Anaerobic co-digestion of rabbit manure and sorghum crops in a bench-scale biodigester

Anaerobic co-digestion of rabbit manure and sorghum crops in a bench-scale biodigester

Any type of biomass can be used as substrate for biogas production, but the performance of the biodigestion depends on the composition of the feed, and no direct extrapolation of the yield of the process from one substrate to another can be made. In this work, the performance of a bench-scale anaero...

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Bibliographic Details
Published in:Bioresources and bioprocessing 2020-07, Vol.7 (1), p.1-12, Article 42
Main Authors: Adrover, María Esperanza, Cotabarren, Ivana, Madies, Ezequiel, Rayes, Manuel, Rodriguez Reartes, Sabrina Belén, Pedernera, Marisa
Format: Article
Language:eng
Subjects:
Anaerobic conditions
Anaerobic digestion
Biochemical Engineering
Biodegradation
Biogas
Chemistry
Chemistry and Materials Science
Composition
Digesters
Digestion
Environmental Engineering/Biotechnology
Grain
Heat transfer model
Industrial and Production Engineering
Manures
Methane
Performance evaluation
Rabbit manure
Sorghum
Sorghum crops
Specific methane yield
Substrates
Theoretical methane potential
Thermal insulation
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Summary:Any type of biomass can be used as substrate for biogas production, but the performance of the biodigestion depends on the composition of the feed, and no direct extrapolation of the yield of the process from one substrate to another can be made. In this work, the performance of a bench-scale anaerobic biodigester of 93 L installed at ambient conditions is studied. The biodigester was set up in a region where temperature varies significantly during the year, and was operated under semi-batch conditions with non-thermal control for 16 months with a feed of rabbit manure and ground sorghum grains. To our knowledge, this is the first time the co-digestion of rabbit manure with sorghum grains is considered. To evaluate the biodigestion performance, critical operational variables (pH, temperature, biogas flowrate) were monitored, and composition of substrate, digestate and produced biogas was determined. Moreover, the following variables were quantified: (a) the theoretical methane potential, (b) the specific methane yield and (c) the degree of degradation of the substrate. A 1-D non-stationary model was formulated and validated with experimental data in order to analyze, in a theoretical form, the impact of incorporating thermal insulation to the unit. The results show that is it possible to produce biogas in a bench-scale biodigester, with a novel feed of rabbit manure and ground sorghum grains, in a region with significant temperature changes along the year. Moreover, it is shown that the 1-D model constitutes a useful tool for the design or improvement of biodigesters regarding the insulation system and the warming policies.
ISSN:2197-4365
2197-4365