Decarbonising distilled spirits: An assessment of the potential associated with anaerobic digestion of by-products at nine operational distilleries

Decarbonising distilled spirits: An assessment of the potential associated with anaerobic digestion of by-products at nine operational distilleries

This work aims to assess the potential biogas resource of by-products from the production of distilled spirits at 9 operational distilleries in 7 countries. An additional objective was the calculation of the energy resource and Scope 1 greenhouse gas (GHG) emission savings from the use of 21 by-prod...

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Bibliographic Details
Published in:Journal of environmental management Vol. 329; p. 116976
Main Authors: O'Shea, Richard, Yang, Yan, Kansagra, Komal, Hickey, Daniel T., Kohler, Danielle, Murphy, Jerry D.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-03-2023
Subjects:
Anaerobic digestion
Anaerobiosis
Biofuels
Biogas
Decarbonising industry
Methane
Renewable Energy
Sustainable energy
Biogas
Renewable energy
Sustainable energy
Anaerobic digestion
Decarbonising industry
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Summary:This work aims to assess the potential biogas resource of by-products from the production of distilled spirits at 9 operational distilleries in 7 countries. An additional objective was the calculation of the energy resource and Scope 1 greenhouse gas (GHG) emission savings from the use of 21 by-products from the distilleries as a feedstock for anaerobic digestion (AD). To present a holistic perspective on the integration of AD with distilleries, an overview of additional criteria to be considered was provided. The biochemical methane potential (BMP) of the by-products associated with a selection of distilled spirits was experimentally determined. The BMP ranged from 161 L methane per kg volatile solid (LCH4/kgVS) to 589 LCH4/kgVS with an average value of 332 LCH4/kgVS. Biogas could reduce distillery fossil fuel demand by 49% when produced from un-processed by-products, by 66% when produced from a mixture of separated by-products, by 16% when produced from concentrated by-products and by 13% when produced from liquid by-products. The average Scope 1 GHG emission saving when using un-processed by-products was 52%, a mix of separated by-products allowed for a reduction of 66%, liquid by-products achieved an average reduction of 14%, and the use of concentrated by-products reduced GHG emissions by 17% on average. When evaluating which distilleries are “of most interest” for the integration of AD, other criteria to be considered include: by-product properties, the size of the AD facility required, the quantity of digestate produced, and the location of the distilleries in terms of both land availability to construct the AD facility and the proximity to land on which to spread digestate. •The biogas resource was assessed as 0.2–1.3 kWh per original litre of alcohol.•Anaerobic digestion could reduce fossil fuel demand by 13–66%.•Biogas could reduce Scope 1 emissions by 14–66%.•Digesting unprocessed and mixed separated by-products maximises emission savings.
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ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2022.116976