然后将砂浆盘暴露于两种不同类型的硫氧化细菌（SOB）（那不勒斯硫杆菌和硫氧化硫杆菌），它们使用硫化合物作为底物并将其氧化为硫酸盐和硫酸。通过测量pH值，硫酸盐，反应器中的钙浓度以及使用X射线衍射和目测检查砂浆样品的表面分析来评估生物膜对MICD的有效性。总体而言，结果表明，大肠杆菌DH5a生物膜在37°C下对SOB诱导的MICD表现出良好的保护作用。

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《Water Science and Technology》 |2013年第2期|共8页
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Soleimani S.; Ormeci B.; Isgor O.B.;
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Biofilm; Cement mortar; Concrete; Corrosion; Deterioration; E. coli;

机译：生物膜;水泥砂浆;混凝土;腐蚀;劣化;E。大肠杆菌;

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1. Evaluation of E. coli biofilm as a protective barrier against microbiologically influenced deterioration of concrete (MICD) under mesophilic temperatures [J] . Soleimani S., Ormeci B., Isgor O.B. Water Science and Technology . 2013,第2期

机译：评估大肠杆菌生物膜作为中温温度下微生物对混凝土（MICD）劣化的保护性屏障的作用
2. Influence of operating conditions on the persistence of E. coli, enterococci,Clostridium perfringens and Clostridioides difficile in semi-continuous mesophilic anaerobic reactors [J] . Derongs Lorine, Druilhe Celine, Le Marechal Caroline, Waste Management . 2021,第Octa期

机译：在半连续嗜苯胺厌氧反应器中对大肠杆菌，肠球菌，梭菌梭菌腹菌性腹股沟和梭菌梭菌的持久性的影响
3. Resistance of biofilm-covered mortars to microbiologically influenced deterioration simulated by sulfuric acid exposure [J] . Sahar Soleimani, O. Burkan Isgor, Banu Ormeci Cement and Concrete Research . 2013,第Null期

机译：生物膜覆盖的砂浆对微生物暴露于硫酸中模拟的变质具有抵抗力
4. Evaluation of Biofilm as a Protective Barrier for the Inhibition of Microbially Influenced Deterioration in Treatment Structures and Sewer Pipelines [C] . S. Soleimani, B. Ormeci, O.B. Isgor, Annual conference of the Canadian Society for Civil Engineering . 2012

机译：评价生物膜作为抑制微生物在处理结构和下水道中恶化的保护性屏障
5. Prevention and Control of Microbiologically Influenced Concrete Deterioration in Wastewater Concrete Structures Using Escherichia coli Biofilm. [D] . Soleimani, Sahar. 2012

机译：利用大肠杆菌生物膜预防和控制废水混凝土结构中受微生物影响的混凝土劣化。
6. Microbiologically induced deterioration of concrete - A Review [O] . Shiping Wei, Zhenglong Jiang, Hao Liu, 2013

机译：微生物引起的混凝土劣化-综述
7. Prevention and control of microbiologically influenced concrete deterioration in wastewater concrete structures using E.coli biofilm [O] . Sahar Soleimani -1

机译：用大肠杆菌生物膜预防和控制蓄水混凝土结构中的混凝土劣化

Evaluation of E. coli biofilm as a protective barrier against microbiologically influenced deterioration of concrete (MICD) under mesophilic temperatures

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