In the present research investigation, 13 indigenous bacteria (from CQ1 to CQ13) were isolated from soil collected from Changqing oil field of Xi'an, China.
Eucalyptus
woodchips (EWC) were pretreated with mild aqueous NaOH solution, followed
by liquefaction in a water–hydrogen donor (tetralin) mixture
at a temperature from 220 to 330 °C to produce bio-oil. As a
reference, pure tetralin and water were also used as liquefaction
media. Compositional analysis and scanning electron microscopy (SEM)
observation were performed to study the effect of the pretreatment
on the EWC structural change. The influences of the temperature and
tetralin content in mixed solvent on conversion and heavy oil (HO)
yield were determined. The SEM image showed that pretreatment made
the fiber structure loose and destroyed biomass through hemicellulose
and lignin dissolution. In comparison to water or tetralin as solvent,
water–tetralin mixed solvent (WTMS) shows a better effect on
the conversion and HO yield in the tested temperature range. The highest
conversions for liquefaction of untreated EWC were 66, 88.1, and 88.3
wt %, and the highest HO yields were 19.7, 26.4, and 43.2 wt %, with
water, tetralin, and WTMS, respectively. The optimized conditions
to achieve both high conversion (97.3 wt %) and HO yield (57.3 wt
%) is liquefaction in WTMS at 300 °C using 1.0 wt % NaOH-pretreated
EWC. Gas chromatography–mass spectrometry (GC–MS) analysis
showed that phenols, ketones, aromatics, and alkenes are the main
components in HOs.
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