Site-specific economic and ecological analysis of enhanced production, upgrade and feed-in of biomethane from organic wastes

The present study analyses the cost structure and ecological performance of biomethane production and feed-in from organic wastes and manure in a site-specific approach for Upper Austria. The theoretically available quantities of biowaste and manure can feed representative biogas plant capacities re...

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Veröffentlicht in:	Water science and technology 2013-01, Vol.67 (3), p.682-688
Hauptverfasser:	LINDORFER, J, SCHWARZ, M. M
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Sprache:	eng
Schlagworte:	Animals Applied sciences Biofuels - economics Biogas Cattle Climate change Composting Composts Conservation of Energy Resources Cost analysis Ecological monitoring Economic analysis Economies of scale Environmental effects Exact sciences and technology Farmyard manure Feeds Garbage Global warming Knowledge management Logistics Manure Manures Methane - analysis Natural gas Organic wastes Pollution Water treatment and pollution
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container_title	Water science and technology
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creator	LINDORFER, J SCHWARZ, M. M
description	The present study analyses the cost structure and ecological performance of biomethane production and feed-in from organic wastes and manure in a site-specific approach for Upper Austria. The theoretically available quantities of biowaste and manure can feed representative biogas plant capacities resulting in relatively high biomethane full costs in the natural gas grid of at least 9.0 €-cents/kWh, which shows strong economies of scale when feed-in flows of methane from 30 to 120 Nm(3)/h are considered. From the ecological point of view small plant capacities are to be preferred since the environmental effect, i.e. the global warming potential (up to -22% of CO(2eq)), is lower in comparison to higher capacities as a consequence of reduced transport in the evaluated scenarios. To enforce the combined energetic use of the biowaste fraction, co-operation between compost facility, gas grid and biogas plant operators is necessary to use existing infrastructure, logistics and knowledge to promote the production, upgrade and feed-in of biomethane from biowastes at attractive locations in Upper Austria and in the whole of Europe.
doi_str_mv	10.2166/wst.2012.617
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The theoretically available quantities of biowaste and manure can feed representative biogas plant capacities resulting in relatively high biomethane full costs in the natural gas grid of at least 9.0 €-cents/kWh, which shows strong economies of scale when feed-in flows of methane from 30 to 120 Nm(3)/h are considered. From the ecological point of view small plant capacities are to be preferred since the environmental effect, i.e. the global warming potential (up to -22% of CO(2eq)), is lower in comparison to higher capacities as a consequence of reduced transport in the evaluated scenarios. To enforce the combined energetic use of the biowaste fraction, co-operation between compost facility, gas grid and biogas plant operators is necessary to use existing infrastructure, logistics and knowledge to promote the production, upgrade and feed-in of biomethane from biowastes at attractive locations in Upper Austria and in the whole of Europe.</abstract><cop>London</cop><pub>International Water Association</pub><pmid>23202576</pmid><doi>10.2166/wst.2012.617</doi><tpages>7</tpages></addata></record>
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source	MEDLINE; EZB-FREE-00999 freely available EZB journals
subjects	Animals Applied sciences Biofuels - economics Biogas Cattle Climate change Composting Composts Conservation of Energy Resources Cost analysis Ecological monitoring Economic analysis Economies of scale Environmental effects Exact sciences and technology Farmyard manure Feeds Garbage Global warming Knowledge management Logistics Manure Manures Methane - analysis Natural gas Organic wastes Pollution Water treatment and pollution
title	Site-specific economic and ecological analysis of enhanced production, upgrade and feed-in of biomethane from organic wastes
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