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Pakhomov, Maksim A
Statistics Math-Net.Ru
Total publications: 31
Scientific articles: 31

Number of views:
This page:276
Abstract pages:5409
Full texts:2103
References:676
Professor
Doctor of physico-mathematical sciences (2010)
Speciality: 01.04.14 (Heating physics and theoretical heating engineering)
Birth date: 23.04.1976
E-mail:
Website: https://www.sbras.ru/ru/person/38578; http://www.nchmt.ru/sostav/87
Keywords: Numerical modeling, two-phase flows, gas-droplet mist flows, bubbly flows, two-phase jets, wall jets, flow separation, impinging jets, heat and mass transfer, turbulence.

Subject:

Simulation of flow structure and heat transfer in gas-droplet mist flows in a pipe, in a boundary layer, in jets and separated flows. Modeling of flow patterns and heat transfer in bubbly separated and impinging flows.
   
Main publications:
  1. Terekhov V.I., Pakhomov M.A., Teplomassoperenos i gidrodinamika v gazokapelnykh potokakh, Izd-vo NGTU, Novosibirsk, 2008
  2. Terekhov V.I., Pakhomov M.A., Chichindaev A.V., “Vliyanie zhidkikh kapel na raspredelenie parametrov v dvukhkomponentnom laminarnom potoke”, Prikladnaya mekhanika i tekhnicheskaya fizika, 41:6 (2000), 68–77
  3. Terekhov V.I., Pakhomov M.A., “Chislennoe issledovanie teplovoi effektivnosti dvukhfaznoi gazokapelnoi pristennoi zavesy v tsilindricheskom kanale”, Teplofizika vysokikh temperatur, 40:4 (2002), 633–640
  4. Pakhomov M.A., Terekhov V.I., “Modelirovanie turbulentnoi dvukhfaznoi strui s isparyayuschimisya kaplyami”, Izvestiya RAN. Mekhanika zhidkosti i gaza, 2009, № 3, 102–113
  5. Pakhomov M.A., Terekhov V.I., “Osobennosti rasprostraneniya dispersnoi fazy v gazokapelnom potoke za vnezapnym rasshireniem truby”, Zhurnal tekhnicheskoi fiziki, 83:2 (2013), 36–42
  6. Terekhov V.I., Pakhomov M.A., “Numerical study of heat transfer in a laminar mist flow over an isothermal flat plate”, Int. J. Heat Mass Transfer., 45 (2002), 2077–2085
  7. Terekhov V.I., Pakhomov M.A., “The numerical modeling of the tube turbulent gas-drop flow with phase changes”, Int. J. Thermal Science, 43 (2004), 595–610
  8. Kashinsky O.N., Lobanov P.D., Pakhomov M.A., Randin V.V., Terekhov V.I., “Experimental and numerical study of downward bubbly flow in a pipe”, Int. J. Heat Mass Transfer, 49 (2006), 3717–3727
  9. Terekhov V.I., Pakhomov M.A., “Film-cooling enhancement of the mist vertical wall jet on the cylindrical channel surface with heat transfer”, Trans. of ASME J. Heat Transfer, 131:6 (2009), 062201-1–062201-10
  10. Pakhomov M.A., Terekhov V.I., “Numerical study of fluid flow and heat transfer characteristics in an intermittent turbulent impinging round jet”, Int. J. Thermal Sci., 87 (2015), 85–93

https://www.mathnet.ru/eng/person94037
List of publications on Google Scholar
https://elibrary.ru/author_items.asp?authorid=36957
https://www.researchgate.net/profile/M-Pakhomov/2

Publications in Math-Net.Ru Citations
2025
1. M. A. Pakhomov, V. I. Terekhov, “Локальная структура течения при вдуве радиальной кольцевой газокапельной струи в поперечный турбулентный поток газа”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 51:15 (2025),  10–13  mathnet
2024
2. M. A. Pakhomov, “Numerical simulation of the influence of droplet evaporation on local heat transfer in a turbulent flow behind an obstacle”, Prikl. Mekh. Tekh. Fiz., 65:4 (2024),  83–96  mathnet  elib; J. Appl. Mech. Tech. Phys., 65:4 (2024), 665–676
3. M. A. Pakhomov, “Modeling of a turbulent droplet-laden flow behind an obstacle”, Prikl. Mekh. Tekh. Fiz., 65:1 (2024),  91–103  mathnet  elib; J. Appl. Mech. Tech. Phys., 65:1 (2024), 80–91 1
2023
4. M. A. Pakhomov, V. I. Terekhov, “Flow structure and heat transfer in a gas-droplet flow behind a sudden channel constriction”, Zhurnal Tekhnicheskoi Fiziki, 93:6 (2023),  761–768  mathnet  elib
5. M. A. Pakhomov, V. I. Terekhov, “Influence of pulses frequency on forced convection in nonstationary jets inpingement”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 49:19 (2023),  31–34  mathnet  elib
6. M. A. Pakhomov, V. I. Terekhov, “Effect of sudden constriction of a flat duct on forced convection in a turbulent droplet-laden mist flow”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 49:7 (2023),  16–19  mathnet  elib 1
7. V. V. Lemanov, M. A. Pakhomov, V. I. Terekhov, “Experimental and numerical simulation of heat transfer in an impact synthetic jet”, TVT, 61:2 (2023),  226–233  mathnet; High Temperature, 61:2 (2023), 206–212
2021
8. M. A. Pakhomov, V. I. Terekhov, “Influence of the pulse shape on heat transfer at the stagnation point of an unsteady axisymmetric impinging jet”, TVT, 59:3 (2021),  394–400  mathnet  elib; High Temperature, 59:2–6 (2021), 253–258  scopus 1
2020
9. M. A. Pakhomov, V. I. Terekhov, “Gas-droplet flow structure and heat transfer in an axisymmetric diffuser with a sudden expansion”, Prikl. Mekh. Tekh. Fiz., 61:5 (2020),  122–133  mathnet  elib; J. Appl. Mech. Tech. Phys., 61:5 (2020), 787–797 2
10. M. A. Pakhomov, V. I. Terekhov, “Particle concentration distribution in a gas–droplet confined swirling flow: Euler and Lagrange approaches”, TVT, 58:6 (2020),  896–900  mathnet  elib; High Temperature, 58:6 (2020), 835–838  isi  scopus 9
2019
11. M. A. Pakhomov, V. I. Terekhov, “Structure of the turbulent flow in an axisymmetric submerged gas-saturated jet”, Prikl. Mekh. Tekh. Fiz., 60:5 (2019),  28–40  mathnet  elib; J. Appl. Mech. Tech. Phys., 60:5 (2019), 805–815 2
12. M. A. Pakhomov, V. I. Terekhov, “Numerical study of heat transfer in the impinging bubbly pulsed jet”, TVT, 57:1 (2019),  101–105  mathnet  elib; High Temperature, 57:1 (2019), 89–92  isi  scopus 1
13. P. D. Lobanov, M. A. Pakhomov, “Experimental and numerical study of the hydrodynamics and heat transfer in a bubbly flow downstream of the axisymmetric sudden expansion”, Vestn. Tomsk. Gos. Univ. Mat. Mekh., 2019, no. 59,  87–93  mathnet  elib
2018
14. M. A. Pakhomov, V. I. Terekhov, “Effect of flow swirling on heat transfer in gas-droplet flow downstream of abrupt pipe expansion”, TVT, 56:3 (2018),  431–438  mathnet  elib; High Temperature, 56:3 (2018), 410–417  isi  elib  scopus 8
15. M. A. Pakhomov, V. I. Terekhov, “Modeling the effect of bubbles on a pattern and heat transfer in a turbulent polydisperse upward two-phase flow after sudden enlargement in a tube”, TVT, 56:1 (2018),  50–60  mathnet  elib; High Temperature, 56:1 (2018), 52–60  isi  scopus 8
2016
16. M. A. Pakhomov, V. I. Terekhov, “Numerical simulation of turbulent flow in a polydispersed two-phase jet with evaporating droplets”, Mat. Model., 28:11 (2016),  64–78  mathnet  elib 3
17. M. A. Pakhomov, V. I. Terekhov, “Application of the Euler approach to modeling the flow structure in an ascending monodisperse bubble flow in a tube”, Prikl. Mekh. Tekh. Fiz., 57:3 (2016),  49–59  mathnet  elib; J. Appl. Mech. Tech. Phys., 57:3 (2016), 432–440 2
18. M. A. Pakhomov, V. I. Terekhov, “The effect of drop evaporation on gas turbulence and heat transfer for two-phase flow behind sudden pipe expansion”, TVT, 54:3 (2016),  352–359  mathnet  elib; High Temperature, 54:3 (2016), 330–337  isi  scopus 7
19. M. A. Pakhomov, V. I. Terekhov, “Effect of the size of air bubbles on enhancement of heat transfer in an impinging liquid jet”, TVT, 54:1 (2016),  147–149  mathnet  elib; High Temperature, 54:1 (2016), 149–151  isi  scopus 4
2014
20. M. A. Pakhomov, V. I. Terekhov, “Flow Structure and Turbulent Heat and Mass Transfer at the Stagnation Point of an Impact Impulse Gas-Droplet Flow”, TVT, 52:4 (2014),  588–596  mathnet  elib; High Temperature, 52:4 (2014), 560–567  isi  elib  scopus 7
2013
21. M. A. Pakhomov, V. I. Terekhov, “Comparison of the Eulerian and Lagrangian approaches in studying the flow pattern and heat transfer in a separated axisymmetric turbulent gas–droplet flow”, Prikl. Mekh. Tekh. Fiz., 54:4 (2013),  96–108  mathnet  elib; J. Appl. Mech. Tech. Phys., 54:4 (2013), 596–607 7
22. M. A. Pakhomov, V. I. Terekhov, “Effect of pulse frequency on heat transfer at the stagnation point of an impinging turbulent jet”, TVT, 51:2 (2013),  287–293  mathnet  elib; High Temperature, 51:2 (2013), 256–261  isi  elib  scopus 13
2011
23. M. A. Pakhomov, V. I. Terekhov, “Enhancement of turbulent heat transfer during interaction of an impinging axisymmetric mist jet with a target”, Prikl. Mekh. Tekh. Fiz., 52:1 (2011),  119–131  mathnet  elib; J. Appl. Mech. Tech. Phys., 52:1 (2011), 96–106 5
24. M. A. Pakhomov, V. I. Terekhov, “Numerical Simulation of the Flow and Heat Transfer in a Downward Turbulent Gas-Liquid Flow in a Pipe”, TVT, 49:5 (2011),  737–744  mathnet  elib; High Temperature, 49:5 (2011), 712–718  isi  elib  scopus 17
2009
25. V. I. Terekhov, M. A. Pakhomov, “The simulation of turbulent two-phase flow after an abrupt expansion of the pipe in the presence of evaporation of droplets”, TVT, 47:3 (2009),  423–430  mathnet  elib; High Temperature, 47:3 (2009), 400–407  isi  elib  scopus 10
2008
26. V. I. Terekhov, M. A. Pakhomov, “The effect of bubbles on the structure of flow and the friction in downward turbulent gas-liquid flow”, TVT, 46:6 (2008),  924–930  mathnet  elib; High Temperature, 46:6 (2008), 854–860  isi  elib  scopus 8
2006
27. V. I. Terekhov, M. A. Pakhomov, “Numerical study of the near-wall gas-droplet jet in a tube with a heat flux on the surface”, Prikl. Mekh. Tekh. Fiz., 47:1 (2006),  5–17  mathnet  elib; J. Appl. Mech. Tech. Phys., 47:1 (2006), 1–11 5
2003
28. V. I. Terekhov, M. A. Pakhomov, “Numerical study of hydrodynamics and heat and mass transfer of a ducted gas–vapor–droplet flow”, Prikl. Mekh. Tekh. Fiz., 44:1 (2003),  108–122  mathnet  elib; J. Appl. Mech. Tech. Phys., 44:1 (2003), 90–101 2
2002
29. V. I. Terekhov, M. A. Pakhomov, “Numerical Investigation of the Thermal Efficiency of a Two-Phase Gas-Droplet Wall Screen in a Cylindrical Channel”, TVT, 40:4 (2002),  633–640  mathnet  elib; High Temperature, 40:4 (2002), 586–593  isi  scopus 5
2000
30. V. I. Terekhov, M. A. Pakhomov, A. V. Chichindaev, “Effect of evaporation of liquid droplets on the distribution of parameters in a two–species laminar flow”, Prikl. Mekh. Tekh. Fiz., 41:6 (2000),  68–77  mathnet  elib; J. Appl. Mech. Tech. Phys., 41:6 (2000), 1020–1028 13
31. Исследование локальной структуры течения и сопротивления при вдуве кольцевой газокапельной струи в поперечный поток

TVT, Forthcoming paper

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