Proof-of-concept approach to assess the impact of thermal disinfection on biofilm structure in hot water networks

Proof-of-concept approach to assess the impact of thermal disinfection on biofilm structure in hot water networks

Temperature-based strategies are commonly applied to control microbial growth, but the impact of those procedures on biofilm structure is usually not evaluated. This study investigates how thermal disinfection procedures affect pre-established Pseudomonas fluorescens biofilms, formed in a Center for...

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Bibliographic Details
Published in:Journal of water process engineering Vol. 53; p. 103595
Main Authors: Silva, Ana Rosa, Narciso, Diogo A.C., Gomes, Luciana C., Martins, F.G., Melo, Luis F., Pereira, Ana
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-07-2023
Subjects:
Biofilm regrowth
Biofilm structural changes
Disinfection
Temperature shock
Water systems
Disinfection
Water systems
Temperature shock
Biofilm regrowth
Biofilm structural changes
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Summary:Temperature-based strategies are commonly applied to control microbial growth, but the impact of those procedures on biofilm structure is usually not evaluated. This study investigates how thermal disinfection procedures affect pre-established Pseudomonas fluorescens biofilms, formed in a Center for Disease Control (CDC) biofilm reactor. It also assesses the biofilm regrowth potential over 24 h, under 125 and 225 rpm. Biofilms structure was compared at the mesoscale (thickness) and at the microscale (biovolume and surface coverage). Results showed that the impact of the thermal disinfection on the biofilm structure depends on the hydrodynamic conditions, which are also critical to the biofilm structural rearrangement upon regrowth. A thickness reduction of 80 % was found after the shock for biofilms formed under 125 rpm, however there was no significant biofilm sloughing off for the 225 rpm. Surface coverage was reduced by 65 % and 6 % after the thermal shock for 125 and 225 rpm, respectively. Furthermore, results seem to indicate that regardless the biofilm structural characteristics, bacteria recovered their culturability and viability to similar values to the ones before the thermal shock. This work provides an initial framework to develop more sustainable and effective thermal disinfection procedures in engineered water networks. [Display omitted] •Biofilm structure affects thermal disinfection efficacy.•Thermal disinfection efficacy depends on the hydrodynamic conditions.•Different biofilm structural spatial rearrangements upon regrowth•Similar culturability and viability values prior thermal shock and after regrowth
ISSN:2214-7144
2214-7144
DOI:10.1016/j.jwpe.2023.103595