The development, validation and initial results of an integrated model for determining the environmental sustainability of biogas production pathways

Frank Pierie, Christian van Someren, René M.J. Benders, Jan Bekkering, Wim van Gemert, Henri C. Moll

Onderzoeksoutput: Contribution to conference proceedingAcademicpeer review

Uittreksel

Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. However, the environmental sustainability and efficiency of biogas production is not fully understood. Within this article the use, operation, structure, validation, and results of a model for the environmental assessment of anaerobic biogas production pathways is discussed. The (Excel) BioGas Simulator or EBS model is capable of calculating the economic cost, efficiency, carbon footprint, and sustainability of small scale anaerobic digestion biogas production pathways (from 2000 up to 50000 ton/a biomass input). The results from the model are expressed in four main indicators: the economic cost in Net Present Value (NPV), the efficiency in Process Energy Returned On Invested or (P)EROI, the carbon footprint in Global Warming potential 100 year scale (GWP100), and the environmental impact in EcoPoints. The economic indicator is given in Euros in Net Present Value over a period of 25 years, the other indicators are given per Giga Joule of energy produced (e.g. kgCO2eq/GJ). The EBS model is based on a clear methodology, structured around the modular approach, energy and material flow analysis, and life cycle analysis. The modular approach separates the biogas production pathway into individual physical processes, which makes the model more transparent, flexible in use, and programmable with different settings. The aforementioned allows the research of several aspects of the biogas production pathway. Furthermore, the indication of sustainability in four clear indicators gives an understandable reference for comparison with other scenarios. Overall, the EBS model can help give insight on the sustainability of specific biogas production pathways and help indicate options for improvement. Results from the model indicate that from an energy efficiency and sustainability point of view, the anaerobic digestion process should be utilized for treating locally available waste feedstocks with the added advantage of producing energy, which should preferentially be used internally for powering the waste treatment process.
Originele taal-2English
Titel24th EUBCE Online Proceedings 2016
Pagina's1411-1421
ISBN van elektronische versie978-88-89407-165
DOI's
StatusPublished - 2016
Evenement24th European Biomass Conference & Exhibition 2016 - Amsterdam, Netherlands
Duur: 6 jun 20169 jun 2016
Congresnummer: 24th
http://www.eubce.com/event-info/eubce-2016.html

Publicatie series

NaamEuropean Biomass Conference and Exhibition Proceedings
ISSN van elektronische versie2282-5819

Conference

Conference24th European Biomass Conference & Exhibition 2016
Verkorte titelEUBCE 2016
LandNetherlands
StadAmsterdam
Periode6/06/169/06/16
Internet adres

Vingerafdruk

Biogas
Sustainable development
Anaerobic digestion
Carbon footprint
Economics
Waste treatment
Global warming
Feedstocks
Environmental impact
Energy efficiency
Costs
Life cycle
Biomass
Simulators

Keywords

  • energietransitie
  • biogas

Citeer dit

Pierie, F., van Someren, C., Benders, R. M. J., Bekkering, J., van Gemert, W., & Moll, H. C. (2016). The development, validation and initial results of an integrated model for determining the environmental sustainability of biogas production pathways. In 24th EUBCE Online Proceedings 2016 (blz. 1411-1421). (European Biomass Conference and Exhibition Proceedings). https://doi.org/10.5071/24thEUBCE2016-2CV.3.9
Pierie, Frank ; van Someren, Christian ; Benders, René M.J. ; Bekkering, Jan ; van Gemert, Wim ; Moll, Henri C. / The development, validation and initial results of an integrated model for determining the environmental sustainability of biogas production pathways. 24th EUBCE Online Proceedings 2016 . 2016. blz. 1411-1421 (European Biomass Conference and Exhibition Proceedings).
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Pierie, F, van Someren, C, Benders, RMJ, Bekkering, J, van Gemert, W & Moll, HC 2016, The development, validation and initial results of an integrated model for determining the environmental sustainability of biogas production pathways. in 24th EUBCE Online Proceedings 2016 . European Biomass Conference and Exhibition Proceedings, blz. 1411-1421, 24th European Biomass Conference & Exhibition 2016, Amsterdam, Netherlands, 6/06/16. https://doi.org/10.5071/24thEUBCE2016-2CV.3.9

The development, validation and initial results of an integrated model for determining the environmental sustainability of biogas production pathways. / Pierie, Frank; van Someren, Christian; Benders, René M.J.; Bekkering, Jan; van Gemert, Wim; Moll, Henri C.

24th EUBCE Online Proceedings 2016 . 2016. blz. 1411-1421 (European Biomass Conference and Exhibition Proceedings).

Onderzoeksoutput: Contribution to conference proceedingAcademicpeer review

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AB - Biogas produced through Anaerobic Digestion can be seen as a flexible and storable energy carrier. However, the environmental sustainability and efficiency of biogas production is not fully understood. Within this article the use, operation, structure, validation, and results of a model for the environmental assessment of anaerobic biogas production pathways is discussed. The (Excel) BioGas Simulator or EBS model is capable of calculating the economic cost, efficiency, carbon footprint, and sustainability of small scale anaerobic digestion biogas production pathways (from 2000 up to 50000 ton/a biomass input). The results from the model are expressed in four main indicators: the economic cost in Net Present Value (NPV), the efficiency in Process Energy Returned On Invested or (P)EROI, the carbon footprint in Global Warming potential 100 year scale (GWP100), and the environmental impact in EcoPoints. The economic indicator is given in Euros in Net Present Value over a period of 25 years, the other indicators are given per Giga Joule of energy produced (e.g. kgCO2eq/GJ). The EBS model is based on a clear methodology, structured around the modular approach, energy and material flow analysis, and life cycle analysis. The modular approach separates the biogas production pathway into individual physical processes, which makes the model more transparent, flexible in use, and programmable with different settings. The aforementioned allows the research of several aspects of the biogas production pathway. Furthermore, the indication of sustainability in four clear indicators gives an understandable reference for comparison with other scenarios. Overall, the EBS model can help give insight on the sustainability of specific biogas production pathways and help indicate options for improvement. Results from the model indicate that from an energy efficiency and sustainability point of view, the anaerobic digestion process should be utilized for treating locally available waste feedstocks with the added advantage of producing energy, which should preferentially be used internally for powering the waste treatment process.

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Pierie F, van Someren C, Benders RMJ, Bekkering J, van Gemert W, Moll HC. The development, validation and initial results of an integrated model for determining the environmental sustainability of biogas production pathways. In 24th EUBCE Online Proceedings 2016 . 2016. blz. 1411-1421. (European Biomass Conference and Exhibition Proceedings). https://doi.org/10.5071/24thEUBCE2016-2CV.3.9