Add to ORKGThe classical modelling to determine the heat transfer during dropwise condensation combines the calculation of heat transfer through a single droplet and the drop-size density distribution. The heat transfer by a single drop is determined from the thermal resistances involved during DWC, while the drop-size density distribution is evaluated using a statistical approach based on population balance. The aim of the present work is to develop an algorithm that simulates the droplet’s lifecycle, from nucleation to coalescence up to sliding-off from the surface by means of the thermal resistance model. In order to validate this model, the drop-size density distribution obtained from the present model was compared with the one obtained from the e...
A numerical model for the prediction of the buildup of a moist air condensate layer is presented. Th...
A comprehensive model is developed for previous termheat transfernext term during previous termdropw...
© 2019 Author(s). Jumping-droplet condensation is promising for various applications where the dropl...
International audienceThe modeling of dropwise condensation remains, at the present time, difficult....
Dropwise condensation (DWC) is a very effective heat transfer process since it can realize heat tran...
There are two ways for a vapor to condense on a surface: filmwise condensation (FWC) and dropwise co...
Computational modeling is essential for understanding dropwise condensation (DWC) mechanisms, drople...
International audienceThe aim of this study is to simulate water droplets spatial distribution on a ...
Dropwise condensation (DWC) is a phenomenon of common occurrence and significant utility in nature a...
A Lagrangian model following the history of every droplet belonging to an evolving droplets populati...
Recently, nonwetting surfaces have attracted explosive attention in the community of dropwise conden...
Dropwise condensation has drawn significant attention due to its efficient heat transfer performance...
In dropwise condensation, the heat transfer performance is determined by the heat transfer through a...
Wettability of a solid surface with liquids could be tuned based on surface morphologies. This is s...
Computer simulation of dropwise condensation on a substrate, having randomly spaced nucleation sites...
A numerical model for the prediction of the buildup of a moist air condensate layer is presented. Th...
A comprehensive model is developed for previous termheat transfernext term during previous termdropw...
© 2019 Author(s). Jumping-droplet condensation is promising for various applications where the dropl...
International audienceThe modeling of dropwise condensation remains, at the present time, difficult....
Dropwise condensation (DWC) is a very effective heat transfer process since it can realize heat tran...
There are two ways for a vapor to condense on a surface: filmwise condensation (FWC) and dropwise co...
Computational modeling is essential for understanding dropwise condensation (DWC) mechanisms, drople...
International audienceThe aim of this study is to simulate water droplets spatial distribution on a ...
Dropwise condensation (DWC) is a phenomenon of common occurrence and significant utility in nature a...
A Lagrangian model following the history of every droplet belonging to an evolving droplets populati...
Recently, nonwetting surfaces have attracted explosive attention in the community of dropwise conden...
Dropwise condensation has drawn significant attention due to its efficient heat transfer performance...
In dropwise condensation, the heat transfer performance is determined by the heat transfer through a...
Wettability of a solid surface with liquids could be tuned based on surface morphologies. This is s...
Computer simulation of dropwise condensation on a substrate, having randomly spaced nucleation sites...
A numerical model for the prediction of the buildup of a moist air condensate layer is presented. Th...
A comprehensive model is developed for previous termheat transfernext term during previous termdropw...
© 2019 Author(s). Jumping-droplet condensation is promising for various applications where the dropl...