Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion

Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion

Sports fields provide a recreation space for citizens, but also generate grass biomass, which is cut weekly during the main seasons and therefore could be used in energy generation (combustion or anaerobic digestion). To evaluate the technical suitability of the grass cuttings, silage was produced f...

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Bibliographic Details
Main Authors: Meike Nitsche, Frank Hensgen, Michael Wachendorf
Format: Article
Language:English
Published: MDPI AG 2017-03-01
Series:Energies
Subjects:
IFBB
urban biomass
biogas
turf grass
grass silage
Online Access:http://www.mdpi.com/1996-1073/10/3/388
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spelling doaj-fc1ed04abb134cab95420b7f744dfabc2020-11-24T22:15:04ZengMDPI AGEnergies1996-10732017-03-0110338810.3390/en10030388en10030388Using Grass Cuttings from Sports Fields for Anaerobic Digestion and CombustionMeike Nitsche0Frank Hensgen1Michael Wachendorf2Department of Grassland Science and Renewable Plant Resources, Kassel University, Steinstrasse 19, 37213 Witzenhausen, GermanyDepartment of Grassland Science and Renewable Plant Resources, Kassel University, Steinstrasse 19, 37213 Witzenhausen, GermanyDepartment of Grassland Science and Renewable Plant Resources, Kassel University, Steinstrasse 19, 37213 Witzenhausen, GermanySports fields provide a recreation space for citizens, but also generate grass biomass, which is cut weekly during the main seasons and therefore could be used in energy generation (combustion or anaerobic digestion). To evaluate the technical suitability of the grass cuttings, silage was produced from four sports fields during one vegetation period and investigated for relevant properties. Potential methane yield was determined with batch tests. Mean methane yield was 291.86 lN·kg−1 VSadded (VS, volatile solid). Neutral detergent fiber concentration was low (44.47% DM, dry matter), yet mineral concentration was high in comparison to grass types cut at a lower frequency. Concentrations of Cl, N, and S, which may lead to unfavorable emissions, fouling, and corrosion during combustion, were too high for an unproblematic combustion process. This was still the case even after applying a mineral-reducing pretreatment, which generates a fiber-rich press cake and a press fluid rich in easy soluble substances. Digestion of the press fluid led to methane yields of 340.10 lN·kg−1 VSadded and the press cake had a higher heating value of 19.61 MJ·kg−1 DM, which is close to that of coniferous wood. It can be concluded that biomass from sports fields could be a suitable co-substrate in bio-energy generation.http://www.mdpi.com/1996-1073/10/3/388IFBBurban biomassbiogasturf grassgrass silage
collection DOAJ
language English
format Article
sources DOAJ
author Meike Nitsche
Frank Hensgen
Michael Wachendorf
spellingShingle Meike Nitsche
Frank Hensgen
Michael Wachendorf
Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion
Energies
IFBB
urban biomass
biogas
turf grass
grass silage
author_facet Meike Nitsche
Frank Hensgen
Michael Wachendorf
author_sort Meike Nitsche
title Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion
title_short Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion
title_full Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion
title_fullStr Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion
title_full_unstemmed Using Grass Cuttings from Sports Fields for Anaerobic Digestion and Combustion
title_sort using grass cuttings from sports fields for anaerobic digestion and combustion
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2017-03-01
description Sports fields provide a recreation space for citizens, but also generate grass biomass, which is cut weekly during the main seasons and therefore could be used in energy generation (combustion or anaerobic digestion). To evaluate the technical suitability of the grass cuttings, silage was produced from four sports fields during one vegetation period and investigated for relevant properties. Potential methane yield was determined with batch tests. Mean methane yield was 291.86 lN·kg−1 VSadded (VS, volatile solid). Neutral detergent fiber concentration was low (44.47% DM, dry matter), yet mineral concentration was high in comparison to grass types cut at a lower frequency. Concentrations of Cl, N, and S, which may lead to unfavorable emissions, fouling, and corrosion during combustion, were too high for an unproblematic combustion process. This was still the case even after applying a mineral-reducing pretreatment, which generates a fiber-rich press cake and a press fluid rich in easy soluble substances. Digestion of the press fluid led to methane yields of 340.10 lN·kg−1 VSadded and the press cake had a higher heating value of 19.61 MJ·kg−1 DM, which is close to that of coniferous wood. It can be concluded that biomass from sports fields could be a suitable co-substrate in bio-energy generation.
topic IFBB
urban biomass
biogas
turf grass
grass silage
url http://www.mdpi.com/1996-1073/10/3/388
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