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Anamika Sharma,Vikrant Nain,Rameshwar Tiwari,Surender Singh,Anurup Adak,Pawan Kumar Singh Nain,Lata Nain 한국화학공학회 2017 Korean Journal of Chemical Engineering Vol.34 No.3
The present investigation was aimed towards pretreatment optimization of corncob to maximize cellulose and hemicellulose recovery, followed by substrate selection for holocellulase production using psychrotolerant Aspergillus niger SH3. Dilute alkali pretreatment (1.5% NaOH) resulted in higher recovery of cellulose (59.66%) and hemicellulose (28.34%) from corncob, while corn stover proved to be the best substrate for holocellulase production. Further, saccharification was optimized by Box-Behnken design to select the suitable conditions for maximum sugar release from pretreated corncob. The optimum conditions for maximum sugar release were 8% (w/v) substrate loading, 11 FPU/gds enzyme loading at temperature 38 oC and pH 3.0 which resulted in 114.5% higher sugar yield (912mg/gds of pretreated biomass) as compared with un-optimized conditions (425.35mg/gds). Theoretical yield of 48.8% ethanol was achieved through simultaneous saccharification and fermentation (SSF) using pretreated corncob. This study illustrates the potential of different corn residues as a promising substrate for bioethanol production.