Geodesic
Automated identification system of conditions for homogeneous and heterogeneous reactions in multipurpose optimization problems
Sibirskij žurnal vyčislitelʹnoj matematiki, Tome 22 (2019) no. 2, pp. 137-151.

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An automated system for identifying the conditions of homogeneous and heterogeneous reactions includes mathematical modeling of a chemical reaction, determination of optimization criteria conditions for variable parameters, setting and multipurpose optimization problem solution and an optimal control problem, development of efficient algorithms for a computing experiment. Modeling and optimization of a homogeneous and heterogeneous catalytic reactions are carried out. Optimal conditions for carrying out reactions to achieve the specified criteria are determined. 
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K. F. Koledina; S. N. Koledin; I. M. Gubaydullin. Automated identification system of conditions for homogeneous and heterogeneous reactions in multipurpose optimization problems. Sibirskij žurnal vyčislitelʹnoj matematiki, Tome 22 (2019) no. 2, pp. 137-151. http://geodesic.mathdoc.fr/item/SJVM_2019_22_2_a2/

[1] Slin'ko M.G., “Istoriya razvitiya matematicheskogo modelirovaniya kataliticheskih protsessov i reaktorov”, Teoreticheskie osnovy himicheskoy tekhnologii, 41:1 (2007), 16–34

[2] Kulikov I., Chernykh I., Tutukov A., “A new hydrodynamic model for numerical simulation of interacting galaxies on Intel Xeon Phi supercomputers”, J. Phys.: Conf. Series, 719 (2016), 012006 | DOI

[3] Khoperskov S. A., Vasiliev E. O., Sobolev A. M., Khoperskov A. V., “The simulation of molecular clouds formation in the Milky Way”, Monthly Notices of the Royal Astronomical Society, 428:1 (2013), 2311–2320 | DOI

[4] Koledin S. N., Koledina K. F., Gubaydullin I. M., Spivak S. I., “Opredelenie optimal'nyh usloviy kataliticheskih protsessov na osnove ekonomicheskih kriteriev”, Himicheskaya promyshlennost' segodnya, 2016, no. 10, 24–35

[5] Karpenko A. P., Sovremennye algoritmy poiskovoy optimizatsii. Algoritmy, vdohnovlennye prirodoy, uchebnoe posobie, Izd-vo MGTU im. N.E. Baumana, M., 2014

[6] Belous V. V., Groshev S. V., Karpenko A. P., Shibitov I. A., “Otsenka kachestva Pareto-approksimatsii v zadache mnogokriterial'noy optimizatsii. Obzor programmnyh sistem”, Nauchnoe izdanie MGTU im. N.E. Baumana “Nauka i obrazovanie”, 2014, no. 4, 300–320

[7] Koledin S. N., Koledina K. F., “Optimal'noe upravlenie i chuvstvitel'nost' optimuma v zadachah himicheskoy kinetiki”, Zhurn. Srednevolzhskogo matematicheskogo obshchestva, 18:3 (2016), 137–144

[8] Spivak S. I., Koledina K. F., Koledin S. N., Gubaydullin I. M., “Informatsionno-vychislitel'naya analiticheskaya sistema teoreticheskoy optimizatsii kataliticheskih protsessov”, Prikladnaya informatika, 12:1(67) (2017), 39–49 | MR

[9] Koledina K. F., Gubaidullin I. M., “Kinetics and mechanism of olefin catalytic hydroalumination by organoaluminum compounds”, Russian Journal of Physical Chemistry A, 90:5 (2016), 914–921 | DOI | DOI

[10] Nurislamova L. F., Gubaydullin I. M., Koledina K. F., Safin R. R., “Kinetic model of the catalytic hydroalumination of olefins with organoaluminum compounds”, Reaction Kinetics, Mechanisms and Catalysis, 117:1 (2016), 1–14 | DOI

[11] Koledina K. F., Koledin S. N., Gubaydullin I. M., Safin R. R., Ahmetov I. V., “Informatsionnaya sistema postroeniya kineticheskoy modeli kataliticheskoy reaktsii, planirovanie ekonomicheski optimal'nogo himicheskogo eksperimenta”, Sistemy upravleniya i informatsionnye tekhnologii, 61:3 (2015), 79–84

[12] Menschikov V. A., Goldshtein L. Kh., Semenov I. P., “Issledovanie kinetiki degidrirovaniya etanola v etilatsetat”, Kinetika i kataliz, 55:1 (2014), 14–19 | DOI

[13] Chokendorf I., Naymantsvedrayt H., Sovremennyy kataliz i himicheskaya kinetika, Izd. dom “Intellekt”, Dolgoprudnyy, 2010

[14] Anastas P. T., Warner J. C., Green Chemistry: Theory and Practice, Oxford University Press, New York, 1998 | MR

[15] Arico F., Tundo P., “Dimethyl carbonate: a modern green reagent and solvent”, Russian Chemical Reviews, 79:6 (2010), 479–489 | DOI

[16] Khusnutdinov R. I., Shchadneva N. A., Mayakova Yu.Yu., “Synthesis of alkyl methyl ethers and alkyl methyl carbonates by reaction of alcohols with dimethyl carbonate in the presence of tungsten and cobalt complexes”, Russian Journal of Organic Chemistry, 50:6 (2014), 790–795 | DOI

[17] Shaikh A. G., Sivaram S., “Organic carbonates”, Chem. Rev., 96 (1996), 951–976 | DOI

[18] Koledina K. F., Koledin S. N., Schadneva N. A., Mayakova Y. Y., Gubaydullin I. M., “Kinetic model of the catalytic reaction of dimethylcarbonate with alcohols in the presence CO2(CO)8 and W(CO)6”, Reaction Kinetics, Mechanisms and Catalysis, 121:2 (2017), 1–14 | DOI

[19] Koledina K. F., Koledin S. N., Shchadneva N. A., Gubaidullin I. M., “Kinetics and mechanism of the catalytic reaction between alcohols and dimethyl carbonate”, Russian Journal of Physical Chemistry A, 91:3 (2017), 444–449 | DOI | DOI

[20] Koledin C. N., Koledina K. F., “Planirovanie ekonomicheski optimal'nogo himicheskogo eksperimenta na osnove kineticheskoy modeli kataliticheskoy reaktsii vzaimodeystviya spirtov s dimetilkarbonatom”, Zhurn. Srednevolzhskogo matematicheskogo obshchestva, 17:2 (2015), 43–50

[21] Abramson M., Charles A., Dennis J. E., Digabel J., Digabel S., “OrthoMADS: a deterministic MADS instance with orthogonal directions”, SIAM J. Optimization, 20:3 (2009), 948–966 | DOI | MR | Zbl

[22] Sobol' I.M., Statnikov R. B., Vybor optimal'nyh parametrov v zadachah so mnogimi kriteriyami, uchebnoe posobie dlya vuzov, Drofa, M., 2006

[23] Ryu J. H., Kim S., Wan H., “Pareto front approximation with adaptive weighted sum method in multiobjective simulation optimization”, Proc. of the 2009 Winter Simulation Conference, WSC 2009 (Austin, 2009), 623–633 | Zbl

[24] Kalyanmoy D., Pratap A., Agarwal S., Meyarivan T., “A fast and elitist multiobjective genetic algorithm: NSGA-II”, IEEE transactions on evolutionary computation, 6:2 (2002), 182–197 | DOI

[25] Deb K., Mohan M., Mishra S., “Towards a quick computation of well-Spread pareto-optimal solutions”, Proc. of Intern. Conf. on Evolutionary Multi-Criterion Optimization, EMO 2003, Springer, 2003, 222–236 | DOI | MR | Zbl

[26] Aleksandrov V. M., “Optimal resource consumption control of perturbed systems”, Numerical Analysis and Applications, 10:3 (2017), 185–197 | DOI | MR

[27] Aleksandrov V. M., “Computing of optimal inertial control of a linear system”, Numerical Analysis and Applications, 8:1 (2015), 1–12 | DOI | MR | Zbl