Interface model for non-equilibrium evaporation |
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Authors: | J.P. Caputa Henning Struchtrup |
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Affiliation: | Department of Mechanical Engineering, University of Victoria, Canada |
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Abstract: | A microscopic interface condition for condensing/evaporating interfaces is developed by combining a velocity dependent condensation probability [T. Tsuruta, H. Tanaka, T. Masuoka, Int. J. Heat Mass Transfer 42 (1999) 4107] and Maxwell type interface conditions with accommodation. Using methods from kinetic theory, macroscopic interface conditions for mass and energy transport across the phase boundary are derived. This model only applies to simple substances, where diffusive effects in the bulk phases are not present. The results are compared to classical non-equilibrium thermodynamics. The interface conditions are considered for the limit of small deviation from equilibrium, and the corresponding Onsager coefficients are computed. These results are useful as boundary conditions for non-equilibrium evaporation and condensation problems, as done previously by our group [M. Bond, H. Struchtrup, Phys. Rev. E 70 (2004) 061605]. |
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Keywords: | Liquid-vapor interface Kinetic theory Condensation coefficient Accommodation coefficient Onsager relations |
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