3.6. Correlation of oil-quality ind

3.6. Correlation of oil-quality indices
Hydroperoxide formation is known to correlate with suscepti- bility to fatty acid oxidation and antioxidant levels (e.g., Casal, Malheiro, Sendas, Oliveira, & Pereira, 2010). However, as hydro- peroxides are transient chemical compounds, they are not always directly correlated with oxidation during frying. On the other hand, p-AV, despite being a more empirical determination, is well correlated with the level of secondary oxidation products (Casal et al., 2010). Other significant correlations between the dielectric constant, FFA, peroxide value, CD values, and others have been reported (e.g., Fritsch et al., 1979; Innawong et al., 2004). Significant correlations between acid value and several different oxidation parameters, such as the p-AV and dielectric constant, have also been reported (Navas, Tres, Bou, Codony, & Guardiola, 2007). A similar picture was obtained when statistical analyses of all of the presented data were carried out.
The correlation coefficients (r2) obtained between FFA and the other quality criteria are listed in Table 5. The data show that under typical frying conditions (Run #0), there is a significant correlation between FFA and the other quality criteria. However for the other runs, the derived correlation coefficients depict a complex picture with no clear pattern. It is important to note the very strong fluctuations between RSA and FFA, clearly demon- strating the effects of the added ingredients in the different runs. In addition, although the correlation coefficient between FFA and the dielectric constant remained quite high, it fluctuated and could no longer be used as the sole quality index when FFA is being considered. The data also show that under these conditions, the oxidation mechanism was affected and consequently, optimization might be possible.