name

Belashova Ekaterina Dmitrievna

Scholastic degree

•

Academic rank

—

Honorary rank

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Organization, job position

• Kuban State University
 
  инженер

Research interests

ионообменные мембраны, электромембранные системы, электродиализ амфолит-содержащих растворов, вольтамперометрия, хронопотенциометрия, импедансная спектроскопия, математическое моделирование

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Email

ekaterinabelashova23@gmail.com

Current rating (overall rating of articles)

0

TOP5 co-authors

• Kovalenko A. V. ¹
• Urtenov M. K. ¹
• Pismenskiy A. V. ¹

Articles count: 1

Сформировать список работ, опубликованных в Научном журнале КубГАУ

• pdf  434.932kb doc 434.932kb Views: 415 Date: 30.11.2016
  Pismenskiy A. V. Belashova E. D. Urtenov M. K. Kovalenko A. V.

  NON-STATIONARY 2D MODEL OF THE GRAVITATIONAL CONVECTION IN ELECTRODIALYSIS OF AMPHOLYTECONTAINING SOLUTIONS

  01.00.00 Physical-mathematical sciences

  Description

  An analysis of the experimental data obtained by the authors, as well as reference books, allowed to hypothesize about the essential role of gravitational convection in electromembrane systems with ampholytes even in underlimiting current regimes. The article is devoted to the development of the mathematical model of ion transport in a flow elecrtomembrane system during electrodialysis of ampholyte-containing solutions with taking into account a possible appearance of gravitational convection, in particular, due to nonisothermal protonation–deprotonation reactions of ampholytes. The article presents the boundary value problem that is the new mathematical model for diffusion, convection and electromigration of four components of the solution (ions of sodium, dihydrogen phosphate and hydrogen, as well as molecules of orthophosphoric acid) in a half of an electrodialysis desalination channel, adjacent to an anion-exchange membrane. The membrane is considered as ideally selective and homogeneous. The system of partial differential equations, that is the base of the model, also includes equations of Navier-Stokes, material balance, convective heat conduction and the electroneutrality condition. The system of equations is supplemented by a number of natural and original boundary conditions. A distinctive feature of this study is the absence of assumptions about the equilibrium of chemical reactions in a diffusion layer. The results of the study can be used for the development of environmentally rational and resource saving membrane technologies for a processing of products of agro-industrial complex