RAPE OIL EXTRACTION WITH SUPERCRITICAL CARBON DIOXIDE
Abstract
Comparative researches of ways of allocation of oil from rape (Canola) seeds with application hexane and supercritical carbon dioxide as solvents were executed. The main indicators of quality of received oil and its fat acids structure were defined. It was shown that supercritical carbon dioxide can be alternative to hydrocarbons traditionally used for these purposes.
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Thobani M., Diosady L.L. Two-phase solvent extraction of canola // Journal American Oil Chemist’s Society. 1997. Vol. 70. Pp. 207–214.
Illés V., Daood H.G., Perneczki L.S., Szokonya L., Then M. Extraction of coriander seed oil by CO2 and propane at super- and subcritical conditions // The Journal of Supercritical Fluids. 2000. Vol. 17. Pp. 177–186.
Hegel P.E., Zabaloy M.S., Mabe G.D.B., Pereda S., Brignole E.A.. Phase equilibrium engineering of the extraction of oils from seeds using carbon dioxide + propane solvent mixtures // The Journal of Supercritical Fluids. 2007. Vol. 42. Pp. 318–324.
Hamdan S., Daood H.G., Toth-Markus M., Illés V. Extraction of cardamom oil by supercritical carbon dioxide and sub-critical propane // The Journal of Supercritical Fluids 2008. Vol. 44. Pp. 25–30.
Freitas L.S., Oliveira J.V., Dariva C., Jacques R.A., Caramão E.B. Extraction of grape seed oil using compressed car-bon dioxide and propane: extraction yields and characterization of free glycerol compounds // Journal of Agricultural and Food Chemistry. 2008. Vol. 56. Pp. 2558–2564.
Corso M.P., Fagundes-Klein M.R., Silva E.A., Cardozo-Filho L., Santos J.N., Freitas L.S., Dariva C. Extraction of sesame seed (Sesamun indicum L.) oil using compressed propane and supercritical carbon dioxide // The Journal of Supercritical Fluids. 2010. Vol. 52. Pp. 56–61.
Boutin O., Badens E. Extraction from oleaginous seeds using supercritical CO2: experimental design and products quality // Journal of Food Engineering. 2009. Vol. 92. Pp. 396–402.
Sun M., Xu L., Saldanã M.D.A., Temelli F. Comparison of canola meals obtained with conventional methods and su-percritical CO2 with and without ethanol // Journal American Oil Chemist’s Society. 2008. Vol. 85. Pp. 667–675.
ГОСТ 13496.15-97. Корма, комбикорма, комбикормовое сырье. Методы определения содержания сырого жира.
Артюнян Н.С., Корнена Е.П., Мартовщук Е.В. Лабораторный практикум по химии жиров. СПб., 2004. 264 с.
ГОСТ 30418-96 Масла растительные. Метод определения жирнокислотного состава.
ГОСТ Р 53457-2009 Масло рапсовое. Технические условия.
Тютюнников Б.Н. Химия жиров. М., 1974. 260 с.
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