Friday, February 22, 2013

1302.5323 (Nikolay V. Alekseechkin)

Kinetics of Vapor Bubbles Nucleation in a Liquid with Arbitrary
Viscosity
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Nikolay V. Alekseechkin
The theory of vapor bubbles nucleation in one-component liquids developed in (J. Phys. Chem. B 2012, 116, 9445-9459) for the case of high viscosity (the (V,/rho,T)- theory) is extended to the case of arbitrary viscosity. For this purpose, Langevin's approach in the theory of Brownian motion, or Kramers' model of chemical reactions, is employed. The obtained expression for the bubbles nucleation rate is valid for arbitrary relations between the kinetic parameters determining the nucleation process: viscosity, inertia of a liquid, the rate of evaporation into a bubble and the rate of heat exchange between the bubble and ambient liquid. So, the presented theory together with the (V,/rho,T)- theory gives a complete description of the vapor-bubbles nucleation kinetics in one-component liquids. Limiting cases with respect to the mentioned parameters are considered, in particular, the low viscosity limit. It is shown that the nucleation rate in the case of low viscosity is qualitatively and quantitatively differs from that in the case of high viscosity. The possibility of application of the theory to cavitation in superfluid helium-4 is discussed.
View original: http://arxiv.org/abs/1302.5323

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