Highly efficient production of bacterial cellulose from corn stover total hydrolysate by Enterobacter sp. FY-07

Bacterial cellulose (BC) has a huge global market due to its excellent properties and wide range of applications. However, due to high production costs, low productivity, and unsatisfactory scale-up production, industrialisation has been slow. Herein, stabilization of strain, optimisation of culture conditions, and a cheap carbon source were combined to achieve highly efficient, low-cost, large-scale BC production in 20 L containers. Optimisation of culture conditions increased both BC productivity and sugar conversion ratio significantly, from 2.08 g/L/day and 9.78% to 17.13 g/L/day and 70.31%, respectively. Furthermore, BC productivity and sugar conversion ratio reached 13.96 g/L/day and 85.50% using corn stover total hydrolysate as carbon source. The low-cost, facile, and highly efficient process can generate large quantities of BC, and could promote industrialisation of BC production.

Automated summary

The combination of strain stabilization, optimization of culture conditions, and the use of a cheap carbon source in 20 L containers has enabled highly efficient, low-cost, large-scale BC production. The optimization of culture conditions significantly increased both BC productivity and sugar conversion ratio, promoting the industrialization of BC production.