Author:
Akhmedov Azimjon,Azimov Yusuf
Abstract
This scientific article presents the results of ultrasound on changes in the yield of phospholipids, lecithin, and cephalin in soybean oil depending on the intensity of the soybean oil hydration process and the consumption of the hydrated solution, conventional mixing, and ultrasound exposure, as well as 20-22 Due to the use of high-frequency ultrasound exposure, the amount of non-hydratable phospholipids in soybean oil was reduced.
Reference20 articles.
1. Sawada M. M., Venâncio L. L., Toda T. A., & Rodrigues C. E. Effects of different alcoholic extraction conditions on soybean oil yield, fatty acid composition and protein solubility of defatted meal. Food research international, 62, 662–670 (2014)
2. Sagdullaeva D.S., Salikhanova D.S., Turaev A.S., Abdurahimov S.A., Khodzhaev S.F., Urinov S.N. Technology for obtaining phospholipids from vegetable oils and their application. Monograph, Tashkent (2020), p. 184.
3. Gryson N., Ronsse F., Messens K., De Loose M., Verleyen T., & Dewettinck K. Detection of DNA during the refining of soybean oil. Journal of the American Oil Chemists’ Society, 79(2), 171–174. (2002)
4. Sancheti S. V., & Gogate P. R. Ultrasound assisted selective catalytic transfer hydrogenation of soybean oil using 5% Pd/C as catalyst under ambient conditions in water. Ultrasonics sonochemistry, 38, 161–167. (2017).
5. Auerman L.Ya. Study of surface-active properties of phosphatide concentrate. News of universities. Ser. Food technology, 5, pp. 75–79 (1990)