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Biomethane production and microbial community response according to influent concentration of molasses wastewater in a UASB reactor
by
Lee, Sang Don
, Yun, Jeonghee
, Cho, Kyung-Suk
in
Analysis
/ Archaea
/ Bacteria
/ bacterial communities
/ Bifidobacterium
/ Biogas
/ Biological Oxygen Demand Analysis
/ Biomass
/ Biomedical and Life Sciences
/ Bioreactors
/ Biotechnology
/ Chemical oxygen demand
/ Chemical properties
/ Efficiency
/ Environmental Biotechnology
/ Euryarchaeota - classification
/ Euryarchaeota - metabolism
/ Firmicutes
/ Hydraulics
/ Identification and classification
/ Industrial Microbiology
/ Industrial wastes
/ Life Sciences
/ Load distribution
/ Methane
/ Methane - biosynthesis
/ methane production
/ methanogens
/ Methanosaeta
/ Methanosarcina
/ Methanosarcinaceae - classification
/ Methanosarcinaceae - metabolism
/ Microbial colonies
/ Microbial Genetics and Genomics
/ Microbiology
/ Models, Theoretical
/ molasses
/ Molasses - analysis
/ Molasses - microbiology
/ Organic loading
/ Production processes
/ Reactors
/ Relative abundance
/ Retention
/ Sewage
/ Sewage - microbiology
/ Sludge
/ Studies
/ Syrups & sweeteners
/ upflow anaerobic sludge blanket reactor
/ Waste Water - chemistry
/ wastewater
/ Water treatment
2016
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Biomethane production and microbial community response according to influent concentration of molasses wastewater in a UASB reactor
by
Lee, Sang Don
, Yun, Jeonghee
, Cho, Kyung-Suk
in
Analysis
/ Archaea
/ Bacteria
/ bacterial communities
/ Bifidobacterium
/ Biogas
/ Biological Oxygen Demand Analysis
/ Biomass
/ Biomedical and Life Sciences
/ Bioreactors
/ Biotechnology
/ Chemical oxygen demand
/ Chemical properties
/ Efficiency
/ Environmental Biotechnology
/ Euryarchaeota - classification
/ Euryarchaeota - metabolism
/ Firmicutes
/ Hydraulics
/ Identification and classification
/ Industrial Microbiology
/ Industrial wastes
/ Life Sciences
/ Load distribution
/ Methane
/ Methane - biosynthesis
/ methane production
/ methanogens
/ Methanosaeta
/ Methanosarcina
/ Methanosarcinaceae - classification
/ Methanosarcinaceae - metabolism
/ Microbial colonies
/ Microbial Genetics and Genomics
/ Microbiology
/ Models, Theoretical
/ molasses
/ Molasses - analysis
/ Molasses - microbiology
/ Organic loading
/ Production processes
/ Reactors
/ Relative abundance
/ Retention
/ Sewage
/ Sewage - microbiology
/ Sludge
/ Studies
/ Syrups & sweeteners
/ upflow anaerobic sludge blanket reactor
/ Waste Water - chemistry
/ wastewater
/ Water treatment
2016
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Biomethane production and microbial community response according to influent concentration of molasses wastewater in a UASB reactor
by
Lee, Sang Don
, Yun, Jeonghee
, Cho, Kyung-Suk
in
Analysis
/ Archaea
/ Bacteria
/ bacterial communities
/ Bifidobacterium
/ Biogas
/ Biological Oxygen Demand Analysis
/ Biomass
/ Biomedical and Life Sciences
/ Bioreactors
/ Biotechnology
/ Chemical oxygen demand
/ Chemical properties
/ Efficiency
/ Environmental Biotechnology
/ Euryarchaeota - classification
/ Euryarchaeota - metabolism
/ Firmicutes
/ Hydraulics
/ Identification and classification
/ Industrial Microbiology
/ Industrial wastes
/ Life Sciences
/ Load distribution
/ Methane
/ Methane - biosynthesis
/ methane production
/ methanogens
/ Methanosaeta
/ Methanosarcina
/ Methanosarcinaceae - classification
/ Methanosarcinaceae - metabolism
/ Microbial colonies
/ Microbial Genetics and Genomics
/ Microbiology
/ Models, Theoretical
/ molasses
/ Molasses - analysis
/ Molasses - microbiology
/ Organic loading
/ Production processes
/ Reactors
/ Relative abundance
/ Retention
/ Sewage
/ Sewage - microbiology
/ Sludge
/ Studies
/ Syrups & sweeteners
/ upflow anaerobic sludge blanket reactor
/ Waste Water - chemistry
/ wastewater
/ Water treatment
2016
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Biomethane production and microbial community response according to influent concentration of molasses wastewater in a UASB reactor
Journal Article
Biomethane production and microbial community response according to influent concentration of molasses wastewater in a UASB reactor
2016
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Overview
This study aimed to investigate the interaction between methane production performance and active microbial community dynamics at different loading rates by increasing influent substrate concentration. The model system was an upflow anaerobic sludge blanket (UASB) reactor using molasses wastewater. The active microbial community was analyzed using a ribosomal RNA-based approach in order to reflect active members in the UASB system. The methane production rate (MPR) increased with an increase in organic loading rate (OLR) from 3.6 to 5.5 g COD·L
−1
·day
−1
and then it decreased with further OLR addition until 9.7 g COD·L
−1
·day
−1
. The UASB reactor achieved a maximum methane production rate of 0.48 L·L
−1
·day
−1
with a chemical oxygen demand (COD) removal efficiency of 91.2 % at an influent molasses concentration of 16 g COD·L
−1
(OLR of 5.5 g COD·L
−1
·day
−1
). In the archaeal community,
Methanosarcina
was predominant irrespective of loading rate, and the relative abundance of
Methanosaeta
increased with loading rate. In the bacterial community,
Firmicutes
and
Eubacteriaceae
were relatively abundant in the loading conditions tested. The network analysis between operation parameters and microbial community indicated that MPR was positively associated with most methanogenic archaea, including the relatively abundant
Methanosarcina
and
Methanosaeta
, except
Methanofollis
. The most abundant
Methanosarcina
was negatively associated with
Bifidobacterium
and
Methanosaeta
, whereas
Methanosaeta
was positively associated with
Bifidobacterium
.
Publisher
Springer Berlin Heidelberg,Springer,Springer Nature B.V
Subject
/ Archaea
/ Bacteria
/ Biogas
/ Biological Oxygen Demand Analysis
/ Biomass
/ Biomedical and Life Sciences
/ Euryarchaeota - classification
/ Identification and classification
/ Methane
/ Methanosarcinaceae - classification
/ Methanosarcinaceae - metabolism
/ Microbial Genetics and Genomics
/ molasses
/ Reactors
/ Sewage
/ Sludge
/ Studies
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