Hydrodynamic behaviors of the falling film flow on a horizontal tube and construction of new film thickness correlation

•The important role of surface tension in the calculations of falling film flow on a horizontal tube is pointed out.•The obvious instantaneous behaviors of the film falling on a circular tube are discussed.•New correlations of the local falling film thickness on a horizontal tube are established. Th...

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Bibliographic Details
Published in:International journal of heat and mass transfer 2018-04, Vol.119, p.564-576
Main Authors: Zhao, Chuang-Yao, Ji, Wen-Tao, Jin, Pu-Hang, Zhong, Ying-Jie, Tao, Wen-Quan
Format: Article
Language:English
Subjects:
Correlation analysis
Falling
Falling film
Film thickness
Flow velocity
Fluid mechanics
Heat transfer
Horizontal tube
Laminar flow
Mathematical analysis
Numerical simulation
Surface tension
Temperature distribution
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Summary:•The important role of surface tension in the calculations of falling film flow on a horizontal tube is pointed out.•The obvious instantaneous behaviors of the film falling on a circular tube are discussed.•New correlations of the local falling film thickness on a horizontal tube are established. The laminar liquid film falling on a horizontal smooth tube is studied numerically. The instantaneous hydrodynamic characteristics of falling film flow, the importance of surface tension in calculation and the effects of film flow rate, tube diameter, liquid distributor height and inlet liquid temperature on the flow field and film thickness are elucidated. The results indicate that: (1) The surface tension is important in the calculations of falling film flow on a horizontal tube; (2) The film falling on a circular tube has obvious instantaneous behaviors; (3) The film thickness increases with increase of film flow rate, while decreases with increase of the tube diameter, liquid distributor height and liquid temperature, respectively; (4) The film distribution along the peripheral angle is unsymmetrical, and the minimum thickness appears in 110–150° of peripheral angle depending on the working conditions. Furthermore, new correlations of falling film thickness on a horizontal tube based on the present data are established, which fit 97% of 84 data in θ = 2–15° within ±20%, 90% of 632 data in θ = 15–165° within ±20%, and 73% of 112 data in θ = 165–178° within ±30%.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2017.11.086