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Literature DB >> 32279642

Dissolution of polydisperse ensembles of crystals in channels with a forced flow.

Alexander A Ivanov¹, Dmitri V Alexandrov¹, Irina V Alexandrova¹.

Abstract

A non-stationary integro-differential model describing the dissolution of polydisperse ensembles of crystals in channels filled with flowing liquid is analysed. The particle-size distribution function, the particle flux through an arbitrary cross-section of the channel, the particle concentration profile, as well as the disappearance intensity of particles are found analytically. It is shown that a nonlinear behaviour of solutions is completely defined by the source term of particles introduced into the channel. In particular, the model approximately describes the processes of dissolution and transport of drug microcrystals to the target sites in a living organism, taking into account complex dissolution kinetics of drug particles. This article is part of the theme issue 'Patterns in soft and biological matters'.

Keywords: dissolution; microcrystals; particle-size distribution function; phase transformations

Year: 2020 PMID： 32279642 PMCID： PMC7202765 DOI： 10.1098/rsta.2019.0246

Source DB: PubMed Journal: Philos Trans A Math Phys Eng Sci ISSN： 1364-503X Impact factor: 4.226

13 in total

1. Heterogeneous materials: metastable and non-ergodic internal structures.

Authors: Dmitri V Alexandrov; Andrey Yu Zubarev
Journal: Philos Trans A Math Phys Eng Sci Date: 2019-04-22 Impact factor: 4.226

Review 2. On the theory of crystal growth in metastable systems with biomedical applications: protein and insulin crystallization.

Authors: Dmitri V Alexandrov; Irina G Nizovtseva
Journal: Philos Trans A Math Phys Eng Sci Date: 2019-04-22 Impact factor: 4.226

3. Phase transformations in metastable liquids combined with polymerization.

Authors: Alexander A Ivanov; Irina V Alexandrova; Dmitri V Alexandrov
Journal: Philos Trans A Math Phys Eng Sci Date: 2019-04-22 Impact factor: 4.226

4. Tracking the dissolution of calcite single crystals in acid waters: a simple method for measuring fast surface kinetics.

Authors: Maria Adobes-Vidal; Harriet Pearce; Patrick R Unwin
Journal: Phys Chem Chem Phys Date: 2017-06-28 Impact factor: 3.676

Dissolution of polydisperse ensembles of crystals in channels with a forced flow.

1. Heterogeneous materials: metastable and non-ergodic internal structures.

Review 2. On the theory of crystal growth in metastable systems with biomedical applications: protein and insulin crystallization.

3. Phase transformations in metastable liquids combined with polymerization.

4. Tracking the dissolution of calcite single crystals in acid waters: a simple method for measuring fast surface kinetics.

Review 5. Mathematical modeling of drug dissolution.

6. The effect of density changes on crystallization with a mushy layer.

7. From nucleation and coarsening to coalescence in metastable liquids.

8. Analytical solutions of mushy layer equations describing directional solidification in the presence of nucleation.

9. A complete analytical solution of the Fokker-Planck and balance equations for nucleation and growth of crystals.

10. From atomistic interfaces to dendritic patterns.

1. The effect of density changes on crystallization with a mushy layer.

2. Patterns in soft and biological matters.

3. Dynamics of particulate assemblages in metastable liquids: a test of theory with nucleation and growth kinetics.

4. From nucleation and coarsening to coalescence in metastable liquids.

5. Transport phenomena in complex systems (part 2).