Pretreatment enhanced structural disruption, enzymatic hydrolysis, fermentative hydrogen production from rice straw

Abstract

Rice straw (RS) is one of the major lignocellulosic wastes in the world and an abundant feedstock for producing biofuels and chemicals. However, RS is difficult to decompose. In this study, NaOH/urea and electrohydrolysis pretreated RS were used to enhance the structural disruption, enzymatic hydrolysis, and fermentative hydrogen production. Scanning electron microscopy, X-ray diffraction, and Fourier-transform infrared spectroscopy analyses demonstrated that both NaOH/urea and electrohydrolysis pretreatments could effectively disrupt the lignin structure and increase the cellulose crystallinity of RS. Following pretreatment, RS was hydrolyzed by cellulase. After 96 h of enzymatic hydrolysis, NaOH/urea- and electrohydrolysis-pretreated RS produced 3.2- and 1.7-fold higher total reducing sugars than the unpretreated RS (232.95 ± 3.60 mg/g), respectively. Finally, the obtained RS hydrolysates were used for fermentative hydrogen production. NaOH/urea- and electrohydrolysis-pretreatment hydrolysates produced 125.0 and 163.0 mL H2/g RS, respectively, which is much higher than the hydrogen yield of unpretreated hydrolysates.