High intensity ultrasound-assisted extraction of oil from soybeans

Abstract The application of 20 kHz high-intensity ultrasound during extraction of oil from two varieties of soybeans (TN 96-58 and N 98-4573) using hexane, isopropanol and a 3:2 hexane–isopropanol mixture was evaluated. In a simplified extraction procedure, ground soybeans were added to solvents and ultrasonicated between 0 and 3 h at ultrasonic intensity levels ranging from 16.4 to 47.6 W/cm 2 . Oil was recovered after distillation and yield and composition determined. Using hexane as a solvent, yield generally increased as both application time and intensity of ultrasound increased. Solvent type influenced the efficiency of the extraction, i.e., the highest yield was obtained using ultrasound in combination with the mixed solvent. Gas chromatography analysis of ultrasonicated soybean oil did not show significant changes in fatty acid composition. Results were attributed to mechanical effects due to ultrasonically induced cavitation increasing permeability of plant tissues. A comparison of scanning electron microscopy images of raw and ultrasonicated soybeans indicated development of microfractures and disruption of cell walls in ground soybean flakes. Our study suggests that high-intensity ultrasound may reduce time required to extract edible oils from plant sources and hence improve throughput in commercial oil production processes.

[1]  J. Einhorn Advances in sonochemistry: Edited by T.J. Mason JAI Press, 1990 , 1991 .

[2]  K. Suslick,et al.  Applications of Ultrasound to Materials Chemistry , 1995 .

[3]  M. Povey Ultrasonics of food , 1998 .

[4]  G. Price,et al.  The effect of high-intensity ultrasound on solid polymers , 1995 .

[5]  D. A. Sullivan,et al.  Development of a pilot-plant process for the extraction of soy flakes with aqueous isopropyl alcohol , 1983 .

[6]  T. Mason Ultrasound in synthetic organic chemistry , 1997 .

[7]  M Vinatoru,et al.  The use of ultrasound for the extraction of bioactive principles from plant materials. , 1997, Ultrasonics sonochemistry.

[8]  Aniruddha B. Pandit,et al.  Quantification of cavitation intensity in fluid bulk , 1995 .

[9]  E. H. Pryde,et al.  Supercritical CO2 extraction of lipid-bearing materials and characterization of the products , 1984 .

[10]  Timothy J. Mason,et al.  The uses of ultrasound in food technology , 1996 .

[11]  D. Firestone,et al.  Official methods and recommended practices of the American Oil Chemists' Society , 1990 .

[12]  Christophe Gourdon,et al.  Investigation in solid-liquid extraction: influence of ultrasound , 2002 .

[13]  A. Serrato,et al.  Extraction of oil from soybeans , 1981 .

[14]  Dan Cherubin Soybeans , 2004 .

[15]  A.-H. Meniai,et al.  The selection of solvents for liquid-liquid extraction , 1992 .

[16]  Etsuzo Ohdaira,et al.  EFFECTS OF ULTRASOUND ON EXTRACTION OF SAPONIN FROM GINSENG , 1994 .

[17]  Timothy J. Mason,et al.  Industrial sonochemistry: potential and practicality , 1992 .

[18]  M Vinatoru,et al.  An overview of the ultrasonically assisted extraction of bioactive principles from herbs. , 2001, Ultrasonics sonochemistry.

[19]  M. D. Luque de Castro,et al.  Ultrasound: a powerful tool for leaching , 2003 .

[20]  P. D. Lickiss,et al.  Sonochemistry: Theory, Applications and Uses of Ultrasound in Chemistry , 1989 .

[21]  K. Suslick,et al.  Effects of high intensity ultrasound on inorganic solids. , 1987, Ultrasonics.

[22]  David R. Erickson,et al.  Handbook of Soy Oil Processing and Utilization , 1980 .

[23]  F. Marken,et al.  Sonoelectrochemical and sonochemical effects of cavitation: correlation with interfacial cavitation induced by 20 kHz ultrasound. , 2000, Ultrasonics sonochemistry.

[24]  N S Radin,et al.  Lipid extraction of tissues with a low-toxicity solvent. , 1978, Analytical biochemistry.

[25]  G. Price Applications of high intensity ultrasound in polymer chemistry , 1993 .

[26]  June Dunnuck NTP technical report on the toxicity studies of of n-Hexane in B6C3F1 Mice (Inhalation Studies) (CAS No. 110-54-3). , 1991, Toxicity report series.

[27]  T. J. Mason,et al.  Ultrasonic intensification of chemical processing and related operations : A review , 1996 .

[28]  Keshun Liu,et al.  Soybeans: Chemistry, Technology and Utilization , 1997 .

[29]  K. Schäfer,et al.  Accelerated solvent extraction of lipids for determining the fatty acid composition of biological material , 1998 .