Features of heat and mass transfer at drying of ceramic products with overglaze paints


  • O.M. Nedbailo The State Enterprise "Engineering Center "Drying”" Institute of Engineering Thermophysics of NAS of Ukraine, str. Bulakhovskogo, 2, Bldg. 2, Kyiv, 03164, Ukraine http://orcid.org/0000-0003-1416-9651
  • O.G. Chernyshyn The State Enterprise "Engineering Center "Drying”" Institute of Engineering Thermophysics of NAS of Ukraine, str. Bulakhovskogo, 2, Bldg. 2, Kyiv, 03164, Ukraine http://orcid.org/0000-0001-7702-894X
Keywords:
drying glasour ceramic colors, heat and mass transfer process at drying of overglaze ceramic paints.

Abstract

The basic results of researches of process of a heat exchange are instanced and parsed at drying glasour ceramic colors. Character of change of importance number of Rebinder is established at drying colors and dependence of intensity of a heat dissipation on velocity of air is spotted.

The main results of researches of heat and mass transfer process at drying of overglaze ceramic paints in a stream of drying agent are resulted and analyzed. The nature of the change in the value of the Rebinder number for drying paints is established and the dependence of the heat transfer intensity on the air velocity is determined. Analysis of the temperature coefficient of drying and Rebinder's number determined the directions of heat consumption in the drying process of overglaze ceramic paints.

It is established that the heat flux density depends on the temperature and velocity of the coolant and does not depend on the chemical composition of the paints.

It is shown that the heat transfer coefficient depends on the velocity of the coolant. Compared with heat transfer during laminar flow around the plate during drying, the intensity of heat transfer increases by 75%.

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Published
2021-06-25
How to Cite
Nedbailo, O., & Chernyshyn, O. (2021, June 25). Features of heat and mass transfer at drying of ceramic products with overglaze paints. Ceramics: Science and Life, (2(51), 7-12. https://doi.org/10.26909/csl.2.2021.1