The valorization of waste biomass, lipid or lignocellulosic, has been proposed as an alternative to first generation biofuels as well as for producing high value chemicals and related products. In the case of agricultural or forestry lignocellulosic biomass wastes and residues, the "whole biomass" refining concept should be applied in order to develop sustainable valorization schemes. The pretreatment/fractionation of biomass to its basic structural components, i.e., cellulose, hemicellulose and lignin, is a prerequisite for maximizing their selective conversion towards high added value platform chemicals, fuels and polymers. In this presentation, specific case-studies of individual processes that comprise an integrated biorefinery scheme for converting agricultural and forest biomass wastes to valuable chemicals and fuels will be described. Fractionation of biomass is based on "green" hydrothermal processes, leading to selective isolation of hemicellulose stream for downstream conversion to ethanol or furanic chemicals. The cellulose fraction is being hydrolysed to glucose by applying well-known enzymatic hydrolysis reactions. Alternatively, lignin is extracted from the pretreated biomass under mild conditions using friendly/recoverable solvents, providing a high purity cellulose pulp for easier enzymatic hydrolysis or catalytic hydrogenolysis to sorbitol/glycols. To close the cycle, the recovered lignin, is being converted to high value phenolics via fast pyrolysis or hydrogenolysis. Using catalytic fast pyrolysis, BTX mono-aromatics can be selectivity produced. Alternatively, lignin is being utilized as a compatible bio-additive in polymers (resins) with a minimum downstream conversion cost.

“Whole biomass” integrated biorefinery scheme