TY - JOUR
T1 - An integrative review of granular sludge for the biological removal of nutrients and recalcitrant organic matter from wastewater
AU - Winkler, Mari Karoliina Henriikka
AU - Meunier, Christophe
AU - Henriet, Olivier
AU - Mahillon, Jacques
AU - Suárez-Ojeda, María Eugenia
AU - Del Moro, Guido
AU - De Sanctis, Marco
AU - Di Iaconi, Claudio
AU - Weissbrodt, David Gregory
PY - 2018/3/15
Y1 - 2018/3/15
N2 - © 2017 Elsevier B.V. Granular sludge aggregates are particular types of biofilms that display significantly different metrics and physical-chemical characteristics than activated sludge flocs. The efficiency of intensified processes using granular sludge relies on the application of selection pressures. Operational conditions are engineered to force microorganisms to form specific intrinsic physiological, phenotypic, and metabolic traits for granulation and high-rate biological removal of nutrients and/or recalcitrant organic matter. Granular sludge and conventional activated sludge share a core microbiome, while the distribution of the underlying populations can significantly differ in relative abundance and localization in the architecture of granules and flocs. Analogous ecological principles of microbial selection apply from activated sludge to granular sludge ecosystems with the essential difference that granules are governed by diffusion limitations through which different redox potentials are created on micrometre scale. Integrating the microbiology dimension together with the physical–chemical features of granules in engineering practice will make a difference at process level, besides offering new opportunities for bioaugmentation of granules in existing infrastructure. With this review article we critically examine the macro-scale factors impacting granulation, the physical-chemical characteristics of granular sludge, and fundamental and applied questions driven by the microbial ecology of granular sludge, to generate useful concepts for process design and evaluation in engineering practice.
AB - © 2017 Elsevier B.V. Granular sludge aggregates are particular types of biofilms that display significantly different metrics and physical-chemical characteristics than activated sludge flocs. The efficiency of intensified processes using granular sludge relies on the application of selection pressures. Operational conditions are engineered to force microorganisms to form specific intrinsic physiological, phenotypic, and metabolic traits for granulation and high-rate biological removal of nutrients and/or recalcitrant organic matter. Granular sludge and conventional activated sludge share a core microbiome, while the distribution of the underlying populations can significantly differ in relative abundance and localization in the architecture of granules and flocs. Analogous ecological principles of microbial selection apply from activated sludge to granular sludge ecosystems with the essential difference that granules are governed by diffusion limitations through which different redox potentials are created on micrometre scale. Integrating the microbiology dimension together with the physical–chemical features of granules in engineering practice will make a difference at process level, besides offering new opportunities for bioaugmentation of granules in existing infrastructure. With this review article we critically examine the macro-scale factors impacting granulation, the physical-chemical characteristics of granular sludge, and fundamental and applied questions driven by the microbial ecology of granular sludge, to generate useful concepts for process design and evaluation in engineering practice.
KW - Biological nutrient removal
KW - Engineering concepts
KW - Fundamental aspects
KW - Granular sludge processes
KW - Microbial ecology principles
KW - Recalcitrant organic matter
U2 - 10.1016/j.cej.2017.12.026
DO - 10.1016/j.cej.2017.12.026
M3 - Review article
SN - 1385-8947
VL - 336
SP - 489
EP - 502
JO - Chemical Engineering Journal
JF - Chemical Engineering Journal
ER -