MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE

MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE

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The initial boundary value problem on the mathematical simulation of the electrolyte concentration f ield in the controllable electrochemical resistance (CER) with plane electrodes is considered and solved. The mo del permits to conduct a complete r esearch of the electrochemical processes in full -...

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Main Authors: Tatyana P. Skakunova, Yury Y. Gerasimenko
Format: Article
Language:Russian
Published: Don State Technical University 2018-07-01
Series:Вестник Донского государственного технического университета
Subjects:
boundary conditions
parabolic diffusion equation
electric current de nsity
concentration distribution
differential equation
portrayal of concentration.
Online Access:https://vestnik.donstu.ru/jour/article/view/492
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spelling doaj-ab56bf9d88cb40698b030865d3b9bc812020-11-25T03:17:47ZrusDon State Technical UniversityВестник Донского государственного технического университета1992-59801992-60062018-07-01121-21624485MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCETatyana P. Skakunova0Yury Y. Gerasimenko1Don State Technical UniversityDon State Technical UniversityThe initial boundary value problem on the mathematical simulation of the electrolyte concentration f ield in the controllable electrochemical resistance (CER) with plane electrodes is considered and solved. The mo del permits to conduct a complete r esearch of the electrochemical processes in full - blast CER. The check computation of space - time concentration distribution at the constant control current of CER is performed.https://vestnik.donstu.ru/jour/article/view/492boundary conditionsparabolic diffusion equationelectric current de nsityconcentration distributiondifferential equationportrayal of concentration.
collection DOAJ
language Russian
format Article
sources DOAJ
author Tatyana P. Skakunova
Yury Y. Gerasimenko
spellingShingle Tatyana P. Skakunova
Yury Y. Gerasimenko
MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE
Вестник Донского государственного технического университета
boundary conditions
parabolic diffusion equation
electric current de nsity
concentration distribution
differential equation
portrayal of concentration.
author_facet Tatyana P. Skakunova
Yury Y. Gerasimenko
author_sort Tatyana P. Skakunova
title MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE
title_short MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE
title_full MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE
title_fullStr MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE
title_full_unstemmed MATHEMATICAL SIMULATION OF ELECTROLYTE CONCENTRATION FIELD IN CONTROLLABLE ELECTROCHEMICAL RESISTANCE
title_sort mathematical simulation of electrolyte concentration field in controllable electrochemical resistance
publisher Don State Technical University
series Вестник Донского государственного технического университета
issn 1992-5980
1992-6006
publishDate 2018-07-01
description The initial boundary value problem on the mathematical simulation of the electrolyte concentration f ield in the controllable electrochemical resistance (CER) with plane electrodes is considered and solved. The mo del permits to conduct a complete r esearch of the electrochemical processes in full - blast CER. The check computation of space - time concentration distribution at the constant control current of CER is performed.
topic boundary conditions
parabolic diffusion equation
electric current de nsity
concentration distribution
differential equation
portrayal of concentration.
url https://vestnik.donstu.ru/jour/article/view/492
work_keys_str_mv AT tatyanapskakunova mathematicalsimulationofelectrolyteconcentrationfieldincontrollableelectrochemicalresistance
AT yuryygerasimenko mathematicalsimulationofelectrolyteconcentrationfieldincontrollableelectrochemicalresistance
_version_ 1724630055825440768

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