Strelets Mikhail Khaimovich

Publications in Math-Net.Ru

1. Numerical simulation of evolution of a curved turbulent wake subjected to adverse pressure gradient
   
   Mat. Model., 35:10 (2023),  3–18
2. Computation of evolution of Tollmein-Schlichten waves based on the global stability analysis
   
   Mat. Model., 35:9 (2023),  45–60
3. Two-stage RANS-DDES model and results of computations of unsteady loads on reentry capsule and engine compartment of manned spacecraft in the course of their emergency separation
   
   Mat. Model., 33:7 (2021),  121–138
4. Simulation of impact of the wakes of emergency rescue unit’s nozzles on the surface of a manned spacecraft
   
   Mat. Model., 33:7 (2021),  18–34
5. Les-based computation of evolution of turbulent wakes subjected to adverse pressure gradient
   
   Mat. Model., 32:6 (2020),  3–20
6. Flow and noise prediction for tandem cylinder
   
   Mat. Model., 26:6 (2014),  119–136
7. LES-based evaluation of a micro-jet noise reduction concept in static and flight conditions
   
   Mat. Model., 23:11 (2011),  48–64
8. An efficient method of synthetic turbulence generation at LES inflow in zonal RANS–LES approaches to computation of turbulent flows
   
   Mat. Model., 23:7 (2011),  3–19
9. Numerical prediction of jet-noise based on “first principles”
   
   Mat. Model., 19:7 (2007),  5–26
10. Numerical modeling of separation control by mechanical and jet vortex generators
    
    Mat. Model., 18:3 (2006),  55–68
11. Numerical Simulation of Self-Excited Oscillation of a Turbulent Jet Flowing into a Rectangular Cavity
    
    TVT, 43:4 (2005),  568–579
12. Analysis of three-dimensional turbulent flow in an $S$-shaped rectangular channel
    
    TVT, 41:1 (2003),  57–64
13. Turbulent Boundary Layer under Simultaneous Effect of the Longitudinal Pressure Gradient, Injection (Suction), and Transverse Surface Curvature
    
    TVT, 40:3 (2002),  436–441
14. An algebraic model of turbulence for flows with a maximum of tangential stress inside the boundary layer
    
    TVT, 39:4 (2001),  589–598
15. Assessment of the capabilities of explicit algebraic Reynolds stress models as applied to the calculation of wall turbulent boundary layers
    
    TVT, 37:6 (1999),  920–927
16. Simple algebraic model of turbulence for the calculation of turbulent boundary layer with adverse pressure gradient
    
    TVT, 37:1 (1999),  87–91
17. Reynolds averaged Navier-Stokes numerical simulation of 3D ventilation flows
    
    Mat. Model., 10:12 (1998),  71–86
18. Numerical modelling of a supersonic cw chemical HF laser with a three-jet nozzle array
    
    Kvantovaya Elektronika, 25:5 (1998),  387–391
19. The use of inverse method of solving boundary-layer equations for the testing of turbulence models
    
    TVT, 36:4 (1998),  607–616
20. Assessment of applicability of modern models of turbulence for calculation of natural-convection flows and heat transfer
    
    TVT, 36:2 (1998),  246–254
21. Numerical investigation of the impact of three-dimensional and edge effects on free-convection heat transfer in a system of vertical ribs
    
    TVT, 35:5 (1997),  740–749
22. A comparison between one- and two-equation differential models of turbulence in application to separated and attached flows: Transonic flows around airfoil
    
    TVT, 35:2 (1997),  301–313
23. A comparison of the capabilities of one- and two-equation differential models of turbulence in application to separated and attached flows in a channel with forward-facing step
    
    TVT, 34:6 (1996),  896–902
24. A comparison between one- and two-equation differential turbulence models in application to separated and attached flows: Flow in channel with counterstep
    
    TVT, 34:5 (1996),  724–736
25. A multiparameter algebraic model of steady turbulent flow in a round pipe with sand roughness
    
    TVT, 33:5 (1995),  731–737
26. A two-layer three-parameter algebraic model of a transient and a steady turbulent flow in a round pipe with smooth walls
    
    TVT, 33:1 (1995),  49–53
27. The calculation of steady turbulent flows of chemically reacting gGas mixtures in channels at arbitrary Mach numbers
    
    TVT, 32:6 (1994),  850–862
28. Numerical simulation of the process of levitation of a system of high-temperature turbulent thermals in an inhomogeneous compressible atmosphere
    
    TVT, 32:1 (1994),  44–56
29. Calculation of steady-state three-dimensional flows of viscous gas in channels and nozzles
    
    TVT, 31:3 (1993),  395–405
30. Numerical simulation of detonation waves using an effective TVD-scheme
    
    Zh. Vychisl. Mat. Mat. Fiz., 32:9 (1992),  1447–1463
31. Modeling of the local impulse energy input in closed gas volume
    
    Mat. Model., 3:2 (1991),  3–19
32. Influence of three-dimensional effects on fluid dynamics and heat transfer in the subsonic flow of a viscous compressible gas on the initial section of a rectangular channel
    
    TVT, 29:5 (1991),  967–972
33. Calculation of steady-state three-dimensional flows of viscous gases and chemically reacting gas mixtures
    
    Zh. Vychisl. Mat. Mat. Fiz., 31:2 (1991),  300–316
34. Application of compressibility scaling method for calculation of steady viscous gas and gas mixture flows in Laval nozzles
    
    Mat. Model., 2:10 (1990),  3–12
35. Subsonic compressible flows of chemically reacting gas mixtures in cylindrical and rectangular channels with sudden expansion
    
    TVT, 28:6 (1990),  1149–1155
36. Hierarchy of models of natural thermal-convection of an ideal-gas
    
    TVT, 27:6 (1989),  1115–1125
37. Influence of compressibility of the hydrodynamics and heat-transfer in subsonic viscous-gas flows in channels in the presence of recirculation zones
    
    TVT, 27:2 (1989),  292–299
38. Subsonic flows of homogeneous viscous-gas in channels with permeable walls
    
    TVT, 26:6 (1988),  1135–1141
39. Mixed convection of homogeneous gas in vertical tube with non-isothermal walls
    
    TVT, 26:2 (1988),  282–289
40. Methods of scaling the compressibility in calculating stationary flows of a viscous gas at arbitrary Mach numbers
    
    Zh. Vychisl. Mat. Mat. Fiz., 28:2 (1988),  254–266
41. Nonsteady natural-convection of compressible gas in a vessel of triangular cross-section
    
    TVT, 25:6 (1987),  1135–1143
42. Local heat and mass exchange and radiation of thermally dissociated air in laminar-flow in a cooled slotted channel
    
    TVT, 25:4 (1987),  708–715
43. Numerical-simulation of subsonic flows in channels with sudden expansion on the basis of the narrow channel approximation
    
    TVT, 25:2 (1987),  296–303
44. Heat and mass-transfer in the chemically nonequilibrium-flow of dissociated air in intensively cooled slit channels
    
    TVT, 23:4 (1985),  733–741
45. Modification of Clauser hypothesis for equilibrium and nonequilibrium boundary-layers
    
    TVT, 23:3 (1985),  522–529
46. Calculation of nonstationary mixed convection of binary gas mixtures in the presence of large density variations
    
    Prikl. Mekh. Tekh. Fiz., 25:1 (1984),  55–62
47. Calculation of steady subsonic flows of chemically nonequilibrium gaseous-mixtures in channels of variable cross-section with arbitrary finite changes in density
    
    TVT, 22:6 (1984),  1125–1133
48. Numerical modeling of nonsteady natural-convection of homogeneous compressible gas in a closed nonadiabatic region
    
    TVT, 22:5 (1984),  906–912
49. Numerical study of the interaction of supersonic viscous-gas jets in the presence of non-equilibrium physicochemical processes
    
    TVT, 21:1 (1983),  114–121
50. Numerical modeling of processes in a continuous chemical HF laser resonator on the basis of the Navier–Stokes equations
    
    Fizika Goreniya i Vzryva, 18:5 (1982),  89–96
51. Turbulent-flow of ammonia in heated circular tubes in the presence of catalytic dissociation at the walls
    
    TVT, 20:1 (1982),  75–80
52. On the possibility of self-oscillatory solutions of nonstationary problems of mixed convection in gas mixtures
    
    Dokl. Akad. Nauk SSSR, 260:3 (1981),  554–556
53. Calculation of fluid friction and heat transfer in the flow of a multicomponent chemically nonequilibrium gas mixture in a supersonic nozzle with porous walls and injection
    
    TVT, 19:6 (1981),  1203–1207
54. Heat and Mass Exchange for Laminar Flow of Ammonia in Round Heated Pipes with Developed Catalytic Dissociation on the Walls
    
    TVT, 18:2 (1980),  327–333
55. О расчете теплообмена при турбулентном течении в обогреваемых трубах диссоциирующего азотного тетраксида
    
    TVT, 18:1 (1980),  216–217
56. К вопросу о расчете теплообмена при турбулентном течении по трубам четырехокиси азота
    
    TVT, 17:2 (1979),  361–365
57. Об эффекте диффузионного разделения элементов при неизотермическом течении многокомпонентных химически равновесных газовых смесей в круглых трубах
    
    TVT, 16:2 (1978),  322–331
58. Пористое охлаждение в сверхзвуковом турбулентном пограничном слое
    
    TVT, 11:3 (1973),  551–560