DEVELOPMENT OF THE STRUCTURE OF THE-JET FILM CONTACT DEVICE CONSTRUCTION FOR INTENSIFICATION OF HEAT MASS EXCHANGE

In the article the authors presented the construction of a contact device with an artificial unevenness on a vertical partition, which contributes to an increase in the specific contact area of the liquid and gas phases, in order to intensify the heat-storage process in the column apparatus, the experimental setup, the experimental procedure, the results of the experiments and the conclusions on the work. The experiments demonstrated the effect of the geometric parameters of the working section (width of the working area, height of the working area, bending radius of the working section) of the artificial unevenness of the partition of the contact device on the spreading area of the film and on the deviation of the liquid from the axis of the edge of the working section. The most effective ratio of the diameter of the drain of the liquid to the width of the working section is shown and the influence of the height of the working area on the efficiency of the proposed design of a jet-film contact device with an artificial unevenness on a vertical partition.

1. Federal Law of 23.11.09 № 261-FZ "On energy conservation and on improving energy efficiency and on introducing amendments to certain legislative acts of the Russian Federation".

2. Madyshev I.N., Dmitrieva O.S., Dmitriev A.V., Nikolaev A.N. Assessment of change in torque of stream-bubble contact mass transfer devices // Chemical and Petroleum Engineering. 2015. Т. 51, № 5. С. 383–387.

3. Povtarev IA, Blinichev VN, Chagin OV, Kravchik Y. Investigation of the dependence of the hydraulic resistance of the packed column equipment column // Izvestiya Vysshikh Uchebnykh Zavedenii. Series: Chemistry and Chemical Technology. 2006. P. 49, No. 12. P. 109–110.

4. Pushnov AS, Kagan AM, Structure and hydrodynamics of column apparatus with a nozzle. Introduction to chemical engineering. St. Petersburg: Polytechnic University Publishing House, 2011. 135 с.

5. Grigoryan LG, Ignatenkov Yu.I., Lesukhin S.P. Mass exchange contact device for fluid and gas interaction / / Patent for invention RUS 2461406 22.11.2010.

6. Lesukhin MS, Grigoryan LGCreation of a new type of condenser based on the apparatus with vertical contact grids // Bulletin of the Samara State Technical University. Series: Engineering. 2013. No. 2 (38). Pp. 206–209.

7. Karwa N., Schmidt L., Stephan P., International Journal of Heat and Mass Transfer. № 55 (13-14) (2012).

8. Dmitrieva OS, Dmitriev AV, Nikolaev AN Heat and mass transfer device with a combined scheme of interaction of gas and liquid flows in systems of recycled water supply // Bulletin of Kazan Technological University. 2012. T. 15, No. 11. P. 146–148.

9. Ziganshin MG, Ezhov PV, Dmitriev A.V. Efficiency of purification of gas emissions of steam generators of thermal power plants in vortex-type devices // Industrial power. 2008. № 9. P. 49–53.

10. Kalimullin IR, Dmitriev A.V. Prospects for the use of tertiary amine absorbers to improve the efficiency of gas purification in high-throughput devices // Bulletin of Kazan Technological University. 2011. № 3. P. 143–145.

11. Kalimullin IR, Dmitriev AV, Nikolaev NA Production and application of hydrogen / I.R. Kalimullin, A.V. Dmitriev, N.A. Nikolayev; Kazan: Russian Acad. Sciences, Kazan Scientific. center "Research Center for Energy Problems", 2008.

12. Makusheva OS, Dmitriev A.V. Estimation of the economic effect from the introduction of contact devices with increased capacity // Bulletin of Kazan Technological University. 2011. № 8. P. 355–357.

13. Isaev AA, Sabanayev IA, Dmitriev A.V. Development of a laboratory installation for the specialty "Industrial Heat and Power Engineering" // Bulletin of Kazan Technological University. 2013. V. 16, No. 18. P. 237–239.

14. Zhumaev KK, Aslonov S.Sh., Tukhtaev B.O. Application of regular nozzles in contact heat and mass transfer apparatuses // Problems of science and education. 2017. № 2. P. 28–29.

15. Moran K., Inumaru J., Kawaji M., International Journal of Multiphase Flow, № 28 (5), (2002).

16. Moshtari, E.G. Babakhani, J.S. Moghaddas, Petroleum & Coal, № 51 (1), (2009).

17. Kryuchkov DA, Grigoryan LG Evaporative cooling in three-flow apparatus with vertical contact grids // Oil refining and petrochemistry. Scientific and technical achievements and best practices. 2013. № 2. P. 40–43.

18. Kholpanov L.P. Self-organization and dynamic chaos in chemical-technology and heat-exchange devices: problems and tasks // Journal of Engineering Physics and Thermophysics. 2001. Т. 74, № 4. С. 847–858.

19. Babak V.N., Babak T.B., Kholpanov L.P. A study of the absorption of carbon dioxide with solutions of amines with the straight flow of a gas and a liquid in planar irrigated channels // Theoretical basis of chemical technology. 1993. Vol. 27. № 6. P. 576–585.