DEVICE FOR STUDY OF DYNAMIC SURFACE TENSION OF AQUEOUS SURFACTANT SOLUTIONS


Abstract

Theoretical bases of fixed spinning drop method for the study of dynamic interfacial tension of aqueous surfactant solutions on the border with other immiscible liquids in water are considered. The block diagram and appearance of the device, which implements the method of fixed spinning drop are given. There are provided the results of research of the dynamic interfacial tension between the base oil and aqueous solutions of surfactants Tipol and Savenol of different concentrations used for intensification of oil and gas extraction.


Keywords

spinning drop method; surfactant; dynamic interfacial tension; aqueous solution; device

Abramson A.A.: Surface phenomena and surfactants, Chemistry, Leningrad 1984.

Drelich J., Fang, Ch., White C. I., Measurement of Interfacial tension in fluid-fluid systems. Encyclopedia of Surface and Colloid Science, A. Hubbard, Ed., 3152-3166. CRC Press (2002).

Kiefer J.: Sequential minimax search for a maximum. Proceedings of the American Mathematical Society, 4/1953, p. 502–506.

Kisil I., Bilischuk V.: Determination optical system magnification in the measurement of the interfacial tension by rotating drop method. Proceedings of the Luhansk branch of the International Academy of Informatization, 19/2009, p. 82–87.

Kisil R., Chekhovskyy S.: The improved method and device for measuring the interfacial tension by rotating drop method. Methods and devices of quality control, 4/1999, p. 36–39.

Mikhailyuk V.D.: Use of surfactants in the process of oil production in the fields of OJSC "UkrNafta", Galician printing PLUS, Ivano-Frankivsk, 2009.

Rusanov A. I., Prokhorov V. A. Interfacial Tensiometry, Elsevier, Amsterdam 1996.

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Published : 2014-06-18


Kisil, I., Bilischuk, V., Kuchirka, Y., & Barna, O. (2014). DEVICE FOR STUDY OF DYNAMIC SURFACE TENSION OF AQUEOUS SURFACTANT SOLUTIONS. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 4(2), 28-30. https://doi.org/10.5604/20830157.1109368

Igor Kisil  zarichna@nung.edu.ua
Ivano-Frankivsk National Technical University of Oil and Gas, Department of Methods and Devices of Quality Control and Product Certifications  Ukraine
Victor Bilischuk 
Ivano-Frankivsk National Technical University of Oil and Gas, Department of Methods and Devices of Quality Control and Product Certifications  Ukraine
Yuriy Kuchirka 
Ivano-Frankivsk National Technical University of Oil and Gas, Department of Methods and Devices of Quality Control and Product Certifications  Ukraine
Olga Barna 
Ivano-Frankivsk National Technical University of Oil and Gas, Department of Methods and Devices of Quality Control and Product Certifications  Ukraine