The article describes the various types of preformed and random packing for heat and mass transfer apparatuses, and determines their advantages and disadvantages. It is shown that preformed moving packing is of considerable interest to the intensification of heat and mass transfer processes due to the possibility of establishing regular vortex structure in the contact zone. There are represented the results of experimental studies of hydraulic resistance, coefficient of longitudinal mixing liquid, mass transfer coefficient in the gas and liquid phases in the apparatuses both with a preformed moving sheet and  ball tips. Empirical equations for calculating main hydrodynamic and mass transfer intensity characteristics have been obtained.
Copyright © 2014 Praise Worthy Prize - All rights reserved.

A.Laptev, M.Farah and N.G.Mineev Basis for calculating the heat and mass transfer and upgrading of facilities in the petrochemical industry (Monograph”. Kazan: Kazan. State. Energ. University Press. 2010)

A.G. Laptev Proceedings of the Engineering and Innovation Centre Inzhehim. (Kazan: Westfalica, 2012)

Zh. Serikuly, A. Volnenko, and E. Kenig, Hydrodynamics of Apparatuses with Preformed Packing Bodies 7th International Conference Interdisciplinarity in Engineering (INTER-ENG) Tirgu Mures, Romania Oct 10-11, 2013

V.M. Ramm, Absorption of gases. (2nd ed. rev. and add. Moskow: Chemistry 1976.)

V.V. Kafarov, Fundamentals of mass transfer (gas-liquid, vapor-liquid, liquid-liquid) (3rd ed. rev. and add. Moscow: High School. 1979)

A.A. Volnenko, Development methodology and calculation methods of mobile devices with a regular nozzle Journal of National Academy of Sciences of Kazakhstan,1999

O.S. Balabekov, A.A. Volnenko and B.N. Korganbaev,. Patterns of flow systems are regularly posted to the various elements of the spatial arrangement of the. Tr.Mezhd.scientific.Conf. Energy-saving technologies and equipment, environmentally friendly production" Vol.1. ISUCT. 2004

O.S. Balabekov, A.A. Volnenko, S Praslin, B.N. Korganbaev, M.O. Balabekova and S.V. Victors, The pattern of formation of vortex moving parallel jets in for gas or liquid flow through the system across to him located discrete sources. Certificate of scientific discovery № 269. International Association of Authors of Scientific Discoveries, 2004.

A.A. Volnenko, Zh. Serikuly, O.S. Balabekov, Zh.E. Husanov and T.S. Bazhirov, A common approach to the calculation of flow resistance and the number of retained fluid in the apparatus with a regular nozzle. Chemical Journal of Kazakhstan, Vol 46, 2012.

D. Brahm, Gas Absorbtion in to Turbulent Liguid. Chemical Engineering Science, 1973.

R.B. Bird, W. Stewart and E. Layfut, Transport Phenomena. Per. from English.Academic Press, 1974.

Men-la-yakhaf, S., Gueraoui, K., Maaouni, A., Driouich, M., Numerical and mathematical modeling of reactive mass transfer and heat storage installations of argan waste, (2014) International Review of Mechanical Engineering (IREME), 8 (1), pp. 236-240.

Rachdi, A., Sebai, R., Bouslama, F., Chouikh, R., Numerical study of heat and mass transfer in membrane distillation for desalination of seawater, (2012) International Review of Mechanical Engineering (IREME), 6 (5), pp. 1018-1024.

Sulaymon, A.H., Almilly, R.F., Hydrodynamics and mass transfer using three-phase fluidized bed contactor, (2012) International Review of Mechanical Engineering (IREME), 6 (1), pp. 86-96.