Economic value and environmental impact analysis of lignocellulosic ethanol production: assessment of different pretreatment processes

Second-generation bioethanol represents an interesting alternative to liquid fuels in times of increased concerns over global warming and energy security. However, the recalcitrant structure of lignocellulosic biomass feedstock makes necessary a pretreatment process to increase the conversion of sug...

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Bibliographic Details
Published in:Clean technologies and environmental policy 2019-04, Vol.21 (3), p.637-654
Main Authors: Rodrigues Gurgel da Silva, André, Giuliano, Aristide, Errico, Massimiliano, Rong, Ben-Guang, Barletta, Diego
Format: Article
Language:English
Subjects:
Ammonia
Biofuels
Biomass
Biorefineries
Carbon dioxide
Carbon dioxide emissions
Climate change
Cogeneration
Conversion
Dilution
Distillation
Earth and Environmental Science
Economic analysis
Economics
Energy
Energy balance
Energy security
Environment
Environmental Economics
Environmental Engineering/Biotechnology
Environmental impact
Environmental impact assessment
Environmental performance
Environmental policy
Ethanol
Global warming
Impact analysis
Industrial and Production Engineering
Industrial Chemistry/Chemical Engineering
Lignocellulose
Liquid fuels
Original Paper
Pretreatment
Purification
Refining
Separation
Sugar
Sustainable Development
Value
Water purification
Water treatment
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Summary:Second-generation bioethanol represents an interesting alternative to liquid fuels in times of increased concerns over global warming and energy security. However, the recalcitrant structure of lignocellulosic biomass feedstock makes necessary a pretreatment process to increase the conversion of sugars. Diluted acid, liquid hot water, steam explosion, ammonia fiber explosion, and organosolv pretreatments are assessed using a combined economic value and environmental impact analysis under a full biorefinery setup in order to assess the best pretreatment process from a techno-economic-environmental point of view. Five process areas were identified within each process considered: pretreatment stage, conversion stage, product purification and separation stage, water treatment stage, and cogeneration stage. A process simulation software was used to consider material and energy balances of the biorefineries with different pretreatment processes and to optimize the separation and purification processes (e.g., distillation columns). For the considered biomass and scenarios, all processes resulted in positive gains in terms of economic feasibility and carbon dioxide emissions. In particular, diluted acid can be considered the best pretreatment process to produce lignocellulosic bioethanol thanks to the best techno-economic-environmental performances, with the largest economic and environmental margins of 39.2 M$/year and 83.9 kt CO 2 /year, respectively. Graphical abstract
ISSN:1618-954X
1618-9558
DOI:10.1007/s10098-018-01663-z