Biohydrogen and methane production via silage-based dark co-fermentation using vinasse and filter cake

Biohydrogen and methane production via silage-based dark co-fermentation using vinasse and filter cake

Vinasse and filter cake (FC) are promising substrates for hydrogen (H2) production via dark fermentation. Silage, an anaerobic storage technique, helps break down macromolecules into simpler ones like xylose, fructose, and glucose. This study evaluated different ensiling durations (0, 20, 40, 80, an...

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Bibliographic Details
Published in:Bioresource technology reports Vol. 27; p. 101927
Main Authors: Volpi, Maria Paula Cardeal, Adarme, Oscar Fernando Herrera, Araújo, Michelle Fernandes, Bella, Thiago Ribas, Procópio, Paula Fontoura, de Abreu, Luís Guilherme Furlan, Carazzolle, Marcelo Falsarella, Pereira, Gonçalo Amarante Guimarães, Mockaitis, Gustavo
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-09-2024
Subjects:
Biogas
Dark fermentation
Filter cake
Hydrogen
Methane
Silage
Sugarcane wastes
Methane
Dark fermentation
Hydrogen
Silage
Sugarcane wastes
Biogas
Filter cake
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Summary:Vinasse and filter cake (FC) are promising substrates for hydrogen (H2) production via dark fermentation. Silage, an anaerobic storage technique, helps break down macromolecules into simpler ones like xylose, fructose, and glucose. This study evaluated different ensiling durations (0, 20, 40, 80, and 100 days) on FC and its co-fermentation with sugarcane vinasse for H2 production, using the digestate for methane (CH4) production. The inoculum underwent an acid pretreatment to select H2-producing bacteria. The 40-day ensiling period yielded the best H2 performance (95 NmLH2 gVS−1, 43 % H2 concentration). Longer durations (80 and 100 days) were inefficient. The main metabolic pathways for H2 production were acetic and butyric acid production. The best CH4 yield was from 20-day silage (311 NmLCH4 gVS−1). Predominant microorganisms were Firmicutes and Actinobacteria. Ensiling effectively pre-treats for H2 and CH4 production, improving yield, and efficiency. [Display omitted] •Ensiling enhances anaerobic digestion, improving H2 and CH4 production efficiency.•Ensiling filter cake for 40 days boosts hydrogen yield to 95 NmLH2 gVS−1.•20-day ensiled digestate yields 311 NmLCH4 gVS−1 methane production.•The microbial community present in filter cake enhances hydrogen (H₂) production.
ISSN:2589-014X
2589-014X
DOI:10.1016/j.biteb.2024.101927