For oil samples obtained at Te 6 10

For oil samples obtained at Te 6 100 C no correlation of FFA
yield with te can be identified, since composition of FFAs does
not change over time and remains constant after first 5 min of
extraction. Only at temperatures higher than 100 C a mild
increase of FFAs over time can be noticed and even at 160 C practically
negligible increase of FFAs can be observed. Nevertheless a
small increase of overall FFAs is present at TeP130 C, although
the overall content of FFAs in the samples does not change more
than for 2.5 wt.% throughout the whole temperature range. Since
naturally fatty acids in sunflower oil are mostly bonded as triglycerides,
their low presence in the obtained OEs is not unexpected,
however due to the hydrolythic nature of SubCW a concern of triglyceride
stability in this medium exists. Although hydrolysis of
ester bonds in triglycerides with SubCW is possible (Alenezi,
Leeke, Santos, & Khan, 2009; Milliren, Wissinger, Gottumukala, &
Schall, 2013), looking at the results it seems that polar–non-polar
interactions are still too repulsive at the temperatures applied in
this study, causing hydrophobicity of the compounds, therefore
not allowing the hydrolysis reaction to take place. At much higher
temperatures (>250 C) solubility of fats increases to such a level,
that hydrolysis can occur at much higher intensities.
When regarding the stability of FFA in SubCW, the study
reported by Shin, Ryu, Park, & Bae (2012) claims that FFA are stable
in SubCW at temperatures below 300 C, i.e. no products of