Methane production potential of various crop species grown in energy crop rotations

Methane production potential of various crop species grown in energy crop rotations

The methane production potential represents an essential quality parameter of biomass if used as feedstock for biogas production. 769 harvested crop materials from crop rotations were ensiled at standardized conditions and were analyzed regarding their specific methane yields by applying two differe...

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Main Authors: Christiane Herrmann, Vincent Plogsties, Matthias Willms, Frank Hengelhaupt, Veronika Eberl, Jens Eckner, Christoph Strauß, Christine Idler, Monika Heiermann
Format: Article
Language:deu
Published: Kuratorium für Technik und Bauwesen in der Landwirtschaft e. V. 2016-11-01
Series:Landtechnik
Online Access:http://www.landtechnik-online.eu/ojs-2.4.5/index.php/landtechnik/article/view/3142
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spelling doaj-c1bd9fc13c7b44c8903b4e83b685aea92021-04-02T14:01:46ZdeuKuratorium für Technik und Bauwesen in der Landwirtschaft e. V.Landtechnik0023-80822016-11-0171610.15150/lt.2016.31423146Methane production potential of various crop species grown in energy crop rotationsChristiane HerrmannVincent PlogstiesMatthias WillmsFrank HengelhauptVeronika EberlJens EcknerChristoph StraußChristine IdlerMonika HeiermannThe methane production potential represents an essential quality parameter of biomass if used as feedstock for biogas production. 769 harvested crop materials from crop rotations were ensiled at standardized conditions and were analyzed regarding their specific methane yields by applying two different experimental setups of batch anaerobic digestion tests. Based on this analysis, reference values for average methane yields per crop species and position within the crop rotation, cutting regime, range of dry matter content, or stage of growth at harvest have been deduced for 93 different crop biomasses. Results provide a comprehensive dataset that can be used in combination with biomass yields for the estimation of methane hectare yields, for economic and ecological evaluation of energy crop rotations, for planning and structural design of biogas plants as well as for decisions regarding the cultivation of alternative co-substrates and the design of sustainable biogas crop rotations.http://www.landtechnik-online.eu/ojs-2.4.5/index.php/landtechnik/article/view/3142
collection DOAJ
language deu
format Article
sources DOAJ
author Christiane Herrmann
Vincent Plogsties
Matthias Willms
Frank Hengelhaupt
Veronika Eberl
Jens Eckner
Christoph Strauß
Christine Idler
Monika Heiermann
spellingShingle Christiane Herrmann
Vincent Plogsties
Matthias Willms
Frank Hengelhaupt
Veronika Eberl
Jens Eckner
Christoph Strauß
Christine Idler
Monika Heiermann
Methane production potential of various crop species grown in energy crop rotations
Landtechnik
author_facet Christiane Herrmann
Vincent Plogsties
Matthias Willms
Frank Hengelhaupt
Veronika Eberl
Jens Eckner
Christoph Strauß
Christine Idler
Monika Heiermann
author_sort Christiane Herrmann
title Methane production potential of various crop species grown in energy crop rotations
title_short Methane production potential of various crop species grown in energy crop rotations
title_full Methane production potential of various crop species grown in energy crop rotations
title_fullStr Methane production potential of various crop species grown in energy crop rotations
title_full_unstemmed Methane production potential of various crop species grown in energy crop rotations
title_sort methane production potential of various crop species grown in energy crop rotations
publisher Kuratorium für Technik und Bauwesen in der Landwirtschaft e. V.
series Landtechnik
issn 0023-8082
publishDate 2016-11-01
description The methane production potential represents an essential quality parameter of biomass if used as feedstock for biogas production. 769 harvested crop materials from crop rotations were ensiled at standardized conditions and were analyzed regarding their specific methane yields by applying two different experimental setups of batch anaerobic digestion tests. Based on this analysis, reference values for average methane yields per crop species and position within the crop rotation, cutting regime, range of dry matter content, or stage of growth at harvest have been deduced for 93 different crop biomasses. Results provide a comprehensive dataset that can be used in combination with biomass yields for the estimation of methane hectare yields, for economic and ecological evaluation of energy crop rotations, for planning and structural design of biogas plants as well as for decisions regarding the cultivation of alternative co-substrates and the design of sustainable biogas crop rotations.
url http://www.landtechnik-online.eu/ojs-2.4.5/index.php/landtechnik/article/view/3142
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AT matthiaswillms methaneproductionpotentialofvariouscropspeciesgrowninenergycroprotations
AT frankhengelhaupt methaneproductionpotentialofvariouscropspeciesgrowninenergycroprotations
AT veronikaeberl methaneproductionpotentialofvariouscropspeciesgrowninenergycroprotations
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AT monikaheiermann methaneproductionpotentialofvariouscropspeciesgrowninenergycroprotations
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