Intensification of Foam Layered Apparatus by Foam Stabilization | Journal of Engineering Sciences

Intensification of Foam Layered Apparatus by Foam Stabilization

Author(s): Liaposhchenko O.1*, Khukhryanskiy О.1, 2, Moiseev V.3, Ochowiak M.4, Manoilo Е.3

Affilation(s):
1 Sumy State University, 2 Rymskogo-Korsakova St., 40007 Sumy, Ukraine;
2 PJSC “Ukrhimproekt”, 13 Illinska St., 40009 Sumy, Ukraine;
3 National Technical University “Kharkiv Polytechnic Institute”, 2 Kyrpychova St., 61002 Kharkiv, Ukraine;
4 Poznan University of Technology, 5 M. Sklodowska-Curie Sq., 60-965 Poznan, Poland

*Corresponding Author’s Address: o.liaposhchenko@pohnp.sumdu.edu.ua

Issue: Volume 5; Issue 2 (2018)

Dates:
Paper received: July 2, 2018
The final version of the paper received: October 25, 2018
Paper accepted online: October 30, 2018

Citation:
Liaposhchenko O. Intensification of Foam Layered Apparatus by Foam Stabilization / O. Liaposhchenko, O. Khukhryanskiy, V. Moiseev, M. Ochowiak, E. Manoilo // Journal of Engineering Sciences. – Sumy : Sumy State University, 2018. – Volume 5, Issue 2. – P. F13-F18.

DOI: 10.21272/jes.2018.5(2).f3

Research Area: CHEMICAL ENGINEERING: Processes in Machines and Devices

Abstract. In this work the expanded models are studied for foaming apparatuses with gratings made of tubes for different diameters. The problem of intensification of foam devices using coarse-grating lattices is considered. The possibility of deep cleaning and practically complete cleaning of gases from ammonia and fluoride compounds with their separate absorption is noted. The series of experimental dependencies for the main parameters of the process are given. The possibility of effective mass-exchange processes in an intensive foam layer on counter-current coarse-grating lattices is confirmed. The controversial requirements for equipment have been given despite the large number of existing machines for mass transfer processes, as well as the development of new high-intensity and efficient equipment for environmental technologies in many industries is considered.

Keywords: industrial gas emissions, hydrodynamics, mass transfer; foam apparatus, foam layer, purification process, stabilization of foam layer, intensification of the process.

References:

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Scientific journal "The Journal of Engineering Sciences"
ISSN 2312-2498 (Print), ISSN 2414-9381 (Online).

Faculty of Technical Systems and Energy Efficient Technologies
Sumy State University