Fermentation of lignocellulose by thermophilic bacteria at high solids concentration: diagnostic experiments aimed at identifying factors that diminish performance at high solids

Abstract

In order to be economically feasible, current and envisioned 2G biofuel production processes feature solids loading between 15 to 20 wt.% on a dry basis, providing ethanol titers of 5 to 7 wt.%. The upper end of this range is constrained by the high viscosity of unreacted lignocellulose slurries, and associated solids delivery and mixing challenges. The lower end of this range is constrained by low ethanol titers, which increases the cost of both fermentation and distillation. Operating C-CBP at such high solids loadings entails both Engineering and Biological challenges. Continuously-fed bioreactors will be used in order to operate at solids loadings higher than can be accommodated by operating in batch mode (limited to < 100 g/L). C. thermocellum does not ferment pentose sugars, although its cellulase system readily solubilizes hemicellulose. Thus, monocultures of C. thermocellum growing on lignocellulose accumulates soluble hemicellulose hydrolysis products, which are known to inhibit cellulase activity. Defined cocultures of C. thermocellum and a hemicellulose-fermenting microbe such as T. thermosaccharolyticum will be investigated as a means to alleviate this problem, using improved strains developed by the Biotechnology Focus area as available. Strains subjected to extended cultivation and hence evolution will be evaluated in the Laboratory Adaptive Evolution project within the A2G lab. (AU)