Strelets, Mikhail Khaimovich

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Total publications: 52
Scientific articles: 52

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Publications in Math-Net.Ru
1. E. K. Guseva, M. Kh. Strelets, A. K. Travin, M. L. Shur, “Les-based computation of evolution of turbulent wakes subjected to adverse pressure gradient”, Matem. Mod., 32:6 (2020),  3–20  mathnet
2. A. V. Garbaruk, P. R. Spalart, M. Kh. Strelets, M. L. Shur, “Flow and noise prediction for tandem cylinder”, Matem. Mod., 26:6 (2014),  119–136  mathnet
3. M. L. Shur, P. R. Spalart, M. Kh. Strelets, “LES-based evaluation of a micro-jet noise reduction concept in static and flight conditions”, Matem. Mod., 23:11 (2011),  48–64  mathnet
4. D. Y. Adamian, M. Kh. Strelets, A. K. Travin, “An efficient method of synthetic turbulence generation at LES inflow in zonal RANS–LES approaches to computation of turbulent flows”, Matem. Mod., 23:7 (2011),  3–19  mathnet
5. M. L. Shur, Ph. R. Spalart, M. Kh. Strelets, “Numerical prediction of jet-noise based on “first principles””, Matem. Mod., 19:7 (2007),  5–26  mathnet  zmath
6. A. V. Garbaruk, Ph. R. Spalart, M. Kh. Strelets, A. K. Travin, M. L. Shur, “Numerical modeling of separation control by mechanical and jet vortex generators”, Matem. Mod., 18:3 (2006),  55–68  mathnet  zmath
7. D. M. Denisikhina, I. A. Bassina, D. A. Niculin, M. Kh. Strelets, “Numerical Simulation of Self-Excited Oscillation of a Turbulent Jet Flowing into a Rectangular Cavity”, TVT, 43:4 (2005),  568–579  mathnet; High Temperature, 43:4 (2005), 568–579
8. A. V. Garbaruk, M. Kh. Strelets, M. L. Shur, “Analysis of three-dimensional turbulent flow in an $S$-shaped rectangular channel”, TVT, 41:1 (2003),  57–64  mathnet; High Temperature, 41:1 (2003), 49–56
9. A. V. Garbaruk, Yu. V. Lapin, M. Kh. Strelets, “Turbulent Boundary Layer under Simultaneous Effect of the Longitudinal Pressure Gradient, Injection (Suction), and Transverse Surface Curvature”, TVT, 40:3 (2002),  436–441  mathnet; High Temperature, 40:3 (2002), 399–404  isi
10. A. V. Garbaruk, Yu. V. Lapin, M. Kh. Strelets, “An algebraic model of turbulence for flows with a maximum of tangential stress inside the boundary layer”, TVT, 39:4 (2001),  589–598  mathnet; High Temperature, 39:4 (2001), 548–557
11. A. V. Garbaruk, Yu. V. Lapin, M. Kh. Strelets, “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  mathnet; High Temperature, 37:6 (1999), 887–894  isi
12. A. V. Garbaruk, Yu. V. Lapin, M. Kh. Strelets, “Simple algebraic model of turbulence for the calculation of turbulent boundary layer with adverse pressure gradient”, TVT, 37:1 (1999),  87–91  mathnet; High Temperature, 37:1 (1999), 82–86  isi
13. K. V. Belyaev, D. A. Niculin, M. Kh. Strelets, “Reynolds averaged Navier-Stokes numerical simulation of 3D ventilation flows”, Matem. Mod., 10:12 (1998),  71–86  mathnet
14. M. A. Rotinyan, M. Kh. Strelets, I. A. Fedorov, M. L. Shur, “Numerical modelling of a supersonic cw chemical HF laser with a three-jet nozzle array”, Kvantovaya Elektronika, 25:5 (1998),  387–391  mathnet [Quantum Electron., 28:5 (1998), 375–378  isi]
15. A. V. Garbaruk, Yu. V. Lapin, M. Kh. Strelets, “The use of inverse method of solving boundary-layer equations for the testing of turbulence models”, TVT, 36:4 (1998),  607–616  mathnet; High Temperature, 36:4 (1998), 583–592  isi
16. I. A. Bassina, S. A. Lomakin, D. A. Niculin, M. Kh. Strelets, M. L. Shur, “Assessment of applicability of modern models of turbulence for calculation of natural-convection flows and heat transfer”, TVT, 36:2 (1998),  246–254  mathnet; High Temperature, 36:2 (1998), 230–238  isi
17. D. A. Niculin, M. Kh. Strelets, A. Dvinsky, “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  mathnet; High Temperature, 35:5 (1997), 728–737  isi
18. M. Kh. Strelets, A. K. Travin, M. L. Shur, “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  mathnet; High Temperature, 35:2 (1997), 298–310  isi
19. L. A. Zaikov, M. Kh. Strelets, M. L. Shur, “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  mathnet; High Temperature, 34:6 (1996), 882–888  isi
20. L. A. Zaikov, M. Kh. Strelets, M. L. Shur, “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  mathnet; High Temperature, 34:5 (1996), 713–725  isi
21. Yu. V. Lapin, O. A. Nehamkina, M. Kh. Strelets, “A multiparameter algebraic model of steady turbulent flow in a round pipe with sand roughness”, TVT, 33:5 (1995),  731–737  mathnet; High Temperature, 33:5 (1995), 725–731  isi
22. Yu. V. Lapin, O. A. Nehamkina, M. Kh. Strelets, “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  mathnet; High Temperature, 33:1 (1995), 45–49  isi
23. L. A. Zaikov, M. Kh. Strelets, M. L. Shur, “The calculation of steady turbulent flows of chemically reacting gGas mixtures in channels at arbitrary Mach numbers”, TVT, 32:6 (1994),  850–862  mathnet; High Temperature, 32:6 (1994), 793–805  isi
24. M. A. Zatevakhin, A. E. Kuznetsov, D. A. Niculin, M. Kh. Strelets, “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  mathnet; High Temperature, 32:1 (1994), 42–55  isi
25. A. E. Kuznetsov, M. Kh. Strelets, M. L. Shur, “Calculation of steady-state three-dimensional flows of viscous gas in channels and nozzles”, TVT, 31:3 (1993),  395–405  mathnet; High Temperature, 31:3 (1993), 355–364
26. O. A. Nehamkina, M. Kh. Strelets, “Numerical simulation of detonation waves using an effective TVD-scheme”, Zh. Vychisl. Mat. Mat. Fiz., 32:9 (1992),  1447–1463  mathnet  mathscinet  zmath; Comput. Math. Math. Phys., 32:9 (1992), 1295–1309  isi
27. O. A. Nehamkina, M. Kh. Strelets, “Modeling of the local impulse energy input in closed gas volume”, Matem. Mod., 3:2 (1991),  3–19  mathnet
28. A. E. Kuznetsov, M. Kh. Strelets, M. L. Shur, “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  mathnet; High Temperature, 29:5 (1991), 771–776  isi  scopus
29. A. E. Kuznetsov, M. Kh. Strelets, M. L. Shur, “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  mathnet  mathscinet; U.S.S.R. Comput. Math. Math. Phys., 31:2 (1991), 89–101  isi
30. Yu. E. Egorov, M. Kh. Strelets, M. L. Shur, “Application of compressibility scaling method for calculation of steady viscous gas and gas mixture flows in Laval nozzles”, Matem. Mod., 2:10 (1990),  3–12  mathnet  zmath
31. Yu. E. Egorov, A. E. Kuznetsov, M. Kh. Strelets, M. L. Shur, “Subsonic compressible flows of chemically reacting gas mixtures in cylindrical and rectangular channels with sudden expansion”, TVT, 28:6 (1990),  1149–1155  mathnet; High Temperature, 28:6 (1990), 876–882  isi
32. O. A. Nehamkina, D. A. Niculin, M. Kh. Strelets, “Hierarchy of models of natural thermal-convection of an ideal-gas”, TVT, 27:6 (1989),  1115–1125  mathnet; High Temperature, 27:6 (1989), 883–892  isi
33. M. Kh. Strelets, M. L. Shur, “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  mathnet; High Temperature, 27:2 (1989), 229–235  isi
34. A. E. Kuznetsov, O. A. Nehamkina, M. Kh. Strelets, “Subsonic flows of homogeneous viscous-gas in channels with permeable walls”, TVT, 26:6 (1988),  1135–1141  mathnet; High Temperature, 26:6 (1988), 880–886  isi
35. A. E. Kuznetsov, D. A. Niculin, M. Kh. Strelets, “Mixed convection of homogeneous gas in vertical tube with non-isothermal walls”, TVT, 26:2 (1988),  282–289  mathnet; High Temperature, 26:2 (1988), 207–214  isi
36. M. Kh. Strelets, M. L. Shur, “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  mathnet  mathscinet  zmath; U.S.S.R. Comput. Math. Math. Phys., 28:1 (1988), 165–173
37. Yu. E. Karyakin, M. Kh. Strelets, “Nonsteady natural-convection of compressible gas in a vessel of triangular cross-section”, TVT, 25:6 (1987),  1135–1143  mathnet; High Temperature, 25:6 (1987), 831–839  isi
38. I. I. Borisov, O. A. Nehamkina, V. A. Reisig, M. Kh. Strelets, “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  mathnet; High Temperature, 25:4 (1987), 533–540  isi
39. A. E. Kuznetsov, O. A. Nehamkina, M. Kh. Strelets, “Numerical-simulation of subsonic flows in channels with sudden expansion on the basis of the narrow channel approximation”, TVT, 25:2 (1987),  296–303  mathnet; High Temperature, 25:2 (1987), 214–221  isi
40. I. I. Borisov, V. Naumov, O. A. Nehamkina, V. A. Reisig, M. Kh. Strelets, “Heat and mass-transfer in the chemically nonequilibrium-flow of dissociated air in intensively cooled slit channels”, TVT, 23:4 (1985),  733–741  mathnet; High Temperature, 23:4 (1985), 586–594  isi
41. Yu. V. Lapin, M. Kh. Strelets, “Modification of Clauser hypothesis for equilibrium and nonequilibrium boundary-layers”, TVT, 23:3 (1985),  522–529  mathnet; High Temperature, 23:3 (1985), 422–429  isi
42. A. E. Kuznetsov, O. A. Nehamkina, M. Kh. Strelets, “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  mathnet; High Temperature, 22:6 (1984), 862–870  isi
43. D. A. Niculin, M. Kh. Strelets, “Numerical modeling of nonsteady natural-convection of homogeneous compressible gas in a closed nonadiabatic region”, TVT, 22:5 (1984),  906–912  mathnet; High Temperature, 22:5 (1984), 707–713  isi
44. Yu. V. Lapin, M. Kh. Strelets, L. M. Shur, “Numerical study of the interaction of supersonic viscous-gas jets in the presence of non-equilibrium physicochemical processes”, TVT, 21:1 (1983),  114–121  mathnet; High Temperature, 21:1 (1983), 102–109  isi
45. O. A. Nehamkina, M. Kh. Strelets, “Turbulent-flow of ammonia in heated circular tubes in the presence of catalytic dissociation at the walls”, TVT, 20:1 (1982),  75–80  mathnet; High Temperature, 20:1 (1982), 69–74  isi
46. D. A. Niculin, M. Kh. Strelets, “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  mathnet  zmath
47. I. A. Bassina, V. L. Dorot, M. Kh. Strelets, “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  mathnet; High Temperature, 19:6 (1981), 866–869  isi
48. O. N. L`vov, O. A. Nehamkina, M. Kh. Strelets, “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  mathnet
49. O. A. Nehamkina, M. Kh. Strelets, V. K. Shikov, “О расчете теплообмена при турбулентном течении в обогреваемых трубах диссоциирующего азотного тетраксида”, TVT, 18:1 (1980),  216–217  mathnet
50. O. A. Nehamkina, M. Kh. Strelets, “К вопросу о расчете теплообмена при турбулентном течении по трубам четырехокиси азота”, TVT, 17:2 (1979),  361–365  mathnet
51. A. A. Ivanov, O. A. Nehamkina, M. Kh. Strelets, “Об эффекте диффузионного разделения элементов при неизотермическом течении многокомпонентных химически равновесных газовых смесей в круглых трубах”, TVT, 16:2 (1978),  322–331  mathnet
52. V. L. Dorot, M. Kh. Strelets, “Пористое охлаждение в сверхзвуковом турбулентном пограничном слое”, TVT, 11:3 (1973),  551–560  mathnet

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