Preview

Advanced Engineering Research (Rostov-on-Don)

Advanced search

Study on magnetic field parameters in the inductor working chamber

https://doi.org/10.12737/18275

Abstract

The inductor which allows the usage of the magnetic field in the agriculture technological processes is considered. The measuring technique of the electromagnetic field vector characterization - magnetic induction that evaluates the quality of the technological process in the inductor chamber - is offered. Intensity, directivity, and uniformity of the magnetic field in the inductor working chamber are investigated. The techniques of the instrumental, direct and indirect measurements, and statistical data processing, as well as methods of analog-to-digital data conversion are used. A cybernetic model of the experimental research to assess the inductor performance quality is developed. The distribution of the radial and axial components of the magnetic induction in the working chamber is determined; the area with the most uniform magnitude and the magnetic-field direction which forms the inductor working area is identified. The most significant component of the magnetic induction vector for this process and the type of inductor is revealed. The results obtained are important for the development of new inductor constructions.

About the Authors

Nikolay V. Limarenko
Don State Technical University
Russian Federation


Victor P. Zharov
Don State Technical University
Russian Federation


Yury V. Panov
Don State Technical University
Russian Federation


Boris G. Shapoval
Don State Technical University
Russian Federation


References

1. Logvinenko, D.D., Shelyakov, O.P. Intensifikatsiya tekhnologicheskikh protsessov v apparatakh s vikhrevym sloem. [Intensification of technological processes in units with velocity layer.] Kiev: Tekhnika, 1976, 144 p. (in Russian).

2. Vershinin, I.N., Vershinin, N.P. Apparaty s vrashchayushchimsya elektromagnitnym polem. [Devices with a rotating electromagnetic field.] Salsk, 2007, 368 p. (in Russian).

3. Volodin, G.I. Elektromekhanicheskie protsessy v ustroystvakh s proizvol'noy podvizhnoy chast'yu: diss. dokt. tekh. nauk. [Electromechanical processes in units with an arbitrary movable element: Dr.Sci. (Eng.) diss.] South-Russian State Polytechnic University (NPI), Novocherkassk, 2009, 304 p. (in Russian).

4. Derevyankin, N.A., Mikhaleva, Z.A. Apparaty s vikhrevym sloem v khimicheskoy tekhnologii. Obzornaya informatsiya. Khimicheskoe i neftepererabatyvayushchee mashinostroenie. [Vortex layer devices in chemical engineering. Survey information. Chemical and oil-refining engineering.] Tambov, 1989, 37 p. (in Russian).

5. Klimov, Е.А., Koloskov, V.V., Saprykin, V.E. Otsenka vliyaniya sostavlyayushchikh nulevoy posledovatel'nosti na effektivnost' raboty elektromekhanicheskogo aktivatora (Apparata s vikhrevym sloem). [Assessment of the null component impact on the electromechanical activator efficiency (Vortex layer device).] Izvestia vuzov. Electromechanics, 2012, no. 1, pp. 67–71 (in Russian).

6. Vershinin, N.P. Ustanovki aktivatsii protsessov. Ispol'zovanie v promyshlennosti i v sel'skom khozyaystve. Ekologiya. [Units for process activation. Utilization in industry and agriculture. Ecology.] Rostov-on-Don, 2004, 314 p. (in Russian).

7. С Zheng, Y Xu, Z Liu and K Yan. Fresh water disinfection by pulsed low electric field. Journal of Physics: Conference Series. 2014, vol. 594, pp. 142–148.

8. M. Fernanda San Martin, Federico M. Harte, Huub Levieveld, Gustavo V. Barbosa- Cánovas, Barry G. Swanson. Inactivation effect of an 18-T pulsed magnetic field combined with other technologies on Escherichia coli. Innovative Food Science & Emerging Technologies, 2001, vol. 2, iss. 4, pp. 273–277.

9. Adoshev, A.I. Ferrovikhrevoy apparat dlya obrabotki zhidkogo navoza. [Ferro-vortex unit for black liquid processing.] Selskiy Mechanizator, 2007, no. 6, pp. 32–33 (in Russian).

10. Ventsel, Е.S. Teoriya veroyatnostey: uchebnik dlya vuzov. [Probability theory: college textbook.] Moscow: Nauka, 1969, 576 p. (in Russian).


Review

For citations:


Limarenko N.V., Zharov V.P., Panov Yu.V., Shapoval B.G. Study on magnetic field parameters in the inductor working chamber. Vestnik of Don State Technical University. 2016;16(1):136-142. (In Russ.) https://doi.org/10.12737/18275

Views: 528


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.


ISSN 2687-1653 (Online)