Heat-assisted potassium ferrate pretreatment enhancing short-chain fatty acids production from waste activated sludge: Performance and mechanisms

Abstract

This work presented an innovative strategy for short-chain fatty acids (SCFAs) production from anaerobic waste activated sludge (WAS) fermentation via heat assisted potassium ferrate (PF) pretreatment. Results showed that under optimal pretreatment condition (55 °C + 0.1 g PF/g TSS), SCFAs production achieved 4068.4 mg COD/L with acetic acid reaching 1766.1 mg COD/L, significantly higher than those of the control (77.39 mg COD/L, only acetic acid contained) as well as individual heat (2930.8 and 1203.5 mg COD/L) and individual 0.1 g PF/g TSS (1970.1 and 982.7 mg COD/L) pretreatment groups. Mechanism analysis revealed that heat-assisted PF pretreatment aggravated WAS disintegration by facilitating the disruption of EPS and cells, hence accelerating organics release from sludge flocs to the supernatant. Besides, the biodegradability of released substances was also improved thereby providing quantities of directly available substrates for hydrolysis and acidification process. Analysis of key enzymes involved in SCFAs accumulation showed that heat-assisted PF pretreatment promoted the relative bioactivities of protease, butyrate kinase (BK) and acetate kinase (AK) by 51.6%, 39.2% and 155.6% compared to the control respectively, while suppressing the bioactivity of coenzyme F420. Microbial community analysis demonstrated the enrichment of Proteobacteria and Firmicutes, which were related to SCFAs accumulation. Meanwhile, in genus level, hydrolytic bacteria (e.g., Acinetobacter sp.), acidification bacteria (e.g., Petrimonas sp.) and iron-reducing bacteria (e.g., Romboutsia sp.) were enriched while SCFAs consuming bacteria (e.g., Candidatus_Competibacter sp.) were inhibited.