On the critical thickness and wavelength of a condensing thin liquid film in a binary vapor mixture system

Abstract: We study the linear stability of a condensing thin liquid film of a binary vapor mixture by solving directly the bulk equations of the gas phase. The boundary layer of a finite thickness is introduced above the liquid film, within which the variables are disturbed. The dynamics of the liquid film is described by the long-wave equation. The neutral stability condition predicts the existence of a critical thickness below which a flat film is stable due to the mass gain effect. However, if we consider the thicken… Show more

“…Sc = µ ρD (27) where c p is the specific heat at constant pressure, J•kg −1 •K −1 ; and µ is the dynamic viscosity, Pa•s. Since the conduction heat transfer is much smaller than the condensation heat transfer in the vapor diffusion layer, the energy Equation (24) can be neglected.…”

“…By applying long-wave approximation, Kanatani [26] studied the instability of the condensate film in a binary vapor mixture system and found that the effect of temperature on condensation transfer coefficient could not be neglected in the condensation of a water-ethanol system. Later, by employing the asymptotic analysis for large wavenumbers, Kanatani [27,28] numerically calculated the critical thickness, the mean mass flux, and wavelength for the water-ethanol system. Li et al [29] proposed a semi-theoretical model to predict the condensation heat transfer characteristic of ethanol-water mixtures.…”

Modeling Study on Heat Transfer in Marangoni Dropwise Condensation for Ethanol-Water Mixture Vapors

“…Sc = µ ρD (27) where c p is the specific heat at constant pressure, J•kg −1 •K −1 ; and µ is the dynamic viscosity, Pa•s. Since the conduction heat transfer is much smaller than the condensation heat transfer in the vapor diffusion layer, the energy Equation (24) can be neglected.…”

“…By applying long-wave approximation, Kanatani [26] studied the instability of the condensate film in a binary vapor mixture system and found that the effect of temperature on condensation transfer coefficient could not be neglected in the condensation of a water-ethanol system. Later, by employing the asymptotic analysis for large wavenumbers, Kanatani [27,28] numerically calculated the critical thickness, the mean mass flux, and wavelength for the water-ethanol system. Li et al [29] proposed a semi-theoretical model to predict the condensation heat transfer characteristic of ethanol-water mixtures.…”

Modeling Study on Heat Transfer in Marangoni Dropwise Condensation for Ethanol-Water Mixture Vapors

Effect of flow rate on condensation of CO2-water vapor mixture on a vertical flat plate

Nonlinear effect of surface disturbances on mass flux and its modeling in Marangoni dropwise condensation