posted on 2014-07-18, 12:13authored byJun Wu, Andrew Wheatley
An excess of filamentous bacteria is a common
settlement problem affecting the activated sludge
process. In this study activated sludge morphology was
monitored by image analysis and laser scattering. These
were compared with the conventional sludge volume
index. Good correlations between the two optical
techniques for floc size were found when the small and
interfering particles (< 50 m) were removed from the
analysis (activated sludge size 100–500 m). A simpler
image analysis procedure was developed using common
software and equipment available in most laboratories.
This should enable reproducible microbial morphology
measurements to be used more widely routinely to
predict the onset of poor settlement. The image analysis
was used to determine the standard index of filamentinduced
poor settlement, namely the total extended
filament length. The results in common with some
previously noted work did not show a simple link
between either floc size or total extended filament
length and sludge volume index. A new indicator of
excess filaments is suggested, based on the frequency of
occurrence of just the long extended filaments
(> 100 m) which was shown to give better prediction of
poor settlement (bulking).
History
School
Architecture, Building and Civil Engineering
Published in
PROCEEDINGS OF THE INSTITUTION OF CIVIL ENGINEERS-WATER MANAGEMENT
Volume
163
Issue
3
Pages
139 - 145 (7)
Citation
WU, J. and WHEATLEY, A.D., 2010. Assessing activated sludge morphology by laser and image analysis. Proceedings of the Institute of Civil Engineers - Water Management, 163(2), pp.139-145.