Comparative Study of Mechanical and Ultrasonic Homogenization in the Production of Food Oil–Water Emulsions

Salikhanova Dilnoza; Muxtasar Ismoilova; Iqlima Choriyeva

Authors

Salikhanova Dilnoza Doctor of Technical Sciences, Professor, Institute of General and Inorganiс Сhemistry, Aсademy of Sсienсes of the Reрubliс of Uzbekistan, Uzbekistan
Muxtasar Ismoilova Doctoral student, Namangan State Technical University, Uzbekistan
Iqlima Choriyeva Doctoral student, Institute of General and Inorganiс Сhemistry, Aсademy of Sсienсes of the Reрubliс of Uzbekistan, Uzbekistan

Keywords:

Food emulsions, reheated vegetable oils, ultrasonic homogenization

Abstract

This study examines laboratory methods for producing food-grade oil–water emulsions based on purified reheated vegetable oils using phospholipid emulsifiers. Conventional mechanical homogenization and ultrasonic homogenization were compared in terms of emulsion quality and stability. The effects of oil concentration, emulsifier type, processing temperature, and mixing time were evaluated. Ultrasonic homogenization at 20 kHz produced finely dispersed emulsions with droplet sizes of 0.1–0.5 µm and stability of up to 30–35 days. Optimal stability was observed at oil contents of 15–20% and temperatures of 50–60 °C. The results show that emulsions from reheated oils are comparable to those from fresh oils and can be effectively used as release agents in bakery and confectionery production.

References

Instruction for determining the annual economic effect from the use of new technology, inventions, and innovations. Moscow: State Committee for Science and Technology (SCST), 2005, 12 p.

Ismoilova M.A., Adashev B.Sh., Salikhanova D.S., Rakhmatullaeva M.M., Khakimova A.D., Saidkhanova Sh.A. Preparation of water–oil emulsions.

Scientific Bulletin of Namangan State University, Namangan, 2022, P. 76–84.

Salikhanova D.S., Ismoilova M.A., Adashev B.Sh., Agzamova F.N.

Study of the time effect on emulsions obtained for lubrication of bread molds.

Central Asian Food Engineering and Technology, electronic scientific journal, ISSN 2181-385X, Tashkent, 2023, P. 105–110.

Salikhanova D.S., Ismoilova M.A., Eshmetov I.D., Abdurakhimov A.A., Azimova D.A., Sagdullayeva D.S., Eshmetov R.J. Methods for obtaining emulsions for lubrication of molds and trays. Utility model. Ministry of Justice of the Republic of Uzbekistan. No. FAP 02223, 17 February 2023.

Salikhanova D.S., Muratov M.M., Sagdullaev D.S., Ismoilova M.A., Eshmetov I.D., Usmanova Z.T., Savrieva D.D. Thermoregeneration of spent perlite after freezing vegetable oil. The American Journal of Applied Sciences, 2025, Vol. 7, No. 9, pp. 34–37.

Muratov M.M., Eshmetov R.J., Salikhanova D.S., Adizov B.Z., Eshmetov I.D., Kosnazarov K.K., Begjanova G.B. Investigation of the colloidal-chemical characteristics of a surfactant derived from oleic acid and monoethanolamine. Processes of Petrochemistry and Oil Refining, 2024, Vol. 25, No. 3, pp. 885–894.

Muratov M., Abdikamalova A., Eshmetov I., Mamataliyev N., Khudoyberdiyev N., Rakhimov U., Ergashev O., Seitnazarova O., Mamajonov B. Waste-derived activated carbons from phenol-formaldehyde and polystyrene: The role of PAN and alkali treatment.

Chemical Review and Letters, 2025, Vol. 8, No. 5, pp. 981–1002.

Eshmetov R.J., Salikhanova D.S., Abdurakhimov A.A., Adizov B.Z., Sagdullayeva D.S., Muratov M.M., Abdurakhimov S.S. Synthesis of surfactants for demulsification of high-viscosity oils and study of their colloidal-chemical properties. Processes of Petrochemistry and Oil Refining, 2023, Vol. 24, No. 3, pp. 260–271.

Comparative Study of Mechanical and Ultrasonic Homogenization in the Production of Food Oil–Water Emulsions

Authors

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License