Making lignin accessible for anaerobic digestion by wet-explosion pretreatment

Birgitte Kiær Ahring; Rajib Biswas; Aftab Ahamed; Philip J. Teller; Hinrich Uellendahl

doi:10.1016/j.biortech.2014.10.082

Making lignin accessible for anaerobic digestion by wet-explosion pretreatment

Birgitte Kiær Ahring, Rajib Biswas, Aftab Ahamed, Philip J. Teller, Hinrich Uellendahl

Department of Chemistry and Bioscience

Research output: Contribution to journal › Journal article › Research › peer-review

81 Citations (Scopus)

Abstract

Lignin is a major part of the recalcitrant fraction of lignocellulose and in nature its degradation occurs through oxidative enzymes along with microbes mediated oxidative chemical actions. Oxygen assisted wet-explosion pretreatment promotes lignin solubility and leads to an increase biodegradation of lignin during anaerobic digestion processes. The pretreatment of feedlot manure was performed in a 10 L reactor at 170 C for 25 min using 4 bars oxygen and the material was fed to a continuous stirred tank reactor
operated at 55 C for anaerobic digestion. Methane yield of untreated and pretreated material was 70 ± 27 and 320 ± 36 L/kg-VS/day, respectively, or 4.5 times higher yield as a result of the pretreatment. Aliphatic acids formed during the pretreatment were utilized by microbes. 44.4% lignin in pretreated
material was actually converted in the anaerobic digestion process compared to 12.6% for untreated material indicating the oxygen assisted explosion promoted lignin degradation.

Original language	English
Journal	Bioresource Technology
Volume	175
Pages (from-to)	182-188
Number of pages	7
ISSN	0960-8524
DOIs	https://doi.org/10.1016/j.biortech.2014.10.082
Publication status	Published - 2015

Keywords

Methane
Anaerobic digestion
Sustainability
Wet explosion pretreatment
Feedlot manure

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FiberMaxBiogas: Increasing the biogas yield of manure fibers by wet explosion – demo-scale
Uellendahl, H., Biswas, R., Ahring, B. K., Hilstrøm, T., Mattesen, M. R. & Munck, J.
01/06/2009 → 31/05/2012
Project: Research

Cite this

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title = "Making lignin accessible for anaerobic digestion by wet-explosion pretreatment",

abstract = "Lignin is a major part of the recalcitrant fraction of lignocellulose and in nature its degradation occurs through oxidative enzymes along with microbes mediated oxidative chemical actions. Oxygen assisted wet-explosion pretreatment promotes lignin solubility and leads to an increase biodegradation of lignin during anaerobic digestion processes. The pretreatment of feedlot manure was performed in a 10 L reactor at 170 C for 25 min using 4 bars oxygen and the material was fed to a continuous stirred tank reactoroperated at 55 C for anaerobic digestion. Methane yield of untreated and pretreated material was 70 ± 27 and 320 ± 36 L/kg-VS/day, respectively, or 4.5 times higher yield as a result of the pretreatment. Aliphatic acids formed during the pretreatment were utilized by microbes. 44.4% lignin in pretreatedmaterial was actually converted in the anaerobic digestion process compared to 12.6% for untreated material indicating the oxygen assisted explosion promoted lignin degradation.",

keywords = "Methane, Anaerobic digestion, Sustainability, Wet explosion pretreatment, Feedlot manure",

author = "Ahring, {Birgitte Ki{\ae}r} and Rajib Biswas and Aftab Ahamed and Teller, {Philip J.} and Hinrich Uellendahl",

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doi = "10.1016/j.biortech.2014.10.082",

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pages = "182--188",

journal = "Bioresource Technology",

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T1 - Making lignin accessible for anaerobic digestion by wet-explosion pretreatment

AU - Ahring, Birgitte Kiær

AU - Biswas, Rajib

AU - Ahamed, Aftab

AU - Teller, Philip J.

AU - Uellendahl, Hinrich

PY - 2015

Y1 - 2015

N2 - Lignin is a major part of the recalcitrant fraction of lignocellulose and in nature its degradation occurs through oxidative enzymes along with microbes mediated oxidative chemical actions. Oxygen assisted wet-explosion pretreatment promotes lignin solubility and leads to an increase biodegradation of lignin during anaerobic digestion processes. The pretreatment of feedlot manure was performed in a 10 L reactor at 170 C for 25 min using 4 bars oxygen and the material was fed to a continuous stirred tank reactoroperated at 55 C for anaerobic digestion. Methane yield of untreated and pretreated material was 70 ± 27 and 320 ± 36 L/kg-VS/day, respectively, or 4.5 times higher yield as a result of the pretreatment. Aliphatic acids formed during the pretreatment were utilized by microbes. 44.4% lignin in pretreatedmaterial was actually converted in the anaerobic digestion process compared to 12.6% for untreated material indicating the oxygen assisted explosion promoted lignin degradation.

AB - Lignin is a major part of the recalcitrant fraction of lignocellulose and in nature its degradation occurs through oxidative enzymes along with microbes mediated oxidative chemical actions. Oxygen assisted wet-explosion pretreatment promotes lignin solubility and leads to an increase biodegradation of lignin during anaerobic digestion processes. The pretreatment of feedlot manure was performed in a 10 L reactor at 170 C for 25 min using 4 bars oxygen and the material was fed to a continuous stirred tank reactoroperated at 55 C for anaerobic digestion. Methane yield of untreated and pretreated material was 70 ± 27 and 320 ± 36 L/kg-VS/day, respectively, or 4.5 times higher yield as a result of the pretreatment. Aliphatic acids formed during the pretreatment were utilized by microbes. 44.4% lignin in pretreatedmaterial was actually converted in the anaerobic digestion process compared to 12.6% for untreated material indicating the oxygen assisted explosion promoted lignin degradation.

KW - Methane

KW - Anaerobic digestion

KW - Sustainability

KW - Wet explosion pretreatment

KW - Feedlot manure

U2 - 10.1016/j.biortech.2014.10.082

DO - 10.1016/j.biortech.2014.10.082

M3 - Journal article

SN - 0960-8524

VL - 175

SP - 182

EP - 188

JO - Bioresource Technology

JF - Bioresource Technology

ER -

Making lignin accessible for anaerobic digestion by wet-explosion pretreatment

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Keywords

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Projects

FiberMaxBiogas: Increasing the biogas yield of manure fibers by wet explosion – demo-scale

Cite this