Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada

Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada

The appropriate transformation and valorisation of biogas offers environmental and economic opportunities in a future with restrictions upon fossil-based fuels and materials. The LCA method was used to quantify and compare the potential environmental impacts of an AD plant incorporating biogas co-ge...

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Bibliographic Details
Main Authors: A. Ncube, J. Cocker, D. Ellis, G. Fiorentino
Format: Article
Language:English
Published: Elsevier 2021-09-01
Series:Environmental and Sustainability Indicators
Subjects:
LCA
Biogas
Heat
Electricity
Renewable natural gas
Online Access:http://www.sciencedirect.com/science/article/pii/S2665972721000350
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spelling doaj-e2c1926312754beda97338ce36e4bbdf2021-08-14T04:31:48ZengElsevierEnvironmental and Sustainability Indicators2665-97272021-09-0111100134Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, CanadaA. Ncube0J. Cocker1D. Ellis2G. Fiorentino3International PhD Programme “Environment, Resources and Sustainable Development, Department of Science and Technology, Parthenope University of Naples, Centro Direzionale – Isola C4, 80143, Naples, Italy; Corresponding author.Borden Ladner Gervais, Bay Adelaide Centre, East Tower, 22 Adelaide Street West, Toronto, Ontario, CanadaAzura Associates International, Waterloo, Ontario, CanadaENEA (Italian National Agency for New Technologies, Energy and Sustainable Economic Development), Department for Sustainability, Division Resource Efficiency, Research Centre of Portici, P.le E. Fermi 1, Portici, 80055, Naples, ItalyThe appropriate transformation and valorisation of biogas offers environmental and economic opportunities in a future with restrictions upon fossil-based fuels and materials. The LCA method was used to quantify and compare the potential environmental impacts of an AD plant incorporating biogas co-generation and upgrading options, namely AD-CHP and AD-RNG. Using an average Anaerobic Digestion facility in Ontario, Canada, modelled after real facilities, as a case study, electricity and steel were identified as potential hotspot input materials carrying a disproportionate environmental burden for biogas production. With a system expansion approach, the biogas was subsequently utilized to produce (1) both heat and electricity using a Combined Heat and Power (CHP) system, or (2) upgraded to renewable natural gas (also called biomethane) through chemical amine scrubbing, respectively.In comparing the biogas co-generation and upgrading options, the AD-CHP alternative resulted in a lesser environmental load, two times lower when compared to the AD-RNG biomethane recovery option. Furthermore, the avoided burden of producing fossil-based electricity, natural gas, and chemical fertilizer was analyzed and compared against their renewable counterparts. Significant reductions in emissions and in the depletion of fossil fuels were achieved, thus confirming the positive efforts of diverting organic waste from landfills to reduce organic waste disposal impacts and improve the management of organic waste. The analysis has provided useful insights to bioenergy project developers, policy makers and the scientific community regarding the processing of source separated organic waste, biogas production, and its upgrading alternatives in a circular economy perspective.http://www.sciencedirect.com/science/article/pii/S2665972721000350LCABiogasHeatElectricityRenewable natural gas
collection DOAJ
language English
format Article
sources DOAJ
author A. Ncube
J. Cocker
D. Ellis
G. Fiorentino
spellingShingle A. Ncube
J. Cocker
D. Ellis
G. Fiorentino
Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada
Environmental and Sustainability Indicators
LCA
Biogas
Heat
Electricity
Renewable natural gas
author_facet A. Ncube
J. Cocker
D. Ellis
G. Fiorentino
author_sort A. Ncube
title Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada
title_short Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada
title_full Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada
title_fullStr Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada
title_full_unstemmed Biogas from source separated organic waste within a circular and life cycle perspective. A case study in Ontario, Canada
title_sort biogas from source separated organic waste within a circular and life cycle perspective. a case study in ontario, canada
publisher Elsevier
series Environmental and Sustainability Indicators
issn 2665-9727
publishDate 2021-09-01
description The appropriate transformation and valorisation of biogas offers environmental and economic opportunities in a future with restrictions upon fossil-based fuels and materials. The LCA method was used to quantify and compare the potential environmental impacts of an AD plant incorporating biogas co-generation and upgrading options, namely AD-CHP and AD-RNG. Using an average Anaerobic Digestion facility in Ontario, Canada, modelled after real facilities, as a case study, electricity and steel were identified as potential hotspot input materials carrying a disproportionate environmental burden for biogas production. With a system expansion approach, the biogas was subsequently utilized to produce (1) both heat and electricity using a Combined Heat and Power (CHP) system, or (2) upgraded to renewable natural gas (also called biomethane) through chemical amine scrubbing, respectively.In comparing the biogas co-generation and upgrading options, the AD-CHP alternative resulted in a lesser environmental load, two times lower when compared to the AD-RNG biomethane recovery option. Furthermore, the avoided burden of producing fossil-based electricity, natural gas, and chemical fertilizer was analyzed and compared against their renewable counterparts. Significant reductions in emissions and in the depletion of fossil fuels were achieved, thus confirming the positive efforts of diverting organic waste from landfills to reduce organic waste disposal impacts and improve the management of organic waste. The analysis has provided useful insights to bioenergy project developers, policy makers and the scientific community regarding the processing of source separated organic waste, biogas production, and its upgrading alternatives in a circular economy perspective.
topic LCA
Biogas
Heat
Electricity
Renewable natural gas
url http://www.sciencedirect.com/science/article/pii/S2665972721000350
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