Enhanced saccharification of SO2 catalyzed steam-exploded corn stover by polyethylene glycol addition

Corn stover is a renewable, low cost and abundant feedstock in China. Its effective utilization is crucial for providing bioenergy, releasing environmental pollution and increasing farmers’ income. This aim of this study was to obtain the efficient saccharification of SO2 catalyzed steam-exploded corn stover (SSECS) by polyethylene glycol (PEG) addition. According to the results, adding PEG6000 could lower the enzyme loading by 33.3%. With 20% solid loading, the highest glucose concentration of 102 g L−1 and 91.3% saccharification yield were obtained using 30 CBU (g glucan)−1 β-glucosidase and 10 FPU (g glucan)−1 cellulase in presence of PEG6000. In addition, protein and enzyme activities assays in the supernatants revealed that PEG could facilitate the desorption of enzyme protein from lignocellulose. These indicated that PEG addition not only can enhance enzymatic saccharification at high substrate concentration, but also can improve enzyme recycling by reducing the enzyme activity loss caused by adsorption during the hydrolysis.

► Saccharification of SO2 catalyzed steam-exploded corn stover was investigated in presence of polyethylene glycol.
► Adding PEG6000 could lower the enzyme loading by 33.3%.
► the highest glucose concentration of 102 g L−1 and 91.3% saccharification yield were obtained in presence of PEG6000.
► Adding PEG6000 could facilitate the desorption of enzyme from lignocellulose.