Effects of nonlinear growth rates of spherical crystals and their withdrawal rate from a crystallizer on the particle-size distribution function
From MaRDI portal
Publication:5243439
DOI10.1098/RSTA.2018.0210zbMath1425.82029OpenAlexW2920130642WikidataQ92080429 ScholiaQ92080429MaRDI QIDQ5243439
Dmitri V. Alexandrov, Eugenya V. Makoveeva
Publication date: 18 November 2019
Published in: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences (Search for Journal in Brave)
Full work available at URL: http://europepmc.org/articles/pmc6460064
phase transformationnucleationmetastable liquidevolution of particulate assemblageremoval of crystals
Related Items (8)
Analytical solution of integro‐differential equations describing the process of intense boiling of a superheated liquid ⋮ Mathematical modeling of bulk and directional crystallization with the moving phase transition layer ⋮ A complete analytical solution to the integro‐differential model describing the nucleation and evolution of ellipsoidal particles ⋮ Approximate analytical solution of the integro‐differential model of bulk crystallization in a metastable liquid with mass supply (heat dissipation) and crystal withdrawal mechanism ⋮ Dynamics of particulate assemblages in metastable liquids: a test of theory with nucleation and growth kinetics ⋮ Dissolution of polydisperse ensembles of crystals in channels with a forced flow ⋮ From nucleation and coarsening to coalescence in metastable liquids ⋮ On the theory of the unsteady-state growth of spherical crystals in metastable liquids
Cites Work
- Unnamed Item
- Convective instability of directional crystallization in a forced flow: the role of brine channels in a mushy layer on nonlinear dynamics of binary systems
- Solidification of a ternary melt from a cooled boundary, or nonlinear dynamics of mushy layers
- Evolution of a particulate system governed by exchange with its environment
- Modelling of unsteady combustion regimes for polydisperse fuels. I: Instability and auto-oscillations
- Modelling of unsteady combustion regimes for polydisperse fuels. II: Parametrically controlled combustion
- A mathematical model for continuous crystallization
- Nucleation and particle growth with fluctuating rates at the intermediate stage of phase transitions in metastable systems
- Analytical solutions of mushy layer equations describing directional solidification in the presence of nucleation
- A complete analytical solution of the Fokker–Planck and balance equations for nucleation and growth of crystals
- Nucleation and evolution of spherical crystals with allowance for their unsteady-state growth rates
- On the theory of the unsteady-state growth of spherical crystals in metastable liquids
- On the theory of crystal growth in metastable systems with biomedical applications: protein and insulin crystallization
- Phase transformations in metastable liquids combined with polymerization
- Nucleation and crystal growth in binary systems
This page was built for publication: Effects of nonlinear growth rates of spherical crystals and their withdrawal rate from a crystallizer on the particle-size distribution function
