The water consumption of sugarcane bagasse post-washing after protic ionic liquid pretreatment and its impact on 2G ethanol production

[Display omitted] •The water consumption of [MEA][OAc] pretreatment of bagasse was assessed.•An increase in wash temperature from 25 to 80 °C did not improve the overall process.•A negative correlation between residual ionic liquid and saccharification yields was found.•800 wt% of water at 80 °C pro...

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Bibliographic Details
Published inIndustrial crops and products Vol. 169; p. 113642
Main Authors Nakasu, P.Y.S., Ienczak, J.L., Rabelo, S.C., Costa, A.C.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2021
Subjects
Ionic liquid
Pretreatment
Sugarcane bagasse
Washing
Water consumption
DI
FPU
Washing
APIL
DCM
Ionic liquid
Sugarcane bagasse
ABR
C5
PIL
C6
TRS
2G
1G
LMW
Water consumption
Pretreatment
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Summary:[Display omitted] •The water consumption of [MEA][OAc] pretreatment of bagasse was assessed.•An increase in wash temperature from 25 to 80 °C did not improve the overall process.•A negative correlation between residual ionic liquid and saccharification yields was found.•800 wt% of water at 80 °C provided 83 and 61.8 % of glucose and pentose yield.•A 90 % decrease in water consumption impacted a 20 % drop in ethanol yield. Despite the water consumption of the first-generation ethanol (1G) production from sugarcane being widely studied, there are only a few experimental studies on water consumption — especially in the pulp washing — in second generation (2G) ethanol production. A quantitative evaluation of water wash consumption in the pretreatment with the protic ionic liquid (PIL) monoethanolammonium acetate [MEA][OAc] has shown that a water consumption between 600−1,000 wt% for two temperatures, 25 and 80 °C, decreased overall enzyme performance in saccharification compared to the full wash sample. The best condition in terms of high yield and low water consumption was found to be 800 wt%/80 °C, with up to 83 and 61.8 % of glucose and xylose yields against 97.9 and 85 % for the full wash sample. However, despite the full wash still presenting a superior ethanol yield, 87.4 %, the best condition with limited amount of water, 800 wt%/80 °C, also had a high ethanol yield of 86.1 %. Mass balance calculations confirmed that optimized [MEA][OAc] pretreatment with 800 wt%/80 °C and full wash conditions provided the highest ethanol yield per ton of biomass amongst several types of PIL and non-PIL pretreatments, 299 and 379 L 2G ethanol per ton of biomass, with an estimated water consumption of 56 and 647 ton, paving the way for an effective and more water-sustainable pretreatment technology for 2G ethanol production.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2021.113642