Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.11790/1427
Title: Life Cycle Assessment of Biogas Production from Unused Grassland Biomass Pretreated by Steam Explosion Using a System Expansion Method
Authors: Kral, Iris 
Piringer, Gerhard 
Saylor, Molly K. 
Lizasoain, Javier 
Gronauer, Andreas 
Bauer, Alexander 
Keywords: life cycle assessment;alpine grassland;agricultural residues;municipal organic wastes;alternative energy;sustainable ecosystem;energy recovery of waste;grassland biomass
Issue Date: 2020
Publisher: MDPI
Source: In: Sustainability, 12(23), 9945
Journal: Sustainability 
Abstract: Reforestation is a threat to permanent grasslands in many alpine regions. Using these areas to produce biogas energy may help to preserve these important landscapes and save fossil fuels by adding a renewable local heat and electricity source. This case study compares (a) a status quo (SQ) reference scenario with heating oil, wood-chips, and grid electricity as municipal energy sources, and (b) a hypothetical local biogas (LB) scenario (to also be used as a municipal energy source) based on a 500-kWel biogas plant with steam explosion pretreatment. Here, hay from previously unused grassland is the main biogas substrate, whereas, in the reference SQ scenario, these grasslands remain unused. Life cycle assessment (LCA) results for LB and SQ scenarios are significantly different at p < 0.05 in all six impact categories. In three categories, the LB scenario has lower impacts than the SQ scenario, including climate change (0.367 CO2-eq kWhel-1 versus 0.501 CO2-eq kWhel-1). Dominant contributions to climate change in the SQ scenario are from the extant municipal energy sources that the LB biogas plant would replace; in the LB scenario, important contributions include unburned methane from the biogas plant, as well as CO2 emissions from hay production machines. In summary, important environmental impacts can be reduced and alpine grasslands can be preserved by biogas production from that grass. The advantages of integrating a local biogas plant in municipal energy and waste systems depend strongly on the extant municipal energy system characteristics.
URI: http://hdl.handle.net/20.500.11790/1427
ISSN: 2071-1050
DOI: 10.3390/su12239945
Rights: info:eu-repo/semantics/openAccess
Appears in Collections:Energie-Umweltmanagement

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