Improving the energy balance of grass-based anaerobic digestion through combined harvesting and pretreatment

Improving the energy balance of grass-based anaerobic digestion through combined harvesting and pretreatment

An important challenge that has to be addressed to achieve sustainable anaerobic digestion of lignocellulosic substrates is the development of energy and cost efficient pretreatment methods. Technologies orientated to simultaneously harvest and mechanically pretreat the biomass at the field could me...

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Bibliographic Details
Published in:Anaerobe Vol. 46; pp. 131 - 137
Main Authors: Tsapekos, P., Kougias, P.G., Egelund, H., Larsen, U., Pedersen, J., Trénel, P., Angelidaki, I.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-08-2017
Subjects:
Anaerobic digestion
Anaerobiosis
Biodegradation, Environmental
Biofuels
Biotransformation
Energy balance
Fermentation
Grass
Harvesting
Methane
Methane - biosynthesis
Poaceae
Silage
Methane
Energy balance
Grass
Harvesting
Anaerobic digestion
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Summary:An important challenge that has to be addressed to achieve sustainable anaerobic digestion of lignocellulosic substrates is the development of energy and cost efficient pretreatment methods. Technologies orientated to simultaneously harvest and mechanically pretreat the biomass at the field could meet these criteria as they can potentially reduce the energy losses. The objective of this study was to elucidate the effect of two full-scale harvesting machines to enhance the biogas production and subsequently, improve energy balance. The performances of Disc-mower and Excoriator were assessed on meadow and cultivated grass silages. The results showed that relatively high methane production can be achieved from meadow and cultivated grass harvested in different seasons. The findings indicated that the bioenergy production can be improved based on the selection of the appropriate harvesting technology. More specifically, Excoriator, which cuts and subsequently applies shearing forces on harvested biomass, enhanced the methane production up to 10% and the overall energy budget was improved proportionally to the driving speed increase. •The methane production from different grass silages was examined.•The chemical composition of grass altered at different stages of crop development.•Mechanical pretreatment at harvesting improved the biodegradability of silages.•Excoriator increased the methane yield by 10% compared to an ordinary Disc-mower.•The overall energy balance can be improved due to harvesting with Excoriator.
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ISSN:1075-9964
1095-8274
DOI:10.1016/j.anaerobe.2016.12.005