Effects of Ethyl Lauroyl Arginate (LAE) on Biofilm Detachment: Shear Rate, Concentration, and Dosing Time

Biofilm formation is one of the main obstacles in membrane treatment. The non-oxidizing biocide ethyl lauroyl arginate (LAE) is promising for mitigating biofilm development on membrane surfaces. However, the operating conditions of LAE and their impact on biofilm detachment are not comprehensively u...

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Veröffentlicht in:	Water (Basel) 2022-07, Vol.14 (14), p.2158
Hauptverfasser:	Sun, Peng-Fei, Kim, Taek-Seung, Ham, So-Young, Jang, Yong-Sun, Park, Hee-Deung
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacteria Biocides Biofilms Biofouling Chlorine Data processing Dispersal Dispersion Inactivation Lifestyles Membrane processes Membranes Microorganisms Mitigation Oxidation Shear rate
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creator	Sun, Peng-Fei Kim, Taek-Seung Ham, So-Young Jang, Yong-Sun Park, Hee-Deung
description	Biofilm formation is one of the main obstacles in membrane treatment. The non-oxidizing biocide ethyl lauroyl arginate (LAE) is promising for mitigating biofilm development on membrane surfaces. However, the operating conditions of LAE and their impact on biofilm detachment are not comprehensively understood. In this study, a real-time in vitro flow cell system was utilized to observe biofilm dispersal caused by the shear rate, concentration, and treatment time of LAE. This confirmed that the biofilm was significantly reduced to 68.2% at a shear rate of 3.42 s−1 due to the increased physical lifting force. LAE exhibited two different mechanisms for bacterial inactivation and biofilm dispersal. Biofilms treated with LAE at sub-growth inhibitory concentrations for a longer time could effectively detach the biofilm formed on the surface of the glass slides, which can be attributed to the increased motility of microorganisms. However, a high concentration (i.e., bactericidal concentration) of LAE should be seriously considered because of the inactivated sessile bacteria and their residual debris remaining on the surface. This study sheds light on the effect of LAE on biofilm detachment and provides insights into biofouling mitigation during the membrane process.
doi_str_mv	10.3390/w14142158
format	Article
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subjects	Bacteria Biocides Biofilms Biofouling Chlorine Data processing Dispersal Dispersion Inactivation Lifestyles Membrane processes Membranes Microorganisms Mitigation Oxidation Shear rate
title	Effects of Ethyl Lauroyl Arginate (LAE) on Biofilm Detachment: Shear Rate, Concentration, and Dosing Time
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