Meiwen Zhao scite author profile

Wettability, as one of the important properties of solid surface, may influence heat and mass transfer in boiling process. Molecular dynamics method is employed to investigate the effects of wettability on normal and explosive boiling of ultra-thin liquid argon film absorbed on a heated solid aluminium surface in a confined space in present work. The initial three-phase molecular system is comprised of solid aluminium wall, liquid argon and vapour argon and is run for three different solid-liquid interfacial wettability (lyophilic, lyophobic and neutral surfaces), which achieves a balance at 90 K. After equilibrium period, two different jump temperatures degree, 150 and 350 K, are set on heat source layers separately to characterise the boiling phenomena, namely, low-temperature degree for normal boiling and hightemperature degree for explosive boiling in which temperature of solid wall is far beyond the critical temperature of liquid argon. The simulation results indicate that the wetting condition of solid-liquid interfacial surface have significant effects on both cases of boiling phenomena. Furthermore, the heat transfer rate with good wettability (lyophilic) is much higher than bad wettability (lyophobic) with same jump temperature degree.

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Influence of interface wettability on explosive boiling of ultra-thin liquid films on a heated substrate using molecular dynamics simulations

Zhang

Zhao

et al. 2017

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Influences of ambient temperature, charge density on wettability properties of monolayer MoS<inf>2</inf> films

Zhao

et al. 2017

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Molecular dynamics study on explosive boiling of ultra-thin liquid over solid substrate: considering interface wettability of Argon/MoS₂

Sang

Zhao

Liu

et al. 2019

Molecular Simulation

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Meiwen Zhao

Research progress of adsorption and removal of heavy metals by chitosan and its derivatives: A review

Influence of interface wettability on normal and explosive boiling of ultra‐thin liquid films on a heated substrate in nanoscale: a molecular dynamics study

Influence of interface wettability on explosive boiling of ultra-thin liquid films on a heated substrate using molecular dynamics simulations

Influences of ambient temperature, charge density on wettability properties of monolayer MoS<inf>2</inf> films

Molecular dynamics study on explosive boiling of ultra-thin liquid over solid substrate: considering interface wettability of Argon/MoS₂

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Meiwen Zhao

Research progress of adsorption and removal of heavy metals by chitosan and its derivatives: A review

Influence of interface wettability on normal and explosive boiling of ultra‐thin liquid films on a heated substrate in nanoscale: a molecular dynamics study

Influence of interface wettability on explosive boiling of ultra-thin liquid films on a heated substrate using molecular dynamics simulations

Influences of ambient temperature, charge density on wettability properties of monolayer MoS<inf>2</inf> films

Molecular dynamics study on explosive boiling of ultra-thin liquid over solid substrate: considering interface wettability of Argon/MoS2

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Resources

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Molecular dynamics study on explosive boiling of ultra-thin liquid over solid substrate: considering interface wettability of Argon/MoS₂