Oxidative Susceptibility and Thermal Properties of M oringa Oliefera Seed Oil Obtained by Pilot‐Scale Subcritical and Supercritical Carbon Dioxide Extraction

Abstract Oxidative stability, antioxidant activity and thermal properties of M oringa oleifera ( MO ) seed oil obtained by supercritical carbon dioxide ( SC ‐ CO 2 ) extraction were studied in comparison with Soxhlet extraction. CO 2 was used to extract the oil in the pressure ranges from 15 to 40  MPa and the temperature ranges from 25 to 35 C at 20 kg/h flow rate. SC ‐ CO 2 extraction at 35  MPa and moderate temperature of 30 C resulted in the maximum relative oil yield of 75.27% (dry basis). Susceptibility to oxidation of MO seed oil was expressed as the oxidative stability index ( OSI ). The results indicated that MO seed oil extracted at higher pressure was less susceptible to oxidation. The oil obtained by Soxhlet extraction was significantly ( P  < 0.05) more stable against oxidation compared with SC ‐ CO 2 extracted oils as shown by its stronger DPPH (1,1‐diphenyl‐2‐picrylhydrazy) scavenging ability and higher OSI . The thermal properties of oil samples from SC ‐ CO 2 extraction were not substantially different from those of oils extracted using Soxhlet extraction. Practical Applications M oringa oleifera ( MO ) seed has gained importance over the years due to its ultimate source of high quality oil that can be used in high value food, cosmetic and pharmaceutical products. However, MO seed oil has never been successfully produced on the industrial basis. This research proposed an alternative oil extraction from MO seeds using a pilot‐scale supercritical fluid extraction ( SFE ). SFE is considered as a green technology that is nontoxic and allows the elimination of polluting organic solvents. Only few scientific studies on the pilot‐scale SC ‐ CO 2 extraction of MO seed oil and its stability against oxidation and thermal properties for uses as the new source of edible, healthy oil have been reported. Therefore, it is the objective of this study to know the oxidative susceptibility of MO seed oils extracted using SC ‐ CO 2 in comparison with Soxhlet extraction.