2020
DOI: 10.3390/en13246497
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GHG Emissions and Efficiency of Energy Generation through Anaerobic Fermentation of Wetland Biomass

Abstract: We conducted the Life Cycle Analysis (LCA) of energy production from biogas for maize and three types of wetland biomass: reed Phragmites australis, sedges Carex elata, and Carex gracilis, and “grassy vegetation” of wet meadows (WM). Biogas energy produced from maize reached over 90 GJ ha−1, which was more than four times higher than that gained from wetland biomass. However, an estimation of energy efficiency (EE) calculated as a ratio of energy input to the energy produced in a biogas plant showed that the w… Show more

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Cited by 13 publications
(6 citation statements)
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“…AD utilizes biological conversion processes occurring under aerobic conditions, producing CH 4 -rich biogas and digestate (usually utilized as organic fertilizer) [46][47][48]. Each step of the digestion is mediated by specialized microorganisms that hydrolyze polymeric substances through enzyme action [49][50][51]. They are further broken down into fatty acids, alcohols, H 2, and CO 2 [52].…”
Section: Biomethane Productionmentioning
confidence: 99%
“…AD utilizes biological conversion processes occurring under aerobic conditions, producing CH 4 -rich biogas and digestate (usually utilized as organic fertilizer) [46][47][48]. Each step of the digestion is mediated by specialized microorganisms that hydrolyze polymeric substances through enzyme action [49][50][51]. They are further broken down into fatty acids, alcohols, H 2, and CO 2 [52].…”
Section: Biomethane Productionmentioning
confidence: 99%
“…In the EU country, all biofuels (solid, liquid or gaseous) have a subsidy from EU public budges and accordingly the production of biofuels is subject to sustainability criteria under the Renewable Energy Directive [5]. The Directive introduces significant restrains in the production of raw agricultural materials for energy use, mainly to protect primary forests and biodiversity.…”
Section: Biogasmentioning
confidence: 99%
“…Biogas can be produced by wet (WF) or dry fermentation (DF) technology. DF technology is simpler to operate, more energy-efficient [13], and avoids several problems that often occur in WF [14,15]. Despite various process parameters and the feedstock, the core communities of microorganisms in digesters operating under dry and wet conditions are similar [16], and the CH 4 yield of both technologies is comparable to laboratory experiments [17] and the industrial scale [18].…”
Section: Introductionmentioning
confidence: 95%