Hydrogen production efficiency and microbial community of ethanol-type fermentation

The hydrogen production efficiency and microbial community of ethanol-type fermentation were investigated in this experiment. An internal circulation (IC) reactor was used to produce hydrogen with molasses wastewater as a substrate. The IC system was started up at the organic load rate of 8 kg COD/m...

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Published in	Journal of renewable and sustainable energy Vol. 11; no. 1
Main Authors	Li, Qiaoyan, Lv, Yunhan, Ding, Rui, Wang, Luning, Ren, Nanqi, Wei, Li, Li, Yongfeng
Format	Journal Article
Language	English
Published	Melville American Institute of Physics 01.01.2019
Subjects	Communities Ethanol Fermentation Gene sequencing Hydraulic retention time Hydrogen Hydrogen production Microorganisms Molasses Substrates Wastewater
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Abstract	The hydrogen production efficiency and microbial community of ethanol-type fermentation were investigated in this experiment. An internal circulation (IC) reactor was used to produce hydrogen with molasses wastewater as a substrate. The IC system was started up at the organic load rate of 8 kg COD/m3 day and the hydraulic retention time of 6 h. The stable ethanol-type fermentation was achieved on Day 32; a maximum hydrogen production rate of 1.72 l/l day was obtained on Day 39 with the hydrogen content of 65.42%. The microbial diversity of the microorganisms in the enrichment phase (L1) and the ethanol-type fermentation phase (L5) was analyzed based on the high-throughput sequencing of the V3 region of the 16S rRNA gene. A total of 14 009 effective sequences and 426 operational taxonomic units (OTUs) were obtained from L1, which were classified into 226 genera from 19 phyla. The dominant genus was Propionibacterium with the relative abundance of 50.62%, and the dominant microorganism was Propionibacterium_unclassified with the relative abundance of 44.5%. In the L5, a total of 12 206 effective sequences and 416 OTUs were obtained, including 20 phyla, of which Firmicutes accounted for 55%; 230 genera, of which Propionibacterium accounted for 50.26% of the total abundance; and 338 species, of which Lactobacillus_unclassified accounted for 20.32% of the total abundance.
AbstractList	The hydrogen production efficiency and microbial community of ethanol-type fermentation were investigated in this experiment. An internal circulation (IC) reactor was used to produce hydrogen with molasses wastewater as a substrate. The IC system was started up at the organic load rate of 8 kg COD/m3 day and the hydraulic retention time of 6 h. The stable ethanol-type fermentation was achieved on Day 32; a maximum hydrogen production rate of 1.72 l/l day was obtained on Day 39 with the hydrogen content of 65.42%. The microbial diversity of the microorganisms in the enrichment phase (L1) and the ethanol-type fermentation phase (L5) was analyzed based on the high-throughput sequencing of the V3 region of the 16S rRNA gene. A total of 14 009 effective sequences and 426 operational taxonomic units (OTUs) were obtained from L1, which were classified into 226 genera from 19 phyla. The dominant genus was Propionibacterium with the relative abundance of 50.62%, and the dominant microorganism was Propionibacterium_unclassified with the relative abundance of 44.5%. In the L5, a total of 12 206 effective sequences and 416 OTUs were obtained, including 20 phyla, of which Firmicutes accounted for 55%; 230 genera, of which Propionibacterium accounted for 50.26% of the total abundance; and 338 species, of which Lactobacillus_unclassified accounted for 20.32% of the total abundance.
Author	Ding, Rui Li, Qiaoyan Lv, Yunhan Wang, Luning Ren, Nanqi Li, Yongfeng Wei, Li
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SubjectTerms	Communities Ethanol Fermentation Gene sequencing Hydraulic retention time Hydrogen Hydrogen production Microorganisms Molasses Substrates Wastewater
Title	Hydrogen production efficiency and microbial community of ethanol-type fermentation
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