Biorefineries for the production of first and second generation ethanol and electricity from sugarcane

•Lignocellulose (bagasse, trash) is generated in large amounts in sugarcane production.•Bagasse and trash can be used for second generation ethanol or electricity production.•Flexible biorefinery able to divert lignocellulose for fuel/electricity was evaluated.•Part of surplus electricity is sold in...

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Bibliographic Details
Published in:Applied energy 2013-09, Vol.109, p.72-78
Main Authors: Dias, Marina O.S., Junqueira, Tassia L., Cavalett, Otávio, Pavanello, Lucas G., Cunha, Marcelo P., Jesus, Charles D.F., Maciel Filho, Rubens, Bonomi, Antonio
Format: Article
Language:English
Subjects:
Applied sciences
Bagasse
Biorefinery
biorefining
Electricity
electricity costs
Electricity pricing
Energy
Ethanol
ethanol production
Ethyl alcohol
Exact sciences and technology
feedstocks
Flexibility
fuels
harvesting
income
Lignocellulose
Plant flexibility
prices
Refining
Simulation
steam
Sugarcane
sugarcane trash
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Summary:•Lignocellulose (bagasse, trash) is generated in large amounts in sugarcane production.•Bagasse and trash can be used for second generation ethanol or electricity production.•Flexible biorefinery able to divert lignocellulose for fuel/electricity was evaluated.•Part of surplus electricity is sold in the spot market; revenues are maximized.•Higher IRR and avoided carbon dioxide emissions are obtained for the flexible plant. Sugarcane trash and bagasse, lignocellulosic materials obtained during sugarcane harvesting and processing, may be used as fuels for electricity production and/or as feedstock for second generation ethanol. If electricity prices are favorable, more lignocellulosic material may be diverted for production of steam and electricity, and vice versa when ethanol prices are more attractive. Therefore, some flexibility to divert bagasse and trash for either second generation ethanol or electricity production might help to maximize revenues. An analysis of the integrated first and second generation ethanol production process from sugarcane is presented, evaluating its flexibility. A flexible biorefinery may offer economic and environmental advantages over the conventional biorefineries with fixed production capacity.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2013.03.081