In this study, SCG liquefaction was

In this study, SCG liquefaction was examined by varying retention
times from 5 min to 30 min in a hot-compressed water medium
and the results are illustrated in Fig. 1. As the gas yields were
very low (less than 1% mass fraction) under these experimental
conditions, they were lumped with the water soluble product as
WPS þ gas yields. As shown in Fig. 1, at a constant temperature of
300
C and a water/feedstock mass ratio of 5:1, the crude bio-oil
yield reached the highest point of 31.63% at a retention time of
10 min, then started decreasing to 22.68% as the retention time was
increased to 30 min. The results indicated that 10 minwas sufficient
to break down biomass and achieve the highest yield of crude biooil.
When a longer retention time was applied, the crude bio-oil
would be decomposed into smaller and lighter products and
gases, as evidenced by a decrease in the average relative molecular
mass of crude bio-oil from 479 g mol1 to 433 g mol1 when the
retention time increased from 10 min to 30 min. This speculation
can be further supported by the observation that yields of WSP and
gases showed a continuously increasing trend from 44.91% to
52.62% when the retention time changed from 10 min to 30 min.
This indicated that most of the organic matters in the raw material
were converted into the crude bio-oil, WSP and GP within 10 min.
In terms of SR, the yield remained constant at about 24.03% from
5 min to 25 min, and only showed a slight increase at a longer
retention time (30 min). This might be caused by the repolymerization
of the crude bio-oil compounds into the solid residues,
resulting in the decrease yield of the crude bio-oil. Our
experimental results showed that a long retention time impacted
the yield of SR less significantly, however favored the formation of
WSP, leading to a lower yield of the crude bio-oil product. Similar
results were observed in the reported studies from other researchers
[49,55].
Under our experimental scope, the highest yield of crude bio-oil
of 31.63% was achieved with a reaction time of 10 min. Therefore,
the retention time of 10 min was used in the following work to
investigate the effects of the temperature, water/feedstock mass
ratio and initial pressure on the SCG liquefaction.