Impact of Thermo-Mechanical Pretreatment of Sargassum muticum on Anaerobic Co-Digestion with Wheat Straw

Sargassum muticum (SM) is an invasive macroalgal species seasonally occurring in large quantities. While generally suitable for anaerobic digestion, recent studies resulted in low specific methane yields (SMYs), presumably due to salt, polyphenol, and high fiber contents of this marine biomass. In t...

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Published inFermentation (Basel) Vol. 9; no. 9; p. 820
Main Authors Hütter, Miriam, Sailer, Gregor, Hülsemann, Benedikt, Müller, Joachim, Poetsch, Jens
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2023
Subjects
Algae
Anaerobic digestion
Biogas
biogas production
Biomass
brown macroalgae
Carbohydrates
Climate change
Coasts
desalination
Digestibility
Energy resources
fermentation
Invasive species
macroalgae
marine biomass
mechanical methods
methane
methane yield
polyphenols
pretreatment
Proteins
Salinity
Sargassum muticum
Straw
sustainable biomass utilization
Temperature
Wheat
wheat straw
Germany
Online AccessGet full text
ISSN2311-5637
2311-5637
DOI10.3390/fermentation9090820

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Abstract Sargassum muticum (SM) is an invasive macroalgal species seasonally occurring in large quantities. While generally suitable for anaerobic digestion, recent studies resulted in low specific methane yields (SMYs), presumably due to salt, polyphenol, and high fiber contents of this marine biomass. In this study, the specific biogas yield (SBY) and SMY of SM alone as well as in co-digestion with wheat straw (WS) were investigated in batch tests at process temperatures of 44 ± 1.4 °C with a retention time of approx. 40 d. The pretreatment variants of SM were examined with regard to desalination and disintegration to potentially improve digestibility and to enhance the overall performance in anaerobic digestion. A sole mechanical treatment (pressing) and a thermo-mechanical treatment (heating and pressing) were tested. Batch assays showed that pressing increased the SMY by 15.1% whereas heating and pressing decreased the SMY by 15.7% compared to the untreated variant (87.64 ± 8.72 mL/gVS). Both anaerobic digestion experiments generally showed that co-digestion with WS can be recommended for SM, but the observed SBY and SMY were still similar to those of other studies in which SM was not pretreated. The mechanical pretreatment of SM, however, offers the potential to enhance the SMY in the anaerobic digestion of SM with WS, but further research is necessary to identify the optimum upgrading approaches since the overall SMY of SM is relatively low compared to other substrates that are commonly used in anaerobic digestion. In addition to anaerobic digestion, SM as an already available biomass could also be of interest for further utilization approaches such as fiber production.
AbstractList Sargassum muticum (SM) is an invasive macroalgal species seasonally occurring in large quantities. While generally suitable for anaerobic digestion, recent studies resulted in low specific methane yields (SMYs), presumably due to salt, polyphenol, and high fiber contents of this marine biomass. In this study, the specific biogas yield (SBY) and SMY of SM alone as well as in co-digestion with wheat straw (WS) were investigated in batch tests at process temperatures of 44 ± 1.4 °C with a retention time of approx. 40 d. The pretreatment variants of SM were examined with regard to desalination and disintegration to potentially improve digestibility and to enhance the overall performance in anaerobic digestion. A sole mechanical treatment (pressing) and a thermo-mechanical treatment (heating and pressing) were tested. Batch assays showed that pressing increased the SMY by 15.1% whereas heating and pressing decreased the SMY by 15.7% compared to the untreated variant (87.64 ± 8.72 mL/gVS). Both anaerobic digestion experiments generally showed that co-digestion with WS can be recommended for SM, but the observed SBY and SMY were still similar to those of other studies in which SM was not pretreated. The mechanical pretreatment of SM, however, offers the potential to enhance the SMY in the anaerobic digestion of SM with WS, but further research is necessary to identify the optimum upgrading approaches since the overall SMY of SM is relatively low compared to other substrates that are commonly used in anaerobic digestion. In addition to anaerobic digestion, SM as an already available biomass could also be of interest for further utilization approaches such as fiber production.
Author Sailer, Gregor
Hülsemann, Benedikt
Müller, Joachim
Poetsch, Jens
Hütter, Miriam
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Snippet Sargassum muticum (SM) is an invasive macroalgal species seasonally occurring in large quantities. While generally suitable for anaerobic digestion, recent...
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SubjectTerms Algae
Anaerobic digestion
Biogas
biogas production
Biomass
brown macroalgae
Carbohydrates
Climate change
Coasts
desalination
Digestibility
Energy resources
fermentation
Invasive species
macroalgae
marine biomass
mechanical methods
methane
methane yield
polyphenols
pretreatment
Proteins
Salinity
Sargassum muticum
Straw
sustainable biomass utilization
Temperature
Wheat
wheat straw
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Title Impact of Thermo-Mechanical Pretreatment of Sargassum muticum on Anaerobic Co-Digestion with Wheat Straw
URI https://www.proquest.com/docview/2869324533
https://www.proquest.com/docview/3040401570
https://doaj.org/article/cf1f1ca099fe48f0b0780f010337373f
Volume 9
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