Technoeconomic analysis and environmental sustainability estimation of bioalcohol production from barley straw

Technoeconomic analysis and environmental sustainability estimation of bioalcohol production from barley straw

European Union bioeconomy policy emphasizes that the production of renewable transportation fuels should replace fossil fuels as much as possible. In particular, the utilization of waste or side-stream lignocellulosic materials for fuel production is highly recommended. Moreover, future crises forci...

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Bibliographic Details
Published in:Biocatalysis and agricultural biotechnology Vol. 43; p. 102427
Main Authors: Kuittinen, Suvi, Hietaharju, Jenna, Bhattarai, Ira, Hassan, Md. Kamrul, Kupiainen, Laura, Kangas, Jani, Tanskanen, Juha, Pappinen, Ari
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2022
Subjects:
Barley straw
Biobutanol
Bioethanol
Biofuels
Sustainability
Barley straw
Bioethanol
Biofuels
Sustainability
Biobutanol
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Summary:European Union bioeconomy policy emphasizes that the production of renewable transportation fuels should replace fossil fuels as much as possible. In particular, the utilization of waste or side-stream lignocellulosic materials for fuel production is highly recommended. Moreover, future crises forcing a reliance on locally available sources for fuels and energy may become increasingly common. Barley straw, a common agricultural residue in northern Europe, is a potential raw material for bioalcohol production via fermentation. In this study, the technoeconomic and environmental sustainability of bioethanol and biobutanol production from barley straw were evaluated. When compared with fossil gasoline production and use, the greenhouse gas emissions reduction 77.6% and 72.1% were achieved for ethanol and butanol production, respectively. Thus, the emission reduction of 65% for biofuels demanded by the European Union renewable energy directive was achieved in both biofuel production processes evaluated. However, our results indicated that ethanol production from barley straw, a well-known and mature technology, was an economically feasible process (NPV positive, IRR 20%) but that butanol production with Clostridium species through acetone-butanol-ethanol fermentation has still technoeconomic challenges to overcome (NPV negative, IRR below 10%). This was mainly due to the low yield and high recovery costs of butanol. •Barley straw is economically feasible raw material for biofuel production.•Barley straw ethanol was economically feasible with internal rate of return 18%.•Emission saving 77.6% was achieved with barley ethanol compared with fossil fuel.•Barley straw butanol still has technoeconomic challenges in yields and separation.•Emission saving 72.1% was achieved with barley butanol compared with fossil fuel.
ISSN:1878-8181
1878-8181
DOI:10.1016/j.bcab.2022.102427