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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
A. A. Aksenov, S. V. Zhluktov, M. D. Kalugina, V. S. Kashirin, A. I. Lobanov, D. V. Shaurman, “Reduced mathematical model of blood coagulation taking into account thrombin activity switching as a basis for estimation of hemodynamic effects and its implementation in FlowVision package”, Computer Research and Modeling, 15:4 (2023), 1039–1067 |
2. |
A. A. Aksenov, S. V. Zhluktov, V. I. Pokhilko, K. E. Sorokin, “Implicit algorithm for solving equations of motion of incompressible fluid”, Computer Research and Modeling, 15:4 (2023), 1009–1023 |
3. |
K. E. Sorokin, A. A. Aksenov, S. V. Zhluktov, A. A. Babulin, V. I. Shevyakov, “Methodology of aircraft icing calculation in a wide range of climate and speed parameters. Applicability within the NLG-25 airworthiness standards”, Computer Research and Modeling, 15:4 (2023), 957–978 |
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2020 |
4. |
A. L. Mitin, S. V. Kalashnikov, E. A. Yankovskiy, A. A. Aksenov, S. V. Zhluktov, S. A. Chernyshev, “Methodical questions of numerical simulation of external flows on locally-adaptive grids using wall functions”, Computer Research and Modeling, 12:6 (2020), 1269–1290 |
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5. |
K. E. Sorokin, P. M. Byval'tsev, A. A. Aksenov, S. V. Zhluktov, D. V. Savitskiy, A. A. Babulin, V. I. Shevyakov, “Numerical simulation of ice accretion in FlowVision software”, Computer Research and Modeling, 12:1 (2020), 83–96 |
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6. |
G. A. Tirskii, I. G. Brykina, S. V. Zhluktov, “Numerical-analytical method for solving equations of the physical theory of meteors at variable ablation parameter”, Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2020, no. 6, 48–53 ; Moscow University Mathematics Bulletin, Moscow University Måchanics Bulletin, 75:6 (2020), 170–175 |
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2018 |
7. |
S. V. Zhluktov, A. A. Aksenov, D. V. Savitskiy, “High-Reynolds number calculations of turbulent heat transfer in FlowVision software”, Computer Research and Modeling, 10:4 (2018), 461–481 |
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2017 |
8. |
A. A. Aksenov, S. V. Zhluktov, E. E. Son, A. A. Tokar', V. S. Karpenko, “Solving fluid-structure interaction problems using the FlowVision and CAE Fidesys software packages”, Chebyshevskii Sb., 18:3 (2017), 28–43 |
9. |
A. A. Aksenov, S. V. Zhluktov, V. V. Shmelev, E. V. Shaporenko, S. F. Shepelev, S. A. Rogozhkin, A. N. Krylov, “Numerical investigations of mixing non-isothermal streams of sodium coolant in T-branch”, Computer Research and Modeling, 9:1 (2017), 95–110 |
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10. |
A. A. Aksenov, S. V. Zhluktov, V. V. Shmelev, M. N. Zhestkov, S. A. Rogozhkin, V. V. Paholkov, S. F. Shepelev, “Development of methodology for computational analysis of thermo-hydraulic processes proceeding in fast-neutron reactor with FlowVision CFD software”, Computer Research and Modeling, 9:1 (2017), 87–94 |
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11. |
T. V. Markova, A. A. Aksenov, S. V. Zhluktov, D. V. Savitskiy, A. D. Gavrilov, É. E. Son, “Numerical simulation of gas flow past scale model of hypersonic vehicle in wind tunnel”, High Temperature, 55:2 (2017), 280–285 |
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2016 |
12. |
S. V. Zhluktov, A. A. Aksenov, P. I. Karasev, “Modeling separated flow with use of two-equation turbulence model”, Computer Research and Modeling, 8:1 (2016), 79–88 |
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2015 |
13. |
S. V. Zhluktov, A. A. Aksenov, “Wall functions for high-reynolds calculations in flowvision software”, Computer Research and Modeling, 7:6 (2015), 1221–1239 |
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2014 |
14. |
S. A. Rogozhkin, A. A. Aksenov, S. V. Zhluktov, S. L. Osipov, I. D. Fadeev, E. V. Shaporenko, S. F. Shepelev, V. V. Shmelev, “Use of URANS approach for determination of temperature fluctuations when mixing triple-jet sodium at different temperatures”, Computer Research and Modeling, 6:6 (2014), 923–935 |
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15. |
S. V. Zhluktov, A. A. Aksenov, P. I. Karasev, “Modeling bypass transition within $k-\varepsilon$ approach”, Computer Research and Modeling, 6:6 (2014), 879–888 |
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2010 |
16. |
S. V. Zhluktov, A. A. Aksenov, S. A. Kharchenko, I. V. Moskalev, G. B. Sushko, A. S. Shishaeva, “Modeling of separated flows in CFD software FlowVision-HPC”, Num. Meth. Prog., 11:3 (2010), 234–245 |
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1990 |
17. |
S. V. Zhluktov, I. A. Sokolova, G. A. Tirskii, “Approximate formulas for the viscosity and heat conduction coefficients of partially dissociated and ionized air”, Prikl. Mekh. Tekh. Fiz., 31:1 (1990), 41–50 ; J. Appl. Mech. Tech. Phys., 31:1 (1990), 39–47 |
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2023 |
18. |
A. A. Aksenov, S. V. Zhluktov, V. S. Kashirin, M. L. Sazonova, S. G. Chernyi, E. A. Drozdova, A. A. Rode, “Numerical modeling of raw atomization and vaporization by flow of heat carrier gas in furnace technical carbon production into FlowVision”, Computer Research and Modeling, 15:4 (2023), 921–939 |
19. |
S. V. Zhluktov, A. A. Aksenov, N. S. Kuranosov, “Simulation of turbulent compressible flows in the FlowVision software”, Computer Research and Modeling, 15:4 (2023), 805–825 |
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2017 |
20. |
S. V. Zhluktov, “Editor's note”, Computer Research and Modeling, 9:1 (2017), 3 |
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Organisations |
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