Formation of Liquid Film in Heterogeneous Condensation of Water Vapor: Effects of Solid–Fluid Interaction and Sulfuric Acid Component

Abstract: Understanding the phenomenon of filmwise condensation on solid surfaces is vital for industrial processes such as air pollutant control and desalination. In this work, we study the formation of condensed liquid films via molecular dynamics simulations, and the effects of solid−fluid interactions and the sulfuric acid component are given major attention. Water is chosen as the fluid, while the solid−fluid interaction is modified to characterize different solid surfaces. The results show that as the solid−fluid … Show more

“…Experimental studies have revealed that many forms of droplet manipulation can also be achieved using specially structured bionic surfaces . For phase-change properties, surface wettability is crucial for liquid condensation phenomena, , and carbon nanotubes have an important effect on the boiling of internal liquids. , In general, solid surface properties play an important role in the manipulation of nanodroplets.…”

Transforming Droplets into Liquid Films in Nanochannels under Rotating Electric Fields Studied by Molecular Dynamics

“…Experimental studies have revealed that many forms of droplet manipulation can also be achieved using specially structured bionic surfaces . For phase-change properties, surface wettability is crucial for liquid condensation phenomena, , and carbon nanotubes have an important effect on the boiling of internal liquids. , In general, solid surface properties play an important role in the manipulation of nanodroplets.…”

Transforming Droplets into Liquid Films in Nanochannels under Rotating Electric Fields Studied by Molecular Dynamics

Whether nano hydrophilic spots control the condensation pattern: The mechanism of critical wettability

The growth of condensed nanodroplets in electric fields: A molecular dynamics study