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Evaluating the effects of aeration intermittency on treatment performance and the granule microbiome in continuous-flow aerobic granular sludge systems

Nicoly Dal Santo Svierzoski, Antonio Castellano‐Hinojosa, Manuel J. Gallardo-Altamirano, Cláudio Fernando Mahler, João Paulo Bassin, Alejandro González‐Martínez

2025Journal of environmental chemical engineering13 citationsDOIOpen Access PDF

Abstract

Intermittent aeration (IA) is a promising strategy to improve treatment performance and reduce energy consumption in continuous-flow (CF) aerobic granular sludge (AGS) systems. However, most research has focused on sequencing batch reactors (SBR), with limited data on simplified CF-AGS systems using internal solid-liquid separators. This study evaluated IA in three CF-AGS reactors with different aeration durations: 3 h (R1), 12 h (R2), and 21 h (R3) per day, while a control reactor (R4) received continuous aeration (24 h/day). The removal of chemical oxygen demand (COD) and total inorganic nitrogen (TIN), granule properties, and microbial community composition were assessed. COD and TIN removal in R1 (93 % and 42 %), R2 (95 % and 54 %), and R3 (94 % and 47 %) were comparable to R4 (95 % and 52 %). However, IA improved granule quality and altered the microbiome. Reactor R2 (12 h aeration) exhibited the best performance, producing granules with a final diameter of 0.9 mm, good settleability (sludge volume index of 74.8 mL g⁻¹), and high alginate-like exopolymers (416.2 mgALE gTS⁻¹). R2 also showed the highest enrichment of functional bacterial genera involved in nitrogen removal and exopolymer production - particularly Thauera , Pseudomonas , Acinetobacter , and Zooglea - compared to the inoculum. This study demonstrates that IA can enhance the efficiency of CF-AGS systems and promote the growth of key microbial taxa essential for complete nitrogen removal. • Continuous-flow AGS performance under intermittent aeration (IA) was investigated. • An internal settling device proved satisfactory for maintaining sludge within the reactor. • The 12 h of aeration/d strategy exhibited enhanced treatment performance. • ALE yield increased in the reactor with 12 h aeration/d, promoting cell aggregation. • IA (12 h/d) enriched denitrifiers like Thauera , Pseudomonas , and Acinetobacter .

Topics & Concepts

Granule (geology)IntermittencyAerationEnvironmental scienceMechanicsEcologyMaterials scienceBiologyPhysicsComposite materialTurbulenceWastewater Treatment and Nitrogen RemovalConstructed Wetlands for Wastewater TreatmentMembrane Separation Technologies
Evaluating the effects of aeration intermittency on treatment performance and the granule microbiome in continuous-flow aerobic granular sludge systems | Litcius