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Smirnov Nikolai Nikolaevich

Publications in Math-Net.Ru

  1. Information support of data processing operations of Internet of things devices in automated information eco-monitoring system

    News of the Kabardino-Balkarian Scientific Center of the Russian Academy of Sciences, 26:3 (2024),  92–102
  2. Inhibition of developed detonation of a hydrogen-air mixture by a small additive of a hydrocarbon inhibitor

    Fizika Goreniya i Vzryva, 58:5 (2022),  64–71
  3. Simulation of fracking fracture cleaning as oil is displaced from the fracking fracture region

    Russian Journal of Cybernetics, 3:3 (2022),  14–21
  4. Multiple imbibition of a porous medium in microgravity: experiments and simulation

    Russian Journal of Cybernetics, 3:2 (2022),  24–30
  5. Simulation models for solving multiscale combustion problems

    Russian Journal of Cybernetics, 2:4 (2021),  30–41
  6. Neural networks applications to combustion process simulation

    Russian Journal of Cybernetics, 2:4 (2021),  15–29
  7. Simulation of polydisperse gas-droplet mixture flows with chemical transformations

    Russian Journal of Cybernetics, 2:2 (2021),  29–41
  8. Using GPU for solving problems of combustion and physical-chemical transformations

    Matem. Mod., 29:4 (2017),  3–20
  9. Modeling of high frequency electromagnetic radiation effects on conducting screens

    Matem. Mod., 28:5 (2016),  109–123
  10. Mathematical modeling of traffic flows using continua approach. Visco–elastic effect in traffic flows

    Matem. Mod., 26:7 (2014),  54–64
  11. Combustion of a liquid fuel droplet in the process of non-equilibrium surface evaporation

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2014, no. 4,  38–42
  12. Solving the problem of diffusion combustion of a droplet with allowance for several independent reactions

    Fizika Goreniya i Vzryva, 49:6 (2013),  31–40
  13. Evolution of detonation propagation through an annular gap into a combustion chamber

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2009, no. 3,  67–72
  14. Transitional regimes of wave propagation in metastable systems

    Fizika Goreniya i Vzryva, 44:5 (2008),  25–37
  15. Influence of diffusion and kinetic characteristics on the combustion of a carbon particle

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2008, no. 1,  49–58
  16. Mathematical model of moving collectives interaction: Public transport and passengers

    Avtomat. i Telemekh., 2007, no. 7,  116–131
  17. Analysis of power-law self-similar solutions to the problem of hydraulic fracture crack formation

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2007, no. 1,  48–54
  18. Mathematical modelling of motion of two-lane traffic flow by light signal

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2006, no. 4,  35–40
  19. Unstable displacement of a liquid from a porous medium with variable permeability

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2006, no. 2,  33–40
  20. Modelling of a process of unstable exclusion of a liquid from a porous medium

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2005, no. 6,  30–38
  21. Effect of channel geometry and mixture temperature on detonation-to-deflagration transition in gases

    Fizika Goreniya i Vzryva, 40:2 (2004),  68–83
  22. Formation of a hydroseparation crack in a porous medium

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2003, no. 6,  28–36
  23. Percolation mechanism of gravitational differentiation as a model of seismic activity

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2003, no. 2,  31–39
  24. High-speed collisions of space debris particles with gas-filled shells

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2003, no. 1,  54–66
  25. Mathematical modeling of space debris evolution in near-earth orbits

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2002, no. 4,  33–41
  26. A self-similar solution to the problem of vapor bubble growth in a superheated liquid

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2002, no. 2,  41–50
  27. On the normal rate of propagation of a laminar flame in a monodispersive gas-drop mixture

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2001, no. 6,  29–39
  28. Stability of steady regimes of a two-phase gas-droplet chemical reactor of ideal mixing

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2001, no. 2,  47–52
  29. Mathematical modeling of automobile traffic on highways

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2000, no. 4,  39–44
  30. Generation of an electromagnetic field in the nonsymmetric rails and protective armature of a railgun under an increasing current pulse

    Prikl. Mekh. Tekh. Fiz., 38:1 (1997),  11–20
  31. Steady and unsteady co oxidation on platinum with allowance for external diffusion retardation

    Fizika Goreniya i Vzryva, 32:6 (1996),  52–61
  32. Calculating magnetic field diffusion into a system of conductors

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1995, no. 1,  67–78
  33. Heterogeneous diffusive combustion of condensed propellant in weightlessness

    Fizika Goreniya i Vzryva, 30:5 (1994),  33–40
  34. Transition from combustion to detonation in a gaseous hydrocarbon-air mixture

    Fizika Goreniya i Vzryva, 30:1 (1994),  78–86
  35. Dynamics of catalytic oxidation of CO on Pt with account for exodiffusional retardation

    Fizika Goreniya i Vzryva, 29:6 (1993),  58–63
  36. Numerical modeling of the transition from deflagration to detonation in a homogeneous combustible gas mixture

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1993, no. 3,  30–41
  37. Combustion and detonation development regimes in gas mixtures

    Fizika Goreniya i Vzryva, 28:5 (1992),  72–80
  38. Magnetic field diffusion into conductive semi space when the current intensity increases linearly

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1992, no. 2,  96–100
  39. Existence of stationary self-maintained combustion of porous and channel propellants

    Fizika Goreniya i Vzryva, 27:4 (1991),  18–24
  40. Nonsteady heterogeneous fuel combustion

    Fizika Goreniya i Vzryva, 27:2 (1991),  34–40
  41. Propagation of weak disturbances in the combustion of compressible porous fuels

    Fizika Goreniya i Vzryva, 27:2 (1991),  26–34
  42. Combustion of porous dispersing fuels

    Fizika Goreniya i Vzryva, 27:1 (1991),  56–63
  43. Investigation of convective combustion in a combustible solid propellant with longitudinal channels

    Fizika Goreniya i Vzryva, 26:4 (1990),  14–22
  44. Nonsteady-state evaporation of liquid oxygen into the atmosphere

    Fizika Goreniya i Vzryva, 25:3 (1989),  73–78
  45. Three-dimensional supersonic real gas flow about axisymmetric bodies

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1989, no. 4,  41–49
  46. Combustion and detonation in multiphase media containing a liquid fuel

    Fizika Goreniya i Vzryva, 24:3 (1988),  84–94
  47. Propagation of convective combustion in two-phase systems with longitudinal porosity and transition into the underdriven detonation regime

    Fizika Goreniya i Vzryva, 23:3 (1987),  58–68
  48. Expansion of the burned gas behind the detonation wave in a tube-formed explosive

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1987, no. 5,  64–72
  49. Convective combustion and weak detonation in solid fuels

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1987, no. 3,  16–21
  50. The expansion of reaction products and formation of secondary waves inside the tube during detonation in gas-film systems

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1987, no. 1,  34–39
  51. Transition of convective combustion of solid fuels into weak detonation

    Fizika Goreniya i Vzryva, 22:5 (1986),  140–144
  52. Convective combustion regime in a deformable solid fuel with longitudinal channels

    Fizika Goreniya i Vzryva, 22:3 (1986),  59–67
  53. Transition of combustion to detonation in gasoline-air mixtures

    Fizika Goreniya i Vzryva, 22:2 (1986),  65–67
  54. Nonsteady combustion of fuel surface in diffusional conditions

    Fizika Goreniya i Vzryva, 22:1 (1986),  33–39
  55. Mach reflection in detonable gas with the shock Mach stem

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1986, no. 4,  42–48
  56. Chemical reactions and heat and mass transfer in a multicomponent gas flow over a liquid fuel layer

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1986, no. 2,  46–55
  57. Effect of diffusion on stationary states for a spherical catalyst with a three-stage adsorption reaction mechanism

    Fizika Goreniya i Vzryva, 21:6 (1985),  73–77
  58. Convective burning in channels and cracks in solid propellants

    Fizika Goreniya i Vzryva, 21:5 (1985),  29–36
  59. Kinetic and diffusion regimes for catalytic reactions in a plate

    Fizika Goreniya i Vzryva, 21:4 (1985),  74–79
  60. Unsteady formation of the cumulative jet in a dense medium

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1985, no. 6,  53–62
  61. Combustion of a liquid fuel surface in a gaseous oxidizer flow

    Fizika Goreniya i Vzryva, 20:6 (1984),  33–38
  62. Diffusion combustion of a liquid fuel in a flow with distributed parameters

    Fizika Goreniya i Vzryva, 20:3 (1984),  26–35
  63. Large-scale circulatory motions of liquid in a bubble-bed apparaus

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1984, no. 2,  71–74
  64. Mass exchange and combustion in a laminar boundary layer behind a shock wave when a detonation is propagated in unmixed two-phase systems

    Fizika Goreniya i Vzryva, 19:1 (1983),  80–88
  65. Surface diffusion combustion of heterogeneous systems with liquid fuel

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1983, no. 5,  60–69
  66. Nonsteady processes in cryogenic pipelines

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1983, no. 3,  96–102
  67. Combustion of a layer of fuel with oxidant blown over the surface

    Fizika Goreniya i Vzryva, 18:5 (1982),  63–70
  68. Two-phase detonation above a fuel layer

    Fizika Goreniya i Vzryva, 18:1 (1982),  143–145
  69. Diffusion flame in the stream of oxidizer over liquid fuel film

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 1982, no. 3,  69–74
  70. Heat and mass transfer above a fuel layer behind a shock wave

    Fizika Goreniya i Vzryva, 17:6 (1981),  111–116

  71. Artur Yakovlevich Sagomonyan centenary (1914–2001)

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2014, no. 6,  69–70
  72. Ê ñåìèäåñÿòèëåòèþ Áîðèñà Eôèìîâè÷à Ïîáåäðè

    Vestnik Moskov. Univ. Ser. 1. Mat. Mekh., 2007, no. 5,  3–5

© Steklov Math. Inst. of RAS, 2024