Modelling biofilm growth and disinfectant decay in drinking water
journal contribution
posted on 2000-01-01, 00:00authored byVeeriah Jegatheesan, G Kastl, I Fisher, M Angles, J Chandy
A simple biofilm model was developed to describe the growth of bacteria in drinking water biofilms and the subsequent interactions with disinfectant residuals incorporating the important processes, such as attachment of free bacteria to the biofilm on a wall surface, detachment of bacteria from the biofilm, growth of biofilm bacteria with chloramine inhibition, chloramine decay in the bulk water phase, and chloramine decay due to biofilm bacteria and wall surfaces. The model is useful in evaluating the biological stability of different waters, as it can predict concentration of organic substances in water. In addition, the model can be used to predict the bacterial growth and biofilm decay in distribution systems. A model of this kind is a useful tool in developing system management strategies to ultimately improve drinking water quality.
History
Journal
Water science and technology
Volume
41
Issue
4-5
Pagination
339 - 345
Publisher
IWA Publishing
Location
London, England
ISSN
0273-1223
eISSN
1996-9732
Language
eng
Publication classification
C1.1 Refereed article in a scholarly journal; C Journal article