TY - JOUR
T1 - Ethanol production from residual lignocellulosic fibers generated through the steam treatment of whole sorghum biomass
AU - Boboescu, Iulian Zoltan
AU - Damay, Jérémie
AU - Chang, James Kong Win
AU - Beigbeder, Jean Baptiste
AU - Duret, Xavier
AU - Beauchemin, Sophie
AU - Lalonde, Olivier
AU - Lavoie, Jean Michel
PY - 2019/11
Y1 - 2019/11
N2 - Cellulosic ethanol could play a major role in the upcoming circular-economy once the process complexity, low carbohydrate extraction yields and high costs are resolved. To this purpose, different steam-treatment severity factors were employed on whole sweet sorghum biomass, followed by the delignification and hydrolysis of resulted lignocellulose fibers. A modified ASTM International (American Society for Testing and Material) standard cellulose hydrolysis approach as well as a newly developed SACH (Sulfuric Acid Cellulose Hydrolysis) process were used, recovering up to 24.3 wt% of cellulosic carbohydrates. This amounted to a total extractable and constitutive carbohydrate recovery of 51.7 wt% (dry basis) when a mild steam-treatment of whole sorghum biomass and the SACH cellulose hydrolysis were employed. An ethanol potential of 6378 L/ha/year was determined, comparable to values obtained from biomass such as sugarcane in warmer climates, supporting thus the opportunity of implementing this novel approach on a wider scale.
AB - Cellulosic ethanol could play a major role in the upcoming circular-economy once the process complexity, low carbohydrate extraction yields and high costs are resolved. To this purpose, different steam-treatment severity factors were employed on whole sweet sorghum biomass, followed by the delignification and hydrolysis of resulted lignocellulose fibers. A modified ASTM International (American Society for Testing and Material) standard cellulose hydrolysis approach as well as a newly developed SACH (Sulfuric Acid Cellulose Hydrolysis) process were used, recovering up to 24.3 wt% of cellulosic carbohydrates. This amounted to a total extractable and constitutive carbohydrate recovery of 51.7 wt% (dry basis) when a mild steam-treatment of whole sorghum biomass and the SACH cellulose hydrolysis were employed. An ethanol potential of 6378 L/ha/year was determined, comparable to values obtained from biomass such as sugarcane in warmer climates, supporting thus the opportunity of implementing this novel approach on a wider scale.
KW - Cellulose hydrolysis
KW - Delignification
KW - Lignocellulosic ethanol
KW - Steam explosion
KW - Whole sweet sorghum
U2 - 10.1016/j.biortech.2019.121975
DO - 10.1016/j.biortech.2019.121975
M3 - Article
C2 - 31445238
AN - SCOPUS:85070920515
SN - 0960-8524
VL - 292
JO - Bioresource Technology
JF - Bioresource Technology
M1 - 121975
ER -