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Extraction of phytosterols and tocopherols from rapeseed oil waste by supercritical CO2 plus co-solvent: A comparison with conventional solvent extraction

Parisa Jafarian Asl, Razieh Niazmand, Farnaz Yahyavi

2020Heliyon81 citationsDOIOpen Access PDF

Abstract

In the present study, modified extraction methods using supercritical CO2 were investigated in order to obtain high-added value compounds from rapeseed oil deodorizer distillate and comparisons were done with modified Soxhlet extraction (solvent extraction + silica). For supercritical fluid extraction (SFE), the optimal extraction parameters were temperature of 40 °C, pressure of 350 bar (for phytosterols), 400 bar (for tocopherol), 5 wt% ethanol as co-solvent, and saponification pretreatment. The optimized SFE procedure led to the recovery of three main phytosterols (50 wt % β-sitosterol, 23.91 wt % Brassicasterol, and 36.25 wt % Campesterol) and only α-tocopherol. Moreover, there was no synergistic effect with saponification pretreatment + co-solvent and the efficiency and concentration of target compounds were less than supercritical CO2 + co-solvent. Also, comparative Data showed that the efficiency of phytosterols and tocopherols was approximately three times higher (p < 0.05) in SFE relative to modified Soxhlet extraction. Furthermore, the use of ethanol (5 wt %) as co-solvent, improved phytosterols and tocopherol efficiency and purity. The SFE technique offers various advantages over the modified Soxhlet extraction technique, including increasing the solubility of tocopherols and sterols by using CO2+ co-solvent, minimized usage of toxic organic solvents and increased purity of extracted products.

Topics & Concepts

ChemistrySaponificationChromatographySolventSupercritical fluidExtraction (chemistry)Supercritical fluid extractionSolubilityPhytosterolTocopherolOrganic chemistryVitamin EAntioxidantPhase Equilibria and ThermodynamicsPetroleum Processing and AnalysisEdible Oils Quality and Analysis