A critical review of heat and mass transfer correlations for LiBr-H2O and NH3-H2O absorption refrigeration machines using falling liquid film technology

•A review of heat and mass transfer correlations based on falling film is showed.•Heat and mass transfer correlations (Nu, Sh) are summarized.•Non-dimensional (Nu, Sh) mapping for refrigeration and air-conditioning are showed. This paper presents an extensive review of heat and mass transfer correla...

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Bibliographic Details
Published in:Applied thermal engineering 2017-08, Vol.123, p.1079-1095
Main Authors: Narváez-Romo, Beethoven, Chhay, Marx, Zavaleta-Aguilar, Elí W., Simões-Moreira, José R.
Format: Article
Language:English
Subjects:
Absorption
Air conditioners
Air conditioning
Ammonia
Ammonia-water
Correlation
Falling film
Falling liquid films
Heat transfer
Lithium
Lithium bromide-water
Mass transfer
Refrigeration
Review
Sorption
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Summary:•A review of heat and mass transfer correlations based on falling film is showed.•Heat and mass transfer correlations (Nu, Sh) are summarized.•Non-dimensional (Nu, Sh) mapping for refrigeration and air-conditioning are showed. This paper presents an extensive review of heat and mass transfer correlations in the framework of sorption machines operating based on the falling film technology, in which ammonia-water and lithium bromide-water are used as the working fluid pairs. Heat and mass transfer correlations are summarized as well as the application range and geometrical configuration. In order to compare the correlations found in the recent and classical literature, typical operation conditions for absorption refrigeration cycles have been adopted. Heat and mass transfer correlations have been evaluated for both working fluid pairs, mapping the possible heat and mass transfer values for refrigeration and air-conditioning applications. The study allowed comparing the two technologies using the same operational conditions. The ascertainment that the transfer correlations may behave differently has been showed. Finally, this work suggests that future researches about heat and mass transfer behavior should be to carry out for realistic operational condition of the absorption refrigeration cycles.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2017.05.092