Effect of Surface Excess Energy Transport on the Rupture of an Evaporating Film

Yan Luo; Jianqiu Zhou; Xia Yang; Rong Liu

doi:10.1007/s12217-017-9585-2

Effect of Surface Excess Energy Transport on the Rupture of an Evaporating Film

Yan Luo, Jianqiu Zhou, Xia Yang, Rong Liu

School of energy science and engineering

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

In most of existing works on the instabilities of an evaporating film, the energy boundary condition only takes into account contributions of the evaporation latent heat and the heat conduction in the liquid. We use a new generalized energy boundary condition at the evaporating liquid-vapor interface, in which the contribution of the transport of the Gibbs excess energy is included. We have derived the long-wave equations in which the thickness of film and the interfacial temperature are coupled to describe the dynamics of an evaporating thin film. The results of our computation show that the transport of the Gibbs excess internal energy delay the rupture of thin films due to van de Waals force, evaporating effect and vapor recoil.

Original language	English
Pages (from-to)	165-171
Number of pages	7
Journal	Microgravity Science and Technology
Volume	30
Issue number	3
DOIs	https://doi.org/10.1007/s12217-017-9585-2
State	Published - 1 May 2018

Keywords

Evaporating film
Gibbs excess energy
Heat conduction
Van de Waals force

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10.1007/s12217-017-9585-2

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abstract = "In most of existing works on the instabilities of an evaporating film, the energy boundary condition only takes into account contributions of the evaporation latent heat and the heat conduction in the liquid. We use a new generalized energy boundary condition at the evaporating liquid-vapor interface, in which the contribution of the transport of the Gibbs excess energy is included. We have derived the long-wave equations in which the thickness of film and the interfacial temperature are coupled to describe the dynamics of an evaporating thin film. The results of our computation show that the transport of the Gibbs excess internal energy delay the rupture of thin films due to van de Waals force, evaporating effect and vapor recoil.",

keywords = "Evaporating film, Gibbs excess energy, Heat conduction, Van de Waals force",

author = "Yan Luo and Jianqiu Zhou and Xia Yang and Rong Liu",

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T1 - Effect of Surface Excess Energy Transport on the Rupture of an Evaporating Film

AU - Luo, Yan

AU - Zhou, Jianqiu

AU - Yang, Xia

AU - Liu, Rong

PY - 2018/5/1

Y1 - 2018/5/1

N2 - In most of existing works on the instabilities of an evaporating film, the energy boundary condition only takes into account contributions of the evaporation latent heat and the heat conduction in the liquid. We use a new generalized energy boundary condition at the evaporating liquid-vapor interface, in which the contribution of the transport of the Gibbs excess energy is included. We have derived the long-wave equations in which the thickness of film and the interfacial temperature are coupled to describe the dynamics of an evaporating thin film. The results of our computation show that the transport of the Gibbs excess internal energy delay the rupture of thin films due to van de Waals force, evaporating effect and vapor recoil.

AB - In most of existing works on the instabilities of an evaporating film, the energy boundary condition only takes into account contributions of the evaporation latent heat and the heat conduction in the liquid. We use a new generalized energy boundary condition at the evaporating liquid-vapor interface, in which the contribution of the transport of the Gibbs excess energy is included. We have derived the long-wave equations in which the thickness of film and the interfacial temperature are coupled to describe the dynamics of an evaporating thin film. The results of our computation show that the transport of the Gibbs excess internal energy delay the rupture of thin films due to van de Waals force, evaporating effect and vapor recoil.

KW - Evaporating film

KW - Gibbs excess energy

KW - Heat conduction

KW - Van de Waals force

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EP - 171

JO - Microgravity Science and Technology

JF - Microgravity Science and Technology

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ER -

Effect of Surface Excess Energy Transport on the Rupture of an Evaporating Film

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