Bio-cokes were formed by upgrading pyrolysis oils from wheat spent grain and rapeseed meal biomasses
using a thermo-t vis-breaking technology. The bio-cokes presented moisture levels below 2 wt.%, were
virtually ash-free and had very low oxygen contents in the range of 10–14 wt.%. Their calorific values
were in the range of 29–37 MJ/kg comparable to that of bituminous coal. About 15–25 wt.% of the original
biomass on dry ash-free basis was converted into the ash-free bio-coke and about 20–40% of the heating
value of the original biomass was retained in the bio-coke. From TGA analysis it was found that the fuel
properties of the bio-coke from wheat spent grain were comparable to those of coal, where blends of up
to 50 wt.% of WSG bio-coke with coal showed virtually similar oxidation behaviour to that of coal. This
work shows that low-density biomass can be transformed into high density bio-coke that can logistically
be treated like coal and indicates that co-firing with bio-coke can easily exceed current levels in the
future.