Relationship between condensed droplet coalescence and surface wettability

•Condensed droplet coalescence on various surfaces was visually observed.•Relation between droplet coalescence behavior and surface wettability was analyzed.•A regional map was created to show different droplet coalescence behavior.•A new dimensionless number called the Hysteresis number was defined...

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Bibliographic Details
Published in:International journal of heat and mass transfer 2017-08, Vol.111, p.836-841
Main Authors: Chu, Fuqiang, Wu, Xiaomin, Zhu, Yi, Yuan, Zhiping
Format: Article
Language:English
Subjects:
Air conditioners
Air conditioning
Coalescing
Condensation
Contact angle
Dimensionless numbers
Droplet coalescence
Droplets
Electric power generation
Film condensation
Harvesting
Heat transfer
Hysteresis
Hysteresis number
Regional map
Surface wettability
Wettability
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Summary:•Condensed droplet coalescence on various surfaces was visually observed.•Relation between droplet coalescence behavior and surface wettability was analyzed.•A regional map was created to show different droplet coalescence behavior.•A new dimensionless number called the Hysteresis number was defined.•The Hysteresis number denotes relative importance of CAH compared to CA. Droplet condensation, which has better heat transfer performance than film condensation, can improve the efficiency of various engineering applications such as power generation, water harvesting and air conditioning. With the growth of condensed droplets, coalescence among these droplets is certainly taking place. Since the coalescence behavior greatly influences the droplet growth, the relationship between the droplet coalescence and the surface wettability needs to be understood. In this study, condensation experiments on prepared surfaces with various wettability were performed to observe the droplet coalescence behavior. The relationship between the droplet coalescence and the surface wettability was discussed and a regional map was created to classify different droplet coalescence behavior with four regions divided. To make the divided regions understandable, a dimensionless number called the Hysteresis number was first defined to denote the relative importance of the contact angle hysteresis compared to the contact angle for a random surface. Besides the application for analyzing the droplet coalescence behavior, the Hysteresis number can be widely applied for analyzing surface-droplet interactions in various engineering fields with a high value indicating that the contact angle hysteresis plays an important role and cannot be ignored.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2017.04.052