Litcius/Paper detail

Biohydrogen production from food waste and waste activated sludge in codigestion: influence of organic loading rate and changes in microbial community

Iván Moreno‐Andrade, María José Berrocal‐Bravo, Idania Valdez-Vázquez

2022Journal of Chemical Technology & Biotechnology35 citationsDOIOpen Access PDF

Abstract

Abstract BACKGROUND Food waste (FW) and waste activated sludge (WAS) are complementary substrates that improve H 2 production by dark fermentation. However, there is little experience in the process performance in the long‐term operation of reactors co‐processing FW–WAS. This study aims to determine the optimal FW–WAS ratio in batch H 2 production and then feed this FW–WAS ratio to an anaerobic sequencing batch reactor (SBR) to evaluate the influence of three organic loading rates (OLR) – 15, 22 and 45 g volatile solids (VS) L −1 d −1 – on H 2 performance and microbial composition. RESULTS Batch tests showed that the FW–WAS ratio of 90–10 increased 22% of the H 2 production compared to the individual FW. In the SBR operation, the OLR significantly influenced H 2 performance, reaching the highest productivity of 733 ± 282 mL H 2 L −1 d −1 at an OLR of 22 g VS L −1 d −1 . The cooperative lactic acid cross‐feeding between Olsenella and Megasphaera resulted in the highest H 2 productivity at an OLR of 22 g VS L −1 d −1 . OLR promoted the prevalence of different taxa of hydrolytic bacteria, where Enterococcus and Veillonella were positively correlated, with the highest substrate hydrolysis of 50% at an OLR of 15 g VS L −1 d −1 . Prevotella , a genus with a wide spectrum of hydrolytic enzymes, was predominant in the SBR operation regardless of the OLR. CONCLUSION The SBR operation at OLR of 22 g VS L −1 d −1 improved H 2 production by applying a 90–10 FW–WAS ratio. The change in OLR promoted different taxa of hydrolytic species in the SBR; however, Prevotella spp. prevailed at the three OLRs. © 2022 The Authors. Journal of Chemical Technology and Biotechnology published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry (SCI).

Topics & Concepts

BiohydrogenFood wasteFood scienceFermentationChemistryDark fermentationHydrolysisPulp and paper industryAnimal scienceBiologyHydrogen productionBiochemistryOrganic chemistryHydrogenEcologyEngineeringAnaerobic Digestion and Biogas ProductionBiofuel production and bioconversionWastewater Treatment and Nitrogen Removal
Biohydrogen production from food waste and waste activated sludge in codigestion: influence of organic loading rate and changes in microbial community | Litcius