Patent ID: 8426619

Claim:
A process for continuously producing furfural and levulinic acid from biomass, said process comprising: i) pre-treating the biomass with water and an acid catalyst at a temperature in the range of from 90° C. to 240° C. to produce a slurried biomass; ii) hydrolysis and dehydration of the slurried biomass at a temperature between 160° C. and 240° C. to produce at least furfural; iii) removing a vapour mixture comprising furfural and steam by flashing the slurried biomass from step ii) at a temperature from 140° C. to 210° C.; iv) further hydrolysis and dehydration of the slurried biomass at a temperature from 140° C. to 210° C.; v) optionally further removing a vapour mixture comprising furfural, formic acid and steam by flashing the hydrolysed slurried biomass at a temperature from 120° C. to 190° C.; vi) optional further hydrolysis and dehydration of the slurried biomass at a temperature from 120° C. to 190° C. to produce at least levulinic acid and formic acid; vii) optionally further removing a vapour mixture comprising furfural, formic acid and steam by flashing the hydrolysed slurried biomass at a temperature from 100° C. to 170° C.; viii) separating out a final liquid comprising levulinic acid from the solids in the remaining slurried biomass; wherein a) the vapour mixture flashed in step iii) and in optional steps v) and vii) is condensed to a liquid comprising water, furfural, formic acid, acetic acid and or hydroxymethylfurfuraldehyde; b) at least the resultant furfural and optionally formic acid is recovered from the liquid condensate; c) water resulting from the separation in step viii) and still containing at least some of the acid catalyst is recycled into step i) optionally after recovery of at least some or all of the resultant furfural and levulinic acid; d) there is a heat integration step comprising the recycled water c) being heated through a heat exchange system with the vapour mixture flashed in step iii) and in optional steps v) and vii).