Biogas production from brewery spent grain as a mono-substrate in a two-stage process composed of solid-state anaerobic digestion and granular biomass reactors

Anaerobic digestion of brewery spent grain as a mono-substrate was studied. Brewery spent grain is a substrate consisting largely of cellulose, hemicellulose and lignin, which are difficult to degrade anaerobically, mostly due to the presence of degradation products, such as phenolic compounds, whic...

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Published inJournal of cleaner production Vol. 166; pp. 519 - 529
Main Authors Panjičko, Mario, Zupančič, Gregor D., Fanedl, Lijana, Logar, Romana Marinšek, Tišma, Marina, Zelić, Bruno
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 10.11.2017
Subjects
Biogas production
Brewery spent grain
C/N ratio
Dry digestion
Microbial biomass
Solid-state anaerobic digestion
Brewery spent grain
C/N ratio
Dry digestion
Biogas production
Solid-state anaerobic digestion
Microbial biomass
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Abstract Anaerobic digestion of brewery spent grain as a mono-substrate was studied. Brewery spent grain is a substrate consisting largely of cellulose, hemicellulose and lignin, which are difficult to degrade anaerobically, mostly due to the presence of degradation products, such as phenolic compounds, which cause process inhibition. Therefore, a two-stage system was used for anaerobic digestion. Anaerobic digestion was phase separated in a solid-state anaerobic digestion reactor, where microbiological hydrolysis and acidogenesis occurred and in a granular biomass reactor where mostly methanogenesis was performed. The overall process exhibited total solids degradation efficiency between 75.9 and 83.0%. Average specific biogas production was 414 ± 32 L/kg, whereas biomethane production was 224 ± 34 L/kg of added total solids. Granular biomass after adaptation exhibited stable operation at substrate C/N ratios in range 0.16–4.68. p-cresol was present in concentrations up to 45 mg/L and during the process was successfully degraded by granular biomass. The excellent adaptability of granular biomass was confirmed by 68.2% shift in bacterial and a 31.8% shift in archaeal community structure in a granular biomass reactor. The structure of the bacterial community from granular biomass reactor and solid-state anaerobic digestion reactor remained 79.4% similar at the end of the experiment, whereas archaeal community was only 31.6% similar. The process exhibited stable operation for 198 days, which shows that brewery spent grain can be successfully anaerobically digested and used for biogas production. •Long–term and stable biogas production from brewery spent grain is possible.•Up to 472 L of biogas per kg of brewery spent grain total solids can be produced.•The granular biomass is able to operate at very low C/N ratios between 0.16 and 4.68.•p-cresol as inhibitory intermediate degradation product is successfully degraded.•Bacterial and archaeal microbial communities adapted successfully to BSG substrate.
AbstractList Anaerobic digestion of brewery spent grain as a mono-substrate was studied. Brewery spent grain is a substrate consisting largely of cellulose, hemicellulose and lignin, which are difficult to degrade anaerobically, mostly due to the presence of degradation products, such as phenolic compounds, which cause process inhibition. Therefore, a two-stage system was used for anaerobic digestion. Anaerobic digestion was phase separated in a solid-state anaerobic digestion reactor, where microbiological hydrolysis and acidogenesis occurred and in a granular biomass reactor where mostly methanogenesis was performed. The overall process exhibited total solids degradation efficiency between 75.9 and 83.0%. Average specific biogas production was 414 ± 32 L/kg, whereas biomethane production was 224 ± 34 L/kg of added total solids. Granular biomass after adaptation exhibited stable operation at substrate C/N ratios in range 0.16–4.68. p-cresol was present in concentrations up to 45 mg/L and during the process was successfully degraded by granular biomass. The excellent adaptability of granular biomass was confirmed by 68.2% shift in bacterial and a 31.8% shift in archaeal community structure in a granular biomass reactor. The structure of the bacterial community from granular biomass reactor and solid-state anaerobic digestion reactor remained 79.4% similar at the end of the experiment, whereas archaeal community was only 31.6% similar. The process exhibited stable operation for 198 days, which shows that brewery spent grain can be successfully anaerobically digested and used for biogas production. •Long–term and stable biogas production from brewery spent grain is possible.•Up to 472 L of biogas per kg of brewery spent grain total solids can be produced.•The granular biomass is able to operate at very low C/N ratios between 0.16 and 4.68.•p-cresol as inhibitory intermediate degradation product is successfully degraded.•Bacterial and archaeal microbial communities adapted successfully to BSG substrate.
Author Logar, Romana Marinšek
Fanedl, Lijana
Zupančič, Gregor D.
Zelić, Bruno
Tišma, Marina
Panjičko, Mario
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Keywords Brewery spent grain
C/N ratio
Dry digestion
Biogas production
Solid-state anaerobic digestion
Microbial biomass
Language English
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Snippet Anaerobic digestion of brewery spent grain as a mono-substrate was studied. Brewery spent grain is a substrate consisting largely of cellulose, hemicellulose...
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SubjectTerms Biogas production
Brewery spent grain
C/N ratio
Dry digestion
Microbial biomass
Solid-state anaerobic digestion
Title Biogas production from brewery spent grain as a mono-substrate in a two-stage process composed of solid-state anaerobic digestion and granular biomass reactors
URI https://dx.doi.org/10.1016/j.jclepro.2017.07.197
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