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Theoretical and experimental study of water vapour condensation with high content of non-condensable gas in a vertical tube

Authors :
Jakub Krempaský
Jan Havlík
Tomáš Dlouhý
Source :
Acta Polytechnica, Vol 62, Iss 3, Pp 352-360 (2022)
Publication Year :
2022
Publisher :
CTU Central Library, 2022.

Abstract

This article deals with the possibility of separating water vapour from flue gases after oxyfuel combustion using condensation processes. Those processes can generally be described as condensation of water vapour in the presence of non-condensable gases. Hence, the effect of noncondensable gas (NCG) on the condensation process has been theoretically and experimentally analysed in this study. The theoretical model was developed on the basis of the heat and mass transfer analogy with respect to the effect of the NCG, the flow mode of the condensate film, the shear stress of the flowing mixture, subcooling and superheating. Subsequently, an experimental analysis was carried out on a 1.5m long vertical pipe with an inner diameter of 23.7mm. The mixture of vapour and air flowed inside the inner tube with an air mass fraction ranging from 23% to 62%. The overall heat transfer coefficients (HTC) from the theoretical model and experimental measurement are significantly lower than the HTC obtained according to the Nusselt theory for the condensation of pure water vapour. The overall HTC decreases along the tube length as the gas concentration increases, which corresponds to a decrease in the local condensation rate. The highest values of the HTC are observed in the condenser inlet, although a strong decrease in HTC is also observed here. Meanwhile, there is a possibility for an HTC enhancement through turbulence increase of the condensing mixture in the condenser outlet. Results also showed that the heat resistance of the mixture is several times higher than the heat resistance of the condensate film. The developed theoretical model based on heat and mass transfer analogy is in good agreement with experimental results with the standard deviation within +25% and −5%. The model is more accurate for lower NCG concentrations.

Details

Language :
English
ISSN :
18052363
Volume :
62
Issue :
3
Database :
Directory of Open Access Journals
Journal :
Acta Polytechnica
Publication Type :
Academic Journal
Accession number :
edsdoj.2ebed5e03f5b4414a79f72a11f51fa5d
Document Type :
article
Full Text :
https://doi.org/10.14311/AP.2022.62.0352