New pretreatment methods were developed for separating hemicellulose, cellulose, and lignin
from biomass for their efficient use in the thermo-chemical conversion of each component. One
method is basically a two-step process. Biomass treated in hot water at 180 °C was extracted in
a flowing stream of water/acetone mixture under 10 MPa at 230 °C. Through the hot water
treatment, hemicellulose in biomass was successfully recovered as saccharides, leaving lignin
and cellulose as a solid. Through the sequential extraction by the water/acetone solvent, lignin
was depolymerized into the water/acetone-soluble compounds and the residual cellulose was partly
dehydrated. The other method is a one-step process, in which biomass was directly extracted in
50% water/acetone solution at 200 °C using a batch reactor, and the residue was pure cellulose.
The proposed methods were expected to be new routes for converting low-grade resources into
valuable chemicals.
The liquefaction of Wyoming coal (subbituminous coal) was
investigated with an autoclave of
50 mL capacity, using Ketjen Black (KB)-supported NiMo catalyst, which
has higher hydrogenation activity of 1-methylnaphtalene than a commercial
NiMo/Al2O3. KB-supported NiMo
catalyst
gave the oil and oil plus asphaltene yield of 54 and 69% under
reaction conditions of 440 °C, 60
min, and 13 MPa. These yields were much higher than those of a
commercial NiMo/Al2O3 and
synthesized FeS2 catalysts. The KB-supported NiMo
catalyst was found to be recovered from
the solid products using polar solvents such as THF because it is
highly dispersed in liquid
products due to its low specific gravity and the hydrophobic property
of its surface. It was also
found that KB-supported NiMo catalyst suffered the least deactivation
by coke formation and
mineral matter deposition because the recovered catalyst as THFI
residue appeared to regenerate
the activity to a level similar to the fresh catalyst.
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