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The mechanisms of granulation of activated sludge in wastewater treatment, its optimization, and impact on effluent quality

Journal article
Authors B. M. Wilen
R. Liebana
F. Persson
O. Modin
Malte Hermansson
Published in Applied Microbiology and Biotechnology
Volume 102
Issue 12
Pages 5005-5020
ISSN 0175-7598
Publication year 2018
Published at Department of Chemistry and Molecular Biology
Pages 5005-5020
Language en
Links https://doi.org/10.1007/s00253-018-...
Keywords Aerobic granular sludge, Granule stability, Microbial community composition, Wash-out dynamics, sequencing batch reactor, extracellular polymeric substances, microbial-population dynamics, acyl-homoserine-lactones, pao-gao, competition, of-the-art, aerobic granules, phosphorus-removal, nutrient, removal, start-up, Biotechnology & Applied Microbiology
Subject categories Environmental Biotechnology, Microbiology

Abstract

Granular activated sludge has gained increasing interest due to its potential in treating wastewater in a compact and efficient way. It is well-established that activated sludge can form granules under certain environmental conditions such as batch-wise operation with feast-famine feeding, high hydrodynamic shear forces, and short settling time which select for dense microbial aggregates. Aerobic granules with stable structure and functionality have been obtained with a range of different wastewaters seeded with different sources of sludge at different operational conditions, but the microbial communities developed differed substantially. In spite of this, granule instability occurs. In this review, the available literature on the mechanisms involved in granulation and how it affects the effluent quality is assessed with special attention given to the microbial interactions involved. To be able to optimize the process further, more knowledge is needed regarding the influence of microbial communities and their metabolism on granule stability and functionality. Studies performed at conditions similar to full-scale such as fluctuation in organic loading rate, hydrodynamic conditions, temperature, incoming particles, and feed water microorganisms need further investigations.

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