Simulation of different modes of behavior monomer conversion in radical polymerization processes diene

M. S. Yanbekov; È. R. Gizzatova; S. I. Spivak

Geodesic

Parcourir par

Simulation of different modes of behavior monomer conversion in radical polymerization processes diene

M. S. Yanbekov ; È. R. Gizzatova ; S. I. Spivak

Žurnal Srednevolžskogo matematičeskogo obŝestva, Tome 18 (2016) no. 4, pp. 159-167.

Voir la notice de l'article provenant de la source Math-Net.Ru

Résumé

In the article kinetic features of the polymerization process are described by the methods and means of mathematical modeling. Two approaches to modeling of polymerization processes, static and kinetic, are discussed. As a result of mathematical models’ analysisit is possible to trace the course of the process qualitatively, to identify the sensitivity of the individual reagents to changing of process conditions. Functional relationships that characterize the number of parameters of the process are obtained, too. Mathematical model for the radical polymerization of dienes is presented in the form of a system of ordinary differential equations. Due to the termination rate constants’ distribution in time, the system is stiff.So to solve it we use the approach allowing to obtain the intervals of solution stability, the conversion dependence at different moments and to determine the kinetics of diene’s radical polymerization mechanism.

Keywords: radical polymerization, kinetics, monomer conversion, inverse kinetic problem.
Mots-clés : interpolation

@article{SVMO_2016_18_4_a16,
     author = {M. S. Yanbekov and \`E. R. Gizzatova and S. I. Spivak},
     title = {Simulation of different modes of behavior monomer conversion in radical polymerization processes diene},
     journal = {\v{Z}urnal Srednevol\v{z}skogo matemati\v{c}eskogo ob\^{s}estva},
     pages = {159--167},
     publisher = {mathdoc},
     volume = {18},
     number = {4},
     year = {2016},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/SVMO_2016_18_4_a16/}
}

TY  - JOUR
AU  - M. S. Yanbekov
AU  - È. R. Gizzatova
AU  - S. I. Spivak
TI  - Simulation of different modes of behavior monomer conversion in radical polymerization processes diene
JO  - Žurnal Srednevolžskogo matematičeskogo obŝestva
PY  - 2016
SP  - 159
EP  - 167
VL  - 18
IS  - 4
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/SVMO_2016_18_4_a16/
LA  - ru
ID  - SVMO_2016_18_4_a16
ER  -

%0 Journal Article
%A M. S. Yanbekov
%A È. R. Gizzatova
%A S. I. Spivak
%T Simulation of different modes of behavior monomer conversion in radical polymerization processes diene
%J Žurnal Srednevolžskogo matematičeskogo obŝestva
%D 2016
%P 159-167
%V 18
%N 4
%I mathdoc
%U http://geodesic.mathdoc.fr/item/SVMO_2016_18_4_a16/
%G ru
%F SVMO_2016_18_4_a16

M. S. Yanbekov; È. R. Gizzatova; S. I. Spivak. Simulation of different modes of behavior monomer conversion in radical polymerization processes diene. Žurnal Srednevolžskogo matematičeskogo obŝestva, Tome 18 (2016) no. 4, pp. 159-167. http://geodesic.mathdoc.fr/item/SVMO_2016_18_4_a16/

Bibliographie
Cité par

[1] A. Hui, A. Hamielec, “Thermal polymerization of styrene at high conversions and temperatures. An experimental study”, Journal of Applied Polymer Science, 16 (1972), 749–769 | DOI

[2] S. L. Podvalnyi, Modelirovanie promyshlennykh protsessov polimerizatsii, Khimiya, M., 1979, 256 pp.

[3] A. V. Tropin, S. I. Maslennikov, S. I. Spivak, “Novyi podkhod k resheniyu nelineinykh sistem differentsialnykh uravnenii khimicheskoi kinetiki”, Kinetika i kataliz, 5 (1995), 658–664

[4] J. Brandrup, E. H. Immergut, E. A. Grulke, Polymer handbook, 4, A wiley interscience publication, 1999, 2317 pp.

[5] T. S. Usmanov, I. K. Gataullin, S. M. Usmanov, S. I. Spivak, Yu. B. Monakov, “O reshenii obratnoi zadachi formirovaniya molekulyarno-massovykh raspredelenii pri ionno-koordinatsionnoi polimerizatsii”, Doklady AN, 385:3 (2002), 368–371 | Zbl

[6] T. S. Usmanov, E. R. Maksyutova, I. K. Gataullin, S. I. Spivak, S. M. Usmanov, Yu. B. Monakov, “Obratnaya kineticheskaya zadacha ionno-koordinatsionnoi polimerizatsii dienov”, Vysokomolek. soed., 2 (2003), 181–187

[7] T. A. Mikhailova, E. N. Miftakhov, I. Sh. Nasyrov, S. A. Mustafina, “Modelirovanie sinteza butadien-stirolnogo sopolimera metodom Monte-Karlo”, Vestnik Bashkirskogo universiteta, 1 (2015), 73–77

[8] T. A. Mikhailova, I. V. Grigorev, S. A. Mustafina, “Issledovanie sinteza butadien-stirolnogo sopolimera na osnove metoda Monte-Karlo s uchetom raspredeleniya po vremeni prebyvaniya”, Fundamentalnye issledovaniya, 5:3 (2015), 517–520 | MR

[9] E. R. Gizzatova, S. I. Spivak, S. V. Kolesov, “Matematicheskoe modelirovanie kineticheskoi neodnorodnosti konstant bimolekulyarnogo obryva radikalnoi polimerizatsii”, Sistemy upravleniya i informatsionnye tekhnologii, 2015, no. 1.1(59), 126–129

[10] V. M. Yanborisov, A. A. Sultanova, S. V. Kolesov, “Inversnyi algoritm modelirovaniya radikalnoi polimerizatsii metodom Monte-Karlo”, Matematicheskoe modelirovanie, 2016, no. 5, 3–15 | MR | Zbl

[11] A. A. Sultanova, V. M. Yanborisov, S. V. Kolesov, A. K. Frizen, “Kineticheskie parametry reaktsii pri polimerizatsii metilmetakrilata v prisutstvii azobisizobutironitrila i ferrotsena”, Vestnik Bashkirskogo universiteta, 2 (2016), 41–48