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2018/1
Influence of structural features of rotor-disk mixers on dispersed composition of emulsions
Technical sciences

Authors: Sergey V. LAPONOV graduated from USPTU in 2014. He is post-graduate student and instructor of the Chair of Equipment of Petrochemical Plants at USPTU in Sterlitamak. Аuthor of 18 publications. E-mail: Laponows92@mail.ru
Nikolai S. SHULAEV is Doctor of Technical Sciences, professor, Head of the Depart-ment of Informatics of Mathematics and Physics, USPTU in Sterlitamak. Аuthor of 212 publi-cations. E-mail: nshulayev@rambler.ru
Sergey P. IVANOV is Doctor of Technical Sciences, Head of the Chair of Equipment of Petrochemical Plants of USPTU in Sterlitamak. Аuthor of 98 publications. E-mail: isp-777@yandex.ru
Ildus G. IBRAGIMOV is Doctor of Technical Sciences, Vice-Rector for Academic Affairs of USPTU in Ufa. Аuthor of 104 publications.
E-mail: Ibragimov@rusoil.net

Abstract: The results of experimental research of processes of emulsification in liquid-liquid systems in rotor-disk mixers with various designs of working bodies allowing to regulate the disperse particles size distribution are presented. It is shown that increased area of perforations on the working parts of the rotary disc mixer and installation of additional elements (teeth) reduce the total size of the dispersed particles. At the same time, the consumed power is increased because for the same experimental parameters (rotation speed, flow rate, mixing ratio), the average size of dispersed particles decreases and, consequently, the area of the interfacial surface increases

Index UDK: 66.02

Keywords: rotary, emulsion, RDS, RPA, disintegrator, mixer

Bibliography:
1. Laponov S.V., Shulaev N.S., Ibragimov I.G., Ivanov S.P. Features of emulsification in rotor-disk mixers. Neftegazovoye delo, 2016, no. 4, p. 126-129.
2. Shulaev N.S., Nikolaev E.A., Ivanov S.P. Small volume rotary-disc mixers. Moscow: Chemistry, 2009, 186 p.
3. Pat. RF № 161841, IPC B02С 7/08. Rotary grinding mixer. Laponov S.V., Shulaev N.S., Ibragimov I.G., Ivanov S.P., Bondar K.Е. Declared 20.11.2015. Opubl. 05/10/2016.
4. Laponov S.V., Ivanov O.S. Prospects of using rotary disc mixers in the processes of chemical technology. Bulletin of the young scientist UGNTU, 2015, no. 1 (01), 16 p.
5. Shulaev N.S., Nikolaev E.A., Boev E.V. Small-volume rotor disintegrators — mixers for the chemical industry. International youth scientific conference „Severgeoeko-tekh-2006”: at 3 o’clock; Part 1. Ukhta: UGNTU, 2006, p. 280-282.
6. Braginsky L.N., Begachev V.I., Barabash V.М. Stirring in liquid media. Physical bases and engineering methods of calculation. L.: Chemistry, 1984, 336 p.
7. Shulaev N.S., Nikolaev E.A., Boev E.V., Ivanov S.P. Development of a small-volume rotor-disk disintegrator-mixer for the production of heterogeneous mixtures. Chemical Industry today, 2008, no. 3, p. 42-44.
8. Shulaev N.S., Nikolaev E.A., Boev E.V. Technique of testing small-volume rotor disintegra-tor-mixer for the purpose of obtaining power characteristics. Natural and technical sciences, 2007, no. 3, p. 183-184.
9. Nikolaev E.A., Shulaev N.S., Ivanov S.P., Boev E.V. Rotary disintegrator-mixer for gas-liquid reactions on the example of carbonization of a soda solution. Chemical technology, 2008, no. 4, p. 173-176.
10. Shulaev N.S., Nikolaev E.A., Boev E.V., Shiriyazdanov R.R., Afanasenko V.G. Purification of sewage from the production of calcium hypochlorite in a rotary disintegrator-mixer. Ecology and industry of Russia, 2008, no. 2, p. 6-7.