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Volatile fatty acids production from municipal waste streams and use as a carbon source for denitrification: The journey towards full-scale application and revealing key microbial players

Isaac Owusu-Agyeman, B. Bedaso, Cora M. Laumeyer, Chengyu Pan, A. Malovanyy, Christian Baresel, E. Płaza, Zeynep Çetecioğlu

2023Renewable and Sustainable Energy Reviews44 citationsDOIOpen Access PDF

Abstract

Volatile fatty acids (VFAs) production is attracting interest as a sustainable approach to maximize resource recovery from organic wastes. This study explored the interlink between long-term system resilience of VFA production from primary sludge (PS) and external organic waste (OW) without pH control and the microbial community dynamics as well as the effect of substrate variability. The study elucidated the practicality of using VFA-rich effluent as a carbon source for wastewater denitrification. A 15 L bench-scale semi-continuous reactor was operated for 315 days with a feed of 70% v/v PS and 30% v/v OW and scaled up to a 2 m3 pilot-scale continuous reactor operated for 264 days. In the bench-scale study, the system was resilient with VFA production of up to 24,700 ± 400 mg COD/L and a yield of 506 ± 25 mg COD/g VSfed. The VFA composition was dominated by caproic acid up to 62% w/w. In the pilot-scale reactor, substrate variability influenced VFA production with a concentration of up to 21,500 ± 500 mg COD/L. The system was shown to be economically viable. The microbial community was dominated by Lachnospiraceae, Streptococcaceae and Comamonadaceae. The relative abundance of Lachnospiraceae gave a strong positive statistical correlation with caproic acid concentrations. The VFA-rich effluent exhibited a higher specific denitrification rate than methanol and acetate. Moreover, a continuous denitrification experiment with real nitrified wastewater resulted in a high nitrate removal efficiency with a maximum of 98%. The study demonstrates the production of bio-based products from organic wastes as alternatives to fossil-based products.

Topics & Concepts

DenitrificationEffluentChemistryWastewaterMicrobial population biologyPulp and paper industryHydraulic retention timeNitrateEnvironmental chemistryLachnospiraceaeBiomass (ecology)Fatty acidFood scienceEnvironmental engineeringEnvironmental scienceBiologyBiochemistryBacteriaNitrogenEcologyOrganic chemistry16S ribosomal RNAEngineeringGeneticsFirmicutesGeneWastewater Treatment and Nitrogen RemovalAnaerobic Digestion and Biogas ProductionMicrobial Fuel Cells and Bioremediation