How to measure and optimize the sustainability of complex (renewable) energy production pathways: applied to farm scale biogas production pathways

Onderzoeksoutput: PhD Research internal, graduation external

Uittreksel

To avoid energy scarcity as well as climate change, a transition towards a sustainable society must be initiated. Within this context, governmental bodies and/or companies often note sustainability as an end goal, for instance as a green circular economy. However, if sustainability cannot be clearly defined as an end goal or measured uniformly and transparently, then the direction and progress towards this goal can only be roughly followed. A clear understanding of and a transparent, uniform measuring technique for sustainability are hence required for sustainable and circular (renewable) energy production pathways (REPPs), as society is asking for an integrated and understandable overview of the decision-making and planning process towards a future sustainable energy system. Therefore, within this dissertation, a new approach is proposed for measuring and optimizing the sustainability of REPPs; it is useful for the analysis, comparison, and optimization of REPP systems on all elements of sustainability. The new approach is applied and tested on a case based on farm-scale, anaerobic digestion (AD), biogas production pathways.
Originele taal-2English
KwalificatieDoctor of Philosophy
Toekennende instantie
  • University of Groningen
Begeleider(s)/adviseur
  • Moll, Henri C., Supervisor, Externe Persoon
Datum van toekenning5 okt 2018
Plaats van publicatieGroningen
Uitgever
Gedrukte ISBN's978-94-034-0931-3
Elektronische ISBN's978-94-034-0930-6
StatusPublished - 5 okt 2018

Vingerafdruk

Biogas
Farms
Sustainable development
Anaerobic digestion
Climate change
Decision making
Planning
Industry

Keywords

  • energieproductie
  • meetinstrumenten

Citeer dit

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title = "How to measure and optimize the sustainability of complex (renewable) energy production pathways:: applied to farm scale biogas production pathways",
abstract = "To avoid energy scarcity as well as climate change, a transition towards a sustainable society must be initiated. Within this context, governmental bodies and/or companies often note sustainability as an end goal, for instance as a green circular economy. However, if sustainability cannot be clearly defined as an end goal or measured uniformly and transparently, then the direction and progress towards this goal can only be roughly followed. A clear understanding of and a transparent, uniform measuring technique for sustainability are hence required for sustainable and circular (renewable) energy production pathways (REPPs), as society is asking for an integrated and understandable overview of the decision-making and planning process towards a future sustainable energy system. Therefore, within this dissertation, a new approach is proposed for measuring and optimizing the sustainability of REPPs; it is useful for the analysis, comparison, and optimization of REPP systems on all elements of sustainability. The new approach is applied and tested on a case based on farm-scale, anaerobic digestion (AD), biogas production pathways.",
keywords = "flow analysis, sustainability, measurements, energy production pathways, optimization modeling, anaerobic digestion, transparency, biogas, energieproductie, meetinstrumenten",
author = "Frank Pierie",
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publisher = "Rijksuniversiteit Groningen",
school = "University of Groningen",

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How to measure and optimize the sustainability of complex (renewable) energy production pathways: applied to farm scale biogas production pathways. / Pierie, Frank.

Groningen : Rijksuniversiteit Groningen, 2018. 193 blz.

Onderzoeksoutput: PhD Research internal, graduation external

TY - THES

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T2 - applied to farm scale biogas production pathways

AU - Pierie, Frank

PY - 2018/10/5

Y1 - 2018/10/5

N2 - To avoid energy scarcity as well as climate change, a transition towards a sustainable society must be initiated. Within this context, governmental bodies and/or companies often note sustainability as an end goal, for instance as a green circular economy. However, if sustainability cannot be clearly defined as an end goal or measured uniformly and transparently, then the direction and progress towards this goal can only be roughly followed. A clear understanding of and a transparent, uniform measuring technique for sustainability are hence required for sustainable and circular (renewable) energy production pathways (REPPs), as society is asking for an integrated and understandable overview of the decision-making and planning process towards a future sustainable energy system. Therefore, within this dissertation, a new approach is proposed for measuring and optimizing the sustainability of REPPs; it is useful for the analysis, comparison, and optimization of REPP systems on all elements of sustainability. The new approach is applied and tested on a case based on farm-scale, anaerobic digestion (AD), biogas production pathways.

AB - To avoid energy scarcity as well as climate change, a transition towards a sustainable society must be initiated. Within this context, governmental bodies and/or companies often note sustainability as an end goal, for instance as a green circular economy. However, if sustainability cannot be clearly defined as an end goal or measured uniformly and transparently, then the direction and progress towards this goal can only be roughly followed. A clear understanding of and a transparent, uniform measuring technique for sustainability are hence required for sustainable and circular (renewable) energy production pathways (REPPs), as society is asking for an integrated and understandable overview of the decision-making and planning process towards a future sustainable energy system. Therefore, within this dissertation, a new approach is proposed for measuring and optimizing the sustainability of REPPs; it is useful for the analysis, comparison, and optimization of REPP systems on all elements of sustainability. The new approach is applied and tested on a case based on farm-scale, anaerobic digestion (AD), biogas production pathways.

KW - flow analysis

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KW - measurements

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KW - optimization modeling

KW - anaerobic digestion

KW - transparency

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KW - energieproductie

KW - meetinstrumenten

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