On the theory of nucleation and nonstationary evolution of a polydisperse ensemble of crystals

On the theory of nucleation and nonstationary evolution of a polydisperse ensemble of crystals

•Processes of nucleation and growth of crystals in metastable liquids are studied.•Unsteady-state effects in the growth rates of crystals are taken into account.•Kinetic and balance equations are solved on the basis of the saddle-point technique. The process of nucleation and unsteady-state growth o...

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Bibliographic Details
Published in:International journal of heat and mass transfer Vol. 128; pp. 46 - 53
Main Authors: Alexandrov, D.V., Nizovtseva, I.G., Alexandrova, I.V.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-01-2019
Elsevier BV
Subjects:
Crystal growth
Differential equations
Distribution functions
Evolution
Growth models
Nucleation
Particle size
Particle size distribution
Phase transformations
Saddle points
Supersaturation
Phase transformations
Growth models
Nucleation
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Summary:•Processes of nucleation and growth of crystals in metastable liquids are studied.•Unsteady-state effects in the growth rates of crystals are taken into account.•Kinetic and balance equations are solved on the basis of the saddle-point technique. The process of nucleation and unsteady-state growth of spherical crystals in a supersaturated solution is considered with allowance for the Weber-Volmer-Frenkel-Zel’dovich and Meirs kinetic mechanisms. The first two corrections to the steady-state growth rate of spherical crystals are found analytically as the solution of the moving boundary problem. On the basis of this solution, we formulate and solve the integro-differential model consisting of the Fokker-Planck type equation for the particle-size distribution function and of the balance equation for the system supersaturation. The distribution function dependent on the nucleation kinetics is found as a functional of the supersaturation. The integro-differential equation for the system supersaturation is solved by means of the saddle-point method. As a result, a complete analytical solution of the problem of nucleation and nonstationary evolution of a polydisperse ensemble of crystals in a metastable medium is constructed in a parametric form. How to use the obtained solutions for supercooled liquids is discussed.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2018.08.119