(in Russian)

Chief researcher, Ph.D., Dr. Sci., Professor Department of Mechanics Sector of kinetic theory of gases Email: aristovvl (at) yandex.ru

       Graduated from the Moscow Institute of Physics and Technology (Faculty of Control and Applied Mathematics, Department of Mathematical Physics), and then completed his postgraduate studies at the Moscow Institute of Physics and Technology and successfully defended his thesis for the degree of candidate (Ph.D.) of physical and mathematical sciences. Then successfully defended his thesis for the degree of Doctor of Physics and Mathematics (Dr. Sci.) on the topic "Methods for the direct solving the Boltzmann equation and their application to study rarefied gas flows". He is an employee of Dorodnicyn Computing Center of the Russian Academy of Sciences (now part of the structure of the Federal Research Center "Computer Science and Control" of the Russian Academy of Sciences). From 2005 to 2017, he was the head of the subdivision of the kinetic theory of gases in this research center.

       A member of the Russian National Committee for Theoretical and Applied Mechanics.

       A member of International Advisory Committee of Asian Conference on Computational Fluid Dynamics (ACFD).

       Prof. Aristov is a specialist in the field of kinetic theory and computational fluid dynamics. His research track record and interests include direct methods for solving the Boltzmann equation, study of nonlinear nonclassical effects in the nonequilibrium flows, analytical and numerical methods in different areas of gas dynamics, rarefied flows, in particular turbulent phenomena, kinetic method in statistical physics for description dissipative structures.

       Participated in numerous international projects in collaboration with researchers from France, Poland, Italy, USA etc. Participated in projects of the Russian Foundation for Basic Research, led the project of the Russian Science Foundation 2014-2016 "Mathematical modeling of nonequilibrium structures in open systems using the methods of kinetic theory", now he is the project manager of the Russian Foundation for Basic Research (2018-2020), 18-01-00899 "Construction of hybrid methods based on the Boltzmann equation and models of lattice gas".

       Scopus, Math-Net, Google Scholar, Publons, ORCID.

Author of over 160 scientific publications, including several monographs, in particular:

1. Aristov V.V. Direct methods for solving the Boltzmann equation and study of nonequilibrium flows. Dordrecht: Kluwer Academic Publishers, 2001 (2nd Ed. Springer, 2012).

Some published articles in recent years:

1. Aristov V.V., Voronich I.V., Zabelok S.A. Nonequilibrium nonclassical phenomena in regions with membrane boundaries // Physics of Fluids. 2021. V. 33. 012009. doi: 10.1063/5.0036089
2. V.V. Aristov, O.V. Ilyin, O.A. Rogozin. Kinetic multiscale scheme based on the discrete-velocity and lattice-Boltzmann methods // Journal of Computational Science. V. 40. 2020. p. 101064. doi: 10.1016/j.jocs.2019.101064
3. Aristov V.V., Voronich I.V., Zabelok S.A. Direct methods for solving the Boltzmann equations: Comparisons with direct simulation Monte Carlo and possibilities // Physics of Fluids. 2019. V. 31. 097106. doi: 10.1063/1.5108670
4. Aristov V.V. Biological systems as nonequilibrium structures described by kinetic methods // Results in Physics. 2019. V. 13. 102232. doi: 10.1016/j.rinp.2019.102232
5. O. A. Rogozin, V. V. Aristov, A. Peng, and Z. Li. Regularization and modeling of the Boltzmann collisional operator: Tcheremissine and Shakhov approaches. AIP Conference Proceedings 2132, 060008 (2019); doi: 10.1063/1.5119548
6. V. V. Aristov, O. V. Ilyin, and O. A. Rogozin. A hybrid numerical scheme based on coupling discrete-velocities models for the BGK and LBGK equations. AIP Conference Proceedings 2132, 060007 (2019); doi: 10.1063/1.5119547
7. Aristov V.V. Nonclassical Transport in Nonequilibrium Flows. AIP Conference Proceedings 2132, 180007 (2019); doi: 10.1063/1.5119665
8. Aristov V.V. Methods of kinetic theory in problems of econophysics. AIP Conference Proceedings 2132, 190004 (2019); doi: 10.1063/1.5119676
9. V.V. Aristov, O.V. Ilyin, Kinetic approach for describing biological systems // International Symposium on Rarefied Gas Dynamics. AIP Conf. Proc. 2016. V. 1786. P. 070014.1-8.
10. Aristov V. V., Frolova A.A., Zabelok S.A. Problems for Kinetic Equation with Nonequilibrium Boundary Conditions and Possible Tests // 30 International Symposium on Rarefied Gas Dynamics. AIP Conf. Proc. 2016. 1786. 070013.
11. V.V. Aristov, S.A. Zabelok, A.A. Frolova, The Possibility of Anomalous Heat Transfer in Flows with Nonequilibrium Boundary Conditions. Doklady Physics, 2017, Vol. 62, No. 3, pp. 149-153
12. O.I.Rovenskaya V.V.Aristov. Kinetic simulation of a supersonic compressible flow over different geometry bodies // European Journal of Mechanics - B/Fluids, Volume 64, July-August 2017, P. 102-111.
13. Aristov V. Fedosov M., Frolova A.; Zabelok S. Problem with nonequilibrium boundary conditions in the kinetic theory of gases. Comput. Math. Math. Phys., 56:5 (2016), 854-863
14. V.V. Aristov, O.M.Rovenskaya. Application of a direct method for solving the Boltzmann equation in supersonic flow computation. Comput. Math. Math. Phys., 56, pp. 1938-1947 (2016).
15. Aristov V. Frolova A.; Zabelok S. Complex nonequilibrium flows with slow and fast chemical reactions for simulation processes in open systems // Journal of Mechanical Science and Technology, 2015. Vol. 29. Issue 5. P. 1859-1867.
16. Aristov V.V., Shakhov E.M., Titarev V.A., Zabelok S.A. Comparative study for rarefied gas flow into vacuum through a short circular pipe // Vacuum. 2014. V. 103. P. 5-8.
17. V.V. Aristov, A.A.Frolova, S.A. Zabelok. Nonequilibrium kinetic processes with chemical reactions and complex structures in open systems // Europhys. Letters. 2014. V. 106, 20002-p1 - 20002-p6.
18. V.V.Aristov, A.A.Frolova, S.A.Zabelok. Complex nonequilibrium flows with slow and fast chemical reactions studied by kinetic methods // Proc. of the 10th Asian Conference of Computational Fluid Dynamics. Korea. Jeju. 2014. P. 111-115.
19. V. Aristov, A. Frolova and S. Zabelok. Kinetic Models with Chemical Reactions and Nonequilibrium Entropy in Open Systems // Rarefied Gas Dynamics. Proc. 29th Int. Symp., AIP Conf. Proc. 1628. 2014. P. 610-617.
20. S. Zabelok, A. Stroganov and V. Aristov. Deterministic GPU Boltzmann solver // Rarefied Gas Dynamics. Proc. 29th Int. Symp., AIP Conf. Proc. 1628. 2014. P. 1009-1015.
21. V. Aristov and O. Ilyin. Processes of Aggression Described by Kinetic Methods // Rarefied Gas Dynamics. Proc. 29th Int. Symp., AIP Conf. Proc. 1628. 2014. P. 661-666.
22. Aristov V.V., Ilyin O.V. Kinetic Models for Historical Processes of Fast Invasion and Aggression // Phys. Rev. E. 2015. V. 91. 04286. V.V. Aristov, O.M.Rovenskaya. Kinetic description of the turbulence in the supersonic compressible flow over a backward/forward facing step // Computers and Fluids. 2015. V. 111, p. 150-158.
23. V.V. Aristov, A.A. Frolova, S.A. Zabelok. Kinetics with Chemical Reactions and nonequilibrium Structures in Open Systems // AIP Conf. Proc. 1558, 2013, P. 1050-1053; doi: 10.1063/1.4825 686.
24. Aristov V. V., Frolova A. A., Zabelok S, Arslanbekov R, Kolobov V. Simulations of pressure-driven flows through channels and pipes with unified flow solver // Vacuum, Special Issue "Vacuum Gas Dynamics: Theory, Experiments and Practical Applications". 2012. V. 86. P. 1717-1724.
25. V. V. Aristov, A. A. Frolova and S. A. Zabelok Supersonic flows with nontraditional transport described by kinetic methods // Commun. Comput. Phys., 11 (2012), P. 1334-1346.
26. Vladimir Aristov, Anna Frolova, and Sergei Zabelok New possibilities of kinetic description of nonequilibrium structures // AIP Conf. Proc. 1501, 2012, pp. 183-190.
27. Vladimir I. Kolobov, Robert R. Arslanbekov, Vladimir V. Aristov, Anna A. Frolova, and Sergey A. Zabelok. Unified flow solver for transient rarefied-continuum flows //AIP Conf. Proc. 1501, 2012, P. 414-421.
28. V.V.Aristov. The gravitational interaction and riemannian geometry based on the relational statistical space-time concept // Gravitation and Cosmology. 2011. V. 17. N2. p. 166-169.
29. V.V. Aristov, M.V. Paniashkin. Study of spatial relaxation by means of solving a kinetic equation. Comp. Math. Math. Phys. 2011. V. 51. No. 1, P. 122-132.
30. V. V. Aristov, A. A. Frolova, S. A. Zabelok, V. I. Kolobov, R. R. Arslanbekov. Acceleration of Deterministic Boltzmann Solver with Graphics Processing Units // AIP Conference Proceedings. 2011. V. 1333. p. 867-872.
31. V. V. Aristov, O.V.Olyin. Spatio-temporal Unstable Chaotic Solutions of the Carleman Kinetic System // AIP Conference Proceedings. 2011. Vol. 1333. p. 649-654.
32. V. V. Aristov, O.I.Rovenskaya. 3D Numerical Simulation of the Eddy System on the Basis of the Boltzmannn Equation // AIP Conference Proceedings. 2011. V. 1333. p. 1379-1384.
33. Aristov V.V., Rovenskaya O.I. Application of the Boltzmann kinetic equation to the eddy problem // Computers and Fluids. 2011. V. 50, P.189-198.
34. V. V. Aristov. Hybrid schemes of direct methods for solving the Boltzmannn equation and their applications // AIP Conference Proceedings. 2011. Vol. 1389. P. 1120-1123.
35. V. V. Aristov, A. A. Frolova and S. A. Zabelok Supersonic flows with nontraditional transport described by kinetic methods // Commun. Comput. Phys., 11 (2012), P. 1334-1346.
36. Vladimir Aristov, Anna Frolova, and Sergei Zabelok New possibilities of kinetic description of nonequilibrium structures // AIP Conf. Proc. 1501, 2012, pp. 183-190.
37. Vladimir I. Kolobov, Robert R. Arslanbekov, Vladimir V. Aristov, Anna A. Frolova, and Sergey A. Zabelok. Unified flow solver for transient rarefied-continuum flows //AIP Conf. Proc. 1501, 2012, P. 414-421.
38. Aristov V. V., Frolova A. A., Zabelok S, Arslanbekov R, Kolobov V. Simulations of pressure-driven flows through channels and pipes with unified flow solver // Vacuum, Special Issue "Vacuum Gas Dynamics: Theory, Experiments and Practical Applications". 2012. V. 86. P. 1717-1724.

Invited speaker at the different conferences including the last (31st) International Symposium on Rarefied Gas Dynamics, Glasgow, UK, 2018.

       Professor at the Department of Mathematical Modeling of Complex Systems and Optimization of the Moscow Institute of Physics and Technology. Professor at the Department of Higher Mathematics, MIREA (Russian Technological University). He was the scientific supervisor of several researchers who successfully defended their Ph.D. theses. He also supervised numerous bachelor's and master's degrees.

       Literature