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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
Изучение процессов дополнительной генерации турбулентности в двухфазных потоках с крупными частицами
TVT, Forthcoming paper |
2. |
A. Yu. Varaksin, N. V. Vasilev, S. N. Vavilov, N. S. Zub, “О некоторых особенностях осаждения одиночных капель на модель с полусферическим торцем при различных температурах”, TVT, 62:4 (2024), 558–562 |
3. |
A. Yu. Varaksin, “Межчастичные столкновения в турбулентных двухфазных потоках”, TVT, 62:3 (2024), 458–473 |
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2023 |
4. |
L. S. Yanovskii, A. Yu. Varaksin, K. J. Arefyev, V. M. Ezhov, S. I. Martynenko, N. A. Chervonnaya, “Ignition and combustion of synthetic high molecular hydrocarbons in high enthalpy airflow”, Fizika Goreniya i Vzryva, 59:4 (2023), 35–43 ; Combustion, Explosion and Shock Waves, 59:4 (2023), 424–431 |
1
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5. |
A. Yu. Varaksin, “Гидрогазодинамика и теплофизика двухфазных потоков с твердыми частицами, каплями и пузырями”, TVT, 61:6 (2023), 926–948 |
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2022 |
6. |
A. Yu. Varaksin, A. A. Mochalov, A. A. Zhelebovsky, “Flow characteristics in the wake of a large moving particle”, TVT, 60:5 (2022), 701–707 ; High Temperature, 60:5 (2022), 639–644 |
1
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7. |
A. Yu. Varaksin, A. A. Zhelebovsky, A. A. Mochalov, “Measurements of the particle concentration fields in a two-phase flow past a blunt body”, TVT, 60:3 (2022), 415–420 ; High Temperature, 60:3 (2022), 374–378 |
1
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2021 |
8. |
A. Yu. Varaksin, N. V. Vasilev, S. N. Vavilov, K. A. Khodakov, “On some features of the gravitational deposition of drops on a model with a hemispherical end”, TVT, 59:5 (2021), 715–721 ; High Temperature, 60:1, Suppl. 2 (2022), S208–S214 |
3
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9. |
A. Yu. Varaksin, “Analysis of mechanisms of the effect of macro-, micro-, and nanoparticles on the energy of carrier gas turbulence”, TVT, 59:4 (2021), 527–532 ; High Temperature, 60:1, Suppl. 1 (2022), S39–S43 |
5
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10. |
A. Yu. Varaksin, “К выбору инерционности частиц, используемых для оптической диагностики высокоскоростных газовых потоков”, TVT, 59:3 (2021), 411–414 |
6
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2020 |
11. |
A. Yu. Varaksin, “Two-phase boundary layer of gas with solid particles”, TVT, 58:5 (2020), 789–808 ; High Temperature, 58:5 (2020), 716–732 |
17
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12. |
A. Yu. Varaksin, “Two-phase flows with solid particles, droplets, and bubbles: Problems and research results (review)”, TVT, 58:4 (2020), 646–669 ; High Temperature, 58:4 (2020), 595–614 |
27
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2019 |
13. |
A. Yu. Varaksin, A. A. Mochalov, M. E. Romash, “Experimental study of some characteristics of nonstationary wall-free fire whirls”, High Temperature, 57:5 (2019), 738–743 |
1
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14. |
A. Yu. Varaksin, “Collision of particles and droplets in turbulent two-phase flows”, TVT, 57:4 (2019), 588–608 ; High Temperature, 57:4 (2019), 555–572 |
31
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2018 |
15. |
A. Yu. Varaksin, “Gas-solid flows past bodies”, TVT, 56:2 (2018), 282–305 ; High Temperature, 56:2 (2018), 275–295 |
41
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2017 |
16. |
A. Yu. Varaksin, M. V. Protasov, “The effect of gas injection on the protection of body surfaces streamlined by a two-phase flow”, TVT, 55:6 (2017), 785–788 ; High Temperature, 55:6 (2017), 945–948 |
12
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17. |
N. V. Vasil'ev, A. Yu. Varaksin, Yu. A. Zeigarnik, K. A. Khodakov, A. V. Epel'fel'd, “Characteristics of subcooled water boiling on structured surfaces”, TVT, 55:6 (2017), 712–719 ; High Temperature, 55:6 (2017), 880–886 |
24
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18. |
A. Yu. Varaksin, “Air tornado-like vortices: Mathematical modeling”, TVT, 55:2 (2017), 291–316 ; High Temperature, 55:2 (2017), 286–309 |
40
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19. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, “On the possibility of generating nonstationary fire whirls under the conditions of solid fuel axisymmetric burning”, TVT, 55:1 (2017), 150–153 ; High Temperature, 55:1 (2017), 154–157 |
1
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2016 |
20. |
A. Yu. Varaksin, “Concentrated air and fire vortices: Physical modeling (a review)”, TVT, 54:3 (2016), 430–452 ; High Temperature, 54:3 (2016), 409–427 |
32
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2015 |
21. |
A. N. Arbekov, A. Yu. Varaksin, A. A. Inozemtsev, “Influence of the by-pass ratio of a basic turbofan engine on the possibility of creating aeroderivative trigeneration power plants”, TVT, 53:6 (2015), 928–933 ; High Temperature, 53:6 (2015), 899–903 |
1
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22. |
A. Yu. Varaksin, M. V. Protasov, M. E. Romash, V. N. Kopeitsev, “Generation of free concentrated fire vortices under laboratory conditions”, TVT, 53:4 (2015), 630–633 ; High Temperature, 53:4 (2015), 595–598 |
9
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23. |
A. Yu. Varaksin, “Effect of particles on carrier gas flow turbulence”, TVT, 53:3 (2015), 441–466 ; High Temperature, 53:3 (2015), 423–444 |
45
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2014 |
24. |
A. Yu. Varaksin, “Clusterization of particles in turbulent and vortex two-phase flows”, TVT, 52:5 (2014), 777–796 ; High Temperature, 52:5 (2014), 752–769 |
80
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25. |
A. Yu. Varaksin, M. V. Protasov, Yu. S. Teplitskiy, “About Choice of Particle Parameters for Vizualization and Diagnostics of Free Consentrated Air Vortices”, TVT, 52:4 (2014), 581–587 ; High Temperature, 52:4 (2014), 554–559 |
36
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2013 |
26. |
A. Yu. Varaksin, M. V. Protasov, V. P. Yatsenko, “Analysis of the deposition processes of solid particles onto channel walls”, TVT, 51:5 (2013), 738–746 ; High Temperature, 51:5 (2013), 665–672 |
10
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27. |
M. V. Protasov, A. Yu. Varaksin, “Analysis of collisions of solid bidispersed particles during their gravitational sedimentation”, TVT, 51:4 (2013), 557–566 ; High Temperature, 51:4 (2013), 500–508 |
3
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28. |
A. Yu. Varaksin, “Fluid dynamics and thermal physics of two-phase flows: Problems and achievements”, TVT, 51:3 (2013), 421–455 ; High Temperature, 51:3 (2013), 377–407 |
191
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2012 |
29. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, M. A. Gorbachev, “Method of impact on free nonstationary air vortices”, TVT, 50:4 (2012), 533–537 ; High Temperature, 50:4 (2012), 496–500 |
29
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2011 |
30. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, M. A. Gorbachev, “Physical Simulation of Air Tornados: Some Dimensionless Parameters”, TVT, 49:2 (2011), 317–320 ; High Temperature, 49:2 (2011), 310–313 |
33
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2010 |
31. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, M. A. Gorbachev, “Simulation of free heat vortexes: Generation, stability, control”, TVT, 48:6 (2010), 965–972 ; High Temperature, 48:6 (2010), 918–925 |
30
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32. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, “The possibilities of visualization in the case of simulation of air tornados”, TVT, 48:4 (2010), 617–622 ; High Temperature, 48:4 (2010), 588–592 |
31
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33. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, “The possibility of influencing vortex atmospheric formations”, TVT, 48:3 (2010), 433–437 ; High Temperature, 48:3 (2010), 411–415 |
25
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34. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, S. I. Taekin, “The parameters of unstable stratification of air leading to generation of free vortexes”, TVT, 48:2 (2010), 269–273 ; High Temperature, 48:2 (2010), 251–255 |
27
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2009 |
35. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, “Controlling the behavior of air tornados”, TVT, 47:6 (2009), 870–876 ; High Temperature, 47:6 (2009), 836–842 |
26
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36. |
A. Yu. Varaksin, M. E. Romash, S. I. Taekin, V. N. Kopeitsev, “The generation of free concentrated air vortexes under laboratory conditions”, TVT, 47:1 (2009), 84–88 ; High Temperature, 47:1 (2009), 78–82 |
25
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2008 |
37. |
A. Yu. Varaksin, M. E. Romash, V. N. Kopeitsev, S. I. Taekin, “The possibility of physical simulation of air tornados under laboratory conditions”, TVT, 46:6 (2008), 957–960 ; High Temperature, 46:6 (2008), 888–891 |
23
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2007 |
38. |
A. Yu. Varaksin, M. V. Protasov, T. F. Ivanov, A. F. Polyakov, “An experimental investigation of the behavior of solid particles during their motion in smooth and dimpled pipes”, TVT, 45:2 (2007), 254–260 ; High Temperature, 45:2 (2007), 221–226 |
6
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2006 |
39. |
M. V. Protasov, A. Yu. Varaksin, T. F. Ivanov, A. F. Polyakov, “Analysis of the possibility of using laser Doppler anemometer for the investigation of highly dust-laden flows”, TVT, 44:2 (2006), 298–303 ; High Temperature, 44:2 (2006), 296–301 |
2
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2005 |
40. |
T. F. Ivanov, A. Yu. Varaksin, “Investigation of the behavior of reflected particles under conditions of heterogeneous flow past a blunt body: Experiment and calculation”, TVT, 43:2 (2005), 317–320 ; High Temperature, 43:2 (2005), 310–313 |
5
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2004 |
41. |
A. Yu. Varaksin, T. F. Ivanov, “Pseudolaminar boundary layer on a blunt body subjected to a heterogeneous flow”, TVT, 42:1 (2004), 77–82 ; High Temperature, 42:1 (2004), 73–78 |
3
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2003 |
42. |
A. Yu. Varaksin, “Laser Doppler anemometry of "gas–solid particles" heterogeneous flows: problems, advances, prospects”, TVT, 41:5 (2003), 746–754 ; High Temperature, 41:5 (2003), 657–664 |
2
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43. |
A. Yu. Varaksin, T. F. Ivanov, “The distribution of phase velocities of heterogeneous flow in the neighborhood of the stagnation point of a blunt body”, TVT, 41:4 (2003), 549–553 ; High Temperature, 41:4 (2003), 481–485 |
3
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44. |
A. Yu. Varaksin, T. F. Ivanov, “Investigation of the behavior of reflected particles under conditions of heterogeneous flow past blunt bodies”, TVT, 41:1 (2003), 70–76 ; High Temperature, 41:1 (2003), 62–67 |
5
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2002 |
45. |
A. Yu. Varaksin, A. F. Polyakov, D. L. Reviznikov, V. K. Strat'ev, A. F. Tret'yakov, “Investigation of Flow in the Vicinity of Porous Material on a Cylindrical Body Subjected to Flow”, TVT, 40:6 (2002), 909–915 ; High Temperature, 40:6 (2002), 843–849 |
3
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2000 |
46. |
A. Yu. Varaksin, A. F. Polyakov, “Experimental study of fluctuations of particle velocity in a turbulent flow of air in a pipe”, TVT, 38:5 (2000), 792–798 ; High Temperature, 38:5 (2000), 764–770 |
7
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47. |
A. Yu. Varaksin, A. F. Polyakov, “Some problems associated with experimental investigation of the structure of heterogeneous flows”, TVT, 38:4 (2000), 646–653 ; High Temperature, 38:4 (2000), 621–628 |
2
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48. |
A. Yu. Varaksin, A. F. Polyakov, “The distribution of the velocities of doubly dispersed particles in a downward turbulent flow of air in a pipe”, TVT, 38:2 (2000), 343–346 ; High Temperature, 38:2 (2000), 324–326 |
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1999 |
49. |
L. I. Zaichik, A. Yu. Varaksin, “Effect of the wake behind large particles on the turbulence intensity of carrier flow”, TVT, 37:4 (1999), 683–687 ; High Temperature, 37:4 (1999), 655–658 |
21
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50. |
A. Yu. Varaksin, Yu. V. Polezhaev, A. F. Polyakov, “The effect of the concentration of particles on the intensity of pulsations of their velocities under conditions of turbulent flow of suspension of matter in gas in a pipe”, TVT, 37:2 (1999), 343–346 ; High Temperature, 37:2 (1999), 321–323 |
1
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1998 |
51. |
A. Yu. Varaksin, L. I. Zaichik, “The effect of a finely divided impurity on the turbulence intensity of a carrier flow in a pipe”, TVT, 36:6 (1998), 1004–1007 ; High Temperature, 36:6 (1998), 983–986 |
20
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52. |
A. Yu. Varaksin, Yu. V. Polezhaev, A. F. Polyakov, “Experimental investigation of the effect of solid particles on turbulent flow of air in a pipe”, TVT, 36:5 (1998), 767–775 ; High Temperature, 36:5 (1998), 744–752 |
20
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53. |
A. Yu. Varaksin, Yu. V. Polezhaev, A. F. Polyakov, “Equations of pulsation motion and pulsation heat transfer of non-Stokes particles in turbulent flows”, TVT, 36:1 (1998), 154–157 ; High Temperature, 36:1 (1998), 152–155 |
1
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1995 |
54. |
A. Yu. Varaksin, D. S. Mikhatulin, Yu. V. Polezhaev, A. F. Polyakov, “Measurements of velocity fields of gas and solid particles in the boundary layer of turbulized heterogeneous flow”, TVT, 33:6 (1995), 915–921 ; High Temperature, 33:6 (1995), 911–917 |
3
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2023 |
55. |
A. Yu. Varaksin, “Тепломассообмен и физическая газодинамика на страницах журнала «Теплофизика высоких температур». К $60$-летию журнала”, TVT, 61:6 (2023), 803–806 |
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