Disruption of biofilms from sewage pipes under physical and chemical conditioning 被引量：2

Disruption of biofilms from sewage pipes under physical and chemical conditioning

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摘要 Biofilms grown inside two sewage collecting pipes located in industrial and residential areas are studied. Bacterial biomass inside three layers of biofilms was evaluated. Biofilm cohesion under different mixing rate and ionic strength was also investigated. Effects of physical and chemical parameters in the biofilms were evaluated by monitoring turbidity, chemical and biochemical oxygen demands. Extracted organic matter from biofilms was partitioned to polar, aromatic and saturated fractions using activated silica column chromatography. Results revealed that bacterial biomass growth depending on biofilm thickness and stratification. The most loaded stratum in bacteria/biomass was the sewage-biofilm interface stratum that represented 51% of the total bacteria/biomass. Stirring rate and ionic strength of mono- and bivalent salts showed a major influence in biofilm disruption. The stirring time enhanced the exchange dynamic and matter capture between biofilm fragments at the critical stirring rate 90 r/min. Sodium chloride showed the dispersing effect on biofilms in suspension, and decreased the BOD5 （biochemical oxygen demand） beyond the physiological salt concentration. Biofilms grown inside two sewage collecting pipes located in industrial and residential areas are studied. Bacterial biomass inside three layers of biofilms was evaluated. Biofilm cohesion under different mixing rate and ionic strength was also investigated. Effects of physical and chemical parameters in the biofilms were evaluated by monitoring turbidity, chemical and biochemical oxygen demands. Extracted organic matter from biofilms was partitioned to polar, aromatic and saturated fractions using activated silica column chromatography. Results revealed that bacterial biomass growth depending on biofilm thickness and stratification. The most loaded stratum in bacteria/biomass was the sewage-biofilm interface stratum that represented 51% of the total bacteria/biomass. Stirring rate and ionic strength of mono- and bivalent salts showed a major influence in biofilm disruption. The stirring time enhanced the exchange dynamic and matter capture between biofilm fragments at the critical stirring rate 90 r/min. Sodium chloride showed the dispersing effect on biofilms in suspension, and decreased the BOD5 （biochemical oxygen demand） beyond the physiological salt concentration.

作者 Charbel Mahfoud Antoine El Samrani Rita Mouawad Walid Hleihel Rim El Khatib Bruno S. Lartiges Nam Ouani

机构地区 Holy Spirit University of Kaslik(USEK) Nancy University

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2009年第1期120-126,共7页 环境科学学报（英文版）

基金 supported by the CEDRE (Cooperation for Evaluation and Developpement of Research) Program (No. 06EF29/L43).

关键词 biofilms biochemical oxygen demand （BODs） chemical oxygen demand （COD） BIOMASS ionic strength biofilms, biochemical oxygen demand （BODs） chemical oxygen demand （COD） biomass ionic strength

分类号 X703 [环境科学与工程—环境工程]

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Journal of Environmental Sciences

2009年第1期

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Disruption of biofilms from sewage pipes under physical and chemical conditioning 被引量：2

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